Symbol Biological_process DNA_Features Full_name Wild-type_function 064Ya _ _ _ _ 1.28 _ _ _ _ 37533 _ _ _ _ 107.1 _ _ _ _ 128up _ _ upstream of RpIII128 _ 14-3-3epsilon DNA damage checkpoint; GO:0000077 | inferred from mutant phenotype; DNA damage checkpoint; GO:0000077 | inferred from mutant phenotype; regulation of mitosis; GO:0007088 | inferred from mutant phenotype; response to external stimulus; GO:0009605 | inferred from mutant phenotype _ _ "14-3-3epsilon is required to time mitosis in undisturbed post-blastoderm, cell cycles and to delay mitosis following irradiation in embryos." 14-3-3zeta RAS protein signal transduction; GO:0007265 | inferred from sequence similarity with SGD:BMH2; SGDID:S0002506; tryptophan hydroxylase activation; GO:0006588 | inferred from sequence similarity with MGD:Ywhaz; MGI:MGI:109484 _ _ _ 140up _ _ upstream of RpII140 _ 18w cell adhesion; GO:0007155 | inferred from direct assay _ 18 wheeler 18w is a critical component of the humoral immune response. 19w _ _ _ _ 2.1 _ _ _ Isolated as an interactor with the Pcl protein. 2033 _ _ _ _ 22w _ _ _ _ 26-29kD-proteinase _ _ _ _ 2Ab17 _ _ _ _ 2R-F _ _ _ _ 2R-L _ _ _ _ 3-oxoacid-CoA-transferase _ _ 3-oxoacid CoA-transferase _ 312 _ _ _ _ 31B8 _ _ _ _ 33-13 _ _ _ _ 34-20 _ _ _ _ 36w _ _ _ _ 3Cy(2)2 _ _ _ _ 3L-B _ _ _ _ 3R-C _ _ _ _ 3R-I256 _ _ _ _ 4.1 _ _ 4.1 _ 406 _ _ _ 406 is required for continued renewal of the male germ line. 5'-nucleotidase-precursor _ _ 5' nucleotidase precursor _ 24959 _ _ _ _ 5-HT1A "serotonin receptor signaling pathway; GO:0007210 | inferred from sequence similarity with MGD:Htr1a; MGI:MGI:96273; serotonin receptor, adenylate cyclase inhibiting pathway; GO:0007198 | inferred from direct assay; serotonin receptor, phospholipase C activating pathway; GO:0007208 | inferred from direct assay" _ Serotonin receptor 1A "One of several known Drosophila serotonin receptor encoding genes., Presumed to be a recent duplication of 5-HT1B gene." 5-HT1B "serotonin receptor signaling pathway; GO:0007210 | inferred from sequence similarity with MGD:Htr1a; MGI:MGI:96273; serotonin receptor, adenylate cyclase inhibiting pathway; GO:0007198 | inferred from direct assay; serotonin receptor, phospholipase C activating pathway; GO:0007208 | inferred from direct assay" _ Serotonin receptor 1B "One of several known Drosophila serotonin receptor encoding genes., Presumed to be a recent duplication of 5-HT1A gene." 5-HT2 serotonin receptor signaling pathway; GO:0007210 | inferred from sequence similarity; serotonin receptor signaling pathway; GO:0007210 | non-traceable author statement _ Serotonin receptor 2 _ 5-HT7 "serotonin receptor signaling pathway; GO:0007210 | inferred from sequence similarity with MGD:Htr1a; MGI:MGI:96273; serotonin receptor, adenylate cyclase activating pathway; GO:0007192 | inferred from sequence similarity with MGD:Htr1a; MGI:MGI:96273" _ Serotonin receptor 7 "5-HT7 receptor stimulates adenylate cyclase. Expression starts in, late embryos and is restricted to distinct cell populations in the, CNS." 61bis _ _ _ _ 65F _ _ _ _ 66Dem _ _ 66Dem An incompletely characterized homeodomain sequence. 674 _ _ _ _ 682 _ _ _ _ 7-11HD _ _ _ _ 752 TGFbeta receptor signaling pathway; GO:0007179 | inferred from mutant phenotype _ _ Involved in dpp signaling in the developing wing. 7B2 peptide hormone processing; GO:0016486 | inferred from sequence similarity with EMBL:U72709 _ _ _ 8H11 _ _ _ "8H11 has an important role in the process by which axons navigate, across the ventral midline." 9.35 germ-cell migration; GO:0008354 | inferred from genetic interaction with FLYBASE:Hmgcr; FB:FBgn0001205 _ _ _ 91R _ _ _ _ 936 _ _ _ _ 94Che _ _ 94Che An incompletely characterized homeodomain sequence. A _ _ Abnormal abdomen "Defined by incompletely characterized mutations that show an 'abnormal, abdomen' phenotype. Expressivity and penetrance very sensitive to, environmental conditions. Stocks accumulate modifiers, resulting in, apparent reversion (FBrf0006100)." a eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ arc "a may affect eye development by modulating adherens junctions of, the developing ommatidia." a(1)48 _ _ abnormal abdomen (1) 48 Defined by incompletely characterized mutations that show an 'abnormal abdomen' phenotype. a(1)HM26 _ _ abnormal abdomen HM26 Defined by incompletely characterized mutations that show an 'abnormal abdomen' phenotype. a(2)48 _ _ abnormal abdomen (2) 48 Defined by incompletely characterized mutations that show an 'abnormal abdomen' phenotype. a(3)48 _ _ abnormal abdomen (3) 48 Defined by incompletely characterized mutations that show an 'abnormal abdomen' phenotype. a10 chemosensory perception; GO:0007606 | inferred from sequence similarity with EMBL:AF070961 _ antennal protein 10 _ A122 _ _ _ _ A16 _ _ _ _ A3 _ _ _ "The expression pattern, cellular localization and loss of function, phenotype of A3 strongly suggests A3 plays an important role in the, asymmetric localization of pros during mitosis." A3-3 _ _ _ _ A35 _ _ _ _ A359 _ _ _ _ A45 _ _ _ _ a5 _ _ antennal protein 5 _ a6 _ _ _ _ A69 _ _ _ _ Aa _ _ Altered abdomen _ aa _ _ anarista _ Aac11 anti-apoptosis; GO:0006916 | inferred from sequence similarity; anti-apoptosis; GO:0006916 | inferred from sequence similarity with SPTREMBL:O15441 _ _ _ aagp _ _ armadillo-associated glycoprotein The aagp protein forms part of a membrane-associated complex that includes the arm and alpha-Cat proteins. Aats-ala alanyl-tRNA aminoacylation; GO:0006419 | inferred from sequence similarity with SGD:ALA1; SGDID:S0005862 _ Alanyl-tRNA synthetase _ Aats-ala-m alanyl-tRNA aminoacylation; GO:0006419 | inferred from sequence similarity with SGD:ALA1; SGDID:S0005862 _ mitochondrial alanyl-tRNA synthetase _ Aats-arg arginyl-tRNA aminoacylation; GO:0006420 | non-traceable author statement _ Arginyl-tRNA synthetase _ Aats-asn asparaginyl-tRNA aminoacylation; GO:0006421 | non-traceable author statement _ Asparaginyl-tRNA synthetase _ Aats-asp aspartyl-tRNA aminoacylation; GO:0006422 | inferred from sequence similarity with SGD:DPS1; SGDID:S0003941 _ Aspartyl-tRNA synthetase _ Aats-cys cysteinyl-tRNA aminoacylation; GO:0006423 | non-traceable author statement _ Cysteinyl-tRNA synthetase _ Aats-gln glutaminyl-tRNA aminoacylation; GO:0006425 | inferred from sequence similarity with SGD:GLN4; SGDID:S0005694 _ Glutaminyl-tRNA synthetase _ Aats-glupro glutamyl-tRNA aminoacylation; GO:0006424 | inferred from sequence similarity with EMBL:X54326; protein_id:CAA38224.1; prolyl-tRNA aminoacylation; GO:0006433 | inferred from sequence similarity with EMBL:X54326; protein_id:CAA38224.1 _ Glutamyl-prolyl-tRNA synthetase _ Aats-gly glycyl-tRNA aminoacylation; GO:0006426 | non-traceable author statement _ Glycyl-tRNA synthetase _ Aats-his histidyl-tRNA aminoacylation; GO:0006427 | non-traceable author statement _ Histidyl-tRNA synthetase _ Aats-ile isoleucyl-tRNA aminoacylation; GO:0006428 | inferred from sequence similarity with SGD:ILS1; SGDID:S0000172 _ Isoleucyl-tRNA synthetase _ Aats-leu leucyl-tRNA aminoacylation; GO:0006429 | non-traceable author statement _ Leucyl-tRNA synthetase _ Aats-lys lysyl-tRNA aminoacylation; GO:0006430 | non-traceable author statement _ Lysyl-tRNA synthetase _ Aats-met methionyl-tRNA aminoacylation; GO:0006431 | non-traceable author statement _ Methionyl-tRNA synthetase _ Aats-phe phenylalanyl-tRNA aminoacylation; GO:0006432 | inferred from sequence similarity with EMBL:J02691 _ Phenylalanyl-tRNA synthetase _ Aats-phe-m phenylalanyl-tRNA aminoacylation; GO:0006432 | non-traceable author statement _ mitochondrial phenylalanyl-tRNA synthetase _ Aats-pro prolyl-tRNA aminoacylation; GO:0006433 | non-traceable author statement _ Prolyl-tRNA synthetase _ Aats-ser seryl-tRNA aminoacylation; GO:0006434 | inferred from sequence similarity with SWISS-PROT:P38705 _ Seryl-tRNA synthetase _ Aats-thr threonyl-tRNA aminoacylation; GO:0006435 | inferred from sequence similarity with SGD:THS1; SGDID:S0001340 _ Threonyl-tRNA synthetase _ Aats-trp tryptophanyl-tRNA aminoacylation; GO:0006436 | inferred from sequence similarity with SGD:WRS1; SGDID:S0005457 _ Tryptophanyl-tRNA synthetase _ Aats-tyr tyrosyl-tRNA aminoacylation; GO:0006437 | non-traceable author statement _ Tyrosyl-tRNA synthetase _ Aats-val valyl-tRNA aminoacylation; GO:0006438 | inferred from sequence similarity with SGD:VAS1; SGDID:S0003326 _ Valyl-tRNA synthetase _ aay _ _ astray _ ab axon choice point recognition; GO:0016198 | traceable author statement _ abrupt "ab encodes a BTB-zinc finger regulatory protein that controls the, specificity of neuromuscular connections." abb _ _ abbreviated _ abd _ _ abdominal _ abd-A "specification of segmental identity, abdomen; GO:0007385 | non-traceable author statement" _ abdominal A _ Abd-B negative regulation of salivary gland determination; GO:0045705 | traceable author statement _ Abdominal B _ abg _ _ ambiguous _ Abi _ _ Abelson Interacting Protein _ Abl axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:robo; FB:FBgn0005631 _ Abl tyrosine kinase _ abo _ _ abnormal oocyte abo appears to be a negative regulator of histone transcription. abof _ _ about face _ abr _ _ abero _ abs apoptosis; GO:0006915 | non-traceable author statement; establishment of cell polarity; GO:0030010 | non-traceable author statement; morphogenesis; GO:0009653 | non-traceable author statement; neurogenesis; GO:0007399 | non-traceable author statement _ abstrakt _ abt _ _ abnormal tergites _ abw _ _ abnormal wings _ ac oogenesis; GO:0007292 | traceable author statement _ achaete "The wg product induces G2 arrest in two subdomains of the developing, wing margin by inducing ac and sc, which down-regulate stg." Ac13E _ _ Adenylyl cyclase 35C _ Ac3 _ _ _ _ Ac76E _ _ Adenylyl cyclase 76E _ Ac78C _ _ Adenylyl cyclase 78C "May serve to transduce and integrate different developmental signals, through the cAMP signaling pathway." acc _ _ acclinal wing _ AcCoAS _ _ Acetyl Coenzyme A synthase _ acd(2)5D10 _ _ auditory courtship defective 5D10 _ acd(2)5E8 _ _ auditory courtship defective 5E8 _ acd(2)5F3 _ _ auditory courtship defective 5F3 _ acd(2)5G23 _ _ auditory courtship defective 5G23 _ acd(2)5L3 _ _ auditory courtship defective 5L3 _ acd(2)5M38 _ _ auditory courtship defective 5M38 _ acd(2)5M7 _ _ auditory courtship defective 5M7 _ acd(2)5M8 _ _ auditory courtship defective 5M8 _ acd(2)5N15 _ _ auditory courtship defective 5N15 _ acd(2)5N17 _ _ auditory courtship defective 5N17 _ acd(2)5N18 _ _ auditory courtship defective 5N18 _ acd(2)5N29 _ _ auditory courtship defective 5N29 _ acd(2)5N30 _ _ auditory courtship defective 5N30 _ Ace acetylcholine catabolism; GO:0006581 | traceable author statement _ Acetylcholine esterase "Structural gene for acetyl cholinesterase, the enzyme that terminates, synaptic transmission by rapidly hydrolyzing the neurotransmitter, acetylcholine. Biochemical analysis (e.g., FBrf0039804; FBrf0046585;, FBrf0048054; FBrf0047579; FBrf0048523; FBrf004" Acer _ _ Angiotensin-converting enzyme-related _ Acf1 chromatin assembly/disassembly; GO:0006333 | non-traceable author statement; chromatin assembly/disassembly; GO:0006333 | non-traceable author statement _ ATP-dependent chromatin assembly factor large subunit _ achi _ _ achintya _ acj6 synaptic target recognition; GO:0008039 | inferred from mutant phenotype _ abnormal chemosensory jump 6 "acj6 may play an important role in regulating synaptic target selection, by central neurons." Ack peptidyl-tyrosine phosphorylation; GO:0018108 | inferred from direct assay; protein amino acid phosphorylation; GO:0006468 | inferred from direct assay _ _ _ Aco _ _ Accordion _ Acon _ _ Aconitase _ Acox57D-d _ _ acyl-Coenzyme A oxidase at 57D distal _ Acox57D-p _ _ acyl-Coenzyme A oxidase at 57D proximal _ Acp1 _ _ Adult cuticle protein 1 "Stage specificity, spatial restriction of Acp1 expression and physical, properties of its conceptual translation product suggest that it may, be involved in some specialized function such as thickening of the, adult cuticle." Acp26Aa oviposition; GO:0018991 | traceable author statement _ Accessory gland-specific peptide 26Aa _ Acp26Ab oviposition; GO:0018991 | non-traceable author statement; post-mating behavior; GO:0045297 | non-traceable author statement _ Accessory gland-specific peptide 26Ab _ Acp29AB physiological processes; GO:0007582 | non-traceable author statement; post-mating behavior; GO:0045297 | non-traceable author statement; sperm displacement; GO:0007321 | non-traceable author statement _ Accessory gland-specific peptide 29AB May promote replacement of sperm already stored by a female. Acp31F _ _ Accessory gland protein 31F _ Acp32CD _ _ Accessory gland-specific peptide 32CD _ Acp33A _ _ Accessory gland-specific peptide 33A _ Acp36DE sperm displacement; GO:0007321 | non-traceable author statement _ Accessory gland peptide 36DE May promote replacement of sperm already stored by a female. Acp53Ea physiological processes; GO:0007582 | non-traceable author statement; post-mating behavior; GO:0045297 | non-traceable author statement; sperm displacement; GO:0007321 | non-traceable author statement _ Accessory gland-specific peptide 53Ea May promote replacement of sperm already stored by a female. Acp53Eb _ _ Accessory gland protein 53Eb _ Acp62F physiological processes; GO:0007582 | non-traceable author statement; post-mating behavior; GO:0045297 | non-traceable author statement _ Accessory gland peptide 62F _ Acp63F physiological processes; GO:0007582 | non-traceable author statement; post-mating behavior; GO:0045297 | non-traceable author statement _ Accessory gland peptide 63F _ Acp65Aa _ _ _ _ Acp70A "negative regulation of female receptivity, post-mating; GO:0045434 | traceable author statement; oviposition; GO:0018991 | traceable author statement; post-mating behavior; GO:0045297 | traceable author statement" _ Accessory gland peptide 70A _ Acp76A _ _ Accessory gland-specific peptide 76A "Encodes a male accessory-gland polypeptide. Expressed in males, but, not in females. Protein level drops dramatically on mating, but recovers, within 24 hours." Acp95EF _ _ Accessory gland-specific peptide 95EF _ Acp98AB _ _ Accessory gland-specific peptide 98AB _ AcpB _ _ Accessory gland protein B _ AcpC _ _ Accessory gland protein C _ AcpGI _ _ Accessory gland protein G-I _ Acph-1 _ _ Acid phosphatase 1 "Structural gene for acid phosphatase 1, the major phosphatase in adults;, responsible for approximately 90% of the low-pH, nucleotidase activity throughout development. Serves as a reliable, cytochemical marker in many tissues (FBrf0033183). Enzyme, appears to be produced in nurse cells and follicular, cells of ovary and transferred to oocyte through the, ring canals and by pinocytosis, respectively (FBrf0029963); maternally, produced enzyme persists to third instar; paternal, gene function detectable in gels after 9-10 hr of, embryonic development (FBrf0031356); and after 5 hr, histochemically (FBrf0031363). Enzyme found in larvae, pupae and, adults; levels increase during adult life (FBrf0027302)." AcpK _ _ Accessory gland protein K _ Acprep1 _ _ Accessory gland protein rep1 _ Act42A cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity _ Actin 42A "Codes for cytoplasmic actin; transcribed throughout development; one of, two actin genes transcribed in Kc cells and several other cell lines, (FBrf0038990). One of three actin genes expressed in the wing disc during, wing development, each with its characteristic profile. Peak expression at, 44h of pupal age, little or no expression at 60h rising again at 80h. 44h, peak corresponds to time of maximum change in cell shape (FBrf0042391)., Transcription increased 6-8 fold by 20-OH-ecdysone in tissue culture cells, (FBrf0047102; FBrf0064343)." Act57B cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity _ Actin 57B "Encodes the actin I protein isoform, which is the major actin species of, larval intersegmental muscle and adult cephalic and abdominal muscle, (FBrf0038990)." Act5C cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity _ Actin 5C "Codes for cytoplasmic actin; transcribed throughout development; one of, two actin genes transcribed in Kc cells and several other cell lines, (FBrf0038990). One of three actin genes expressed in the wing disc during, wing development, each with its chara" Act79B cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity _ Actin 79B "Encodes a tubular muscle actin expressed in adult legs and tubular, muscles of thorax, including direct flight muscles, pleurosternal muscles, and muscles of various leg segments (FBrf0038990). In addition, Act79B is, expressed in muscles that support the head and abdomen, in the scutellar, pulsatile organ and in two pairs of abdominal muscles that are present only, in male flies (FBrf0049489). One of three actin genes expressed in wing, development each with its characteristic developmental profile; peak, activity at 80h of pupal age (FBrf0042391)." Act87E cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity _ Actin 87E "Encodes actin found in larval muscle and adult, cephalic and abdominal muscle (FBrf0038990)." Act88F cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity _ Actin 88F "Encodes the indirect flight muscle actin (FBrf0038990; FBrf0042420)., Haplo-insufficient; heterozygotes for null mutations or Act88F, deficiencies are flightless; flightlessness is apparently caused by, imbalance between myosin heavy chains and Act88F protein; whereas hemizygosity, for either Mhc or Act88F leads to complex myofibrillar defects and, flightlessness, double hemizygotes have nearly normal fibrillar structure, and are able to fly (FBrf0049803). Heterozygotes and to a greater degree,, homozygotes and heteroallelic heterozygotes for antimorphic alleles, Act88F[4] and Act88F[5] show constitutive synthesis of, heat-shock proteins, with Hsp26 and Hsp27 less actively synthesized, than Hsp22, Hsp70 and Hsp83; response to heat shock normal, (FBrf0042420)." activin-beta _ _ _ _ Actn cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ alpha actinin The structural gene for alpha Actinin. Actn3 _ _ alpha actinin 3 _ Actr13E cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity _ Actin-related protein 13E _ ACXA _ _ _ _ ACXB _ _ _ _ ACXC _ _ _ _ ACXD _ _ _ _ ACXE _ _ _ _ Acyp _ _ Acylphosphatase _ ad _ _ arcoid _ Ada _ _ Adenosine deaminase _ ada _ _ amanda _ Ada3 _ _ _ _ Adam translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ alpha-Adaptin non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ alpha-Adaptin _ Adar adenosine to inosine editing; GO:0006382 | inferred from mutant phenotype; adult behavior (sensu Insecta); GO:0008044 | inferred from mutant phenotype; adult locomotory behavior; GO:0008344 | inferred from mutant phenotype _ _ _ adat _ _ _ _ ade1 _ _ adenosine 1 _ ade2 'de novo' IMP biosynthesis; GO:0006189 | inferred from sequence similarity with SGD:ADE6; SGDID:S0003293; 'de novo' IMP biosynthesis; GO:0006189 | non-traceable author statement _ adenosine 2 "Structural gene for phosphoribosylformylglycinamidine synthase,, an enzyme in the pathway of purine biosynthesis." ade3 'de novo' IMP biosynthesis; GO:0006189 | inferred from sequence similarity with MGD:Gart; MGI:MGI:95654; 'de novo' IMP biosynthesis; GO:0006189 | non-traceable author statement _ adenosine 3 Enzyme assays confirm that ade3 encodes GAR transformylase. ade4 _ _ _ _ ade5 _ _ _ _ Adf1 memory; GO:0007613 | inferred from mutant phenotype; synaptogenesis; GO:0007416 | inferred from mutant phenotype _ Adh transcription factor 1 "Encodes a transcription factor first identified by its binding to Adh, enhancer sequences, but probably quite ubiquitous. The gene was also, identified in a P-element screen for learning and memory defective, mutations by Tully (FBrf0075143)." Adgf-A _ _ Adenosine deaminase-related growth factor A _ Adgf-B _ _ Adenosine deaminase-related growth factor B _ Adgf-C _ _ Adenosine deaminase-related growth factor C _ Adgf-D _ _ Adenosine deaminase-related growth factor D _ Adgf-E _ _ Adenosine deaminase-related growth factor E _ Adh ethanol oxidation; GO:0006069 | non-traceable author statement _ Alcohol dehydrogenase _ Adhr _ _ Adh-related "An open reading frame of unknown function located about 300bp proximal, (downstream) of Adh. The putative translation product is about 30%, similar to Adh in amino acid sequence; in addition the two introns are, located at the same positions with respect to the amino acid sequence as, are the two introns that interrupt the Adh coding region. These facts, lead to the inference that Adhr evolved as a duplication of Adh, or, vice versa. The gene, and its position with respect to Adh, is conserved, in the subgenus Drosophila and the genus Scaptodrosophila, as well as in, obscura species group members." Adk1 _ _ Adenylate kinase-1 _ Adk2 _ _ Adenylate kinase-2 _ Adk2-44B _ _ _ _ Adk2-60B _ _ _ _ Adk3 _ _ Adenylate kinase-3 _ adm _ _ all discs missing _ ado _ _ adolescent "A vital gene, also required for oogenesis, as shown by the defective, eggs from germline clones." adp _ _ adipose _ ads _ _ all discs small _ Adv _ _ Additional veins _ Ady43A _ _ _ _ Aef1 negative regulation of transcription from Pol II promoter; GO:0000122 | non-traceable author statement _ Adult enhancer factor 1 Encodes a transcription factor binding to the adult enhancer of Adh and to Yp1. afl _ _ autosomal female lethal _ aft _ _ adrift aft is required for tracheal pathfinding into the CNS. ag _ _ agametic _ Ag5r _ _ Antigen 5-related _ Ag5r2 _ _ Antigen 5-related 2 _ agee _ _ antenno-glial expressed _ Agi _ _ Aryl glucosidase incognita _ agn _ _ agnostic "agn controls calmodulin properties by encoding a calmodulin-inhibiting, protein." ago cyclin catabolism; GO:0008054 | traceable author statement; regulation of mitosis; GO:0007088 | inferred from mutant phenotype _ archipelago ago is involved in developmental regulation of CycE degradation. AGO1 _ _ Argonaute 1 _ AGO2 _ _ Argonaute 2 _ agq _ _ atrophie gonadique _ agt _ _ O-6-alkylguanine-DNA alkyltransferase _ Ahcy13 _ _ Adenosylhomocysteinase at 13 _ Ahcy89E _ _ Adenosylhomocysteinase 89E _ aim _ _ aimless "Both the wisp and aim mutant phenotypes suggest that these genes, play important structural or regulatory roles in functions performed by, microtubules." air _ _ aircraft _ akaal _ _ akaal "It is inferred that akaal induces changes within the CNS since the, response to nicotine is abolished in mutants." Akap200 _ _ A kinase anchor protein 200 _ Akh _ _ Adipokinetic hormone-like "Encodes a polypetide similar in sequence to the adipokinetic hormone, of other insects." Akr _ _ Aldo-keto reductase "A study of the tolerance to pentenol and pentenone in relation to Akr., Flies selected for improved tolerance to ethanol also have an improved, tolerance to pentenol but these changes cannot be explained in terms, of changes in enzyme activity. Pentenone does not modify AKR activity." Akt1 anti-apoptosis; GO:0006916 | inferred from mutant phenotype _ _ Data implicates Akt1 as a cell survival gene. al "proximal/distal pattern formation, imaginal disc; GO:0007449 | non-traceable author statement" _ aristaless "In the leg, al is only required for the growth and differentiation, of the tip of the leg and not for the formation of the proximo-distal, axis." ala brain development; GO:0007420 | inferred from mutant phenotype; mushroom body development; GO:0016319 | inferred from mutant phenotype _ alpha lobes absent _ Alas _ _ Aminolevulinate synthase _ alb _ _ alberich _ AlCR2 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ allatostatin C receptor 2 _ Ald glycolysis; GO:0006096 | inferred from direct assay; glycolysis; GO:0006096 | non-traceable author statement _ Aldolase The structural gene for aldolase (fructose-biphosphate aldolase). ald _ _ altered disjunction _ Aldh _ _ Acetaldehyde dehydrogenase "Although an acetaldehyde dehydrogenase activity has been assayed, biochemically in Drosophila, no gene has been mapped. Adh protein also, catalyses the oxidation of acetaldehyde to acetate in Drosophila." Aldh-III _ _ Aldehyde dehydrogenase type III _ Aldox-1 _ _ Aldehyde oxidase 1 "Structural gene for aldehyde oxidase., ALDOX activity increases nonuniformly during, development with step increases at pupation and midway, through pupal stage. First increase appears to be, controlled by a closely linked cis-acting element, (FBrf0027301) and the latter by Aldox-2[+], (FBrf0033935). Control independent of that, of the closely linked Po (FBrf0028397)., Maternal enzyme present through to early larva, but replaced by, zygotic gene products by late larva. Tissue, specificity varies with stage and strain (FBrf0023907; FBrf0037508)., Heptaldehyde serves as specific substrate (FBrf0037508). Differential, staining for enzyme noted in different compartments of the wing, imaginal disc (FBrf0028823)." Aldox-2 _ _ Aldehyde oxidase 2 "Not a structural gene for aldehyde oxidase. Function, apparently required for the normal activities of several, Mo-enzymes. Duplication of Aldox-2[+] without, effect on enzyme levels." ale _ _ almond eye _ alf _ _ aloof _ Alg10 N-linked glycosylation; GO:0006487 | non-traceable author statement _ Alpha 3 glucosyltransferase _ Alhambra "regulation of transcription, DNA-dependent; GO:0006355 | inferred from sequence similarity with SWISS-PROT:O54826" _ Alhambra _ alien _ _ alien COP9 signalosome is essential for development. Alk protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ alm _ _ almond _ alo _ _ alopecia _ Alp _ _ Abnormal leg pattern _ Alp23B _ _ Activin Like Protein at 23B _ alpha-catenin-related _ _ _ _ AlstR G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ Allatostatin Receptor _ Alu _ _ Alula _ Aly _ _ _ _ aly male meiosis; GO:0007140 | inferred from mutant phenotype; spermatogenesis; GO:0007283 | inferred from expression pattern _ always early "Wild type function of aly is required for, cell-cycle progression through the G[[2]]/M transition of meiosis I, in males and for onset of spermatid differentiation." Ama cell adhesion; GO:0007155 | non-traceable author statement; cell adhesion; GO:0007155 | non-traceable author statement _ Amalgam _ Ama-1 _ _ alpha Amanitin-resistant 1 "Confers resistance of flies, but not their RNA polymerase II, to alpha-amanitin." Ama-2 _ _ alpha Amanitin-resistant 2 "Confers resistance of flies, but not their RNA polymerase II, to alpha-amanitin." amb _ _ amber _ amd catecholamine metabolism; GO:0006584 | non-traceable author statement; cuticle biosynthesis (sensu Insecta); GO:0040003 | non-traceable author statement _ alpha methyl dopa-resistant "Encodes a protein with 38% similarity to Ddc protein; amd and Ddc are, presumably the products of gene duplication. Appears to play role in dopa, metabolism to catecholamines. Interallelic complementation observed between, mutant alleles, suggesting dimeric product." ami _ _ anosmic _ amiel _ _ _ _ amn antimicrobial humoral response (sensu Invertebrata); GO:0006960 | inferred from mutant phenotype; learning and/or memory; GO:0007611 | inferred from mutant phenotype _ amnesiac _ amniokin protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ _ amon peptide hormone processing; GO:0016486 | inferred from sequence similarity with MGD:Pcsk2; MGI:MGI:97512; proteolysis and peptidolysis; GO:0006508 | inferred from direct assay _ amontillado amon has a role in triggering hatching behavior. Amph NOT synaptic vesicle endocytosis; GO:0008099 | inferred from mutant phenotype; NOT synaptic vesicle endocytosis; GO:0008099 | inferred from mutant phenotype; NOT synaptic vesicle endocytosis; GO:0008099 | inferred from mutant phenotype; protein localization; GO:0008104 | inferred from mutant phenotype; regulation of muscle contraction; GO:0006937 | inferred from mutant phenotype; rhabdomere development; GO:0042052 | inferred from mutant phenotype; rhabdomere membrane biogenesis; GO:0045313 | inferred from mutant phenotype _ Amphiphysin "Amph is involved in the structural organization of the membrane-bound, compartments of the excitation-contraction coupling machinery of muscles,, but not in synaptic vesicle endocytosis." amputee _ _ amputee _ ams _ _ adult male-specific transcript _ amx _ _ almondex "Normal amx function is required during zygotic development for the, normal development of the eye and during oogenesis for the synthesis of a, maternal component required for neurogenesis and mesoderm diffentiation." Amy-d _ _ Amylase distal "Structural gene for alpha-amylase. Most strains of D.melanogaster are, duplicated for this gene, with distal (Amy-d) and proximal (Amy-p), genes being about 4-kb apart and divergently transcribed. Amylase is a, monomeric protein based on failure to form h" Amy-p _ _ Amylase proximal "Structural gene for alpha-amylase. Most strains of D.melanogaster, are duplicated for this gene, with distal (Amy-d) and proximal (Amy-p), genes being about 4-kb apart and divergently transcribed. Amylase is a, monomeric protein based on failure to form h" Amyrel _ _ Amyrel _ an _ _ ancon _ ana suppression of neuroblast proliferation; GO:0007406 | non-traceable author statement _ anachronism Required for neuroblast proliferation but expressed in glial cells. Ance _ _ Angiotensin converting enzyme "Encodes a zinc metallopeptidase similar to mammalian angiotensin, converting enzyme. Expressed in the amnioserosa and may be a target for, dpp and zen." Ance-2 _ _ _ _ Ance-3 _ _ _ _ Ance-4 _ _ _ _ Ance-5 _ _ _ _ And calcium ion sensing; GO:0005513 | inferred from sequence similarity with PIR:I49567 _ Androcam And may have a role in spermatogenesis and mature sperm function. ang _ _ angle wing _ angel _ _ angel _ Ank cytoskeletal anchoring; GO:0007016 | inferred from direct assay _ Ankyrin _ Ank2 cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity; cytoskeletal anchoring; GO:0007016 | non-traceable author statement _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." AnnIX _ _ Annexin IX "The annexins are a family of homologous calcium and phospholipid binding, proteins that are also found in vertebrates." AnnX _ _ Annexin X _ ano _ _ anomogenitals _ anon-100Aa _ _ _ "Transcription unit isolated during molecular analysis of the wts, region." anon-100Ab _ _ _ "Transcription unit isolated during molecular analysis of the wts, region." anon-100Ca _ _ _ _ anon-100CDa _ _ _ "Transcription unit defined during molecular analysis of the awd gene, region." anon-100CDb _ _ _ "Transcription unit defined during molecular analysis of the awd gene, region." anon-10Aa _ _ _ _ anon-10Aaa _ _ _ _ anon-10Abb _ _ _ _ anon-10Ac _ _ _ "Identified as transcript in the -27 to -19 region of the sev chromosome, walk." anon-10Acc _ _ _ _ anon-10Ad _ _ _ "Identified as transcript in the -19 to -10 region of the sev chromosome, walk." anon-10Ae _ _ _ "Identified as transcript in the -14 to -1 region of the sev chromosome, walk." anon-10Af _ _ _ "Identified as transcript in the -6.5 to -1 region of the sev chromosome, walk." anon-10Ag _ _ _ "Identified as set of three transcripts in the +16 to +26 region of, the sev chromosome walk." anon-10Ah _ _ _ "Identified as transcript in the +37 to +43 region of the sev chromosome, walk." anon-10Ai _ _ _ _ anon-10Aj _ _ _ _ anon-10Ak _ _ _ _ anon-10Al _ _ _ _ anon-10Am _ _ _ _ anon-10An _ _ _ _ anon-10Ao _ _ _ _ anon-10Ap _ _ _ _ anon-10Aq _ _ _ _ anon-10Ar _ _ _ _ anon-10As _ _ _ _ anon-10At _ _ _ _ anon-10Au _ _ _ _ anon-10Av _ _ _ _ anon-10Aw _ _ _ _ anon-10Ax _ _ _ _ anon-10Ay _ _ _ _ anon-10Az _ _ _ _ anon-10Ba _ _ _ "Identified as a 2kb transcript adjacent to dsh during a molecular, analysis of dsh." anon-10Ca _ _ _ _ anon-10Cb _ _ _ _ anon-10Cc _ _ _ _ anon-10Cd _ _ _ _ anon-10Ce _ _ _ _ anon-10Cf _ _ _ _ anon-10Ea _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-11a _ _ _ _ anon-11b _ _ _ _ anon-11c _ _ _ _ anon-12Ba _ _ _ _ anon-12Bb _ _ _ _ anon-12Da _ _ _ _ anon-12Db _ _ _ _ anon-12Dc _ _ _ _ anon-12Ea _ _ _ _ anon-12Eb _ _ _ _ anon-13Aa _ _ _ _ anon-13Fa _ _ _ _ anon-13Fb _ _ _ _ anon-14Aa _ _ _ _ anon-14Ab _ _ _ _ anon-14Ac _ _ _ _ anon-14Ba _ _ _ "Defined during molecular analysis of the disco locus. Transcript, reflects a single copy sequence present in adults but not in embryos." anon-14Bb _ _ _ "Defined during molecular analysis of the disco locus. Transcript, reflects a single copy sequence present in adults but not in embryos." anon-14Bc _ _ _ _ anon-14Bd _ _ _ _ anon-14Be _ _ _ _ anon-14Bf _ _ _ _ anon-14Bg _ _ _ _ anon-14Ca _ _ _ _ anon-1508 _ _ _ _ anon-15Aa _ _ anon-15Aa _ anon-15ABa _ _ _ _ anon-15Da _ _ _ _ anon-15Db _ _ _ _ anon-15Dc _ _ _ _ anon-15Dd _ _ _ _ anon-16 _ _ _ _ anon-16Fa _ _ _ _ anon-16Fb _ _ _ _ anon-16Fc _ _ _ _ anon-16Fd _ _ _ _ anon-16Fe _ _ _ _ anon-16Ff _ _ _ _ anon-17Aa _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-17Ab _ _ _ _ anon-17Ac _ _ _ _ anon-17Ad _ _ _ _ anon-17Ae _ _ _ _ anon-17Ca _ _ _ _ anon-17Cb _ _ _ _ anon-17Cc _ _ _ _ anon-17Cd _ _ _ _ anon-18DEc _ _ _ _ anon-19Ca _ _ _ _ anon-19G11 _ _ _ _ anon-1Aa _ _ _ _ anon-1Ab _ _ _ _ anon-1Ba _ _ _ Transcription unit defined during molecular analysis of the ASC. anon-1Bc _ _ _ Transcription unit defined during molecular analysis of the ASC. anon-1Be _ _ _ _ anon-1C2 _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-1Ca _ _ _ _ anon-1Ea _ _ _ _ anon-1h11 _ _ _ Expressed in the mesoderm. anon-2043 _ _ _ _ anon-20ABa _ _ _ Defined during molecular analysis of fog. anon-20ABb _ _ _ Defined during molecular analysis of fog. anon-21Aa _ _ _ _ anon-21Ab _ _ _ _ anon-21Ca _ _ _ _ anon-21Cb _ _ _ _ anon-21Cc _ _ _ _ anon-21Cd _ _ _ _ anon-2216 _ _ _ _ anon-23Aa _ _ _ _ anon-23Ab _ _ _ _ anon-23Ac _ _ _ _ anon-23Cb _ _ _ _ anon-23Cc _ _ _ _ anon-23Db _ _ _ _ anon-23EFa _ _ _ "A 2.0kb male limited transcript detected by 5.5kb subclone at the proximal, end of the cosJT3 cosmid." anon-2442 _ _ _ _ anon-25D26Aa _ _ _ _ anon-25D26Ab _ _ _ _ anon-25Da _ _ _ "Transcription unit isolated during molecular analysis of the vri, region." anon-25Db _ _ _ "Transcription unit isolated during molecular analysis of the vri, region." anon-25Dc _ _ _ "Transcription unit isolated during molecular analysis of the vri, region." anon-25Dd _ _ _ Isolated from an expression library by the ability of its product to bind double-stranded RNA. anon-26Ab _ _ _ _ anon-26Ba _ _ _ _ anon-28Aa _ _ _ _ anon-28Ca _ _ _ _ anon-28Cb _ _ _ _ anon-28Cc _ _ _ _ anon-28Cd _ _ _ _ anon-28Ce _ _ _ _ anon-28Cf _ _ _ _ anon-2Ba _ _ _ _ anon-2Bc _ _ _ _ anon-2Be _ _ _ _ anon-2c11 _ _ _ Expressed in the mesoderm. anon-2Da _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-2G8 _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-30Fa _ _ _ _ anon-30Fb _ _ _ _ anon-30Fc _ _ _ _ anon-30Fd _ _ _ _ anon-31BCa _ _ _ _ anon-31BCb _ _ _ _ anon-31Ea _ _ anonymous at 31E-a Identified during molecular analysis of cdc2. anon-31Eb _ _ anonymous at 31E-b Identified during molecular analysis of cdc2. anon-32ABa _ _ _ _ anon-32D _ _ _ Cloned as a potential Ubx target gene. anon-34Da _ _ _ _ anon-34Fa _ _ _ _ anon-35F-36Aa _ _ _ _ anon-35F-36Ab _ _ _ _ anon-36Aa _ _ _ _ anon-36Ab _ _ _ _ anon-37Ca _ _ _ _ anon-37Cb _ _ _ _ anon-37Cc _ _ _ _ anon-37Cd _ _ _ _ anon-38Aa _ _ _ Defined during the molecular analysis of scw. anon-38B.1 _ _ _ _ anon-38B.23 _ _ _ _ anon-38B.8 _ _ _ _ anon-38C.1 _ _ _ _ anon-38C.15 _ _ _ _ anon-38C.18 _ _ _ _ anon-38C.19 _ _ _ _ anon-38C.20 _ _ _ _ anon-38C.21 _ _ _ _ anon-38C.22 _ _ _ _ anon-38C.23 _ _ _ _ anon-38C.24 _ _ _ _ anon-38C.25 _ _ _ _ anon-38C.26 _ _ _ _ anon-38C.29 _ _ _ _ anon-38C.3 _ _ _ _ anon-38C.30 _ _ _ _ anon-38C.32 _ _ _ _ anon-38C.35 _ _ _ _ anon-38C.36 _ _ _ _ anon-38C.39 _ _ _ _ anon-38C.43 _ _ _ _ anon-38C.45 _ _ _ _ anon-38C.50 _ _ _ _ anon-38C.51 _ _ _ _ anon-38C.56 _ _ _ _ anon-38C.8 _ _ _ _ anon-38D.1 _ _ _ _ anon-38D.10 _ _ _ _ anon-38D.11 _ _ _ _ anon-38D.12 _ _ _ _ anon-38D.13 _ _ _ _ anon-38D.15 _ _ _ _ anon-38D.17 _ _ _ _ anon-38D.18 _ _ _ _ anon-38D.2 _ _ _ _ anon-38D.20 _ _ _ _ anon-38D.21 _ _ _ _ anon-38D.22 _ _ _ _ anon-38D.24 _ _ _ _ anon-38D.3 _ _ _ _ anon-38D.32 _ _ _ _ anon-38D.4 _ _ _ _ anon-38D.6 _ _ _ _ anon-38D.7 _ _ _ _ anon-38D.8 _ _ _ _ anon-38D.9 _ _ _ _ anon-38E.17 _ _ _ _ anon-38E.18 _ _ _ _ anon-38E.24 _ _ _ _ anon-38E.4 _ _ _ _ anon-38E.5 _ _ _ _ anon-38E.6 _ _ _ _ anon-38E.8 _ _ _ _ anon-3929 _ _ _ _ anon-3Aa _ _ _ Transcription unit defined during molecular analysis of gt locus. anon-3Ab _ _ _ Transcription unit defined during molecular analysis of gt locus. anon-3Bc _ _ _ _ anon-41Fa _ _ _ Transcription unit neighboring (3' of) ap transcription unit. anon-41Fb _ _ _ Transcription unit defined as part of molecular analysis of ap. anon-42Ea _ _ _ _ anon-43AB _ _ _ _ anon-43Ba _ _ _ _ anon-44Aa _ _ _ "Transcription unit isolated during molecular analysis of the lig, region." anon-44CDa _ _ _ _ anon-44DE _ _ _ _ anon-45Aa _ _ _ _ anon-45Ab _ _ _ _ anon-46Fa _ _ _ _ anon-47Aa _ _ _ _ anon-47Ba _ _ _ _ anon-47Ea _ _ _ _ anon-47Eb _ _ _ _ anon-47Ec _ _ _ _ anon-48Ab _ _ _ _ anon-48Ae _ _ _ _ anon-48Af _ _ _ _ anon-48Ag _ _ _ _ anon-48Ah _ _ _ _ anon-48Ai _ _ _ _ anon-48Aj _ _ _ _ anon-48Fa _ _ _ _ anon-49Da _ _ _ _ anon-49Db _ _ _ _ anon-4Ba _ _ _ _ anon-4Bb _ _ _ _ anon-4Bc _ _ _ _ anon-4Bd _ _ _ _ anon-4Ca _ _ _ Transcription unit defined during molecular analysis of the bi locus. anon-4Cb _ _ _ Transcription unit defined during molecular analysis of the bi locus. anon-4Cc _ _ _ Transcription unit defined during molecular analysis of the bi locus. anon-4Cd _ _ _ Transcription unit defined during molecular analysis of the bi locus. anon-4Ce _ _ _ Transcription unit defined during molecular analysis of the bi locus. anon-4Cf _ _ _ Transcription unit defined during molecular analysis of the bi locus. anon-4Fa _ _ _ Identified as transcript during molecular analysis of dhd. anon-4Fb _ _ _ Identified as transcript during molecular analysis of dhd. anon-4Fc _ _ _ Identified as transcript during molecular analysis of dhd. anon-4Fd _ _ _ Identified as transcript during molecular analysis of dhd. anon-4Fe _ _ _ Identified as transcript during molecular analysis of dhd. anon-4Ff _ _ _ Identified as transcript during molecular analysis of dhd. anon-4Fg _ _ _ Identified as transcript during molecular analysis of dhd. anon-4Fh _ _ _ Identified as transcript during molecular analysis of dhd. anon-5.9 _ _ _ _ anon-50Aa _ _ _ _ anon-50ABa _ _ _ _ anon-50ABb _ _ _ _ anon-50ABc _ _ _ _ anon-50ABd _ _ _ _ anon-50CDa _ _ _ _ anon-50Ea _ _ _ _ anon-5187 _ _ _ _ anon-51Ba _ _ _ _ anon-52Da _ _ _ _ anon-52Db _ _ _ _ anon-54Ba _ _ _ _ anon-55Ea _ _ _ _ anon-55Eb _ _ _ _ anon-55Ec _ _ _ _ anon-56Ca _ _ _ _ anon-56Cb _ _ _ _ anon-56Cc _ _ _ _ anon-56Da _ _ _ _ anon-56Ea _ _ _ _ anon-56Fa _ _ _ _ anon-57Ba _ _ _ _ anon-57Bb _ _ _ _ anon-57Bc _ _ _ _ anon-57Bd _ _ _ _ anon-57Ca _ _ _ _ anon-57Cb _ _ _ _ anon-57Cc _ _ _ _ anon-57Cd _ _ _ _ anon-57Ce _ _ _ _ anon-57Cf _ _ _ _ anon-57Cg _ _ _ _ anon-57Ch _ _ _ _ anon-57Ci _ _ _ _ anon-57Cj _ _ _ _ anon-57Ck _ _ _ _ anon-57Cl _ _ _ _ anon-57Cm _ _ _ _ anon-57Cn _ _ _ _ anon-57Co _ _ _ _ anon-58Fa _ _ _ _ anon-58Fb _ _ _ _ anon-58Fc _ _ _ _ anon-58Fd _ _ _ _ anon-58Fe _ _ _ _ anon-58Ff _ _ _ _ anon-59Ca _ _ _ _ anon-59Cb _ _ _ _ anon-59Cc _ _ _ _ anon-59Cd _ _ _ _ anon-59Ce _ _ _ _ anon-59Cf _ _ _ _ anon-59Cg _ _ _ _ anon-59Ch _ _ _ _ anon-59Ci _ _ _ _ anon-59Cj _ _ _ _ anon-59Ck _ _ _ _ anon-59Da _ _ _ _ anon-59Fa _ _ _ _ anon-5Ca _ _ _ _ anon-5Cb _ _ _ _ anon-5Cc _ _ _ _ anon-60Ad _ _ _ _ anon-60Ae _ _ _ _ anon-60Af _ _ _ _ anon-61Fa _ _ _ _ anon-62BCa _ _ _ _ anon-62BCb _ _ _ _ anon-62DEa _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-62Ea _ _ _ _ anon-63BC-T2 _ _ _ _ anon-63Ea _ _ _ _ anon-63Eb _ _ _ _ anon-64Ba _ _ _ Identified as a transcription unit during a molecular analysis of ImpL2. anon-64Bb _ _ _ Identified as a transcription unit during a molecular analysis of ImpL2. anon-64Bc _ _ _ Identified as a transcription unit during a molecular analysis of ImpL2. anon-64Bd _ _ _ _ anon-64Be _ _ _ _ anon-64Bf _ _ _ _ anon-64Bg _ _ _ _ anon-64Ca _ _ _ _ anon-64Cb _ _ _ _ anon-64Ea _ _ _ _ anon-65Ba _ _ _ _ anon-65Bb _ _ _ _ anon-65Ea _ _ _ _ anon-66Ba _ _ _ _ anon-66BCa _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-66Dc _ _ _ _ anon-66Dd _ _ _ _ anon-66Fa _ _ _ _ anon-66Fb _ _ _ _ anon-67Ea _ _ _ "Created for an open reading frame of 170 amino acids that begins, immediately upstream of hay and overlaps the N-terminal coding region of, hay." anon-67EFa _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-68Ea _ _ _ _ anon-68Eb _ _ _ _ anon-68Ec _ _ _ _ anon-692 _ _ _ _ anon-6972 _ _ _ _ anon-69Aa _ _ _ _ anon-69Ab _ _ _ _ anon-69Ac _ _ _ _ anon-69Ad _ _ _ _ anon-69Ae _ _ _ _ anon-69Af _ _ _ _ anon-6A7 _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-6C5 _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-6Ea _ _ _ _ anon-6Eb _ _ _ _ anon-6F7 _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-70Ca _ _ _ _ anon-70Cb _ _ _ _ anon-70Da _ _ _ _ anon-70Db _ _ _ _ anon-70Dc _ _ _ _ anon-72ABa _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABb _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABc _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABd _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABe _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABf _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABg _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABh _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABi _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABj _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72ABk _ _ _ "Transcription unit defined during molecular analysis of the 72A-72B, region." anon-72BCa _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-72Da _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-72Ea _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-73B _ _ _ Transcription unit defined during molecular analysis of the Abl locus. anon-73Ba _ _ _ "Transcription unit defined during molecular analysis of tra gene, region." anon-73Bb _ _ _ "Transcription unit defined during molecular analysis of tra gene, region." anon-73Bc _ _ _ _ anon-73Bd _ _ _ _ anon-73DFa _ _ _ _ anon-74EFa _ _ _ _ anon-74EFb _ _ _ _ anon-74EFc _ _ _ _ anon-75Ca _ _ _ _ anon-75Cd _ _ _ _ anon-75Ea _ _ _ _ anon-76Ca _ _ _ _ anon-77Ba _ _ _ _ anon-77Bb _ _ _ _ anon-77Bc _ _ _ _ anon-77Fa _ _ _ _ anon-79Ba _ _ _ _ anon-7Ab _ _ _ _ anon-7H1 _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-82Aa _ _ _ _ anon-82Fa _ _ _ _ anon-83ABa _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-83Ba _ _ _ _ anon-83Bb _ _ _ _ anon-84Aa _ _ _ Identified by transcript mapping in the bcd region. anon-84Ab _ _ _ _ anon-84Ac _ _ _ _ anon-84Ba _ _ _ _ anon-84Bb _ _ _ _ anon-84Bc _ _ _ _ anon-84Bd _ _ _ _ anon-84Fa _ _ T2 transcript _ anon-84Fb _ _ T3 transcript _ anon-85Aa _ _ _ _ anon-85Ab _ _ _ _ anon-85Ca _ _ _ _ anon-85Cb _ _ _ _ anon-85Cc _ _ _ _ anon-85Db _ _ _ _ anon-86B _ _ _ _ anon-86Ca _ _ _ _ anon-86Fa _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-87Aa _ _ _ Identified during molecular analysis of aur. anon-87Ab _ _ _ Identified during molecular analysis of aur. anon-87Ac _ _ _ Identified during molecular analysis of aur. anon-87Ad _ _ _ Identified during molecular analysis of aur. anon-87Ae _ _ _ Identified during molecular analysis of aur. anon-87Af _ _ _ Identified during molecular analysis of aur. anon-87Ag _ _ _ Identified during molecular analysis of aur. anon-87Ea _ _ _ Defined during transcription analysis of the sim region. anon-87Eb _ _ _ Defined during transcription analysis of the sim region. anon-87Ec _ _ _ Defined during transcription analysis of the sim region. anon-88Aa _ _ _ _ anon-88Ab _ _ _ _ anon-88Ac _ _ _ _ anon-88Ad _ _ _ _ anon-88b.1 _ _ _ _ anon-88Ba _ _ _ _ anon-88Bb _ _ _ _ anon-88Bc _ _ _ _ anon-89Ba _ _ _ _ anon-89Bb _ _ _ _ anon-89Bc _ _ _ _ anon-89Be _ _ _ _ anon-89Ec _ _ _ _ anon-8Da _ _ _ _ anon-8Db _ _ _ _ anon-91Aa _ _ _ _ anon-91Ab _ _ _ _ anon-92CDa _ _ _ _ anon-92Da _ _ _ _ anon-92Ea _ _ _ _ anon-92Eb _ _ _ Identified as a transcription unit during molecular analysis of H. anon-92Ec _ _ _ Identified as a transcription unit during molecular analysis of H. anon-92Ee _ _ _ _ anon-92Ef _ _ _ _ anon-93Ba _ _ _ _ anon-93Bb _ _ _ _ anon-93Bc _ _ _ _ anon-93Fa _ _ _ "anon-93Fa has been named as the gene for the transcript c159 found, in the tsl region on the transcript map." anon-94DEa _ _ _ Defined during molecular analysis of hh. anon-95ABa _ _ _ RNA is expressed in the head but cannot be detected in the early embryo. anon-95EFa _ _ _ _ anon-95EFb _ _ _ _ anon-96Ca _ _ _ "Defined during molecular analysis of bam: transcription unit overlaps, bam and is transcribed from the opposite strand." anon-96Fa _ _ _ _ anon-96Fb _ _ _ _ anon-96Fc _ _ _ _ anon-96Fd _ _ _ _ anon-96Fe _ _ _ _ anon-96Ff _ _ _ _ anon-98Da _ _ _ "Transcription unit defined during molecular analysis of the fkh gene, region." anon-98Db _ _ _ "Transcription unit defined during molecular analysis of the fkh gene, region." anon-98Dc _ _ _ "Transcription unit defined during molecular analysis of the fkh gene, region." anon-98Dd _ _ _ "Transcription unit defined during molecular analysis of the fkh gene, region." anon-98EFa _ _ _ _ anon-99A _ _ _ _ anon-99Ca _ _ _ "Identified in a transcript analysis of the Acph-1 region., anon-99Ca has a different developmental profile from Acph-1 enzyme, activity, lower level of expression throughout development with peaks, in late embryonic and early pupal stages." anon-99Cb _ _ _ "Identified in a transcript analysis of the Acph-1 region., anon-99Cb has a similar developmental profile as Acph-1 enzyme, activity, constitutively expressed throughout development with peaks, in early embryonic and early pupal stages." anon-99Cc _ _ _ Identified in a transcript analysis of the Acph-1 region. anon-99Cd _ _ _ Identified in a transcript analysis of the Acph-1 region. anon-99Ce _ _ _ _ anon-99Da _ _ _ _ anon-99Fa _ _ _ _ anon-99Fb _ _ _ _ anon-9Ba _ _ _ 2.0kb ubiquitous transcript has been mapped in the alpha-Man-I region. anon-9Bb _ _ _ "1.1kb and 3.1kb ubiquitous transcripts, that peak during larval and, pupal stages, have been mapped in the alpha-Man-I region." anon-a _ _ anon a Characterized as an immunoglobulin switch region-like sequence. anon-A1 _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-A210 _ _ _ _ anon-A3 _ _ _ _ anon-A34 _ _ _ _ anon-A6 _ _ _ _ anon-A8 _ _ _ _ anon-AE002656.1 _ _ _ _ anon-AE002870.1 _ _ _ _ anon-AE003112.1 _ _ _ _ anon-AE003176.1 _ _ _ _ anon-AE003226.1 _ _ _ _ anon-AE003450.1 _ _ _ _ anon-AE003451.1 _ _ _ _ anon-AE003451.2 _ _ _ _ anon-AE003462.1 _ _ _ _ anon-AE003501.1 _ _ _ _ anon-AE003534.1 _ _ _ _ anon-AE003536.1 _ _ _ _ anon-AE003538.1 _ _ _ _ anon-AE003538.2 _ _ _ _ anon-AE003540.1 _ _ _ _ anon-AE003550.1 _ _ _ _ anon-AE003558.1 _ _ _ _ anon-AE003587.1 _ _ _ _ anon-AE003623.1 _ _ _ _ anon-AE003656.1 _ _ _ _ anon-AE003657.1 _ _ _ _ anon-AE003732.1 _ _ _ _ anon-AE003774.1 _ _ _ _ anon-AE003800.1 _ _ _ _ anon-AE003814.1 _ _ _ _ anon-AE003814.3 _ _ _ _ anon-AE003822.1 _ _ _ _ anon-AE003825.1 _ _ _ _ anon-AE003828.1 _ _ _ _ anon-AE003830.1 _ _ _ _ anon-AJ291135 _ _ _ _ anon-AY040854 _ _ _ _ anon-AY043178 _ _ _ _ anon-b _ _ anon b Characterized as an immunoglobulin switch region-like sequence. anon-B2 _ _ _ _ anon-B3 _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-B5 _ _ _ _ anon-c _ _ anon c Characterized as an immunoglobulin switch region-like sequence. anon-C1 _ _ _ _ anon-C2 _ _ _ _ anon-ct _ _ _ _ anon-d _ _ anon d Characterized as an immunoglobulin switch region-like sequence. anon-d29 _ _ _ _ anon-D2b _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-d34 _ _ _ _ anon-d35 _ _ _ _ anon-d36 _ _ _ _ anon-d43 _ _ _ _ anon-d44 _ _ _ _ anon-d47 _ _ _ _ anon-e _ _ anon e _ anon-E1 _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-E8 _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-E9 _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-EB8 _ _ _ _ anon-EST:CL1a11 _ _ _ "An anon-EST:CL1a11 cDNA has been cloned and sequenced. anon-EST:CL1a11, is expressed in the early mesoderm." anon-EST:CL1d7 _ _ _ "An anon-EST:CL1d7 cDNA has been cloned and sequenced. anon-EST:CL1d7, is expressed in the early mesoderm." anon-EST:CL57 _ _ _ "An anon-EST:CL57 cDNA has been cloned and sequenced. anon-EST:CL57, is expressed in the early mesoderm." anon-EST:CLB3 _ _ _ "An anon-EST:CLB3 cDNA has been cloned and sequenced. anon-EST:CLB3, is expressed in the early mesoderm." anon-EST:fe1A11 _ _ anon-fast-evolving-1A11 _ anon-EST:fe1A12 _ _ anon-fast-evolving-1A12 _ anon-EST:fe1A9 _ _ anon-fast-evolving-1A9 _ anon-EST:fe1B11 _ _ anon-fast-evolving-1B11 _ anon-EST:fe1B2 _ _ anon-fast-evolving-1B2 _ anon-EST:fe1B3 _ _ anon-fast-evolving-1B3 _ anon-EST:fe1B4 _ _ anon-fast-evolving-1B4 _ anon-EST:fe1B5 _ _ anon-fast-evolving-1B5 _ anon-EST:fe1B6 _ _ anon-fast-evolving-1B6 _ anon-EST:fe1B7 _ _ anon-fast-evolving-1B7 _ anon-EST:fe1B9 _ _ anon-fast-evolving-1B9 _ anon-EST:fe1C6 _ _ anon-fast-evolving-1C6 _ anon-EST:fe1E4 _ _ anon-fast-evolving-1E4 _ anon-EST:fe1F11 _ _ anon-fast-evolving-1F11 _ anon-EST:fe1F3 _ _ anon-fast-evolving-1F3 _ anon-EST:fe1F5 _ _ anon-fast-evolving-1F5 _ anon-EST:fe1F7 _ _ anon-fast-evolving-1F7 _ anon-EST:fe1F8 _ _ anon-fast-evolving-1F8 _ anon-EST:fe1G2 _ _ anon-fast-evolving-1G2 _ anon-EST:fe1H12 _ _ anon-fast-evolving-1H12 _ anon-EST:fe1H4 _ _ anon-fast-evolving-1H4 _ anon-EST:fe1H7 _ _ anon-fast-evolving-1H7 _ anon-EST:fe2A2 _ _ anon-fast-evolving-2A2 _ anon-EST:fe2A4 _ _ anon-fast-evolving-2A4 _ anon-EST:fe2A7 _ _ anon-fast-evolving-2A7 _ anon-EST:fe2B11 _ _ anon-fast-evolving-2B11 _ anon-EST:fe2B3 _ _ anon-fast-evolving-2B3 _ anon-EST:fe2C11 _ _ anon-fast-evolving-2C11 _ anon-EST:fe2D2 _ _ anon-fast-evolving-2D2 _ anon-EST:fe2E1 _ _ anon-fast-evolving-2E1 _ anon-EST:fe2E6 _ _ anon-fast-evolving-2E6 _ anon-EST:fe2F1 _ _ anon-fast-evolving-2F1 _ anon-EST:fe2F10 _ _ anon-fast-evolving-2F10 _ anon-EST:fe2G11 _ _ anon-fast-evolving-2G11 _ anon-EST:fe2G7 _ _ anon-fast-evolving-2G7 _ anon-EST:fe2H3 _ _ anon-fast-evolving-2H3 _ anon-EST:fe3A4 _ _ anon-fast-evolving-3A4 _ anon-EST:fe3A8 _ _ anon-fast-evolving-3A8 _ anon-EST:fe3B10 _ _ anon-fast-evolving-3B10 _ anon-EST:fe3C4 _ _ anon-fast-evolving-3C4 _ anon-EST:Gibbs1 _ _ _ _ anon-EST:Gibbs2 _ _ _ _ anon-EST:Gibbs3 _ _ _ _ anon-EST:Gibbs4 _ _ _ _ anon-EST:GressD1 _ _ _ _ anon-EST:GressD10 _ _ _ _ anon-EST:GressD11 _ _ _ _ anon-EST:GressD16 _ _ _ _ anon-EST:GressD4 _ _ _ _ anon-EST:GressD5 _ _ _ _ anon-EST:GressD6 _ _ _ _ anon-EST:GressD7 _ _ _ _ anon-EST:Liang-1.11 _ _ _ _ anon-EST:Liang-1.13 _ _ _ _ anon-EST:Liang-1.14 _ _ _ _ anon-EST:Liang-1.16 _ _ _ _ anon-EST:Liang-1.18 _ _ _ _ anon-EST:Liang-1.21 mRNA splicing; GO:0006371 | inferred from sequence similarity _ _ _ anon-EST:Liang-1.24 _ _ _ _ anon-EST:Liang-1.25 _ _ _ _ anon-EST:Liang-1.29 _ _ _ _ anon-EST:Liang-1.3 _ _ _ _ anon-EST:Liang-1.32 _ _ _ _ anon-EST:Liang-1.34 _ _ _ _ anon-EST:Liang-1.35 _ _ _ _ anon-EST:Liang-1.37 _ _ _ _ anon-EST:Liang-1.38 _ _ _ _ anon-EST:Liang-1.39 _ _ _ _ anon-EST:Liang-1.4 _ _ _ _ anon-EST:Liang-1.40 _ _ _ _ anon-EST:Liang-1.41 _ _ _ _ anon-EST:Liang-1.43 _ _ _ _ anon-EST:Liang-1.45 _ _ _ _ anon-EST:Liang-1.46 _ _ _ _ anon-EST:Liang-1.47 _ _ _ _ anon-EST:Liang-1.48 _ _ _ _ anon-EST:Liang-1.52 _ _ _ _ anon-EST:Liang-1.53 _ _ _ _ anon-EST:Liang-1.56 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ _ _ anon-EST:Liang-1.62 _ _ _ _ anon-EST:Liang-1.66 _ _ _ _ anon-EST:Liang-1.72 _ _ _ _ anon-EST:Liang-1.74 _ _ _ _ anon-EST:Liang-1.75 _ _ _ _ anon-EST:Liang-1.76 _ _ _ _ anon-EST:Liang-1.78 _ _ _ _ anon-EST:Liang-1.79 _ _ _ _ anon-EST:Liang-1.80 smooth muscle contraction; GO:0006939 | inferred from sequence similarity _ _ _ anon-EST:Liang-1.82 _ _ _ _ anon-EST:Liang-1.83 _ _ _ _ anon-EST:Liang-2.1 _ _ _ _ anon-EST:Liang-2.12 _ _ _ _ anon-EST:Liang-2.13 _ _ _ _ anon-EST:Liang-2.14 _ _ _ _ anon-EST:Liang-2.15 methionyl-tRNA aminoacylation; GO:0006431 | inferred from sequence similarity _ _ _ anon-EST:Liang-2.16 _ _ _ _ anon-EST:Liang-2.19 _ _ _ _ anon-EST:Liang-2.2 _ _ _ _ anon-EST:Liang-2.23 _ _ _ _ anon-EST:Liang-2.24 _ _ _ _ anon-EST:Liang-2.28 _ _ _ _ anon-EST:Liang-2.31 _ _ _ _ anon-EST:Liang-2.39 _ _ _ _ anon-EST:Liang-2.40 _ _ _ _ anon-EST:Liang-2.41 _ _ _ _ anon-EST:Liang-2.42 _ _ _ _ anon-EST:Liang-2.47 _ _ _ _ anon-EST:Liang-2.48 _ _ _ _ anon-EST:Liang-2.49 _ _ _ _ anon-EST:Liang-2.51 _ _ _ _ anon-EST:Liang-2.54 _ _ _ _ anon-EST:Liang-20 _ _ _ _ anon-EST:Liang-38 _ _ _ _ anon-EST:Liang-97 _ _ _ _ anon-EST:Nelson1 _ _ _ _ anon-EST:ParkEST125 _ _ _ _ anon-EST:ParkEST132 _ _ _ _ anon-EST:ParkEST325 _ _ _ _ anon-EST:Posey1 _ _ _ _ anon-EST:Posey101 _ _ _ _ anon-EST:Posey102 _ _ _ _ anon-EST:Posey107 _ _ _ _ anon-EST:Posey11 _ _ _ _ anon-EST:Posey117 _ _ _ _ anon-EST:Posey119 _ _ _ _ anon-EST:Posey126 _ _ _ _ anon-EST:Posey139 _ _ _ _ anon-EST:Posey146 _ _ _ _ anon-EST:Posey152 _ _ _ _ anon-EST:Posey155 _ _ _ _ anon-EST:Posey156 _ _ _ _ anon-EST:Posey171 _ _ _ _ anon-EST:Posey175 _ _ _ _ anon-EST:Posey178 _ _ _ _ anon-EST:Posey186 _ _ _ _ anon-EST:Posey204 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ _ _ anon-EST:Posey215 _ _ _ _ anon-EST:Posey216 _ _ _ _ anon-EST:Posey221 _ _ _ _ anon-EST:Posey226 _ _ _ _ anon-EST:Posey232 _ _ _ _ anon-EST:Posey243 _ _ _ _ anon-EST:Posey246 _ _ _ _ anon-EST:Posey247 _ _ _ _ anon-EST:Posey249 _ _ _ _ anon-EST:Posey25 _ _ _ _ anon-EST:Posey251 _ _ _ _ anon-EST:Posey259 _ _ _ _ anon-EST:Posey262 _ _ _ _ anon-EST:Posey263 _ _ _ _ anon-EST:Posey264 _ _ _ _ anon-EST:Posey268 _ _ _ _ anon-EST:Posey277 _ _ _ _ anon-EST:Posey280 _ _ _ _ anon-EST:Posey285 _ _ _ _ anon-EST:Posey288 _ _ _ _ anon-EST:Posey289 _ _ _ _ anon-EST:Posey292 _ _ _ _ anon-EST:Posey294 _ _ _ _ anon-EST:Posey35 _ _ _ _ anon-EST:Posey37 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ _ _ anon-EST:Posey5 _ _ _ _ anon-EST:Posey52 _ _ _ _ anon-EST:Posey59 _ _ _ _ anon-EST:Posey6 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ _ _ anon-EST:Posey64 _ _ _ _ anon-EST:Posey65 _ _ _ _ anon-EST:Posey69 _ _ _ _ anon-EST:Posey7 _ _ _ _ anon-EST:Posey79 _ _ _ _ anon-EST:Posey83 _ _ _ _ anon-EST:Posey9 _ _ _ _ anon-EST:Posey93 _ _ _ _ anon-EST:Schwartz-1 _ _ _ _ anon-F1 _ _ _ _ anon-ft1 _ _ _ _ anon-G36 _ _ _ _ anon-H15 _ _ _ _ anon-H2 _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-H31 _ _ _ "Transcription unit identified during molecular analysis of the Med, genomic region." anon-I7114 _ _ _ "Transcription unit identified during molecular analysis of the Med, genomic region." anon-II-E9 _ _ _ _ anon-IX _ _ _ _ anon-J1 _ _ anon J1 _ anon-J1b _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-J7 _ _ _ Encodes a transcript expressed in the heads of adult flies. anon-JP0139481-A.1 _ _ _ _ anon-JP2000023680 _ _ _ _ anon-M53 _ _ _ _ anon-M8 _ _ _ _ anon-MMS128 _ _ _ Transcript induced by MMS treatment of S1CII cells. anon-MMS23 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ _ Transcript induced by MMS treatment of S1CII cells. anon-MMS35 _ _ _ Transcript induced by MMS treatment of S1CII cells. anon-MMS91 _ _ _ Transcript induced by MMS treatment of S1CII cells. anon-P1609-I _ _ _ _ anon-P1609-II _ _ _ _ anon-P1609-III _ _ _ _ anon-P241 _ _ _ _ anon-P97 _ _ _ _ anon-Pen57BC _ _ _ _ anon-Pen68A _ _ _ _ anon-Pen79B _ _ _ _ anon-pp84 _ _ _ _ anon-Q177 _ _ _ _ anon-Q212 _ _ _ _ anon-R100 _ _ _ _ anon-R258 _ _ _ _ anon-RNA:A1 _ _ _ "This is not in the Celera genome, and doesn't resemble anything enough for comment [S. Mount]." anon-TE7 _ _ _ _ anon-topo _ _ anon-topoisomerase II cleavage sites cleavage sites. anon-UJ4c _ _ _ _ anon-UJB6 _ _ _ _ anon-VI-C4 _ _ _ _ anon-VII-C7 _ _ _ _ anon-VII-I8 _ _ _ _ anon-VIII _ _ _ _ anon-VIII-E7 _ _ _ _ anon-WO0026364 _ _ _ _ anon-WO0073329.1 _ _ _ _ anon-WO0073329.2 _ _ _ _ anon-WO0073329.4 _ _ _ _ anon-WO0073329.6 _ _ _ _ anon-WO0073329.7 _ _ _ _ anon-WO0078940.1 _ _ _ _ anon-WO0078940.4 _ _ _ _ anon-WO0104295 _ _ _ _ anon-WO0107627.1 _ _ _ _ anon-WO0107627.12 _ _ _ _ anon-WO0107627.2 _ _ _ _ anon-WO0107627.3 _ _ _ _ anon-WO0109301.1 _ _ _ _ anon-WO0109301.11 _ _ _ _ anon-WO0109301.12 _ _ _ _ anon-WO0109301.15 _ _ _ _ anon-WO0109301.16 _ _ _ _ anon-WO0109301.17 _ _ _ _ anon-WO0109301.18 _ _ _ _ anon-WO0109301.19 _ _ _ _ anon-WO0109301.20 _ _ _ _ anon-WO0109301.21 _ _ _ _ anon-WO0109301.22 _ _ _ _ anon-WO0109301.23 _ _ _ _ anon-WO0109301.24 _ _ _ _ anon-WO0109301.25 _ _ _ _ anon-WO0109301.26 _ _ _ _ anon-WO0109301.27 _ _ _ _ anon-WO0109301.28 _ _ _ _ anon-WO0109301.29 _ _ _ _ anon-WO0109301.3 _ _ _ _ anon-WO0109301.31 _ _ _ _ anon-WO0109301.32 _ _ _ _ anon-WO0109301.33 _ _ _ _ anon-WO0109301.34 _ _ _ _ anon-WO0109301.35 _ _ _ _ anon-WO0109301.36 _ _ _ _ anon-WO0109301.37 _ _ _ _ anon-WO0109301.38 _ _ _ _ anon-WO0109301.39 _ _ _ _ anon-WO0109301.40 _ _ _ _ anon-WO0109301.41 _ _ _ _ anon-WO0109301.42 _ _ _ _ anon-WO0109301.43 _ _ _ _ anon-WO0109301.44 _ _ _ _ anon-WO0109301.45 _ _ _ _ anon-WO0109301.46 _ _ _ _ anon-WO0109301.47 _ _ _ _ anon-WO0109301.48 _ _ _ _ anon-WO0109301.49 _ _ _ _ anon-WO0109301.5 _ _ _ _ anon-WO0109301.50 _ _ _ _ anon-WO0109301.51 _ _ _ _ anon-WO0109301.52 _ _ _ _ anon-WO0109301.53 _ _ _ _ anon-WO0109301.54 _ _ _ _ anon-WO0109301.55 _ _ _ _ anon-WO0109301.56 _ _ _ _ anon-WO0109301.57 _ _ _ _ anon-WO0109301.58 _ _ _ _ anon-WO0109301.59 _ _ _ _ anon-WO0109301.60 _ _ _ _ anon-WO0109301.9 _ _ _ _ anon-WO0118547.10 _ _ _ _ anon-WO0118547.102 _ _ _ _ anon-WO0118547.105 _ _ _ _ anon-WO0118547.106 _ _ _ _ anon-WO0118547.107 _ _ _ _ anon-WO0118547.108 _ _ _ _ anon-WO0118547.111 _ _ _ _ anon-WO0118547.113 _ _ _ _ anon-WO0118547.114 _ _ _ _ anon-WO0118547.116 _ _ _ _ anon-WO0118547.117 _ _ _ _ anon-WO0118547.119 _ _ _ _ anon-WO0118547.121 _ _ _ _ anon-WO0118547.123 _ _ _ _ anon-WO0118547.124 _ _ _ _ anon-WO0118547.126 _ _ _ _ anon-WO0118547.127 _ _ _ _ anon-WO0118547.128 _ _ _ _ anon-WO0118547.131 _ _ _ _ anon-WO0118547.133 _ _ _ _ anon-WO0118547.134 _ _ _ _ anon-WO0118547.137 _ _ _ _ anon-WO0118547.138 _ _ _ _ anon-WO0118547.139 _ _ _ _ anon-WO0118547.140 _ _ _ _ anon-WO0118547.141 _ _ _ _ anon-WO0118547.143 _ _ _ _ anon-WO0118547.145 _ _ _ _ anon-WO0118547.146 _ _ _ _ anon-WO0118547.148 _ _ _ _ anon-WO0118547.149 _ _ _ _ anon-WO0118547.151 _ _ _ _ anon-WO0118547.152 _ _ _ _ anon-WO0118547.153 _ _ _ _ anon-WO0118547.154 _ _ _ _ anon-WO0118547.156 _ _ _ _ anon-WO0118547.157 _ _ _ _ anon-WO0118547.158 _ _ _ _ anon-WO0118547.16 _ _ _ _ anon-WO0118547.160 _ _ _ _ anon-WO0118547.161 _ _ _ _ anon-WO0118547.162 _ _ _ _ anon-WO0118547.163 _ _ _ _ anon-WO0118547.164 _ _ _ _ anon-WO0118547.165 _ _ _ _ anon-WO0118547.166 _ _ _ _ anon-WO0118547.167 _ _ _ _ anon-WO0118547.168 _ _ _ _ anon-WO0118547.169 _ _ _ _ anon-WO0118547.170 _ _ _ _ anon-WO0118547.171 _ _ _ _ anon-WO0118547.172 _ _ _ _ anon-WO0118547.175 _ _ _ _ anon-WO0118547.176 _ _ _ _ anon-WO0118547.179 _ _ _ _ anon-WO0118547.180 _ _ _ _ anon-WO0118547.181 _ _ _ _ anon-WO0118547.182 _ _ _ _ anon-WO0118547.183 _ _ _ _ anon-WO0118547.187 _ _ _ _ anon-WO0118547.188 _ _ _ _ anon-WO0118547.189 _ _ _ _ anon-WO0118547.190 _ _ _ _ anon-WO0118547.193 _ _ _ _ anon-WO0118547.194 _ _ _ _ anon-WO0118547.195 _ _ _ _ anon-WO0118547.196 _ _ _ _ anon-WO0118547.198 _ _ _ _ anon-WO0118547.199 _ _ _ _ anon-WO0118547.200 _ _ _ _ anon-WO0118547.204 _ _ _ _ anon-WO0118547.205 _ _ _ _ anon-WO0118547.208 _ _ _ _ anon-WO0118547.211 _ _ _ _ anon-WO0118547.212 _ _ _ _ anon-WO0118547.213 _ _ _ _ anon-WO0118547.214 _ _ _ _ anon-WO0118547.215 _ _ _ _ anon-WO0118547.216 _ _ _ _ anon-WO0118547.217 _ _ _ _ anon-WO0118547.218 _ _ _ _ anon-WO0118547.221 _ _ _ _ anon-WO0118547.222 _ _ _ _ anon-WO0118547.225 _ _ _ _ anon-WO0118547.226 _ _ _ _ anon-WO0118547.227 _ _ _ _ anon-WO0118547.23 _ _ _ _ anon-WO0118547.230 _ _ _ _ anon-WO0118547.236 _ _ _ _ anon-WO0118547.237 _ _ _ _ anon-WO0118547.238 _ _ _ _ anon-WO0118547.239 _ _ _ _ anon-WO0118547.242 _ _ _ _ anon-WO0118547.243 _ _ _ _ anon-WO0118547.245 _ _ _ _ anon-WO0118547.246 _ _ _ _ anon-WO0118547.247 _ _ _ _ anon-WO0118547.248 _ _ _ _ anon-WO0118547.249 _ _ _ _ anon-WO0118547.250 _ _ _ _ anon-WO0118547.253 _ _ _ _ anon-WO0118547.254 _ _ _ _ anon-WO0118547.255 _ _ _ _ anon-WO0118547.256 _ _ _ _ anon-WO0118547.259 _ _ _ _ anon-WO0118547.260 _ _ _ _ anon-WO0118547.261 _ _ _ _ anon-WO0118547.263 _ _ _ _ anon-WO0118547.264 _ _ _ _ anon-WO0118547.265 _ _ _ _ anon-WO0118547.266 _ _ _ _ anon-WO0118547.267 _ _ _ _ anon-WO0118547.268 _ _ _ _ anon-WO0118547.269 _ _ _ _ anon-WO0118547.270 _ _ _ _ anon-WO0118547.271 _ _ _ _ anon-WO0118547.272 _ _ _ _ anon-WO0118547.276 _ _ _ _ anon-WO0118547.277 _ _ _ _ anon-WO0118547.278 _ _ _ _ anon-WO0118547.279 _ _ _ _ anon-WO0118547.280 _ _ _ _ anon-WO0118547.281 _ _ _ _ anon-WO0118547.282 _ _ _ _ anon-WO0118547.285 _ _ _ _ anon-WO0118547.287 _ _ _ _ anon-WO0118547.289 _ _ _ _ anon-WO0118547.290 _ _ _ _ anon-WO0118547.293 _ _ _ _ anon-WO0118547.295 _ _ _ _ anon-WO0118547.296 _ _ _ _ anon-WO0118547.297 _ _ _ _ anon-WO0118547.3 _ _ _ _ anon-WO0118547.302 _ _ _ _ anon-WO0118547.303 _ _ _ _ anon-WO0118547.305 _ _ _ _ anon-WO0118547.306 _ _ _ _ anon-WO0118547.307 _ _ _ _ anon-WO0118547.308 _ _ _ _ anon-WO0118547.309 _ _ _ _ anon-WO0118547.311 _ _ _ _ anon-WO0118547.313 _ _ _ _ anon-WO0118547.314 _ _ _ _ anon-WO0118547.315 _ _ _ _ anon-WO0118547.316 _ _ _ _ anon-WO0118547.317 _ _ _ _ anon-WO0118547.319 _ _ _ _ anon-WO0118547.320 _ _ _ _ anon-WO0118547.321 _ _ _ _ anon-WO0118547.323 _ _ _ _ anon-WO0118547.324 _ _ _ _ anon-WO0118547.326 _ _ _ _ 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anon-WO0172774.21 _ _ _ _ anon-WO0172774.22 _ _ _ _ anon-WO0172774.24 _ _ _ _ anon-WO0172774.25 _ _ _ _ anon-WO0172774.26 _ _ _ _ anon-WO0172774.27 _ _ _ _ anon-WO0172774.28 _ _ _ _ anon-WO0172774.29 _ _ _ _ anon-WO0172774.3 _ _ _ _ anon-WO0172774.31 _ _ _ _ anon-WO0172774.32 _ _ _ _ anon-WO0172774.33 _ _ _ _ anon-WO0172774.35 _ _ _ _ anon-WO0172774.36 _ _ _ _ anon-WO0172774.37 _ _ _ _ anon-WO0172774.38 _ _ _ _ anon-WO0172774.39 _ _ _ _ anon-WO0172774.4 _ _ _ _ anon-WO0172774.40 _ _ _ _ anon-WO0172774.41 _ _ _ _ anon-WO0172774.42 _ _ _ _ anon-WO0172774.44 _ _ _ _ anon-WO0172774.45 _ _ _ _ anon-WO0172774.46 _ _ _ _ anon-WO0172774.47 _ _ _ _ anon-WO0172774.48 _ _ _ _ anon-WO0172774.49 _ _ _ _ anon-WO0172774.5 _ _ _ _ anon-WO0172774.50 _ _ _ _ anon-WO0172774.51 _ _ _ _ anon-WO0172774.52 _ _ _ _ anon-WO0172774.54 _ _ _ _ anon-WO0172774.55 _ _ _ _ anon-WO0172774.56 _ _ _ _ anon-WO0172774.58 _ _ _ _ anon-WO0172774.59 _ _ _ _ anon-WO0172774.60 _ _ _ _ anon-WO0172774.61 _ _ _ _ anon-WO0172774.62 _ _ _ _ anon-WO0172774.63 _ _ _ _ anon-WO0172774.65 _ _ _ _ anon-WO0172774.66 _ _ _ _ anon-WO0172774.67 _ _ _ _ anon-WO0172774.68 _ _ _ _ anon-WO0172774.69 _ _ _ _ anon-WO0172774.7 _ _ _ _ anon-WO0172774.70 _ _ _ _ anon-WO0172774.71 _ _ _ _ anon-WO0172774.72 _ _ _ _ anon-WO0172774.73 _ _ _ _ anon-WO0172774.75 _ _ _ _ anon-WO0172774.76 _ _ _ _ anon-WO0172774.77 _ _ _ _ anon-WO0172774.78 _ _ _ _ anon-WO0172774.79 _ _ _ _ anon-WO0172774.8 _ _ _ _ anon-WO0172774.80 _ _ _ _ anon-WO0172774.82 _ _ _ _ anon-WO0172774.83 _ _ _ _ anon-WO0172774.84 _ _ _ _ anon-WO0172774.85 _ _ _ _ anon-WO0172774.86 _ _ _ _ anon-WO0172774.87 _ _ _ _ anon-WO0172774.89 _ _ _ _ anon-WO0172774.90 _ _ _ _ anon-WO0172774.92 _ _ _ _ anon-WO0172774.93 _ _ _ _ anon-WO0172774.95 _ _ _ _ anon-WO0172774.96 _ _ _ _ anon-WO0172774.98 _ _ _ _ anon-WO0172774.99 _ _ _ _ anon-WO0196371.27 _ _ _ _ anon-WO0200864.1 _ _ _ _ anon-WO0210402.19 _ _ _ _ anon-WO0210402.20 _ _ _ _ anon-WO0229075.1 _ _ _ _ anon-WO0242455.3 _ _ _ _ anon-WO0242455.4 _ _ _ _ anon-WO0242455.53 _ _ _ _ anon-WO0242455.6 _ _ _ _ anon-WO0242455.7 _ _ _ _ anon-WO9933973 _ _ _ _ anon-WO9942574 _ _ _ _ anon-WO9945126 _ _ _ _ anon-WO9945127 _ _ _ _ anon-X2 _ _ _ _ anon-XII _ _ _ _ anon-XII-F3 _ _ _ _ anon-XIII _ _ _ _ anon-XIV _ _ _ _ anon-XV _ _ _ _ anon-XVI _ _ _ _ anon-XVIII _ _ _ _ anon-XX _ _ _ _ anon-XXIII _ _ _ _ anon-XXIV _ _ _ _ anon-Y _ _ _ _ Anp male-specific antibacterial humoral response; GO:0006962 | non-traceable author statement; male-specific antibacterial humoral response; GO:0006962 | traceable author statement _ Andropin "Encodes a cecropin-like protein expressed only in the, adult male ejaculatory duct. Anp is induced by mating." ant _ _ antennaless _ Ant2 _ _ Adenine nucleotide translocase 2 _ ANTC _ _ Antennapedia Complex _ antdh _ _ _ _ Antp regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement; segment specification; GO:0007379 | non-traceable author statement _ Antennapedia _ Anxb11 _ _ Annexin B11 _ aop cell fate determination; GO:0001709 | inferred from mutant phenotype; induction of apoptosis; GO:0006917 | inferred from mutant phenotype _ anterior open _ aor _ _ abdominal one reduced _ Aos1 SMT3-dependent protein catabolism; GO:0019950 | non-traceable author statement _ _ _ ap axon guidance; GO:0007411 | inferred from mutant phenotype; leg disc proximal/distal pattern formation; GO:0007479 | inferred from mutant phenotype; muscle development; GO:0007517 | inferred from mutant phenotype; neurogenesis; GO:0007399 | inferred from mutant phenotype; transcription; GO:0006350 | inferred from mutant phenotype _ apterous _ AP-1gamma non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ _ _ AP-1sigma non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ _ _ AP-2 leg joint morphogenesis; GO:0016348 | inferred from mutant phenotype; leg morphogenesis; GO:0007480 | inferred from mutant phenotype; leg morphogenesis; GO:0007480 | inferred from mutant phenotype; proboscis morphogenesis; GO:0016349 | inferred from mutant phenotype _ _ AP-2 is an important mediator of N activity in leg development. AP-2gamma neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle endocytosis; GO:0008099 | non-traceable author statement _ _ _ AP-2sigma non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ _ _ AP-47 non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ _ _ AP-50 non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ _ _ Apc frizzled-2 receptor signaling pathway; GO:0007223 | non-traceable author statement; microtubule-based process; GO:0007017 | inferred from sequence similarity _ APC-like "Regulation of arm by Apc inhibits neuronal apoptosis during retinal, development." Apc2 cytokinesis; GO:0016288 | traceable author statement; microtubule-based process; GO:0007017 | inferred from sequence similarity _ Adenomatous polyposis coli tumor suppressor homolog 2 Apc2 is a negative regulator of wg signaling in the embryonic epidermis. ApepP _ _ _ _ aperA _ _ abnormal proboscis extension reflex A _ aperB _ _ abnormal proboscis extension reflex B _ aperC _ _ abnormal proboscis extension reflex C _ apg _ _ apang _ Aph-1 _ _ Alkaline phosphatase 1 "Locus responsible for one of several different, alkaline phosphatase species (APH1)., APH1 becomes active in the larval cuticle and muscle, during the third instar. Electrophoretic mobility of a, pupal form of the enzyme, which differs from that, found in the larva, also appears to be controlled by, this locus (FBrf0019197)." Aph-2 _ _ Alkaline phosphatase 2 The alkaline phosphatase found in adult hindgut. Aph-3 _ _ Alkaline phosphatase 3 _ Aph-4 _ _ Alkaline phosphatase 4 _ ApII DNA repair; GO:0006281 | inferred from direct assay _ Apurinic/apyrimidinic endonuclease II _ aPKC oocyte determination; GO:0007294 | inferred from mutant phenotype _ atypical protein kinase C _ Aplip1 _ _ APP-like protein interacting protein 1 _ apo _ _ altered pattern orientation _ app _ _ approximated _ Appl neurogenesis; GO:0007399 | non-traceable author statement _ beta amyloid protein precursor-like _ Aprt purine salvage; GO:0006166 | non-traceable author statement _ Adenine phosphoribosyltransferase The structural gene for adenine phosphoribosyltransferase. Apt _ _ Apart _ apt _ _ apontic _ AQP _ _ aquaporin _ ar _ _ abdomen rotatum _ AR-2 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:AlstR; FB:FBgn0028961 _ Allatostatin Receptor 2 _ ara transcription initiation; GO:0006352 | non-traceable author statement _ araucan _ aralar1 transport; GO:0006810 | non-traceable author statement _ _ _ Arc-p34 regulation of actin polymerization and/or depolymerization; GO:0008064 | non-traceable author statement _ _ "The Arp2/3 complex (including Arc-p34) is required for actin cap, expansion and pseudocleavage furrow formation during syncytial blastoderm, divisions." Arc105 _ _ _ _ Arc32 _ _ _ _ Arc42 _ _ _ _ Arc70 _ _ _ _ Arc92 _ _ _ _ Arch _ _ Archain _ arch _ _ arch _ aret oogenesis; GO:0007292 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype _ arrest _ Arf102F protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with MGD:Arf4; MGI:MGI:99433 _ ADP ribosylation factor 102F Encodes a small GTP-binding protein of the ADP-ribosymation factor family. Arf51F protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with MGD:Arf2; MGI:MGI:99595 _ ADP ribosylation factor 51F Encodes a small GTP-binding protein of the ADP-ribosymation factor family. Arf72A protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with MGD:Arf2; MGI:MGI:99595 _ Arflike at 72A Encodes a small GTP-binding protein of the ADP-ribosymation factor family. Arf79F protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with MGD:Arf2; MGI:MGI:99595 _ ADP ribosylation factor 79F Encodes a small GTP-binding protein of the ADP-ribosymation factor family. Arf84F protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with FLYBASE:Arf72A; FB:FBgn0000115; protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with HUGO:ARF1; OMIM:103180; protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with MGD:Arf2; MGI:MGI:99595 _ ADP ribosylation factor 84F Encodes a small GTP-binding protein of the ADP-ribosymation factor family. arg _ _ arginase _ Argk _ _ Arginine kinase "Structural gene for arginine kinase (ARGK) based on gene dosage studies. Cellular and, mitochondrial forms behave as if both are products of, the gene. (FBrf0042737)." argos axon guidance; GO:0007411 | non-traceable author statement; negative regulation of EGF receptor signaling pathway; GO:0042059 | non-traceable author statement _ argos _ ari-1 _ _ ariadne "ari-1 is required for the correct differentiation of most cell types, in the adult organism." ari-2 _ _ ariadne 2 _ Ark caspase activation; GO:0006919 | inferred from physical interaction with FLYBASE:Dredd; FB:FBgn0020381; caspase activation; GO:0006919 | inferred from sequence similarity with HUGO:APAF1; OMIM:602233; caspase activation; GO:0006919 | inferred from sequence similarity with HUGO:APAF1; OMIM:602233; caspase activation; GO:0006919 | inferred from sequence similarity with WB:ced-4 _ Apaf-1-related-killer Ark is required for normal cell death during embryonic development. arm frizzled receptor signaling pathway; GO:0007222 | inferred from sequence similarity with MGD:Catnb; MGI:MGI:88276; segment polarity determination; GO:0007367 | inferred from sequence similarity with MGD:Catnb; MGI:MGI:88276 _ armadillo _ armi _ _ armitage "armi is required for posterior and dorsoventral patterning, during oogenesis." ARP-like _ _ _ _ Arp11 cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity; cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with SGD:ARP10; SGDID:S0002513 _ _ _ Arp14D cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity; cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with SGD:ARP2; SGDID:S0002187 _ Actin-related protein 14D _ Arp53D cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity; cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with SGD:ACT1; SGDID:S0001855 _ Actin-related protein 53D _ Arp66B cell cycle dependent actin filament reorganization; GO:0030037 | inferred from physical interaction with FLYBASE:Sop2; FB:FBgn0001961; cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with SGD:ARP3; SGDID:S0003826; pseudocleavage (sensu Insecta); GO:0030589 | inferred from physical interaction with FLYBASE:Sop2; FB:FBgn0001961 _ Actin-related protein 66B "The Arp2/3 complex (including Arp66B) is required for actin cap expansion, and pseudocleavage furrow formation during syncytial blastoderm divisions." Arp87C cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity; cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with SGD:ARP1; SGDID:S0001171 _ Actin-related protein 87C "The dynactin complex, (which contains Gl and Arp87C) functions, locally within the presynaptic arbor to promote synapse stability." arr Wnt receptor signaling pathway; GO:0016055 | inferred from mutant phenotype; Wnt receptor signaling pathway; GO:0016055 | traceable author statement _ arrow "arr gene function is essential in cells receiving wg input and, it acts upstream of dsh." Arr1 deactivation of rhodopsin mediated signaling; GO:0016059 | inferred from genetic interaction with FLYBASE:Arr2; FB:FBgn0000121; metarhodopsin inactivation; GO:0016060 | inferred from genetic interaction with FLYBASE:Arr2; FB:FBgn0000121; metarhodopsin inactivation; GO:0016060 | inferred from genetic interaction with FLYBASE:Arr2; FB:FBgn0000121 _ Arrestin 1 "Encodes a Drosophila homologue of mammalian arrestin,, a protein that interacts stoichiometrically with, activated rhodopsin, inhibiting its ability to, interact with the G protein, transducin, thus, terminating the visual response. Phosphorylated by exposure, to light in the presence but not the absence (i.e.,, ninaE flies) of rhodopsin., Expression first detected, in late pupae, when other genes involved in, phototransduction are also first expressed. Transcript, localized to photoreceptor cells of the compound eye,, the ocelli, and the larval light sensitive organ." Arr2 deactivation of rhodopsin mediated signaling; GO:0016059 | inferred from genetic interaction with FLYBASE:Arr1; FB:FBgn0000120; metarhodopsin inactivation; GO:0016060 | inferred from genetic interaction with FLYBASE:Arr1; FB:FBgn0000120 _ Arrestin 2 "Encodes a Drosophila homologue of mammalian, arrestin, a protein that is, phosphorylated by exposure to light in wild-type but, not in ninaE flies which lack rhodopsin in, photoreceptor cells 1-6, nor norpA flies which are, deficient in phospholipase C activity. Phosphorylation, dependent on the presence of Ca[++], whose, intracellular levels are regulated by phospholipase C., Expression first detected in late pupae, when other, genes involved in phototransduction are also first, expressed. Arr2 expression is approximately seven, times that of Arr1. In the adult, transcript localized, to photoreceptor cells of the compound eye and the, ocelli." Ars _ _ Arylsulfatase "Inferred as structural gene for arylsulfatase (ARS) on basis of, response of enzyme level to gene dosage." arth _ _ arthritic _ aru EGF receptor signaling pathway; GO:0007173 | inferred from sequence similarity with MGD:Eps8; MGI:MGI:104684; EGF receptor signaling pathway; GO:0007173 | non-traceable author statement _ arouser _ AS _ _ Asparagine synthetase _ As _ _ Angelman syndrome _ as _ _ ascute _ ASC _ _ Achaete-scute Complex _ ase neurogenesis; GO:0007399 | inferred from genetic interaction with FLYBASE:ac; FB:FBgn0000022; neurogenesis; GO:0007399 | inferred from genetic interaction with FLYBASE:sc; FB:FBgn0004170 _ asense _ asf1 _ _ anti-silencing factor 1 _ ash1 positive regulation of transcription by homeotic gene (trithorax group); GO:0006339 | inferred from mutant phenotype _ "absent, small, or homeotic discs 1" "A member of the trithorax group of genes. Encodes a Zinc finger protein, required for imaginal disc and histoblast development, and for oogenesis." ash2 positive regulation of transcription by homeotic gene (trithorax group); GO:0006339 | inferred from mutant phenotype _ "absent, small, or homeotic discs 2" A member of the trithorax group of genes. asl centrosome cycle; GO:0007098 | inferred from mutant phenotype _ asterless asl is required for aster formation during male meiosis. asp microtubule-based process; GO:0007017 | inferred from sequence similarity _ abnormal spindle Required for the structure of both mitotic and meiotic spindles. asparagine-synthetase _ _ asparagine synthetase _ Asph _ _ Aspartyl beta-hydroxylase _ Ast _ _ Allatostatin _ ast _ _ asteroid ast may function in an Egfr signaling pathway. Ast2 regulation of heart; GO:0008016 | non-traceable author statement _ Allatostatin 2 _ Asx negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | non-traceable author statement _ Additional sex combs _ At _ _ Attenuated _ at _ _ arctus oculus _ AT21 _ _ _ _ AT76-2A _ _ _ _ Ata _ _ Arista _ Ate1 protein arginylation; GO:0016598 | non-traceable author statement; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ _ _ Atet _ _ ABC transporter expressed in trachea _ atg _ _ adjacent-to-grapes _ Atn _ _ Allatotropin _ ato EGF receptor signaling pathway; GO:0007173 | inferred from genetic interaction with FLYBASE:Egfr; FB:FBgn0003731; smoothened receptor signaling pathway; GO:0007224 | inferred from genetic interaction with FLYBASE:hh; FB:FBgn0004644 _ atonal _ Atpalpha cation transport; GO:0006812 | non-traceable author statement _ Na pump alpha subunit "Structural gene for the alpha or catalytic subunit of, Na[+] K[+] ATPase (ouabain sensitive)., Immunofluorescence microscopy with a monoclonal, antibody demonstrates high concentrations of, alphaATPase in adult muscle, nervous tissue and, Malpighian tubules; strong immunofluorescence observed, in brain, optic lobes, photoreceptor cells of retina, and ventral thoracic neuromere." ATPCL acetyl-CoA biosynthesis; GO:0006085 | inferred from sequence similarity with SWISS-PROT:P16638 _ ATP citrate lyase _ ATPsyn-beta hydrogen transport; GO:0006818 | non-traceable author statement _ ATP synthase-beta _ ATPsyn-gamma hydrogen transport; GO:0006818 | non-traceable author statement _ ATP synthase-gamma chain _ ATPsyn-b hydrogen transport; GO:0006818 | non-traceable author statement _ "ATP synthase, subunit b" _ ATPsyn-Cf6 hydrogen transport; GO:0006818 | non-traceable author statement _ ATPase coupling factor 6 _ ATPsyn-d _ _ "ATP synthase, subunit d" _ ats _ _ abnormal tarsi _ att _ _ alternative testis transcripts "att has been cloned and sequenced, and its expression pattern has, been analyzed." AttA antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | non-traceable author statement _ Attacin-A _ AttB antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity with FLYBASE:AttA; FB:FBgn0012042 _ Attacin-B _ AttC antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity _ Attacin-C _ AttD antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity _ Attacin-D _ Atu _ _ Another transcription unit _ atx _ _ abortex "atx was identified in screen for lethal mutations that fail to complement, Df(1)10-70d." Atx2 actin filament organization; GO:0007015 | inferred from direct assay _ Ataxin-2 _ Au _ _ Auricular _ aub cystoblast cell division; GO:0007282 | inferred from sequence similarity with EMBL:AF104260; pole cell formation; GO:0007279 | inferred from genetic interaction with FLYBASE:osk; FB:FBgn0003015; regulation of translational initiation; GO:0006446 | inferred from sequence similarity with EMBL:AF07753; protein_id:AAC24323.1; stem cell renewal; GO:0017145 | inferred from sequence similarity with EMBL:AF104260 _ aubergine "Required for dorso-ventral patterning and posterior body patterning., aub is required to enhance osk translation, acting through the, osk 3'UTR and sequences upstream of the 3'UTR." auk _ _ auk _ aur asymmetric protein localization involved in cell fate commitment; GO:0045167 | inferred from mutant phenotype; centrosome cycle; GO:0007098 | inferred from mutant phenotype; centrosome separation; GO:0007100 | inferred from mutant phenotype _ aurora "aur is required for centrosome maturation and actin dependant asymmetric, localization of numb during mitosis." Aus _ _ _ _ Aut1 _ _ _ _ auxillin protein amino acid phosphorylation; GO:0006468 | non-traceable author statement; synaptic vesicle uncoating; GO:0016191 | traceable author statement _ _ _ awd CTP biosynthesis; GO:0006241 | inferred from sequence similarity with MGD:Nme2; MGI:MGI:97356; GTP biosynthesis; GO:0006183 | inferred from sequence similarity with MGD:Nme2; MGI:MGI:97356; UTP biosynthesis; GO:0006228 | inferred from sequence similarity with MGD:Nme2; MGI:MGI:97356 _ abnormal wing discs Encodes a nucleoside diphosphate kinase. Awh _ _ Arrowhead "Awh is necessary for establishment of proper numbers of cells within, a subset of imaginal precursor tissues." awu _ _ augenwulst _ ax _ _ axed _ axe _ _ axed _ Axn Wnt receptor signaling pathway; GO:0016055 | inferred from genetic interaction with FLYBASE:pan; FB:FBgn0019664; Wnt receptor signaling pathway; GO:0016055 | inferred from sequence similarity with SWISS-PROT:O35625 _ Axin _ axo _ _ axotactin "axo appears to be a component of a glial-neuronal signaling mechanism, that helps to determine the membrane electrical properties of target, axons." Axs _ _ Abnormal X segregation _ aya _ _ aya _ az2 _ _ _ _ B _ _ Bar "Phenotypic variation of the genetic components underlying oviposition, behavior is analyzed using the complete diallel mating design." b _ _ black _ B-H1 _ _ BarH1 _ B-H2 _ _ BarH2 _ kappaB-Ras _ _ _ _ B4 _ _ _ _ B52 mRNA splice site selection; GO:0006376 | inferred from sequence similarity with NCBI_NP:005617; mRNA splicing; GO:0006371 | inferred from genetic interaction _ _ B52 has a role in pre-mRNA splicing. b6 _ _ _ _ bab sex differentiation; GO:0007548 | inferred from genetic interaction with FLYBASE:Abd-B; FB:FBgn0000015; sex differentiation; GO:0007548 | inferred from genetic interaction with FLYBASE:abd-A; FB:FBgn0000014 _ bric a brac "bab integrates regulatory inputs from the homeotic and sex-determination, pathways to control sexually dimorphic abdominal pigmentation and segment, morphology." bab2 _ _ _ _ babo TGFbeta ligand binding to type I receptor; GO:0008259 | inferred from direct assay _ baboon "babo primarily regulates cell proliferation and has only minimal, effects on patterning. The babo pathway is distinct from dpp/BMP, signaling." bac _ _ backwards _ bae _ _ batone "bae may be required for the release of a hormone necessary for wing, expansion and tissue remodeling by hemocytes in the wing." bai _ _ _ _ Baldspot _ _ _ _ bam cystoblast cell division; GO:0007282 | inferred from mutant phenotype; fusome organization and biogenesis; GO:0045478 | inferred from mutant phenotype; gametogenesis; GO:0007276 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype _ bag of marbles _ bangdoo _ _ bangdoo "Encodes a DNA binding protein identified by screening a cDNA expression, library with the repeated sequence (GCTGNG)n." bao _ _ beatoangelico _ Bap non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ Beta Adaptin _ bap cell fate commitment; GO:0045165 | non-traceable author statement _ bagpipe _ Bap170 _ _ Brahma associated protein 170kD _ Bap26 _ _ Brahma associated protein 26kD _ Bap55 _ _ Brahma associated protein 55kD _ Bap60 _ _ Brahma associated protein 60kD _ barr mitosis; GO:0007067 | inferred from sequence similarity with EMBL:U90125; mitotic chromosome condensation; GO:0007076 | inferred from sequence similarity with EMBL:U90125; mitotic chromosome segregation; GO:0000070 | inferred from sequence similarity with EMBL:U90125 _ barren _ bas _ _ bang-sensitive _ bat _ _ bat _ baton _ _ baton _ baz maintenance of oocyte identity; GO:0016350 | inferred from mutant phenotype; oocyte determination; GO:0007294 | inferred from mutant phenotype _ bazooka _ Bb _ _ Bubble _ Bbbf1 _ _ Box B-binding factor 1 _ bbx _ _ bobby sox "Defined as a transcription unit discovered by Northern blots, neighboring, slgA gene." Bc defense response; GO:0006952 | non-traceable author statement _ Black cells _ BC1 _ _ _ _ bc10 _ _ _ _ bcd "determination of anterior/posterior axis, embryo; GO:0008595 | non-traceable author statement; regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement" _ bicoid _ BcdK protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Bcd interacting protein K _ BcDNA:AT01695 _ _ _ _ BcDNA:AT01764 _ _ _ _ BcDNA:AT02643 _ _ _ _ BcDNA:AT02719 _ _ _ _ BcDNA:AT02774 _ _ _ _ BcDNA:AT02809 _ _ _ _ BcDNA:AT02866 _ _ _ _ BcDNA:AT03213 _ _ _ _ BcDNA:AT03227 _ _ _ _ BcDNA:AT03240 _ _ _ _ BcDNA:AT03311 _ _ _ _ BcDNA:AT03385 _ _ _ _ BcDNA:AT03617 _ _ _ _ BcDNA:AT03632 _ _ _ _ BcDNA:AT03646 _ _ _ _ BcDNA:AT03788 _ _ _ _ BcDNA:AT03803 _ _ _ _ BcDNA:AT03867 _ _ _ _ BcDNA:AT04143 _ _ _ _ BcDNA:AT04449 _ _ _ _ BcDNA:AT04622 _ _ _ _ BcDNA:AT04666 _ _ _ _ BcDNA:AT04690 _ _ _ _ BcDNA:AT04879 _ _ _ _ BcDNA:AT05157 _ _ _ _ BcDNA:AT05246 _ _ _ _ BcDNA:AT05287 _ _ _ _ BcDNA:AT05466 _ _ _ _ BcDNA:AT05678 _ _ _ _ BcDNA:AT05691 _ _ _ _ BcDNA:AT05815 _ _ _ _ BcDNA:AT06648 _ _ _ _ BcDNA:AT06839 _ _ _ _ BcDNA:AT06908 _ _ _ _ BcDNA:AT07338 _ _ _ _ BcDNA:AT07524 _ _ _ _ BcDNA:AT07554 _ _ _ _ BcDNA:AT07685 _ _ _ _ BcDNA:AT07692 _ _ _ _ BcDNA:AT08210 _ _ _ _ BcDNA:AT08427 _ _ _ _ BcDNA:AT08471 _ _ _ _ BcDNA:AT08574 _ _ _ _ BcDNA:AT08725 _ _ _ _ BcDNA:AT08987 _ _ _ _ BcDNA:AT09142 _ _ _ _ BcDNA:AT09383 _ _ _ _ BcDNA:AT09390 _ _ _ _ BcDNA:AT09395 _ _ _ _ BcDNA:AT09463 _ _ _ _ BcDNA:AT09528 _ _ _ _ BcDNA:AT09538 _ _ _ _ BcDNA:AT09846 _ _ _ _ BcDNA:AT09933 _ _ _ _ BcDNA:AT09943 _ _ _ _ BcDNA:AT10144 _ _ _ _ BcDNA:AT10305 _ _ _ _ BcDNA:AT10359 _ _ _ _ BcDNA:AT10824 _ _ _ _ BcDNA:AT10995 _ _ _ _ BcDNA:AT11049 _ _ _ _ BcDNA:AT11120 _ _ _ _ BcDNA:AT11334 _ _ _ _ BcDNA:AT11343 _ _ _ _ BcDNA:AT11374 _ _ _ _ BcDNA:AT11392 _ _ _ _ BcDNA:AT11401 _ _ _ _ BcDNA:AT11468 _ _ _ _ BcDNA:AT11469 _ _ _ _ BcDNA:AT11516 _ _ _ _ BcDNA:AT11581 _ _ _ _ BcDNA:AT11646 _ _ _ _ BcDNA:AT11857 _ _ _ _ BcDNA:AT12437 _ _ _ _ BcDNA:AT12574 _ _ _ _ BcDNA:AT12704 _ _ _ _ BcDNA:AT12780 _ _ _ _ BcDNA:AT12853 _ _ _ _ BcDNA:AT12868 _ _ _ _ BcDNA:AT13283 _ _ _ _ BcDNA:AT13310 _ _ _ _ BcDNA:AT13332 _ _ _ _ BcDNA:AT13347 _ _ _ _ BcDNA:AT13439 _ _ _ _ BcDNA:AT13596 _ _ _ _ BcDNA:AT13663 _ _ _ _ BcDNA:AT13703 _ _ _ _ BcDNA:AT13707 _ _ _ _ BcDNA:AT13736 _ _ _ _ BcDNA:AT13807 _ _ _ _ BcDNA:AT13882 _ _ _ _ BcDNA:AT13896 _ _ _ _ BcDNA:AT13913 _ _ _ _ BcDNA:AT13932 _ _ _ _ BcDNA:AT14009 _ _ _ _ BcDNA:AT14183 _ _ _ _ BcDNA:AT14266 _ _ _ _ BcDNA:AT14346 _ _ _ _ BcDNA:AT14709 _ _ _ _ BcDNA:AT15424 _ _ _ _ BcDNA:AT15471 _ _ _ _ BcDNA:AT15479 _ _ _ _ BcDNA:AT15604 _ _ _ _ BcDNA:AT16033 _ _ _ _ BcDNA:AT16114 _ _ _ _ BcDNA:AT16234 _ _ _ _ BcDNA:AT16284 _ _ _ _ BcDNA:AT16518 _ _ _ _ BcDNA:AT16542 _ _ _ _ BcDNA:AT16729 _ _ _ _ BcDNA:AT16792 _ _ _ _ BcDNA:AT16877 _ _ _ _ BcDNA:AT16953 _ _ _ _ BcDNA:AT16994 _ _ _ _ BcDNA:AT17586 _ _ _ _ BcDNA:AT17606 _ _ _ _ BcDNA:AT17684 _ _ _ _ BcDNA:AT17896 _ _ _ _ BcDNA:AT18037 _ _ _ _ BcDNA:AT18054 _ _ _ _ BcDNA:AT18217 _ _ _ _ BcDNA:AT18358 _ _ _ _ BcDNA:AT18578 _ _ _ _ BcDNA:AT18596 _ _ _ _ BcDNA:AT18611 _ _ _ _ BcDNA:AT18988 _ _ _ _ BcDNA:AT19233 _ _ _ _ BcDNA:AT19257 _ _ _ _ BcDNA:AT19369 _ _ _ _ BcDNA:AT19571 _ _ _ _ BcDNA:AT19802 _ _ _ _ BcDNA:AT19803 _ _ _ _ BcDNA:AT19876 _ _ _ _ BcDNA:AT19932 _ _ _ _ BcDNA:AT19986 _ _ _ _ BcDNA:AT20031 _ _ _ _ BcDNA:AT20140 _ _ _ _ BcDNA:AT20617 _ _ _ _ BcDNA:AT20622 _ _ _ _ BcDNA:AT20887 _ _ _ _ BcDNA:AT21289 _ _ _ _ BcDNA:AT21341 _ _ _ _ BcDNA:AT21457 _ _ _ _ BcDNA:AT21561 _ _ _ _ BcDNA:AT22150 _ _ _ _ BcDNA:AT22529 _ _ _ _ BcDNA:AT22559 _ _ _ _ BcDNA:AT22836 _ _ _ _ BcDNA:AT23078 _ _ _ _ BcDNA:AT23266 _ _ _ _ BcDNA:AT23338 _ _ _ _ BcDNA:AT23419 _ _ _ _ BcDNA:AT23465 _ _ _ _ BcDNA:AT23551 _ _ _ _ BcDNA:AT24036 _ _ _ _ BcDNA:AT24116 _ _ _ _ BcDNA:AT24169 _ _ _ _ BcDNA:AT24563 _ _ _ _ BcDNA:AT24650 _ _ _ _ BcDNA:AT24812 _ _ _ _ BcDNA:AT25107 _ _ _ _ BcDNA:AT25108 _ _ _ _ BcDNA:AT25114 _ _ _ _ BcDNA:AT25132 _ _ _ _ BcDNA:AT25392 _ _ _ _ BcDNA:AT25568 _ _ _ _ BcDNA:AT25643 _ _ _ _ BcDNA:AT25933 _ _ _ _ BcDNA:AT26083 _ _ _ _ BcDNA:AT26093 _ _ _ _ BcDNA:AT26185 _ _ _ _ BcDNA:AT26229 _ _ _ _ BcDNA:AT26376 _ _ _ _ BcDNA:AT26381 _ _ _ _ BcDNA:AT26603 _ _ _ _ BcDNA:AT26616 _ _ _ _ BcDNA:AT26639 _ _ _ _ BcDNA:AT26658 _ _ _ _ BcDNA:AT26906 _ _ _ _ BcDNA:AT27057 _ _ _ _ BcDNA:AT27312 _ _ _ _ BcDNA:AT27450 _ _ _ _ BcDNA:AT27571 _ _ _ _ BcDNA:AT27976 _ _ _ _ BcDNA:AT28206 _ _ _ _ BcDNA:AT28250 _ _ _ _ BcDNA:AT28425 _ _ _ _ BcDNA:AT28470 _ _ _ _ BcDNA:AT28681 _ _ _ _ BcDNA:AT28768 _ _ _ _ BcDNA:AT28783 _ _ _ _ BcDNA:AT28810 _ _ _ _ BcDNA:AT28829 _ _ _ _ BcDNA:AT28918 _ _ _ _ BcDNA:AT29119 _ _ _ _ BcDNA:AT29184 _ _ _ _ BcDNA:AT29209 _ _ _ _ BcDNA:AT29239 _ _ _ _ BcDNA:AT29272 _ _ _ _ BcDNA:AT29287 _ _ _ _ BcDNA:AT29351 _ _ _ _ BcDNA:AT29875 _ _ _ _ BcDNA:AT29938 _ _ _ _ BcDNA:AT30027 _ _ _ _ BcDNA:AT30033 _ _ _ _ BcDNA:AT30094 _ _ _ _ BcDNA:AT30190 _ _ _ _ BcDNA:AT30260 _ _ _ _ BcDNA:AT30262 _ _ _ _ BcDNA:AT30578 _ _ _ _ BcDNA:AT30660 _ _ _ _ BcDNA:AT30770 _ _ _ _ BcDNA:AT30929 _ _ _ _ BcDNA:AT31112 _ _ _ _ BcDNA:AT31258 _ _ _ _ BcDNA:AT31403 _ _ _ _ BcDNA:AT31405 _ _ _ _ BcDNA:AT31672 _ _ _ _ BcDNA:AT31812 _ _ _ _ BcDNA:AT31822 _ _ _ _ BcDNA:AT31918 _ _ _ _ BcDNA:AT31946 _ _ _ _ BcDNA:GH01072 _ _ _ _ BcDNA:GH01073 _ _ _ _ BcDNA:GH01128 _ _ _ _ BcDNA:GH01486 _ _ _ _ BcDNA:GH01517 _ _ _ _ BcDNA:GH01560 _ _ _ _ BcDNA:GH01566 _ _ _ _ BcDNA:GH01761 _ _ _ _ BcDNA:GH01976 _ _ _ _ BcDNA:GH02220 cytochrome c oxidase biogenesis; GO:0008535 | inferred from sequence similarity with SWISS-PROT:Q15070 _ _ _ BcDNA:GH02340 _ _ _ _ BcDNA:GH02384 _ _ _ _ BcDNA:GH02419 _ _ _ _ BcDNA:GH02424 _ _ _ _ BcDNA:GH02431 _ _ _ _ BcDNA:GH02439 _ _ _ _ BcDNA:GH02536 _ _ _ _ BcDNA:GH02636 _ _ _ _ BcDNA:GH02678 intracellular protein transport; GO:0006886 | inferred from sequence similarity with SWISS-PROT:P46467 _ _ _ BcDNA:GH02712 _ _ _ _ BcDNA:GH02833 _ _ _ _ BcDNA:GH02901 _ _ _ _ BcDNA:GH02930 _ _ _ _ BcDNA:GH02938 _ _ _ _ BcDNA:GH02976 _ _ _ _ BcDNA:GH03108 _ _ _ _ BcDNA:GH03163 _ _ _ _ BcDNA:GH03217 _ _ _ _ BcDNA:GH03275 _ _ _ _ BcDNA:GH03377 _ _ _ _ BcDNA:GH03482 _ _ _ _ BcDNA:GH03502 _ _ _ _ BcDNA:GH03576 _ _ _ _ BcDNA:GH03693 _ _ _ _ BcDNA:GH03694 _ _ _ _ BcDNA:GH03753 _ _ _ _ BcDNA:GH03916 _ _ _ _ BcDNA:GH04046 _ _ _ _ BcDNA:GH04120 _ _ _ _ BcDNA:GH04183 _ _ _ _ BcDNA:GH04581 _ _ _ _ BcDNA:GH04604 _ _ _ _ BcDNA:GH04637 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ BcDNA:GH04753 _ _ _ _ BcDNA:GH04760 _ _ _ _ BcDNA:GH04802 _ _ _ _ BcDNA:GH04922 _ _ _ _ BcDNA:GH04929 _ _ _ _ BcDNA:GH04962 _ _ _ _ BcDNA:GH04978 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ BcDNA:GH05057 _ _ _ _ BcDNA:GH05095 _ _ _ _ BcDNA:GH05108 _ _ _ _ BcDNA:GH05530 _ _ _ _ BcDNA:GH05536 _ _ _ _ BcDNA:GH05582 _ _ _ _ BcDNA:GH05702 _ _ _ _ BcDNA:GH05741 _ _ _ _ BcDNA:GH06026 _ _ _ _ BcDNA:GH06032 _ _ _ _ BcDNA:GH06048 _ _ _ _ BcDNA:GH06193 _ _ _ _ BcDNA:GH06348 _ _ _ _ BcDNA:GH06385 _ _ _ _ BcDNA:GH06451 _ _ _ _ BcDNA:GH06646 _ _ _ _ BcDNA:GH06647 _ _ _ _ BcDNA:GH06717 _ _ _ _ BcDNA:GH06755 _ _ _ _ BcDNA:GH07066 _ _ _ _ BcDNA:GH07089 _ _ _ _ BcDNA:GH07188 _ _ _ _ BcDNA:GH07269 _ _ _ _ BcDNA:GH07363 _ _ _ _ BcDNA:GH07418 _ _ _ _ BcDNA:GH07485 _ _ _ _ BcDNA:GH07572 _ _ _ _ BcDNA:GH07626 _ _ _ _ BcDNA:GH07688 _ _ _ _ BcDNA:GH07769 _ _ _ _ BcDNA:GH07774 _ _ _ _ BcDNA:GH07910 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ BcDNA:GH07921 _ _ _ _ BcDNA:GH08189 _ _ _ _ BcDNA:GH08251 _ _ _ _ BcDNA:GH08385 _ _ _ _ BcDNA:GH08388 _ _ _ _ BcDNA:GH08420 _ _ _ _ BcDNA:GH08511 _ _ _ _ BcDNA:GH08635 _ _ _ _ BcDNA:GH08773 defense response; GO:0006952 | non-traceable author statement _ _ _ BcDNA:GH08789 _ _ _ _ BcDNA:GH08880 _ _ _ _ BcDNA:GH08902 _ _ _ _ BcDNA:GH09045 RAS protein signal transduction; GO:0007265 | inferred from sequence similarity with SGD:CYR1; SGDID:S0003542 _ _ _ BcDNA:GH09147 _ _ _ _ BcDNA:GH09289 _ _ _ _ BcDNA:GH09358 _ _ _ _ BcDNA:GH09576 _ _ _ _ BcDNA:GH09771 _ _ _ _ BcDNA:GH09817 _ _ _ _ BcDNA:GH10120 _ _ _ _ BcDNA:GH10229 _ _ _ _ BcDNA:GH10260 _ _ _ _ BcDNA:GH10270 _ _ _ _ BcDNA:GH10333 _ _ _ _ BcDNA:GH10432 _ _ _ _ BcDNA:GH10590 _ _ _ _ BcDNA:GH10614 _ _ _ _ BcDNA:GH10711 _ _ _ _ BcDNA:GH10751 _ _ _ _ BcDNA:GH10778 _ _ _ _ BcDNA:GH10856 _ _ _ _ BcDNA:GH10915 _ _ _ _ BcDNA:GH11023 _ _ _ _ BcDNA:GH11110 _ _ _ _ BcDNA:GH11112 _ _ _ _ BcDNA:GH11322 cell adhesion; GO:0007155 | inferred from sequence similarity with EMBL:AF074901 _ _ _ BcDNA:GH11415 _ _ _ _ BcDNA:GH11688 _ _ _ _ BcDNA:GH11730 _ _ _ _ BcDNA:GH11850 _ _ _ _ BcDNA:GH11973 _ _ _ _ BcDNA:GH11984 _ _ _ _ BcDNA:GH12144 _ _ _ _ BcDNA:GH12174 _ _ _ _ BcDNA:GH12319 _ _ _ _ BcDNA:GH12326 _ _ _ _ BcDNA:GH12334 _ _ _ _ BcDNA:GH12382 _ _ _ _ BcDNA:GH12558 _ _ _ _ BcDNA:GH12663 _ _ _ _ BcDNA:GH12815 _ _ _ _ BcDNA:GH12850 _ _ _ _ BcDNA:GH13168 _ _ _ _ BcDNA:GH13231 _ _ _ _ BcDNA:GH13236 _ _ _ _ BcDNA:GH13342 _ _ _ _ BcDNA:GH13356 _ _ _ _ BcDNA:GH14469 _ _ _ _ BcDNA:GH14618 _ _ _ _ BcDNA:GH15189 _ _ _ _ BcDNA:GH15296 _ _ _ _ BcDNA:GH15538 _ _ _ _ BcDNA:GH15688 _ _ _ _ BcDNA:GH15938 _ _ _ _ BcDNA:GH16383 _ _ _ _ BcDNA:GH16531 _ _ _ _ BcDNA:GH16758 _ _ _ _ BcDNA:GH16763 _ _ _ _ BcDNA:GH17919 _ _ _ _ BcDNA:GH18009 _ _ _ _ BcDNA:GH18470 _ _ _ _ BcDNA:GH19411 _ _ _ _ BcDNA:GH19585 _ _ _ _ BcDNA:GH19893 _ _ _ _ BcDNA:GH20107 _ _ _ _ BcDNA:GH20113 _ _ _ _ BcDNA:GH20534 _ _ _ _ BcDNA:GH20809 _ _ _ _ BcDNA:GH21145 _ _ _ _ BcDNA:GH21254 _ _ _ _ BcDNA:GH21757 _ _ _ _ BcDNA:GH21762 _ _ _ _ BcDNA:GH21853 _ _ _ _ BcDNA:GH22047 _ _ _ _ BcDNA:GH22170 _ _ _ _ BcDNA:GH22307 _ _ _ _ BcDNA:GH23064 _ _ _ _ BcDNA:GH23107 _ _ _ _ BcDNA:GH23165 _ _ _ _ BcDNA:GH23338 _ _ _ _ BcDNA:GH23462 _ _ _ _ BcDNA:GH23574 _ _ _ _ BcDNA:GH23730 _ _ _ _ BcDNA:GH23906 _ _ _ _ BcDNA:GH24095 _ _ _ _ BcDNA:GH24739 _ _ _ _ BcDNA:GH25089 _ _ _ _ BcDNA:GH25177 _ _ _ _ BcDNA:GH25188 _ _ _ _ BcDNA:GH25431 _ _ _ _ BcDNA:GH25462 _ _ _ _ BcDNA:GH25505 _ _ _ _ BcDNA:GH25761 _ _ _ _ BcDNA:GH25778 _ _ _ _ BcDNA:GH25962 _ _ _ _ BcDNA:GH26112 _ _ _ _ BcDNA:GH26265 _ _ _ _ BcDNA:GH26355 _ _ _ _ BcDNA:GH26608 _ _ _ _ BcDNA:GH26692 _ _ _ _ BcDNA:GH26995 _ _ _ _ BcDNA:GH27201 _ _ _ _ BcDNA:GH27470 _ _ _ _ BcDNA:GH27718 _ _ _ _ BcDNA:GH27987 _ _ _ _ BcDNA:GH28095 _ _ _ _ BcDNA:GH28351 _ _ _ _ BcDNA:GH28557 _ _ _ _ BcDNA:GM01206 _ _ _ _ BcDNA:GM01267 _ _ _ _ BcDNA:GM01344 _ _ _ _ BcDNA:GM01352 _ _ _ _ BcDNA:GM01456 _ _ _ _ BcDNA:GM01527 _ _ _ _ BcDNA:GM01757 _ _ _ _ BcDNA:GM01761 _ _ _ _ BcDNA:GM01870 _ _ _ _ BcDNA:GM02002 _ _ _ _ BcDNA:GM02019 _ _ _ _ BcDNA:GM02031 _ _ _ _ BcDNA:GM02481 _ _ _ _ BcDNA:GM02640 _ _ _ _ BcDNA:GM02923 _ _ _ _ BcDNA:GM03205 _ _ _ _ BcDNA:GM03307 _ _ _ _ BcDNA:GM03661 _ _ _ _ BcDNA:GM03761 _ _ _ _ BcDNA:GM03875 _ _ _ _ BcDNA:GM03914 _ _ _ _ BcDNA:GM03978 _ _ _ _ BcDNA:GM04319 _ _ _ _ BcDNA:GM04363 _ _ _ _ BcDNA:GM04393 _ _ _ _ BcDNA:GM04458 _ _ _ _ BcDNA:GM04716 _ _ _ _ BcDNA:GM04775 _ _ _ _ BcDNA:GM04921 _ _ _ _ BcDNA:GM04934 _ _ _ _ BcDNA:GM05133 _ _ _ _ BcDNA:GM05237 _ _ _ _ BcDNA:GM05554 _ _ _ _ BcDNA:GM05817 _ _ _ _ BcDNA:GM05844 _ _ _ _ BcDNA:GM06310 _ _ _ _ BcDNA:GM06363 _ _ _ _ BcDNA:GM06434 _ _ _ _ BcDNA:GM06547 _ _ _ _ BcDNA:GM06790 _ _ _ _ BcDNA:GM06804 _ _ _ _ BcDNA:GM06913 _ _ _ _ BcDNA:GM07040 _ _ _ _ BcDNA:GM07077 _ _ _ _ BcDNA:GM07606 _ _ _ _ BcDNA:GM07634 _ _ _ _ BcDNA:GM07660 _ _ _ _ BcDNA:GM07702 _ _ _ _ BcDNA:GM08142 _ _ _ _ BcDNA:GM08326 _ _ _ _ BcDNA:GM08530 _ _ _ _ BcDNA:GM08552 _ _ _ _ BcDNA:GM08588 _ _ _ _ BcDNA:GM08676 _ _ _ _ BcDNA:GM08679 _ _ _ _ BcDNA:GM08788 _ _ _ _ BcDNA:GM08821 _ _ _ _ BcDNA:GM09207 _ _ _ _ BcDNA:GM09255 _ _ _ _ BcDNA:GM09444 _ _ _ _ BcDNA:GM09534 _ _ _ _ BcDNA:GM09570 _ _ _ _ BcDNA:GM09668 _ _ _ _ BcDNA:GM09783 _ _ _ _ BcDNA:GM10308 _ _ _ _ BcDNA:GM10545 _ _ _ _ BcDNA:GM10765 base-excision repair; GO:0006284 | inferred from sequence similarity with SWISS-PROT:P14629 _ _ _ BcDNA:GM10877 _ _ _ _ BcDNA:GM12291 _ _ _ _ BcDNA:GM12657 _ _ _ _ BcDNA:GM13088 _ _ _ _ BcDNA:GM14157 _ _ _ _ BcDNA:GM14547 _ _ _ _ BcDNA:GM15173 _ _ _ _ BcDNA:GM15484 _ _ _ _ BcDNA:GM16129 _ _ _ _ BcDNA:GM16138 _ _ _ _ BcDNA:GM16166 _ _ _ _ BcDNA:GM20557 _ _ _ _ BcDNA:GM21080 _ _ _ _ BcDNA:GM21739 _ _ _ _ BcDNA:GM23845 _ _ _ _ BcDNA:GM23968 _ _ _ _ BcDNA:GM24338 _ _ _ _ BcDNA:GM24362 _ _ _ _ BcDNA:GM24986 _ _ _ _ BcDNA:GM26647 _ _ _ _ BcDNA:GM30016 _ _ _ _ BcDNA:GM31575 _ _ _ _ BcDNA:GM31840 _ _ _ _ BcDNA:GM32035 _ _ _ _ BcDNA:HL01242 _ _ _ _ BcDNA:HL01468 _ _ _ _ BcDNA:HL01508 _ _ _ _ BcDNA:HL01958 _ _ _ _ BcDNA:HL02010 _ _ _ _ BcDNA:HL03512 _ _ _ _ BcDNA:HL03538 _ _ _ _ BcDNA:HL03793 _ _ _ _ BcDNA:HL03874 DNA replication; GO:0006260 | non-traceable author statement _ _ _ BcDNA:HL04389 _ _ _ _ BcDNA:HL04994 _ _ _ _ BcDNA:HL05382 _ _ _ _ BcDNA:HL05735 _ _ _ _ BcDNA:HL05775 _ _ _ _ BcDNA:HL07357 _ _ _ _ BcDNA:HL07853 _ _ _ _ BcDNA:HL07889 _ _ _ _ BcDNA:HL07907 _ _ _ _ BcDNA:HL07910 _ _ _ _ BcDNA:HL07933 _ _ _ _ BcDNA:HL08040 _ _ _ _ BcDNA:HL08112 _ _ _ _ BcDNA:LD01463 _ _ _ _ BcDNA:LD02060 _ _ _ _ BcDNA:LD02611 _ _ _ _ BcDNA:LD05303 _ _ _ _ BcDNA:LD05405 _ _ _ _ BcDNA:LD05623 _ _ _ _ BcDNA:LD05680 _ _ _ _ BcDNA:LD05816 _ _ _ _ BcDNA:LD05893 _ _ _ _ BcDNA:LD06023 _ _ _ _ BcDNA:LD06837 _ _ _ _ BcDNA:LD07615 _ _ _ _ BcDNA:LD07633 _ _ _ _ BcDNA:LD07701 _ _ _ _ BcDNA:LD08233 _ _ _ _ BcDNA:LD08534 _ _ _ _ BcDNA:LD08591 _ _ _ _ BcDNA:LD08911 _ _ _ _ BcDNA:LD09009 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ BcDNA:LD09561 _ _ _ _ BcDNA:LD09837 _ _ _ _ BcDNA:LD09936 _ _ _ _ BcDNA:LD10305 _ _ _ _ BcDNA:LD10401 _ _ _ _ BcDNA:LD10463 _ _ _ _ BcDNA:LD10657 _ _ _ _ BcDNA:LD11130 _ _ _ _ BcDNA:LD11162 _ _ _ _ BcDNA:LD11885 _ _ _ _ BcDNA:LD12604 _ _ _ _ BcDNA:LD12764 _ _ _ _ BcDNA:LD13080 _ _ _ _ BcDNA:LD13269 _ _ _ _ BcDNA:LD13525 _ _ _ _ BcDNA:LD14168 mRNA cleavage; GO:0006379 | inferred from sequence similarity with SWISS-PROT:Q10568; mRNA cleavage; GO:0006379 | inferred from sequence similarity with SWISS-PROT:Q10568; mRNA polyadenylation; GO:0006378 | inferred from sequence similarity with SWISS-PROT:Q10568 _ _ _ BcDNA:LD14406 _ _ _ _ BcDNA:LD14731 _ _ _ _ BcDNA:LD15217 _ _ _ _ BcDNA:LD15354 _ _ _ _ BcDNA:LD16029 _ _ _ _ BcDNA:LD16446 _ _ _ _ BcDNA:LD16711 _ _ _ _ BcDNA:LD17006 _ _ _ _ BcDNA:LD17191 _ _ _ _ BcDNA:LD18761 _ _ _ _ BcDNA:LD18889 _ _ _ _ BcDNA:LD19039 _ _ _ _ BcDNA:LD19168 _ _ _ _ BcDNA:LD19629 _ _ _ _ BcDNA:LD20292 _ _ _ _ BcDNA:LD21129 _ _ _ _ BcDNA:LD21171 _ _ _ _ BcDNA:LD21177 _ _ _ _ BcDNA:LD21213 _ _ _ _ BcDNA:LD21293 _ _ _ _ BcDNA:LD21334 _ _ _ _ BcDNA:LD21358 _ _ _ _ BcDNA:LD21403 _ _ _ _ BcDNA:LD21405 _ _ _ _ BcDNA:LD21503 _ _ _ _ BcDNA:LD21504 _ _ _ _ BcDNA:LD21529 _ _ _ _ BcDNA:LD21537 _ _ _ _ BcDNA:LD21623 _ _ _ _ BcDNA:LD21643 _ _ _ _ BcDNA:LD21675 _ _ _ _ BcDNA:LD21720 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with MGD:Pex7; MGI:MGI:1321392 _ _ _ BcDNA:LD21794 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ BcDNA:LD21969 _ _ _ _ BcDNA:LD22033 _ _ _ _ BcDNA:LD22087 _ _ _ _ BcDNA:LD22117 _ _ _ _ BcDNA:LD22118 _ _ _ _ BcDNA:LD22218 _ _ _ _ BcDNA:LD22320 _ _ _ _ BcDNA:LD22548 cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity with EMBL:L40632 _ _ _ BcDNA:LD22567 _ _ _ _ BcDNA:LD22679 _ _ _ _ BcDNA:LD22910 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ BcDNA:LD23371 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ BcDNA:LD23587 _ _ _ _ BcDNA:LD23634 _ _ _ _ BcDNA:LD23830 _ _ _ _ BcDNA:LD23876 _ _ _ _ BcDNA:LD23922 _ _ _ _ BcDNA:LD24014 _ _ _ _ BcDNA:LD24586 _ _ _ _ BcDNA:LD24627 _ _ _ _ BcDNA:LD24639 _ _ _ _ BcDNA:LD24702 _ _ _ _ BcDNA:LD25626 _ _ _ _ BcDNA:LD26050 _ _ _ _ BcDNA:LD26519 _ _ _ _ BcDNA:LD26673 _ _ _ _ BcDNA:LD27504 _ _ _ _ BcDNA:LD27810 _ _ _ _ BcDNA:LD27873 _ _ _ _ BcDNA:LD27979 _ _ _ _ BcDNA:LD28120 _ _ _ _ BcDNA:LD28247 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with EMBL:Y16518; protein_id:CAA76269 _ _ _ BcDNA:LD28384 _ _ _ _ BcDNA:LD28657 _ _ _ _ BcDNA:LD28680 _ _ _ _ BcDNA:LD29015 _ _ _ _ BcDNA:LD29716 _ _ _ _ BcDNA:LD29885 retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity with EMBL:U89427 _ _ _ BcDNA:LD29892 _ _ _ _ BcDNA:LD29917 _ _ _ _ BcDNA:LD30945 _ _ _ _ BcDNA:LD31024 _ _ _ _ BcDNA:LD32148 _ _ _ _ BcDNA:LD32258 _ _ _ _ BcDNA:LD32788 purine nucleotide biosynthesis; GO:0006164 | non-traceable author statement _ _ _ BcDNA:LD33458 _ _ _ _ BcDNA:LD34214 _ _ _ _ BcDNA:LD34343 _ _ _ _ BcDNA:LD34475 ubiquitin-dependent protein catabolism; GO:0006511 | inferred from sequence similarity with SGD:UFD2; SGDID:S0002349 _ _ _ BcDNA:LD34582 _ _ _ _ BcDNA:LD34806 _ _ _ _ BcDNA:LD35121 _ _ _ _ BcDNA:LD35748 _ _ _ _ BcDNA:LD36415 _ _ _ _ BcDNA:LD36516 _ _ _ _ BcDNA:LD37196 _ _ _ _ BcDNA:LD37882 _ _ _ _ BcDNA:LD38553 _ _ _ _ BcDNA:LD38807 _ _ _ _ BcDNA:LD40028 _ _ _ _ BcDNA:LD40851 _ _ _ _ BcDNA:LD41276 _ _ _ _ BcDNA:LD41522 _ _ _ _ BcDNA:LD41548 _ _ _ _ BcDNA:LD42159 _ _ _ _ BcDNA:LD42239 _ _ _ _ BcDNA:LD42550 _ _ _ _ BcDNA:LD45688 _ _ _ _ BcDNA:LD45965 _ _ _ _ BcDNA:LD46351 _ _ _ _ BcDNA:LD46618 _ _ _ _ BcDNA:LP01106 _ _ _ _ BcDNA:LP01161 _ _ _ _ BcDNA:LP01183 _ _ _ _ BcDNA:LP01241 _ _ _ _ BcDNA:LP01642 _ _ _ _ BcDNA:LP01770 _ _ _ _ BcDNA:LP02306 _ _ _ _ BcDNA:LP02641 _ _ _ _ BcDNA:LP02725 _ _ _ _ BcDNA:LP02734 _ _ _ _ BcDNA:LP02922 _ _ _ _ BcDNA:LP02994 _ _ _ _ BcDNA:LP03131 _ _ _ _ BcDNA:LP03188 _ _ _ _ BcDNA:LP03404 _ _ _ _ BcDNA:LP03459 _ _ _ _ BcDNA:LP03531 _ _ _ _ BcDNA:LP03851 _ _ _ _ BcDNA:LP03924 _ _ _ _ BcDNA:LP04037 _ _ _ _ BcDNA:LP04160 _ _ _ _ BcDNA:LP04536 _ _ _ _ BcDNA:LP04693 _ _ _ _ BcDNA:LP04696 _ _ _ _ BcDNA:LP05669 _ _ _ _ BcDNA:LP05863 _ _ _ _ BcDNA:LP06027 _ _ _ _ BcDNA:LP06375 _ _ _ _ BcDNA:LP06491 _ _ _ _ BcDNA:LP06572 _ _ _ _ BcDNA:LP06586 _ _ _ _ BcDNA:LP06628 _ _ _ _ BcDNA:LP06719 _ _ _ _ BcDNA:LP06769 _ _ _ _ BcDNA:LP07070 _ _ _ _ BcDNA:LP07248 _ _ _ _ BcDNA:LP07339 _ _ _ _ BcDNA:LP07417 _ _ _ _ BcDNA:LP07781 _ _ _ _ BcDNA:LP07986 _ _ _ _ BcDNA:LP08165 _ _ _ _ BcDNA:LP08232 _ _ _ _ BcDNA:LP08443 _ _ _ _ BcDNA:LP08817 _ _ _ _ BcDNA:LP09251 _ _ _ _ BcDNA:LP09525 _ _ _ _ BcDNA:LP09564 _ _ _ _ BcDNA:LP09705 _ _ _ _ BcDNA:LP09838 _ _ _ _ BcDNA:LP09906 _ _ _ _ BcDNA:LP10528 _ _ _ _ BcDNA:LP10936 _ _ _ _ BcDNA:LP11549 _ _ _ _ BcDNA:LP11739 _ _ _ _ BcDNA:LP12023 _ _ _ _ BcDNA:LP12049 _ _ _ _ BcDNA:LP12095 _ _ _ _ BcDNA:LP12385 _ _ _ _ BcDNA:RE02049 _ _ _ _ BcDNA:RE02231 _ _ _ _ BcDNA:RE02417 _ _ _ _ BcDNA:RE03722 _ _ _ _ BcDNA:RE04513 _ _ _ _ BcDNA:RE05231 _ _ _ _ BcDNA:RE05239 _ _ _ _ BcDNA:RE05342 _ _ _ _ BcDNA:RE05559 _ _ _ _ BcDNA:RE06140 _ _ _ _ BcDNA:RE06388 _ _ _ _ BcDNA:RE06583 _ _ _ _ BcDNA:RE06652 _ _ _ _ BcDNA:RE06767 _ _ _ _ BcDNA:RE06996 _ _ _ _ BcDNA:RE07178 _ _ _ _ BcDNA:RE07473 _ _ _ _ BcDNA:RE07960 _ _ _ _ BcDNA:RE07994 _ _ _ _ BcDNA:RE08694 _ _ _ _ BcDNA:RE08888 _ _ _ _ BcDNA:RE09176 _ _ _ _ BcDNA:RE09269 _ _ _ _ BcDNA:RE09466 _ _ _ _ BcDNA:RE09547 _ _ _ _ BcDNA:RE10132 _ _ _ _ BcDNA:RE10167 _ _ _ _ BcDNA:RE10288 _ _ _ _ BcDNA:RE10554 _ _ _ _ BcDNA:RE10558 _ _ _ _ BcDNA:RE10696 _ _ _ _ BcDNA:RE10833 _ _ _ _ BcDNA:RE11532 _ _ _ _ BcDNA:RE12890 _ _ _ _ BcDNA:RE13473 _ _ _ _ BcDNA:RE13557 _ _ _ _ BcDNA:RE13747 _ _ _ _ BcDNA:RE14076 _ _ _ _ BcDNA:RE14414 _ _ _ _ BcDNA:RE14544 _ _ _ _ BcDNA:RE14949 _ _ _ _ BcDNA:RE14985 _ _ _ _ BcDNA:RE15191 _ _ _ _ BcDNA:RE15216 _ _ _ _ BcDNA:RE15976 _ _ _ _ BcDNA:RE16005 _ _ _ _ BcDNA:RE16275 _ _ _ _ BcDNA:RE16319 _ _ _ _ BcDNA:RE16764 _ _ _ _ BcDNA:RE17113 _ _ _ _ BcDNA:RE17222 _ _ _ _ BcDNA:RE17794 _ _ _ _ BcDNA:RE18748 _ _ _ _ BcDNA:RE19416 _ _ _ _ BcDNA:RE19820 _ _ _ _ BcDNA:RE19845 _ _ _ _ BcDNA:RE19849 _ _ _ _ BcDNA:RE20019 _ _ _ _ BcDNA:RE20092 _ _ _ _ BcDNA:RE20756 _ _ _ _ BcDNA:RE20991 _ _ _ _ BcDNA:RE21270 _ _ _ _ BcDNA:RE21703 _ _ _ _ BcDNA:RE21944 _ _ _ _ BcDNA:RE22207 _ _ _ _ BcDNA:RE22290 _ _ _ _ BcDNA:RE23430 _ _ _ _ BcDNA:RE23580 _ _ _ _ BcDNA:RE23864 _ _ _ _ BcDNA:RE24507 _ _ _ _ BcDNA:RE24635 _ _ _ _ BcDNA:RE25177 _ _ _ _ BcDNA:RE25290 _ _ _ _ BcDNA:RE25373 _ _ _ _ BcDNA:RE25483 _ _ _ _ BcDNA:RE26525 _ _ _ _ BcDNA:RE26528 _ _ _ _ BcDNA:RE26725 _ _ _ _ BcDNA:RE26825 _ _ _ _ BcDNA:RE26840 _ _ _ _ BcDNA:RE27042 _ _ _ _ BcDNA:RE27306 _ _ _ _ BcDNA:RE27552 _ _ _ _ BcDNA:RE27904 _ _ _ _ BcDNA:RE28276 _ _ _ _ BcDNA:RE28552 _ _ _ _ BcDNA:RE28596 _ _ _ _ BcDNA:RE28658 _ _ _ _ BcDNA:RE28679 _ _ _ _ BcDNA:RE28911 _ _ _ _ BcDNA:RE29446 _ _ _ _ BcDNA:RE29468 _ _ _ _ BcDNA:RE29470 _ _ _ _ BcDNA:RE29623 _ _ _ _ BcDNA:RE29808 _ _ _ _ BcDNA:RE29909 _ _ _ _ BcDNA:RE29957 _ _ _ _ BcDNA:RE29988 _ _ _ _ BcDNA:RE30049 _ _ _ _ BcDNA:RE30346 _ _ _ _ BcDNA:RE30473 _ _ _ _ BcDNA:RE30702 _ _ _ _ BcDNA:RE31004 _ _ _ _ BcDNA:RE31310 _ _ _ _ BcDNA:RE32113 _ _ _ _ BcDNA:RE32413 _ _ _ _ BcDNA:RE33542 _ _ _ _ BcDNA:RE33866 _ _ _ _ BcDNA:RE34075 _ _ _ _ BcDNA:RE35072 _ _ _ _ BcDNA:RE35556 _ _ _ _ BcDNA:RE35686 _ _ _ _ BcDNA:RE35766 _ _ _ _ BcDNA:RE35789 _ _ _ _ BcDNA:RE36103 _ _ _ _ BcDNA:RE36155 _ _ _ _ BcDNA:RE36623 _ _ _ _ BcDNA:RE36839 _ _ _ _ BcDNA:RE36920 _ _ _ _ BcDNA:RE36972 _ _ _ _ BcDNA:RE37250 _ _ _ _ BcDNA:RE37471 _ _ _ _ BcDNA:RE37920 _ _ _ _ BcDNA:RE38359 _ _ _ _ BcDNA:RE39082 _ _ _ _ BcDNA:RE39488 _ _ _ _ BcDNA:RE39515 _ _ _ _ BcDNA:RE39877 _ _ _ _ BcDNA:RE39879 _ _ _ _ BcDNA:RE39957 _ _ _ _ BcDNA:RE40159 _ _ _ _ BcDNA:RE40268 _ _ _ _ BcDNA:RE40293 _ _ _ _ BcDNA:RE40325 _ _ _ _ BcDNA:RE40372 _ _ _ _ BcDNA:RE40412 _ _ _ _ BcDNA:RE40762 _ _ _ _ BcDNA:RE40816 _ _ _ _ BcDNA:RE40914 _ _ _ _ BcDNA:RE41041 _ _ _ _ BcDNA:RE41137 _ _ _ _ BcDNA:RE41194 _ _ _ _ BcDNA:RE41492 _ _ _ _ BcDNA:RE41733 _ _ _ _ BcDNA:RE42467 _ _ _ _ BcDNA:RE42475 _ _ _ _ BcDNA:RE42781 _ _ _ _ BcDNA:RE43210 _ _ _ _ BcDNA:RE43278 _ _ _ _ BcDNA:RE43371 _ _ _ _ BcDNA:RE43665 _ _ _ _ BcDNA:RE43724 _ _ _ _ BcDNA:RE44177 _ _ _ _ BcDNA:RE44251 _ _ _ _ BcDNA:RE44302 _ _ _ _ BcDNA:RE44624 _ _ _ _ BcDNA:RE44650 _ _ _ _ BcDNA:RE44854 _ _ _ _ BcDNA:RE45077 _ _ _ _ BcDNA:RE45259 _ _ _ _ BcDNA:RE45276 _ _ _ _ BcDNA:RE45760 _ _ _ _ BcDNA:RE46170 _ _ _ _ BcDNA:RE47308 _ _ _ _ BcDNA:RE47447 _ _ _ _ BcDNA:RE47733 _ _ _ _ BcDNA:RE47781 _ _ _ _ BcDNA:RE47909 _ _ _ _ BcDNA:RE48052 _ _ _ _ BcDNA:RE49709 _ _ _ _ BcDNA:RE50045 _ _ _ _ BcDNA:RE50345 _ _ _ _ BcDNA:RE51076 _ _ _ _ BcDNA:RE51913 _ _ _ _ BcDNA:RE51929 _ _ _ _ BcDNA:RE52162 _ _ _ _ BcDNA:RE52392 _ _ _ _ BcDNA:RE52411 _ _ _ _ BcDNA:RE53107 _ _ _ _ BcDNA:RE53289 _ _ _ _ BcDNA:RE53348 _ _ _ _ BcDNA:RE54004 _ _ _ _ BcDNA:RE54230 _ _ _ _ BcDNA:RE54684 _ _ _ _ BcDNA:RE54930 _ _ _ _ BcDNA:RE55001 _ _ _ _ BcDNA:RE55538 _ _ _ _ BcDNA:RE55691 _ _ _ _ BcDNA:RE56733 _ _ _ _ BcDNA:RE56803 _ _ _ _ BcDNA:RE56869 _ _ _ _ BcDNA:RE57135 _ _ _ _ BcDNA:RE57454 _ _ _ _ BcDNA:RE58095 _ _ _ _ BcDNA:RE59131 _ _ _ _ BcDNA:RE59202 _ _ _ _ BcDNA:RE59324 _ _ _ _ BcDNA:RE59545 _ _ _ _ BcDNA:RE59557 _ _ _ _ BcDNA:RE59626 _ _ _ _ BcDNA:RE60135 _ _ _ _ BcDNA:RE60404 _ _ _ _ BcDNA:RE60462 _ _ _ _ BcDNA:RE60792 _ _ _ _ BcDNA:RE60882 _ _ _ _ BcDNA:RE61257 _ _ _ _ BcDNA:RE61341 _ _ _ _ BcDNA:RE61564 _ _ _ _ BcDNA:RE61847 _ _ _ _ BcDNA:RE62456 _ _ _ _ BcDNA:RE62711 _ _ _ _ BcDNA:RE62779 _ _ _ _ BcDNA:RE62842 _ _ _ _ BcDNA:RE63412 _ _ _ _ BcDNA:RE63496 _ _ _ _ BcDNA:RE63504 _ _ _ _ BcDNA:RE63575 _ _ _ _ BcDNA:RE63764 _ _ _ _ BcDNA:RE64043 _ _ _ _ BcDNA:RE64858 _ _ _ _ BcDNA:RE65113 _ _ _ _ BcDNA:RE65233 _ _ _ _ BcDNA:RE65321 _ _ _ _ BcDNA:RE65754 _ _ _ _ BcDNA:RE66512 _ _ _ _ BcDNA:RE67445 _ _ _ _ BcDNA:RE67573 _ _ _ _ BcDNA:RE67583 _ _ _ _ BcDNA:RE67638 _ _ _ _ BcDNA:RE67729 _ _ _ _ BcDNA:RE68569 _ _ _ _ BcDNA:RE69336 _ _ _ _ BcDNA:RE70141 _ _ _ _ BcDNA:RE70209 _ _ _ _ BcDNA:RE70528 _ _ _ _ BcDNA:RE70695 _ _ _ _ BcDNA:RE71517 _ _ _ _ BcDNA:RE72392 _ _ _ _ BcDNA:RE72485 _ _ _ _ BcDNA:RE73239 _ _ _ _ BcDNA:RE73921 _ _ _ _ BcDNA:RE73934 _ _ _ _ BcDNA:RE73965 _ _ _ _ BcDNA:RE74758 _ _ _ _ BcDNA:RE74890 _ _ _ _ BcDNA:RE75088 _ _ _ _ BcDNA:RH01479 _ _ _ _ BcDNA:RH01665 _ _ _ _ BcDNA:RH02374 _ _ _ _ BcDNA:RH02410 _ _ _ _ BcDNA:RH02566 _ _ _ _ BcDNA:RH02789 _ _ _ _ BcDNA:RH03087 _ _ _ _ BcDNA:RH03361 _ _ _ _ BcDNA:RH03863 _ _ _ _ BcDNA:RH03914 _ _ _ _ BcDNA:RH03940 _ _ _ _ BcDNA:RH04289 _ _ _ _ BcDNA:RH06401 _ _ _ _ BcDNA:RH06780 _ _ _ _ BcDNA:RH06886 _ _ _ _ BcDNA:RH07028 _ _ _ _ BcDNA:RH07382 _ _ _ _ BcDNA:RH07954 _ _ _ _ BcDNA:RH07980 _ _ _ _ BcDNA:RH08259 _ _ _ _ BcDNA:RH08410 _ _ _ _ BcDNA:RH08745 _ _ _ _ BcDNA:RH08992 _ _ _ _ BcDNA:RH09070 _ _ _ _ BcDNA:RH09147 _ _ _ _ BcDNA:RH09340 _ _ _ _ BcDNA:RH09485 _ _ _ _ BcDNA:RH09582 _ _ _ _ BcDNA:RH09920 _ _ _ _ BcDNA:RH09938 _ _ _ _ BcDNA:RH10174 _ _ _ _ BcDNA:RH10371 _ _ _ _ BcDNA:RH10862 _ _ _ _ BcDNA:RH11203 _ _ _ _ BcDNA:RH11383 _ _ _ _ BcDNA:RH12290 _ _ _ _ BcDNA:RH13070 _ _ _ _ BcDNA:RH14671 _ _ _ _ BcDNA:RH16169 _ _ _ _ BcDNA:RH17440 _ _ _ _ BcDNA:RH17470 _ _ _ _ BcDNA:RH18149 _ _ _ _ BcDNA:RH19475 _ _ _ _ BcDNA:RH19679 _ _ _ _ BcDNA:RH21090 _ _ _ _ BcDNA:RH23514 _ _ _ _ BcDNA:RH25447 _ _ _ _ BcDNA:RH25665 _ _ _ _ BcDNA:RH25742 _ _ _ _ BcDNA:RH26422 _ _ _ _ BcDNA:RH26504 _ _ _ _ BcDNA:RH26533 _ _ _ _ BcDNA:RH26557 _ _ _ _ BcDNA:RH27094 _ _ _ _ BcDNA:RH27794 _ _ _ _ BcDNA:RH29237 _ _ _ _ BcDNA:RH30329 _ _ _ _ BcDNA:RH31195 _ _ _ _ BcDNA:RH31634 _ _ _ _ BcDNA:RH31685 _ _ _ _ BcDNA:RH32180 _ _ _ _ BcDNA:RH33338 _ _ _ _ BcDNA:RH33561 _ _ _ _ BcDNA:RH34065 _ _ _ _ BcDNA:RH34302 _ _ _ _ BcDNA:RH34338 _ _ _ _ BcDNA:RH34376 _ _ _ _ BcDNA:RH38235 _ _ _ _ BcDNA:RH38463 _ _ _ _ BcDNA:RH39175 _ _ _ _ BcDNA:RH39533 _ _ _ _ BcDNA:RH40423 _ _ _ _ BcDNA:RH40482 _ _ _ _ BcDNA:RH40632 _ _ _ _ BcDNA:RH42635 _ _ _ _ BcDNA:RH43162 _ _ _ _ BcDNA:RH43343 _ _ _ _ BcDNA:RH43809 _ _ _ _ BcDNA:RH44662 _ _ _ _ BcDNA:RH44664 _ _ _ _ BcDNA:RH45308 _ _ _ _ BcDNA:RH45738 _ _ _ _ BcDNA:RH46075 _ _ _ _ BcDNA:RH46857 _ _ _ _ BcDNA:RH47344 _ _ _ _ BcDNA:RH47776 _ _ _ _ BcDNA:RH49123 _ _ _ _ BcDNA:RH49308 _ _ _ _ BcDNA:RH50880 _ _ _ _ BcDNA:RH51268 _ _ _ _ BcDNA:RH51312 _ _ _ _ BcDNA:RH51444 _ _ _ _ BcDNA:RH51528 _ _ _ _ BcDNA:RH52355 _ _ _ _ BcDNA:RH52423 _ _ _ _ BcDNA:RH52516 _ _ _ _ BcDNA:RH54117 _ _ _ _ BcDNA:RH54175 _ _ _ _ BcDNA:RH54517 _ _ _ _ BcDNA:RH55324 _ _ _ _ BcDNA:RH55360 _ _ _ _ BcDNA:RH56317 _ _ _ _ BcDNA:RH56795 _ _ _ _ BcDNA:RH57193 _ _ _ _ BcDNA:RH57246 _ _ _ _ BcDNA:RH57845 _ _ _ _ BcDNA:RH58440 _ _ _ _ BcDNA:RH58777 _ _ _ _ BcDNA:RH59219 _ _ _ _ BcDNA:RH59280 _ _ _ _ BcDNA:RH59553 _ _ _ _ BcDNA:RH61147 _ _ _ _ BcDNA:RH61266 _ _ _ _ BcDNA:RH61745 _ _ _ _ BcDNA:RH61753 _ _ _ _ BcDNA:RH61817 _ _ _ _ BcDNA:RH62365 _ _ _ _ BcDNA:RH62530 _ _ _ _ BcDNA:RH62702 _ _ _ _ BcDNA:RH62830 _ _ _ _ BcDNA:RH62928 _ _ _ _ BcDNA:RH63135 _ _ _ _ BcDNA:RH63170 _ _ _ _ BcDNA:RH63980 _ _ _ _ BcDNA:RH67033 _ _ _ _ BcDNA:RH67628 _ _ _ _ BcDNA:RH67809 _ _ _ _ BcDNA:RH67819 _ _ _ _ BcDNA:RH68082 _ _ _ _ BcDNA:RH68451 _ _ _ _ BcDNA:RH68460 _ _ _ _ BcDNA:RH68528 _ _ _ _ BcDNA:RH68619 _ _ _ _ BcDNA:RH68724 _ _ _ _ BcDNA:RH69723 _ _ _ _ BcDNA:RH70154 _ _ _ _ BcDNA:RH70248 _ _ _ _ BcDNA:RH70762 _ _ _ _ BcDNA:RH70774 _ _ _ _ BcDNA:RH70969 _ _ _ _ BcDNA:RH71439 _ _ _ _ BcDNA:RH71704 _ _ _ _ BcDNA:RH72992 _ _ _ _ BcDNA:RH73529 _ _ _ _ BcDNA:RH73910 _ _ _ _ BcDNA:RH74005 _ _ _ _ BcDNA:RH74092 _ _ _ _ BcDNA:RH74176 _ _ _ _ BcDNA:RH74240 _ _ _ _ BcDNA:RH74685 _ _ _ _ BcDNA:SD01284 _ _ _ _ BcDNA:SD02026 _ _ _ _ BcDNA:SD02058 _ _ _ _ BcDNA:SD02173 _ _ _ _ BcDNA:SD02419 _ _ _ _ BcDNA:SD02447 _ _ _ _ BcDNA:SD02481 _ _ _ _ BcDNA:SD03001 _ _ _ _ BcDNA:SD03144 _ _ _ _ BcDNA:SD03311 _ _ _ _ BcDNA:SD03580 _ _ _ _ BcDNA:SD04019 _ _ _ _ BcDNA:SD04061 _ _ _ _ BcDNA:SD04448 _ _ _ _ BcDNA:SD04493 _ _ _ _ BcDNA:SD04526 _ _ _ _ BcDNA:SD04624 _ _ _ _ BcDNA:SD04739 _ _ _ _ BcDNA:SD04753 _ _ _ _ BcDNA:SD05230 _ _ _ _ BcDNA:SD05379 _ _ _ _ BcDNA:SD05937 _ _ _ _ BcDNA:SD06593 _ _ _ _ BcDNA:SD06613 _ _ _ _ BcDNA:SD06617 _ _ _ _ BcDNA:SD06908 _ _ _ _ BcDNA:SD07008 _ _ _ _ BcDNA:SD07683 _ _ _ _ BcDNA:SD08670 _ _ _ _ BcDNA:SD08722 _ _ _ _ BcDNA:SD08734 _ _ _ _ BcDNA:SD08735 _ _ _ _ BcDNA:SD09147 _ _ _ _ BcDNA:SD09455 _ _ _ _ BcDNA:SD10385 _ _ _ _ BcDNA:SD10530 _ _ _ _ BcDNA:SD10988 _ _ _ _ BcDNA:SD11171 _ _ _ _ BcDNA:SD11637 _ _ _ _ BcDNA:SD11994 _ _ _ _ BcDNA:SD12357 _ _ _ _ BcDNA:SD12705 _ _ _ _ BcDNA:SD12744 _ _ _ _ BcDNA:SD12984 _ _ _ _ BcDNA:SD14289 _ _ _ _ BcDNA:SD15619 _ _ _ _ BcDNA:SD15809 _ _ _ _ BcDNA:SD15892 _ _ _ _ BcDNA:SD16005 _ _ _ _ BcDNA:SD16010 _ _ _ _ BcDNA:SD16138 _ _ _ _ BcDNA:SD16627 _ _ _ _ BcDNA:SD16838 _ _ _ _ BcDNA:SD17342 _ _ _ _ BcDNA:SD17344 _ _ _ _ BcDNA:SD17528 _ _ _ _ BcDNA:SD17750 _ _ _ _ BcDNA:SD18306 _ _ _ _ BcDNA:SD18780 _ _ _ _ BcDNA:SD19278 _ _ _ _ BcDNA:SD20015 _ _ _ _ BcDNA:SD20456 _ _ _ _ BcDNA:SD21019 _ _ _ _ BcDNA:SD21618 _ _ _ _ BcDNA:SD21670 _ _ _ _ BcDNA:SD22208 _ _ _ _ BcDNA:SD22308 _ _ _ _ BcDNA:SD22440 _ _ _ _ BcDNA:SD22445 _ _ _ _ BcDNA:SD22530 _ _ _ _ BcDNA:SD22572 _ _ _ _ BcDNA:SD23244 _ _ _ _ BcDNA:SD23414 _ _ _ _ BcDNA:SD24044 _ _ _ _ BcDNA:SD24339 _ _ _ _ BcDNA:SD25037 _ _ _ _ BcDNA:SD25109 _ _ _ _ BcDNA:SD25955 _ _ _ _ BcDNA:SD26038 _ _ _ _ BcDNA:SD26211 _ _ _ _ BcDNA:SD26403 _ _ _ _ BcDNA:SD27140 _ _ _ _ BcDNA:SD27303 _ _ _ _ BcDNA:SD27354 _ _ _ _ BcDNA:SD27505 _ _ _ _ bch _ _ branch _ BCL7-like _ _ _ _ bcn92 _ _ _ _ bd _ _ balding _ Beach1 intracellular protein transport; GO:0006886 | inferred from sequence similarity with MGD:Lyst; MGI:MGI:107448; lysosomal transport; GO:0007041 | inferred from sequence similarity with MGD:Lyst; MGI:MGI:107448 _ Beached 1 Involved in endocytosis/membrane trafficking. BEAF-32 _ _ Boundary element-associated factor of 32kD _ beat-Ia axon choice point recognition; GO:0016198 | traceable author statement; defasciculation of motor neuron; GO:0007415 | inferred from mutant phenotype _ beaten path Ia "The detachment of the Bolwig's organ precursors from the optic lobe, during embryogenesis may involve interaction between beat-Ia and Fas2, proteins." beat-Ib axon choice point recognition; GO:0016198 | non-traceable author statement; cell adhesion; GO:0007155 | non-traceable author statement; defasciculation of motor neuron; GO:0007415 | non-traceable author statement _ beaten path Ib _ beat-Ic axon choice point recognition; GO:0016198 | non-traceable author statement; cell adhesion; GO:0007155 | non-traceable author statement; defasciculation of motor neuron; GO:0007415 | non-traceable author statement _ beaten path Ic beat-Ic is not a vital gene. beat-IIa axon choice point recognition; GO:0016198 | non-traceable author statement; cell adhesion; GO:0007155 | non-traceable author statement; defasciculation of motor neuron; GO:0007415 | non-traceable author statement; development; GO:0007275 | non-traceable author statement _ beaten path IIa _ beat-IIb _ _ _ _ beat-IIIa _ _ _ _ beat-IIIb _ _ _ _ beat-IIIc _ _ _ _ beat-IV _ _ _ _ beat-Va _ _ _ _ beat-Vb _ _ _ _ beat-Vc _ _ _ _ beat-VI _ _ _ _ beat-VII _ _ _ _ bel _ _ belle _ belt _ _ belt _ Bem46 _ _ _ _ ben axon target recognition; GO:0007412 | inferred from mutant phenotype; axonogenesis; GO:0007409 | inferred from mutant phenotype; flight behavior; GO:0007629 | inferred from mutant phenotype; jump response; GO:0007630 | inferred from mutant phenotype; photoreceptor morphogenesis; GO:0008594 | inferred from mutant phenotype _ bendless _ BEO2 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ "BEO2 expression pattern suggests it plays a role in the primary pigment, cell fate decision." ber _ _ berrytail _ BEST:CK00043 _ _ _ _ BEST:CK00048 _ _ _ _ BEST:CK00068 _ _ _ _ BEST:CK00198 _ _ _ _ BEST:CK00246 _ _ _ _ BEST:CK00309 _ _ _ _ BEST:CK00459 _ _ _ _ BEST:CK00490 _ _ _ _ BEST:CK00496 _ _ _ _ BEST:CK00552 _ _ _ _ BEST:CK01027 _ _ _ _ BEST:CK01043 _ _ _ _ BEST:CK01140 _ _ _ _ BEST:CK01174 _ _ _ _ BEST:CK01205 _ _ _ _ BEST:CK01209 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ BEST:CK01227 multidrug transport; GO:0006855 | inferred from sequence similarity with SWISS-PROT:Q9R1X5 _ _ _ BEST:CK01295 _ _ _ _ BEST:CK01296 _ _ _ _ BEST:CK01299 _ _ _ _ BEST:CK01340 _ _ _ _ BEST:CK01423 _ _ _ _ BEST:CK01438 _ _ _ _ BEST:CK01510 _ _ _ _ BEST:CK01577 defense response; GO:0006952 | inferred from sequence similarity with EMBL:U37799; defense response; GO:0006952 | non-traceable author statement _ _ _ BEST:CK01593 _ _ _ _ BEST:CK01660 _ _ _ _ BEST:CK01670 _ _ _ _ BEST:CK01680 _ _ _ _ BEST:CK01713 _ _ _ _ BEST:CK01823 _ _ _ _ BEST:CK01830 _ _ _ _ BEST:CK02137 _ _ _ _ BEST:CK02213 _ _ _ _ BEST:CK02262 _ _ _ _ BEST:CK02318 _ _ _ _ BEST:CK02422 _ _ _ _ BEST:CK02467 _ _ _ _ BEST:CK02472 _ _ _ _ BEST:CK02623 _ _ _ _ BEST:CK02656 _ _ _ _ BEST:GH01027 _ _ _ _ BEST:GH02216 _ _ _ _ BEST:GH02390 _ _ _ _ BEST:GH02584 _ _ _ _ BEST:GH02609 _ _ _ _ BEST:GH02734 _ _ _ _ BEST:GH02921 defense response; GO:0006952 | non-traceable author statement _ _ _ BEST:GH03217 _ _ _ _ BEST:GH03396 _ _ _ _ BEST:GH03576 _ _ _ _ BEST:GH03983 _ _ _ _ BEST:GH04269 _ _ _ _ BEST:GH04411 _ _ _ _ BEST:GH04494 _ _ _ _ BEST:GH04665 _ _ _ _ BEST:GH05015 _ _ _ _ BEST:GH05075 _ _ _ _ BEST:GH05123 _ _ _ _ BEST:GH05253 _ _ _ _ BEST:GH05452 _ _ _ _ BEST:GH06087 _ _ _ _ BEST:GH06096 _ _ _ _ BEST:GH06341 _ _ _ _ BEST:GH06505 _ _ _ _ BEST:GH06743 _ _ _ _ BEST:GH06752 _ _ _ _ BEST:GH06882 _ _ _ _ BEST:GH07823 _ _ _ _ BEST:GH08116 _ _ _ _ BEST:GH08269 _ _ _ _ BEST:GH08376 _ _ _ _ BEST:GH08762 _ _ _ _ BEST:GH09055 _ _ _ _ BEST:GH09377 _ _ _ _ BEST:GH09393 _ _ _ _ BEST:GH09435 _ _ _ _ BEST:GH09876 _ _ _ _ BEST:GH09955 _ _ _ _ BEST:GH10483 _ _ _ _ BEST:GH10507 _ _ _ _ BEST:GH10550 _ _ _ _ BEST:GH10766 _ _ _ _ BEST:GH10831 _ _ _ _ BEST:GH10940 _ _ _ _ BEST:GH10978 _ _ _ _ BEST:GH11240 _ _ _ _ BEST:GH11373 _ _ _ _ BEST:GH11778 _ _ _ _ BEST:GH11893 _ _ _ _ BEST:GH11908 _ _ _ _ BEST:GH12489 _ _ _ _ BEST:GH12586 _ _ _ _ BEST:GH13953 _ _ _ _ BEST:GH14051 _ _ _ _ BEST:GH14656 _ _ _ _ BEST:GH15083 _ _ _ _ BEST:GH15129 _ _ _ _ BEST:GH15369 _ _ _ _ BEST:GH15838 _ _ _ _ BEST:GH16259 _ _ _ _ BEST:GH16447 _ _ _ _ BEST:GH16741 _ _ _ _ BEST:GH17330 _ _ _ _ BEST:GH18008 _ _ _ _ BEST:GH18038 _ _ _ _ BEST:GH18088 _ _ _ _ BEST:GH18528 _ _ _ _ BEST:GH19041 _ _ _ _ BEST:GH19274 _ _ _ _ BEST:GH19401 _ _ _ _ BEST:GH19447 _ _ _ _ BEST:GH19464 _ _ _ _ BEST:GH19547 _ _ _ _ BEST:GH19718 _ _ _ _ BEST:GH20014 _ _ _ _ BEST:GH20113 _ _ _ _ BEST:GH20229 _ _ _ _ BEST:GH20248 _ _ _ _ BEST:GH20274 _ _ _ _ BEST:GH20356 _ _ _ _ BEST:GH20473 _ _ _ _ BEST:GH20696 _ _ _ _ BEST:GH21304 _ _ _ _ BEST:GH21860 _ _ _ _ BEST:GH22513 _ _ _ _ BEST:GH22533 _ _ _ _ BEST:GH22543 _ _ _ _ BEST:GH22794 _ _ _ _ BEST:GH22856 _ _ _ _ BEST:GH23081 _ _ _ _ BEST:GH23468 _ _ _ _ BEST:GH23475 _ _ _ _ BEST:GH23489 _ _ _ _ BEST:GH23590 _ _ _ _ BEST:GH23808 _ _ _ _ BEST:GH24005 _ _ _ _ BEST:GH24057 _ _ _ _ BEST:GH24085 _ _ _ _ BEST:GH24664 _ _ _ _ BEST:GH24992 _ _ _ _ BEST:GH25016 _ _ _ _ BEST:GH25094 _ _ _ _ BEST:GH25183 _ _ _ _ BEST:GH25462 _ _ _ _ BEST:GH25970 _ _ _ _ BEST:GH26101 _ _ _ _ BEST:GH26112 _ _ _ _ BEST:GH26265 _ _ _ _ BEST:GH26713 _ _ _ _ BEST:GH27029 _ _ _ _ BEST:GH27336 _ _ _ _ BEST:GH27735 _ _ _ _ BEST:GH27755 _ _ _ _ BEST:GH27794 _ _ _ _ BEST:GH28095 _ _ _ _ BEST:GH28401 _ _ _ _ BEST:GH28790 _ _ _ _ BEST:GM01072 _ _ _ _ BEST:GM01575 _ _ _ _ BEST:GM01832 _ _ _ _ BEST:GM02380 _ _ _ _ BEST:GM02553 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ BEST:GM02731 _ _ _ _ BEST:GM04752 _ _ _ _ BEST:GM06241 _ _ _ _ BEST:GM07780 _ _ _ _ BEST:GM07940 _ _ _ _ BEST:GM10035 _ _ _ _ BEST:GM14784 _ _ _ _ BEST:HL01080 _ _ _ _ BEST:HL01355 _ _ _ _ BEST:HL01520 _ _ _ _ BEST:HL02010 _ _ _ _ BEST:HL02093 _ _ _ _ BEST:HL02313 _ _ _ _ BEST:HL02945 _ _ _ _ BEST:HL02977 _ _ _ _ BEST:HL03427 _ _ _ _ BEST:HL03644 _ _ _ _ BEST:HL04053 _ _ _ _ BEST:HL05962 _ _ _ _ BEST:HL07869 _ _ _ _ BEST:LD01639 _ _ _ _ BEST:LD02105 _ _ _ _ BEST:LD02396 _ _ _ _ BEST:LD02456 _ _ _ _ BEST:LD02646 _ _ _ _ BEST:LD02743 _ _ _ _ BEST:LD04413 _ _ _ _ BEST:LD04705 _ _ _ _ BEST:LD04971 _ _ _ _ BEST:LD05530 _ _ _ _ BEST:LD05774 _ _ _ _ BEST:LD05795 _ _ _ _ BEST:LD07107 _ _ _ _ BEST:LD07122 DNA packaging; GO:0006323 | inferred from sequence similarity with MGD:Hmg20b; MGI:MGI:1341190 _ _ _ BEST:LD07241 _ _ _ _ BEST:LD07441 _ _ _ _ BEST:LD08455 _ _ _ _ BEST:LD08487 _ _ _ _ BEST:LD10347 _ _ _ _ BEST:LD10566 _ _ _ _ BEST:LD10585 _ _ _ _ BEST:LD11166 _ _ _ _ BEST:LD11278 _ _ _ _ BEST:LD11861 _ _ _ _ BEST:LD13184 _ _ _ _ BEST:LD13441 _ _ _ _ BEST:LD13681 _ _ _ _ BEST:LD13774 _ _ _ _ BEST:LD14744 _ _ _ _ BEST:LD14959 _ _ _ _ BEST:LD15161 _ _ _ _ BEST:LD15491 _ _ _ _ BEST:LD15963 _ _ _ _ BEST:LD16579 _ _ _ _ BEST:LD16643 _ _ _ _ BEST:LD17341 _ _ _ _ BEST:LD19244 _ _ _ _ BEST:LD20735 _ _ _ _ BEST:LD21494 _ _ _ _ BEST:LD21673 _ _ _ _ BEST:LD21713 _ _ _ _ BEST:LD21829 _ _ _ _ BEST:LD22345 _ _ _ _ BEST:LD22483 _ _ _ _ BEST:LD22859 _ _ _ _ BEST:LD23852 _ _ _ _ BEST:LD24139 _ _ _ _ BEST:LD24460 _ _ _ _ BEST:LD24839 _ _ _ _ BEST:LD24941 _ _ _ _ BEST:LD25345 _ _ _ _ BEST:LD26123 _ _ _ _ BEST:LD26135 _ _ _ _ BEST:LD26545 _ _ _ _ BEST:LD26923 _ _ _ _ BEST:LD28511 _ _ _ _ BEST:LD28579 _ _ _ _ BEST:LD29127 _ _ _ _ BEST:LD29214 _ _ _ _ BEST:LD29228 _ _ _ _ BEST:LD29336 _ _ _ _ BEST:LD29996 _ _ _ _ BEST:LD30049 _ _ _ _ BEST:LD31953 _ _ _ _ BEST:LD31958 _ _ _ _ BEST:LD32004 _ _ _ _ BEST:LD32330 _ _ _ _ BEST:LD32507 _ _ _ _ BEST:LD33067 _ _ _ _ BEST:LD33633 _ _ _ _ BEST:LD33742 _ _ _ _ BEST:LD34564 _ _ _ _ BEST:LD36673 _ _ _ _ BEST:LD36843 _ _ _ _ BEST:LD36950 _ _ _ _ BEST:LD37601 _ _ _ _ BEST:LD38109 _ _ _ _ BEST:LD38188 _ _ _ _ BEST:LD38280 _ _ _ _ BEST:LD38313 _ _ _ _ BEST:LD39226 _ _ _ _ BEST:LD39710 _ _ _ _ BEST:LD39762 _ _ _ _ BEST:LD40095 _ _ _ _ BEST:LD41653 _ _ _ _ BEST:LD41878 _ _ _ _ BEST:LD44353 _ _ _ _ BEST:LD44893 _ _ _ _ BEST:LD45537 _ _ _ _ BEST:LD45671 _ _ _ _ BEST:LP01220 _ _ _ _ BEST:LP01280 _ _ _ _ BEST:LP01468 _ _ _ _ BEST:LP01542 _ _ _ _ BEST:LP01573 _ _ _ _ BEST:LP02275 _ _ _ _ BEST:LP02452 _ _ _ _ BEST:LP03871 _ _ _ _ BEST:LP04128 _ _ _ _ BEST:LP04712 _ _ _ _ BEST:LP05168 _ _ _ _ BEST:LP05376 _ _ _ _ BEST:LP05425 _ _ _ _ BEST:LP06279 _ _ _ _ BEST:LP06294 _ _ _ _ BEST:LP06727 _ _ _ _ BEST:LP06756 _ _ _ _ BEST:LP07011 _ _ _ _ BEST:LP07046 _ _ _ _ BEST:LP07070 _ _ _ _ BEST:LP07372 _ _ _ _ BEST:LP07660 _ _ _ _ BEST:LP09246 _ _ _ _ BEST:LP10010 _ _ _ _ BEST:LP10167 _ _ _ _ BEST:LP10575 _ _ _ _ BEST:LP10814 _ _ _ _ BEST:LP11873 _ _ _ _ BEST:LP11945 _ _ _ _ BEST:RE18684 _ _ _ _ BEST:RE35685 _ _ _ _ BEST:RE60986 _ _ _ _ BEST:SD01859 _ _ _ _ BEST:SD02913 _ _ _ _ BEST:SD02991 _ _ _ _ BEST:SD03905 _ _ _ _ BEST:SD04091 _ _ _ _ BEST:SD04124 _ _ _ _ BEST:SD04285 _ _ _ _ BEST:SD05462 _ _ _ _ BEST:SD05682 _ _ _ _ BEST:SD06302 _ _ _ _ BEST:SD06940 _ _ _ _ BEST:SD07039 _ _ _ _ BEST:SD07237 _ _ _ _ BEST:SD07466 _ _ _ _ BEST:SD09444 _ _ _ _ BEST:SD09626 _ _ _ _ Best1 _ _ Bestrophin 1 _ Best2 _ _ Bestrophin 2 _ Best3 _ _ Bestrophin 3 _ Best4 _ _ Bestrophin 4 _ bet _ _ betel _ Bet1 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Bet3 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Bet5 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ bf _ _ brief _ Bg _ _ Bag _ BG:BACR44L22.1 _ _ _ _ BG:BACR44L22.2 _ _ _ _ BG:BACR44L22.3 _ _ _ _ BG:BACR44L22.4 _ _ _ _ BG:BACR44L22.6 _ _ _ _ BG:BACR44L22.8 _ _ _ _ BG:BACR48E02.1 _ _ _ _ BG:BACR48E02.2 _ _ _ _ BG:BACR48E02.3 _ _ _ _ BG:BACR48E02.4 _ _ _ _ BG:BACR48G21.1 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ BG:DS00004.11 signal peptide processing; GO:0006465 | inferred from sequence similarity with EMBL:AF108945 _ _ _ BG:DS00004.12 _ _ _ _ BG:DS00004.14 arginine biosynthesis; GO:0006526 | non-traceable author statement; urea cycle; GO:0000050 | non-traceable author statement _ _ _ BG:DS00180.10 Wnt receptor signaling pathway; GO:0016055 | inferred from sequence similarity with SWISS-PROT:Q9WUA1 _ _ _ BG:DS00180.12 _ _ _ _ BG:DS00180.14 _ _ _ _ BG:DS00180.2 _ _ _ _ BG:DS00180.3 _ _ _ _ BG:DS00180.5 _ _ _ _ BG:DS00180.7 _ _ _ _ BG:DS00180.8 Wnt receptor signaling pathway; GO:0016055 | inferred from sequence similarity with SWISS-PROT:Q9WUA1 _ _ _ BG:DS00180.9 _ _ _ _ BG:DS00276.8 _ _ _ _ BG:DS00365.1 _ _ _ _ BG:DS00365.3 _ _ _ _ BG:DS00464.1 _ _ _ _ BG:DS00797.1 _ _ _ _ BG:DS00797.2 _ _ _ _ BG:DS00797.4 _ _ _ _ BG:DS00797.5 _ _ _ _ BG:DS00797.6 _ _ _ _ BG:DS00797.7 ER to Golgi transport; GO:0006888 | inferred from sequence similarity with SGD:SEC7; SGDID:S0002577; intra-Golgi transport; GO:0006891 | inferred from sequence similarity with SGD:SEC7; SGDID:S0002577 _ _ _ BG:DS00810.1 _ _ _ _ BG:DS00810.2 _ _ _ _ BG:DS00810.3 _ _ _ _ BG:DS00929.15 _ _ _ _ BG:DS00929.16 _ _ _ _ BG:DS00929.2 _ _ _ _ BG:DS00929.4 _ _ _ _ BG:DS00929.7 _ _ _ _ BG:DS00941.11 _ _ _ _ BG:DS00941.12 _ _ _ _ BG:DS00941.13 _ _ _ _ BG:DS00941.14 _ _ _ _ BG:DS00941.15 _ _ _ _ BG:DS00941.3 _ _ _ _ BG:DS01068.1 _ _ _ _ BG:DS01068.10 _ _ _ _ BG:DS01068.11 _ _ _ _ BG:DS01068.2 _ _ _ _ BG:DS01068.4 _ _ _ _ BG:DS01068.5 _ _ _ _ BG:DS01068.6 _ _ _ _ BG:DS01219.1 _ _ _ _ BG:DS01219.3 _ _ _ _ BG:DS01368.1 _ _ _ _ BG:DS01486.1 ubiquitin cycle; GO:0006512 | non-traceable author statement _ _ _ BG:DS01514.3 _ _ _ _ BG:DS01523.1 _ _ _ _ BG:DS01523.2 _ _ _ _ BG:DS01759.1 _ _ _ _ BG:DS01759.2 _ _ _ _ BG:DS02252.1 _ _ _ _ BG:DS02252.3 _ _ _ _ BG:DS02252.4 _ _ _ _ BG:DS02740.18 _ _ _ _ BG:DS02740.19 _ _ _ _ BG:DS02740.2 _ _ _ _ BG:DS02740.5 _ _ _ _ BG:DS02740.8 _ _ _ _ BG:DS02740.9 gliogenesis; GO:0042063 | inferred from sequence similarity with EMBL:BC005359; protein_id:AAH05359.1 _ _ _ BG:DS02780.1 _ _ _ _ BG:DS02795.3 _ _ _ _ BG:DS03023.2 _ _ _ _ BG:DS03023.4 _ _ _ _ BG:DS03144.1 _ _ _ _ BG:DS03192.2 _ _ _ _ BG:DS03192.3 _ _ _ _ BG:DS03192.4 _ _ _ _ BG:DS03323.1 _ _ _ _ BG:DS03431.1 _ _ _ _ BG:DS03792.2 _ _ _ _ BG:DS04095.1 _ _ _ _ BG:DS04095.2 _ _ _ _ BG:DS04095.3 _ _ _ _ BG:DS04641.8 _ _ _ _ BG:DS04862.2 _ _ _ _ BG:DS04929.1 _ _ _ _ BG:DS04929.3 _ _ _ _ BG:DS05639.1 _ _ _ _ BG:DS05899.1 _ _ _ "An BG:DS05899.1 cDNA has been cloned and sequenced. BG:DS05899.1, is expressed in the early mesoderm." BG:DS05899.3 _ _ _ _ BG:DS05899.6 _ _ _ _ BG:DS05899.7 _ _ _ _ BG:DS06238.4 _ _ _ _ BG:DS06874.1 _ _ _ _ BG:DS06874.2 regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with SWISS-PROT:P97834 _ _ _ BG:DS06874.3 _ _ _ _ BG:DS06874.4 _ _ _ BG:DS06874.4 is not a vital gene. BG:DS06874.6 _ _ _ BG:DS06874.6 is not a vital gene. BG:DS06874.7 _ _ _ _ BG:DS07108.1 _ _ _ BG:DS07108.1 is a non-vital gene. BG:DS07108.2 _ _ _ _ BG:DS07108.4 _ _ _ _ BG:DS07108.5 _ _ _ BG:DS07108.5 is a non-vital gene. BG:DS07295.1 _ _ _ _ BG:DS07295.2 _ _ _ _ BG:DS07295.3 _ _ _ _ BG:DS07295.4 _ _ _ _ BG:DS07295.5 _ _ _ _ BG:DS07473.1 _ _ _ _ BG:DS07473.2 _ _ _ _ BG:DS07486.2 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ BG:DS07486.3 _ _ _ _ BG:DS07486.4 _ _ _ _ BG:DS07486.5 _ _ _ _ BG:DS07660.1 _ _ _ _ BG:DS07721.1 _ _ _ _ BG:DS07721.3 _ _ _ _ BG:DS07721.6 _ _ _ _ BG:DS07851.11 _ _ _ _ BG:DS07851.3 negative regulation of protein biosynthesis; GO:0017148 | inferred from sequence similarity with SWISS-PROT:P52758 _ _ _ BG:DS07851.4 _ _ _ _ BG:DS07851.5 _ _ _ _ BG:DS07851.8 _ _ _ _ BG:DS08249.1 _ _ _ _ BG:DS08249.2 _ _ _ _ BG:DS08249.3 _ _ _ _ BG:DS08249.4 _ _ _ _ BG:DS08249.5 _ _ _ _ BG:DS08340.1 _ _ _ _ BG:DS09217.1 _ _ _ _ BG:DS09217.4 _ _ _ _ BG:DS09218.1 _ _ _ _ BG:DS09218.3 _ _ _ _ BG:DS09218.5 _ _ _ _ BG:DS09219.1 _ _ _ _ BG4 defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | non-traceable author statement _ _ _ Bgb _ _ Big brother _ bgcn cystoblast cell division; GO:0007282 | non-traceable author statement; oogenesis; GO:0007292 | inferred from mutant phenotype _ benign gonial cell neoplasm _ bgm _ _ bubblegum _ bh _ _ baldhead _ bhe _ _ broad head _ bi _ _ bifid _ bib _ _ big brain _ bic _ _ bicaudal _ BicC oogenesis; GO:0007292 | inferred from mutant phenotype; oogenesis; GO:0007292 | non-traceable author statement _ Bicaudal C _ BicD egg chamber formation; GO:0007293 | inferred from mutant phenotype; oocyte determination; GO:0007294 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype; polarization of the oocyte microtubule cytoskeleton; GO:0008103 | inferred from mutant phenotype _ Bicaudal D "BicD is required for the formation of and cytoskeletal organization, of the egg chamber." BicF _ _ Bicaudal F _ bie _ _ bientot _ bif female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ bifocal "bif is required for normal rhabdomere development in photoreceptor, cells." big _ _ bendless interacting gene product Identified in a yeast two-hybrid screen for interactors with the ben protein. bigmax transcription; GO:0006350 | non-traceable author statement _ _ _ bin mesoderm cell fate commitment; GO:0001710 | inferred from mutant phenotype _ biniou "bin is essential for maintaining the distinction between the splanchnic, (visceral) and somatic mesoderm and for differentiation of the splanchnic, mesoderm into midgut musculature." Bin1 negative regulation of transcription from Pol II promoter; GO:0000122 | non-traceable author statement _ Bicoid interacting protein 1 _ bin3 _ _ bicoid-interacting protein 3 _ bip _ _ bipolar oocyte _ Bip-p15 _ _ Bcd interacting protein p15 _ Bip-p150 _ _ Bcd interacting protein p150 _ bip1 _ _ _ _ bip2 _ _ _ _ bis _ _ bistre _ Bit _ _ Bitten _ BITP-15 _ _ _ _ biz _ _ bizarre _ Bj1 central nervous system development; GO:0007417 | inferred from mutant phenotype; chromosome condensation; GO:0030261 | inferred from sequence similarity with EMBL:X12654; protein_id:CAA31182.1 _ Bj1 protein "The maternally expressed Bj1 gene product binds to chromatin to establish, or maintain a proper higher order structure as a prerequisite for regulated, gene expression. Disruption of the structure may cause both misexpression, and default repression of genes." bk27 _ _ _ _ bk64 _ _ _ _ bk87 _ _ _ _ Bka _ _ Bekka "A trithorax group gene with a possible role in imaginal cell, proliferation, particularly in the developing wing." Bkd _ _ Blackoid _ Bl _ _ Bristle _ bl _ _ bancal _ blairy photoreceptor differentiation; GO:0007467 | inferred from mutant phenotype _ blairy _ blc oogenesis; GO:0007292 | inferred from mutant phenotype _ blocked _ Bld _ _ Blond _ bld _ _ bald _ blis _ _ blisterwing _ bln _ _ blanks _ blnd _ _ bland _ blo _ _ bloated _ blot morphogenesis of an epithelium; GO:0002009 | traceable author statement _ bloated tubules _ blow myoblast fusion; GO:0007520 | traceable author statement _ blown fuse _ blp _ _ black pearl blp is specifically required for larval growth. bls _ _ bractless _ blt _ _ ballet _ blue regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype _ bluestreak _ blw proton transport; GO:0015992 | non-traceable author statement _ bellwether _ bly _ _ bellyache _ BM-40-SPARC cell adhesion; GO:0007155 | inferred from sequence similarity _ _ _ Bmcp _ _ _ _ bnb _ _ bangles and beads "Prior to dorsal closure bnb expression is observed in the mesectoderm, and presumptive epidermis in metameric pattern, expression becomes, restricted after closure to segmentally reiterated sets of cells along, the nervous system periphery." bnch _ _ benchwarmer _ bnd-35 _ _ _ _ bnk cellularization; GO:0007349 | traceable author statement _ bottleneck "The expression pattern and mutant phenotype of bnk suggests a direct, role in regulating the dynamic restructuring of the actin-based cytoskeleton, of cellularizing embryos." bnl _ _ branchless _ bns actin polymerization and/or depolymerization; GO:0008154 | non-traceable author statement _ _ _ bo _ _ bordeaux _ boas _ _ beads on a string _ bob _ _ bobble _ BobA _ _ Brother of Bearded A _ BobB _ _ Brother of Bearded B _ BobC _ _ Brother of Bearded C _ BobD _ _ Brother of Brd D _ boc _ _ bocce _ boca proboscis morphogenesis; GO:0016349 | inferred from mutant phenotype _ boca "boca is essential for proboscis development, and viability." bod _ _ bowed _ bol entry into meiosis; GO:0042061 | non-traceable author statement; regulation of translation; GO:0006445 | inferred from genetic interaction with FLYBASE:twe; FB:FBgn0002673 _ boule _ Bom _ _ Bombyxin "The Bom gene product was identified as an antigen identified by an, antibody raised against B.mori neuropeptide bombyxin." bon _ _ bonus _ bonsai protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82914 _ _ _ bor _ _ belphegor _ bos _ _ bordosteril _ bose _ _ bose _ boss signal transduction; GO:0007165 | inferred from sequence similarity _ bride of sevenless "boss gene product plays a role in the generation of the ligand that, activates the sev receptor." bot _ _ botch _ botv "heparan sulfate proteoglycan biosynthesis, polysaccharide chain biosynthesis; GO:0015014 | non-traceable author statement; segment polarity determination; GO:0007367 | non-traceable author statement" _ brother of tout-velu Segment polarity gene. Bow _ _ Bowed _ bowl _ _ brother of odd with entrails limited _ Bpt _ _ Blackpatch _ br autophagy; GO:0006914 | inferred from mutant phenotype; photoreceptor commitment; GO:0007459 | inferred from mutant phenotype; progression of morphogenetic furrow (sensu Drosophila); GO:0007458 | inferred from mutant phenotype; response to pest/pathogen/parasite; GO:0009613 | inferred from mutant phenotype _ broad "br encodes a family of Zinc-finger proteins that possess both, common and unique exons. The gene is expressed as an 'early' ecdysone puff, in 2B1--2B5 in salivary gland polytene chromosomes. A consequence of the, molecular organization of the br gene is a complex pattern of, complementation between mutant alleles." brat oogenesis; GO:0007292 | inferred from mutant phenotype; rRNA metabolism; GO:0016072 | inferred from mutant phenotype _ brain tumor "brat appears to be involved in negatively regulating the level of, cellular rRNA." brc _ _ brachymacrochaetae _ Brd _ _ Bearded "The Brd 3' UTR confers negative regulatory activity on heterologous, reporter genes in vivo." bre _ _ bright eye _ brec _ _ bad reception _ Brf _ _ _ _ Brg-P9 _ _ _ Brg-P9 encodes a gene involved in imaginal disc morphogenesis. brh _ _ brown head _ Bri _ _ _ _ bri _ _ bright _ brk TGFbeta receptor signaling pathway; GO:0007179 | traceable author statement; negative regulation of transcription from Pol II promoter; GO:0000122 | traceable author statement _ brinker _ brls _ _ barrels _ brm positive regulation of transcription by homeotic gene (trithorax group); GO:0006339 | non-traceable author statement _ brahma _ brn _ _ brainiac _ Bro _ _ Brother _ bru _ _ brunelleschi _ bru-2 _ _ bruno-2 _ bru-3 _ _ bruno-3 _ Bruce anti-apoptosis; GO:0006916 | inferred from sequence similarity with MGD:Birc6; MGI:MGI:1276108 _ _ _ brw _ _ broader wing _ bs tracheal system development (sensu Insecta); GO:0007424 | non-traceable author statement _ blistered "bs is involved in cell fate allocation and differentiation but does, not participate in cell proliferation. The activity of bs is necessary, to specify cells to adopt an intervein fate. It expression is repressed, in larval stages in vein territories by genes of the Ras signaling, pathway. The differentiation of vein and intervein depends on the, outcome of a balance between bs and rho activities, achieved during, pupal stages." Bsb _ _ Blunt short bristle _ bsc _ _ bent scutellars _ bsf _ _ bicoid stability factor _ Bsg25A _ _ Blastoderm-specific gene 25A _ Bsg25D _ _ Blastoderm-specific gene 25D _ Bsg95C _ _ Blastoderm-specific transcript 95C _ Bsg99D _ _ Blastoderm-specific transcript 99D _ bsh brain development; GO:0007420 | non-traceable author statement _ brain-specific homeobox _ bsk JNK cascade; GO:0007254 | inferred from direct assay; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from direct assay; wound healing; GO:0042060 | inferred from direct assay _ basket _ bsp _ _ brown spots _ bss _ _ bang senseless _ bst brain development; GO:0007420 | inferred from mutant phenotype _ brain storming _ bt protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ bent _ btb _ _ bumper-to-bumper _ BtbII _ _ BTB-protein-II _ BtbVII _ _ BTB-protein-VII _ btd "specification of segmental identity, head; GO:0007380 | non-traceable author statement" _ buttonhead _ btdl _ _ buttonhead like _ Bteb2 _ _ _ _ BthD _ _ _ _ Btk29A male genital morphogenesis (sensu Insecta); GO:0007485 | inferred from direct assay _ Btk family kinase at 29A _ btl "glia cell migration; GO:0008347 | inferred from mutant phenotype; primary tracheal branching; GO:0007428 | inferred from mutant phenotype; primary tracheal branching; GO:0007428 | inferred from mutant phenotype; secondary tracheal branching; GO:0007429 | inferred from mutant phenotype; secondary tracheal branching; GO:0007429 | inferred from mutant phenotype; terminal branching of trachea, cytoplasmic projection extension; GO:0007430 | inferred from mutant phenotype; terminal branching of trachea, cytoplasmic projection extension; GO:0007430 | inferred from mutant phenotype; tracheal cell migration; GO:0007427 | inferred from mutant phenotype; tracheal cell migration; GO:0007427 | inferred from mutant phenotype; tracheal cell migration; GO:0007427 | inferred from mutant phenotype; tracheal cell migration; GO:0007427 | inferred from mutant phenotype" _ breathless _ btm _ _ breaks at metaphase _ btn _ _ buttonless _ btv hearing; GO:0007605 | inferred from mutant phenotype _ beethoven _ btz _ _ barentsz _ bub _ _ bubblewing _ Bub1 exit from mitosis; GO:0007096 | inferred from genetic interaction with FLYBASE:dup; FB:FBgn0000996 _ _ mei-41 has a role in blocking exit from mitosis. Bub3 mitotic checkpoint; GO:0007093 | non-traceable author statement _ _ _ Buffy apoptosis; GO:0006915 | inferred from sequence similarity with HUGO:BCL2; OMIM:151430; apoptosis; GO:0006915 | inferred from sequence similarity with MGD:Bcl2l; MGI:MGI:88139 _ Buffy _ bul _ _ bulge "Genetic analysis of argos using a dose titration strategy identified, three gene functions, bul, soba and cln, that genetically interact, with argos and also with each other. bul, soba and cln are candidates, for argos receptor genes or may encode proteins that are involved in, the elaboration or perception of the argos signal." bulb tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ bulbous _ bun cell fate determination; GO:0001709 | non-traceable author statement; cell fate determination; GO:0001709 | non-traceable author statement; eye morphogenesis (sensu Drosophila); GO:0007456 | non-traceable author statement; eye morphogenesis (sensu Drosophila); GO:0007456 | non-traceable author statement; oogenesis; GO:0007292 | non-traceable author statement; peripheral nervous system development; GO:0007422 | non-traceable author statement; peripheral nervous system development; GO:0007422 | non-traceable author statement _ bunched _ bundled _ _ bundled bundled is required for retinal axon projection in the visual system. bur GMP biosynthesis; GO:0006177 | inferred from sequence similarity _ burgundy _ burned _ _ burned _ bushy _ _ bushy _ bv _ _ brevis _ bves _ _ _ _ bw eye pigment biosynthesis; GO:0006726 | non-traceable author statement; pteridine biosynthesis; GO:0006728 | non-traceable author statement _ brown _ bwa brain development; GO:0007420 | inferred from mutant phenotype _ brain washing _ bwk _ _ bullwinkle _ bwl _ _ bow-legged _ Bx _ _ Beadex "In analogy to their vertebrate counterparts, the gene products of Bx,, ap and Chi form a DNA-binding complex, that regulates wing development." Bx34 _ _ _ _ Bx42 _ _ Bx42 _ BXC _ _ Bithorax Complex _ bxd microtubule-based movement; GO:0007018 | non-traceable author statement _ _ Non-coding RNA regulating Ubx. by _ _ blistery _ byn hindgut morphogenesis; GO:0007442 | non-traceable author statement _ brachyenteron _ bys _ _ by S6 _ Bzd _ _ Buzidau _ c _ _ curved _ c(2)M meiosis; GO:0007126 | inferred from mutant phenotype; meiosis; GO:0007126 | inferred from mutant phenotype; meiotic recombination; GO:0007131 | inferred from mutant phenotype _ crossover suppressor on 2 of Manheim "A meiotic precondition genes, required for a step prior to the, actual recombination event that produces a crossover." c(3)G _ _ crossover suppressor on 3 of Gowan c(3)G is required for recombination and synaptonemal complex assembly. c11.1 _ _ _ _ c12.1 _ _ _ _ c12.2 _ _ _ _ C141 _ _ _ _ C15 _ _ C15 "In situ and antibody staining show that C15 is, expressed in amnioserosa cells, from cellularized blastoderm until the, amnioserosa degenerates in late embryogenesis. From stage 11 on, there is, also expression in small, segmentally repeated clusters of neurons of the, CNS and in sensory cells of the Keilin's organs and of the antenno-maxillary, complex." C31 _ _ _ _ C3G _ _ _ _ C43 _ _ _ _ C5 _ _ _ _ C55 _ _ _ _ C6 _ _ clone C6 "Isolated in a two-hybrid screen for proteins that interact with the, lab protein." C62 _ _ _ "Gene titration method has been used to search for genes involved in, the determination of sense organs." C8-3-37 _ _ _ _ C8.5 _ _ _ Identified in a yeast system as a target gene regulated by BX-C proteins. C901 _ _ _ Identified during a molecular and genetic analysis of the 10A region. C96 _ _ _ _ ca _ _ claret "The 'ca[nd]' locus has been found to be two closely linked but separate, genes, ca and ncd." Ca-alpha1D epithelial fluid transport; GO:0042045 | inferred from direct assay; epithelial fluid transport; GO:0042045 | inferred from expression pattern _ Ca[2+]-channel protein alpha[[1]] subunit D _ Ca-alpha1T _ _ _ _ Ca-alpha2 _ _ Ca[2+]-channel-protein-alpha[[2]]-subunit _ Ca-beta _ _ Ca[2+]-channel-protein-beta-subunit _ Ca-1 _ _ Carbonic anhydrase-1 _ Ca-2 _ _ Carbonic anhydrase-2 _ Ca-3 _ _ Carbonic anhydrase-3 _ Ca-P60A calcium ion transport; GO:0006816 | non-traceable author statement _ Calcium ATPase at 60A "Ca-P60A is essential for cell viability and tissue morphogenesis, during development. Ca-P60A function is required for intracellular, trafficking of the N receptor." Ca1G _ _ _ _ cab olfactory learning; GO:0008355 | traceable author statement _ cabbage _ CaBP1 _ _ _ _ CabP23 _ _ Calcium-binding protein 23kD "The product of CabP23 has been purified and initially characterized:, it is distinct from calmodulin." cac courtship behavior; GO:0007619 | inferred from mutant phenotype; epithelial fluid transport; GO:0042045 | inferred from direct assay _ cacophony _ cact antifungal humoral response (sensu Invertebrata); GO:0006966 | inferred from mutant phenotype; antifungal polypeptide induction; GO:0006967 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype _ cactus _ cactin dorsal/ventral axis determination; GO:0007310 | inferred from genetic interaction with FLYBASE:cact; FB:FBgn0000250 _ cactin _ cad analia morphogenesis (sensu Insecta); GO:0007487 | traceable author statement _ caudal _ Cad47B homophilic cell adhesion; GO:0007156 | inferred from sequence similarity _ _ _ Cad74A calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity _ _ _ Cad87A calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity _ _ _ Cad88C calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity _ _ _ Cad89D calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity _ _ _ Cad96Ca calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ _ Cad96Cb calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity _ _ _ Cad99C calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity _ _ _ CadN axon target recognition; GO:0007412 | inferred from mutant phenotype; homophilic cell adhesion; GO:0007156 | inferred from direct assay _ Cadherin-N _ CadN2 calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity; calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity; homophilic cell adhesion; GO:0007156 | inferred from sequence similarity _ _ _ Caf1 negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | inferred from physical interaction with FLYBASE:E(z); FB:FBgn0000629; negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | inferred from physical interaction with FLYBASE:esc; FB:FBgn0000588 _ Chromatin assembly factor 1 subunit _ Caf1-105 chromatin assembly/disassembly; GO:0006333 | inferred from sequence similarity with EMBL:U20980; protein_id:AAA76737.1; nucleosome assembly; GO:0006334 | non-traceable author statement _ _ _ Caf1-180 nucleosome assembly; GO:0006334 | non-traceable author statement _ _ _ Caf4 _ _ _ "Caf1 and Caf4 are required, in addition to core histones, ATP and, DNA, for the efficient assembly of periodic nucleosomal arrays." cag _ _ _ _ CAH1 _ _ Carbonic anhydrase 1 _ CAH2 _ _ Carbonic anhydrase 2 _ Cak protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Cell adhesion kinase _ Caki adult walking behavior; GO:0007628 | inferred from mutant phenotype _ Calcium/calmodulin-dependent protein kinase _ Calp14B _ _ Calpain 14B _ CalpA actin cytoskeleton organization and biogenesis; GO:0030036 | non-traceable author statement _ Calpain-A _ CalpB _ _ Calpain-B _ CalpI _ _ Calpain I "CalpI has been partially purified and analyzed. A calcium-dependent, proteolytic activity has been detected at pH7.5 in head extracts., DEAE-cellulose chromatography revealed two activity peaks, with elution, positions corresponding to vertebrate calpains I (CalpI activity) and, II (CalpII activity). The CalpI and CalpII proteins have different, Ca[2+] dependencies for proteolytic activity. Both enzymes are, inhibited by a heat-stable and trypsin-sensitive component,, Calpastatin." CalpII _ _ Calpain II "CalpII has been partially purified and analyzed. A calcium-dependent, proteolytic activity has been detected at pH7.5 in head extracts., DEAE-cellulose chromatography revealed two activity peaks, with elution, positions corresponding to vertebrate calpains I (CalpI activity) and, II (CalpII activity). The CalpI and CalpII proteins have different, Ca[2+] dependencies for proteolytic activity. Both enzymes are, inhibited by a heat-stable and trypsin-sensitive component,, Calpastatin." calsyntenin-1 calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity; synaptic transmission; GO:0007268 | non-traceable author statement _ calsyntenin-1 _ Calx _ _ Na/Ca-exchange protein _ Cam calcium ion sensing; GO:0005513 | inferred from sequence similarity with EMBL:L31642; metarhodopsin inactivation; GO:0016060 | inferred from genetic interaction with FLYBASE:Galpha49B; FB:FBgn0004435 _ Calmodulin "The structural gene for the calcium-binding protein, calmodulin." CaMKI protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Calcium/calmodulin-dependent protein kinase I "CaM-kinase I has been detected by Western blotting in extracts using an, antibody against the rat protein." CaMKII learning and/or memory; GO:0007611 | inferred from mutant phenotype; modulation of synapse; GO:0007273 | inferred from mutant phenotype _ Calcium/calmodulin-dependent protein kinase II _ Camta _ _ Calmodulin-binding transcription activator _ can transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF5; OMIM:601787; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF5L; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF90; SGDID:S0000402 _ cannonball _ cana microtubule-based movement; GO:0007018 | inferred from sequence similarity; mitotic anaphase; GO:0000090 | inferred from mutant phenotype _ CENP-ana _ CanA-14F protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Calcineurin A at 14F _ CanA1 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ Calcineurin A1 _ CanB protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ Calcineurin B Two subunits of Drosophila calcineurin have been cloned. CanB2 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ Calcineurin B2 "CanB2 has been cloned and sequenced, and compared with CanB." Canp _ _ Ca[2+]-activated neutral protease _ cant _ _ cat of nine tails _ cao _ _ cabrio _ Cap sister chromatid cohesion; GO:0007062 | inferred from sequence similarity with SGD:SMC3; SGDID:S0003610 _ Chromosome-associated protein _ Cap-2b regulation of heart; GO:0008016 | non-traceable author statement _ Cardioacceleratory peptide-2b "A peptide with similar properties to CAP[[2b]] of M.sexta, has been isolated from adult Drosophila. It stimulates fluid secretion by, Malpighian tubules." Cap-G chromosome condensation; GO:0030261 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype _ _ _ capa _ _ capability _ Caps synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Calcium activated protein for secretion _ caps axon guidance; GO:0007411 | inferred from mutant phenotype _ capricious _ capt actin filament organization; GO:0007015 | inferred from mutant phenotype; actin polymerization and/or depolymerization; GO:0008154 | inferred from mutant phenotype; bristle morphogenesis; GO:0008407 | inferred from mutant phenotype; eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype; polarization of the oocyte microtubule cytoskeleton; GO:0008103 | inferred from mutant phenotype; regulation of cell shape; GO:0008360 | inferred from mutant phenotype _ capulet _ capu eggshell formation; GO:0007304 | inferred from mutant phenotype; pole plasm assembly; GO:0007315 | inferred from mutant phenotype; pole plasm assembly; GO:0007315 | inferred from mutant phenotype _ cappuccino _ car lysosome organization and biogenesis; GO:0007040 | non-traceable author statement; vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ carnation _ Cas apoptosis; GO:0006915 | inferred from sequence similarity with EMBL:AF053651; protein_id:AAC35297.1; protein-nucleus export; GO:0006611 | inferred from mutant phenotype _ CAS/CSE1 segregation protein "Cas is a ubiquitous export receptor that seems to be required in, all tissues." cas mushroom body development; GO:0016319 | inferred from genetic interaction with FLYBASE:drl; FB:FBgn0015380; mushroom body development; GO:0016319 | inferred from genetic interaction with FLYBASE:nob; FB:FBgn0002946 _ castor cas is involved in post-embryonic brain development. cash _ _ cashews _ Cask neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle docking; GO:0016081 | non-traceable author statement; synaptic vesicle targeting; GO:0016080 | non-traceable author statement _ _ _ cass _ _ cassowary _ cast _ _ ojos castanos _ Cat catalase reaction; GO:0006802 | inferred from sequence similarity with MGD:Cas1; MGI:MGI:88271; oxidative stress response; GO:0006979 | inferred from sequence similarity with MGD:Cas1; MGI:MGI:88271 _ Catalase "mRNA levels increase at adult day 5 in strain showing extended longevity, phenotype (ELP)." alpha-Cat cell adhesion; GO:0007155 | non-traceable author statement; cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ alpha Catenin "alpha-catenin is a component of a membrane-associated complex that, includes the arm and aagp gene products." delta-catenin _ _ _ _ cathD _ _ _ _ cato _ _ cousin of atonal cato is involved in sensory neuron morphology. Catsup nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype; regulation of catecholamine metabolism; GO:0042069 | inferred from mutant phenotype _ Catecholamines up _ cau _ _ cauliflower _ caup regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement _ caupolican _ cav _ _ caravaggio _ caz transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF12; OMIM:601574 _ cabeza _ Cazip1 _ _ Caz-interacting protein 1 Isolated in a yeast two-hybrid screen as an interactor with the caz protein. cb _ _ club _ cbd _ _ central body defect _ Cbf-1 _ _ copia binding factor 1 "Identified as a factor from Schneider S2 cell nuclear extracts that, binds to the copia ULR (untranslated leader region)." Cbl "dorsal/ventral axis determination; GO:0007310 | inferred from mutant phenotype; dorsal/ventral axis determination, follicular epithelium; GO:0008069 | inferred from mutant phenotype; negative regulation of EGF receptor activity; GO:0007175 | inferred from mutant phenotype" _ _ _ CBP _ _ sarcoplasmic calcium-binding protein _ Cbp20 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:031388 _ cap binding protein 20 _ Cbp46A _ _ Calmodulin-binding protein 46A _ Cbp53E calcium ion homeostasis; GO:0006874 | inferred from sequence similarity with SWISS-PROT:P12658 _ Calbindin 53E _ Cbp80 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:002477 _ cap binding protein 80 _ Cbp82F _ _ Calmodulin-binding protein 82F _ Cbp86A _ _ Calmodulin-binding protein 86A _ Cbs _ _ Calcium-binding protein in Shaker _ cbs _ _ centrosomin's beautiful sister cbs appears to participate in microtubule organizing center function. cbx _ _ crossbronx _ Ccap regulation of heart; GO:0008016 | inferred from sequence similarity with EMBL:AF071800 _ _ _ ccb _ _ central complex broad _ ccd _ _ central complex deranged _ CCKLR-17D1 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ CCK-like receptor at 17D1 _ CCKLR-17D3 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ CCK-like receptor at 17D3 _ Ccp84Aa _ _ _ _ Ccp84Ab _ _ _ _ Ccp84Ac _ _ _ _ Ccp84Ad _ _ _ _ Ccp84Ae _ _ _ _ Ccp84Af _ _ _ _ Ccp84Ag _ _ _ _ CCR4 _ _ _ _ CCS intracellular copper delivery; GO:0015680 | inferred from sequence similarity with EMBL:AF121906; protein_id:AAD23832.1; intracellular copper delivery; GO:0015680 | non-traceable author statement _ _ _ Cctgamma protein folding; GO:0006457 | inferred from sequence similarity; protein folding; GO:0006457 | inferred from sequence similarity with SGD:CCT3; SGDID:S0003551 _ _ _ Cct1 oogenesis; GO:0007292 | inferred from mutant phenotype _ CTP:phosphocholine cytidylyltransferase 1 _ Cct2 _ _ CTP:phosphocholine cytidylyltransferase 2 _ Cct5 protein folding; GO:0006457 | inferred from sequence similarity; protein folding; GO:0006457 | inferred from sequence similarity with SWISS-PROT:P48643 _ T-complex Chaperonin 5 _ ccw _ _ concave wing _ Ccy _ _ Coiled-Coils Y _ cd _ _ cardinal _ CD98 _ _ _ _ cdc16 ubiquitin cycle; GO:0006512 | inferred from sequence similarity with SGD:CDC16; SGDID:S0001505 _ _ _ cdc2 G2/M transition of mitotic cell cycle; GO:0000086 | inferred from mutant phenotype _ cdc2 Complements yeast temperature-sensitive cdc28 alleles. Cdc27 _ _ _ _ cdc2c G1/S transition of mitotic cell cycle; GO:0000082 | inferred from sequence similarity; G2/M transition of mitotic cell cycle; GO:0000086 | inferred from sequence similarity _ cdc2c _ cdc2rk protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ cdc2-related-kinase _ Cdc37 protein kinase cascade; GO:0007243 | non-traceable author statement; transmembrane receptor protein tyrosine kinase signaling pathway; GO:0007169 | non-traceable author statement _ Cdc37 _ Cdc42 _ _ Cdc42 _ CDC45L DNA replication; GO:0006260 | inferred from sequence similarity with EMBL:AF062494; DNA replication initiation; GO:0006270 | inferred from sequence similarity with HUGO:CDC45L; OMIM:603465; DNA replication initiation; GO:0006270 | inferred from sequence similarity with SGD:CDC45; SGDID:S0004093 _ _ _ cdc5 _ _ _ _ CdGAPr _ _ _ _ cdi protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ center divider _ Cdi11 _ _ Cyclin-dependent kinase interactor 11 _ Cdi12 _ _ Cyclin-dependent kinase interactor 12 _ Cdic _ _ Cytoplasmic dynein intermediate chain _ Cdk4 cell proliferation; GO:0008283 | inferred from genetic interaction with FLYBASE:CycD; FB:FBgn0010315; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity with SGD:CDC28; SGDID:S0000364 _ Cyclin-dependent kinase 4 _ Cdk5 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; synaptic vesicle transport; GO:0016181 | inferred from electronic annotation _ Cyclin-dependent kinase 5 _ Cdk5alpha protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Cdk5 activator-like protein _ Cdk7 regulation of CDK activity; GO:0000079 | inferred from direct assay; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:CDK7; OMIM:601955; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:KIN28; SGDID:S0002266; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with WB:cdk-7 _ Cyclin-dependent kinase 7 _ Cdk8 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Cyclin-dependent kinase 8 _ Cdk9 RNA elongation from Pol II promoter; GO:0006368 | inferred from direct assay; response to heat shock; GO:0006951 | inferred from direct assay; transcription; GO:0006350 | inferred from direct assay _ Cyclin-dependent kinase 9 _ Cdlc2 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Cytoplasmic dynein light chain 2 _ CdsA phototransduction; GO:0007602 | inferred from genetic interaction with FLYBASE:Arr2; FB:FBgn0000121 _ CDP diglyceride synthetase _ CE2-1 _ _ "Calcineurin enhancer, chromosome 2, group 1" _ CE2-2 _ _ "Calcineurin enhancer, chromosome 2, group 2" _ CE2-3 _ _ "Calcineurin enhancer, chromosome 2, group 3" _ CE3-1 _ _ "Calcineurin enhancer, chromosome 3, group 1" _ CE3-2 _ _ "Calcineurin enhancer, chromosome 3, group 2" _ CE3-3 _ _ _ _ CecA1 antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity _ Cecropin A1 _ CecA2 antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity _ Cecropin A2 "The Cec gene region contains three genes: CecA1, CecA2 and, CecB. Cecropins are antibacterial peptides: transcripts appear within, one hour after bacteria has been injected in to the haemocoel." CecB antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity _ Cecropin B _ CecC antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity _ Cecropin C _ Ced-12 _ _ _ _ ced-6 _ _ _ _ cel _ _ celibate _ Cen190 microtubule-based process; GO:0007017 | inferred from sequence similarity _ Centrosomal protein 190kD "The localization of Cen190 protein within the fertilized egg has, been studied." cenB1A _ _ centaurin beta 1A _ cenG1A _ _ centaurin gamma 1A _ centrin _ _ centrin _ cex _ _ central complex _ Cf2 "regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement; regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement" _ Chorion factor 2 _ CFDD _ _ Common regulatory Factor for DNA replication and DREF genes _ cff _ _ control of female fertility "cff is a cis-acting regulator required for the correct expression, of dnc." cfo _ _ centrosome fall off _ cg wing morphogenesis; GO:0007476 | inferred from mutant phenotype _ combgap cg is required for the establishment of radial pattern. CG10000 _ _ _ _ CG10005 _ _ _ _ CG10006 _ _ _ _ CG10007 _ _ _ _ CG10011 _ _ _ _ CG10013 _ _ _ _ CG10014 _ _ _ _ CG10017 _ _ _ _ CG10019 _ _ _ _ CG10020 _ _ _ _ CG10022 calcium ion sensing; GO:0005513 | inferred from sequence similarity with PIR:I49567 _ _ _ CG10026 _ _ _ _ CG10029 _ _ _ _ CG10031 _ _ _ _ CG10032 _ _ _ _ CG10034 _ _ _ _ CG10035 _ _ _ _ CG10038 _ _ _ _ CG10039 _ _ _ _ CG10041 _ _ _ _ CG10042 _ _ _ _ CG10046 _ _ _ _ CG10050 _ _ _ _ CG10051 _ _ _ _ CG10053 _ _ _ _ CG10055 _ _ _ _ CG10057 _ _ _ _ CG10061 _ _ _ _ CG10062 _ _ _ _ CG10063 _ _ _ _ CG10064 _ _ _ _ CG10065 _ _ _ _ CG10068 _ _ _ _ CG10069 _ _ _ _ CG10073 _ _ _ _ CG10075 _ _ _ _ CG10077 _ _ _ _ CG10080 _ _ _ _ CG10081 _ _ _ _ CG10082 _ _ _ _ CG10083 _ _ _ _ CG10084 _ _ _ _ CG10086 _ _ _ _ CG10089 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG10092 _ _ _ _ CG10095 _ _ _ _ CG10096 _ _ _ _ CG10098 _ _ _ _ CG10099 microtubule-based process; GO:0007017 | inferred from sequence similarity _ _ _ CG10101 _ _ _ _ CG10102 _ _ _ _ CG10103 _ _ _ _ CG10104 _ _ _ _ CG10105 _ _ _ _ CG10107 _ _ _ _ CG10112 _ _ _ _ CG10113 _ _ _ _ CG10114 _ _ _ _ CG10115 _ _ _ _ CG10116 _ _ _ _ CG10124 binding to mRNA cap; GO:0006441 | inferred from sequence similarity; translational initiation; GO:0006413 | inferred from sequence similarity with MGD:Eif4e; MGI:MGI:95305 _ _ _ CG10126 _ _ _ _ CG10127 _ _ _ _ CG10131 _ _ _ _ CG10132 _ _ _ _ CG10133 _ _ _ _ CG10135 calcium ion sensing; GO:0005513 | inferred from sequence similarity with EMBL:X97966; protein_id:CAA66609.1 _ _ _ CG10137 _ _ _ _ CG10139 _ _ _ _ CG10140 _ _ _ _ CG10144 _ _ _ _ CG10147 _ _ _ _ CG10148 _ _ _ _ CG10151 _ _ _ _ CG10153 _ _ _ _ CG10154 _ _ _ _ CG10155 _ _ _ _ CG10157 _ _ _ _ CG10158 _ _ _ _ CG10162 translational elongation; GO:0006414 | inferred from sequence similarity with SWISS-PROT:P13639 _ _ _ CG10163 _ _ _ _ CG10164 _ _ _ _ CG10165 _ _ _ _ CG10166 protein amino acid glycosylation; GO:0006486 | non-traceable author statement _ _ _ CG10168 _ _ _ _ CG1017 _ _ _ _ CG10170 _ _ _ _ CG10171 _ _ _ _ CG10174 protein-nucleus import; GO:0006606 | inferred from sequence similarity with SGD:NTF2; SGDID:S0000811 _ _ _ CG10175 _ _ _ _ CG10176 _ _ _ _ CG10177 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG10178 _ _ _ _ CG10182 _ _ _ _ CG10183 _ _ _ _ CG10184 _ _ _ _ CG10185 _ _ _ _ CG10186 _ _ _ _ CG10187 _ _ _ _ CG10188 _ _ _ _ CG10189 _ _ _ _ CG10191 _ _ _ _ CG10192 translational initiation; GO:0006413 | inferred from sequence similarity with SWISS-PROT:P41110 _ _ _ CG10194 _ _ _ _ CG10195 _ _ _ _ CG10198 _ _ _ _ CG10200 _ _ _ _ CG10202 _ _ _ _ CG10205 _ _ _ _ CG10208 _ _ _ _ CG10209 _ _ _ _ CG1021 _ _ _ _ CG10211 _ _ _ _ CG10214 _ _ _ _ CG10217 _ _ _ _ CG10219 _ _ _ _ CG10220 _ _ _ _ CG10222 _ _ _ _ CG10225 _ _ _ _ CG10226 _ _ _ _ CG10228 mRNA cleavage; GO:0006379 | inferred from sequence similarity with NCBI_NP:010514 _ _ _ CG10231 _ _ _ _ CG10232 _ _ _ _ CG10233 _ _ _ _ CG10237 _ _ _ _ CG10238 Mo-molybdopterin cofactor biosynthesis; GO:0006777 | inferred from sequence similarity with EMBL:AF091872; protein_id:AAD14601 _ _ _ CG10251 _ _ _ _ CG10252 _ _ _ _ CG10253 ether lipid biosynthesis; GO:0008611 | inferred from sequence similarity _ _ _ CG10257 _ _ _ _ CG10262 _ _ _ _ CG10263 _ _ _ _ CG10264 _ _ _ _ CG10265 _ _ _ _ CG10267 _ _ _ _ CG10268 _ _ _ _ CG10272 _ _ _ _ CG10274 _ _ _ _ CG10275 _ _ _ _ CG10277 _ _ _ _ CG10280 _ _ _ _ CG10283 _ _ _ _ CG10284 _ _ _ _ CG10286 _ _ _ _ CG10289 _ _ _ _ CG10296 _ _ _ _ CG10298 _ _ _ _ CG10299 _ _ _ _ CG10300 _ _ _ _ CG10301 _ _ _ _ CG10303 _ _ _ _ CG10306 _ _ _ _ CG10307 _ _ _ _ CG10309 _ _ _ _ CG10311 _ _ _ _ CG10314 _ _ _ _ CG10317 _ _ _ _ CG10320 RNA-nucleus import; GO:0006404 | inferred from sequence similarity with SWISS-PROT:P41838 _ _ _ CG10321 _ _ _ _ CG10322 _ _ _ _ CG10323 _ _ _ _ CG10324 _ _ _ _ CG10326 _ _ _ _ CG10332 _ _ _ _ CG10333 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004808; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:010529; mRNA splicing; GO:0006371 | inferred from sequence similarity with SGD:PRP28; SGDID:S0002651 _ _ _ CG10335 _ _ _ _ CG10336 _ _ _ _ CG10337 _ _ _ _ CG10338 _ _ _ _ CG10339 _ _ _ _ CG10340 _ _ _ _ CG10341 _ _ _ _ CG10343 _ _ _ _ CG10344 _ _ _ _ CG10346 _ _ _ _ CG10347 _ _ _ _ CG10348 _ _ _ _ CG10349 _ _ _ _ CG10352 _ _ _ _ CG10353 _ _ _ _ CG10354 _ _ _ _ CG10355 _ _ _ _ CG10357 _ _ _ _ CG10359 _ _ _ _ CG10361 _ _ _ _ CG10362 _ _ _ _ CG10365 _ _ _ _ CG10366 _ _ _ _ CG10371 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG10373 _ _ _ _ CG10375 _ _ _ _ CG10376 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG10383 _ _ _ _ CG10384 _ _ _ _ CG10394 _ _ _ _ CG10395 _ _ _ _ CG10396 _ _ _ _ CG10399 _ _ _ _ CG10404 _ _ _ _ CG10405 _ _ _ _ CG10407 _ _ _ _ CG10409 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ CG1041 _ _ _ _ CG10413 _ _ _ _ CG10414 _ _ _ _ CG10417 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG10418 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:009527; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAD56226 _ _ _ CG10419 _ _ _ _ CG10420 _ _ _ _ CG10423 _ _ _ _ CG10424 _ _ _ _ CG10425 _ _ _ _ CG10426 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG10427 phospholipid scrambling; GO:0017121 | inferred from sequence similarity with MGD:Plscr1; MGI:MGI:893575 _ _ _ CG10428 _ _ _ _ CG10429 _ _ _ _ CG10431 _ _ _ _ CG10432 _ _ _ _ CG10433 _ _ _ _ CG10435 _ _ _ _ CG10438 _ _ _ _ CG10438a _ _ _ _ CG10438b _ _ _ _ CG10440 _ _ _ _ CG10444 _ _ _ _ CG10445 _ _ _ _ CG10447 transcription; GO:0006350 | inferred from sequence similarity with SGD:HAP3; SGDID:S0000117 _ _ _ CG10453 _ _ _ _ CG10459 _ _ _ _ CG10460 _ _ _ _ CG10461 _ _ _ _ CG10462 _ _ _ _ CG10463 _ _ _ _ CG10465 _ _ _ _ CG10466 _ _ _ _ CG10467 _ _ _ _ CG10469 _ _ _ _ CG10470 _ _ _ _ CG10472 _ _ _ _ CG10473 apoptosis; GO:0006915 | inferred from sequence similarity _ _ _ CG10474 _ _ _ _ CG10475 _ _ _ _ CG10476 _ _ _ _ CG10477 _ _ _ _ CG10478 protein-nucleus import; GO:0006606 | inferred from sequence similarity with MGD:Kpna6; MGI:MGI:1100836 _ _ _ CG10479 _ _ _ _ CG10481 _ _ _ _ CG10483 _ _ _ _ CG10486 _ _ _ _ CG10487 _ _ _ _ CG10489 _ _ _ _ CG10492 _ _ _ _ CG10493 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG10494 _ _ _ _ CG10495 _ _ _ _ CG10496 _ _ _ _ CG10505 _ _ _ _ CG10508 _ _ _ _ CG10510 _ _ _ _ CG10512 _ _ _ _ CG10513 _ _ _ _ CG10514 _ _ _ _ CG10516 _ _ _ _ CG10517 _ _ _ _ CG10519 _ _ _ _ CG10522 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG10527 _ _ _ _ CG10531 _ _ _ _ CG10532 _ _ _ _ CG10535 defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | non-traceable author statement _ _ _ CG1054 _ _ _ _ CG10540 actin cytoskeleton organization and biogenesis; GO:0030036 | non-traceable author statement; microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG10542 _ _ _ _ CG10543 _ _ _ _ CG10549 _ _ _ _ CG10550 _ _ _ _ CG10551 _ _ _ _ CG10553 _ _ _ _ CG10554 _ _ _ _ CG10555 _ _ _ _ CG10559 _ _ _ _ CG10560 _ _ _ _ CG10561 _ _ _ _ CG10562 _ _ _ _ CG10563 _ _ _ _ CG10565 _ _ _ _ CG10566 _ _ _ _ CG10568 _ _ _ _ CG10570 _ _ _ _ CG10575 _ _ _ _ CG10576 _ _ _ _ CG10577 _ _ _ _ CG10581 _ _ _ _ CG10584 _ _ _ _ CG10585 _ _ _ _ CG10586 _ _ _ _ CG10587 _ _ _ _ CG10588 _ _ _ _ CG10589 _ _ _ _ CG10590 _ _ _ _ CG10591 _ _ _ _ CG10592 _ _ _ _ CG10597 _ _ _ _ CG10598 _ _ _ _ CG10599 _ _ _ _ CG10600 _ _ _ _ CG10602 _ _ _ _ CG10616 _ _ _ _ CG10617 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with MGD:Syt3; MGI:MGI:99665; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with MGD:Syt3; MGI:MGI:99665 _ _ _ CG1062 _ _ _ _ CG10621 _ _ _ _ CG10623 _ _ _ _ CG10625 _ _ _ _ CG10626 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; tachykinin signaling pathway; GO:0007217 | inferred from sequence similarity with FLYBASE:Takr99D; FB:FBgn0004622 _ _ _ CG10627 _ _ _ _ CG10628 _ _ _ _ CG10629 _ _ _ _ CG10630 _ _ _ _ CG10631 _ _ _ _ CG10632 _ _ _ _ CG10633 _ _ _ _ CG10634 _ _ _ _ CG10635 'de novo' protein folding; GO:0006458 | inferred from sequence similarity _ _ _ CG10638 _ _ _ _ CG10639 _ _ _ _ CG10641 _ _ _ _ CG10646 _ _ _ _ CG10647 _ _ _ _ CG10648 _ _ _ _ CG10649 _ _ _ _ CG10651 _ _ _ _ CG10654 _ _ _ _ CG10657 _ _ _ _ CG10659 _ _ _ _ CG10660 _ _ _ _ CG10662 _ _ _ _ CG10663 _ _ _ _ CG10664 _ _ _ _ CG10668 _ _ _ _ CG10669 _ _ _ _ CG10671 _ _ _ _ CG10672 _ _ _ _ CG10673 _ _ _ _ CG10674 _ _ _ _ CG10675 _ _ _ _ CG10677 _ _ _ _ CG10680 _ _ _ _ CG10681 _ _ _ _ CG10685 _ _ _ _ CG10688 GDP-mannose biosynthesis; GO:0009298 | non-traceable author statement _ _ _ CG10689 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003578; mRNA splicing; GO:0006371 | inferred from sequence similarity with SGD:PRP22; SGDID:S0000815 _ _ _ CG10690 _ _ _ _ CG10694 base-excision repair; GO:0006284 | inferred from sequence similarity with SWISS-PROT:P32628 _ _ _ CG10695 microtubule-based movement; GO:0007018 | inferred from sequence similarity with NCBI_gi:3986405 _ _ _ CG10700 _ _ _ _ CG10702 _ _ _ _ CG10703 _ _ _ _ CG10710 _ _ _ _ CG10711 _ _ _ _ CG10712 _ _ _ _ CG10713 _ _ _ _ CG10721 _ _ _ _ CG10722 _ _ _ _ CG10724 actin polymerization and/or depolymerization; GO:0008154 | inferred from sequence similarity _ _ _ CG10725 _ _ _ _ CG10727 _ _ _ _ CG10728 _ _ _ _ CG10730 _ _ _ _ CG10731 _ _ _ _ CG10732 _ _ _ _ CG10733 _ _ _ _ CG10734 _ _ _ _ CG10737 _ _ _ _ CG10738 signal transduction; GO:0007165 | inferred from sequence similarity _ _ _ CG1074 _ _ _ _ CG10741 _ _ _ _ CG10743 _ _ _ _ CG10745 _ _ _ _ CG10747 _ _ _ _ CG10748 tricarboxylic acid cycle; GO:0006099 | inferred from sequence similarity with EMBL:M16229 _ _ _ CG10749 tricarboxylic acid cycle; GO:0006099 | inferred from sequence similarity with MGD:Mor1; MGI:MGI:97050 _ _ _ CG1075 _ _ _ _ CG10750 _ _ _ _ CG10752 _ _ _ _ CG10754 mRNA splicing; GO:0006371 | inferred from sequence similarity with MGD:Sf3a2 MGI:MGI:104912; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:010241; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:038679 _ _ _ CG1076 _ _ _ _ CG10761 _ _ _ _ CG10764 _ _ _ _ CG1077 _ _ _ A sequence characterized by cross-hybridization with a murine class I H-2 gene. CG10777 _ _ _ _ CG10778 _ _ _ _ CG1078 _ _ _ _ CG10782 _ _ _ _ CG10791 _ _ _ _ CG10792 _ _ _ _ CG10793 _ _ _ _ CG10795 _ _ _ _ CG10799 _ _ _ _ CG10801 _ _ _ _ CG10802 _ _ _ _ CG10803 _ _ _ _ CG10804 _ _ _ _ CG10805 _ _ _ _ CG10806 _ _ _ _ CG10809 _ _ _ _ CG10812 defense response; GO:0006952 | non-traceable author statement _ _ _ CG10813 defense response; GO:0006952 | non-traceable author statement _ _ _ CG10814 _ _ _ _ CG10815 defense response; GO:0006952 | non-traceable author statement _ _ _ CG10822 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG10823 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG10824 _ _ _ _ CG10825 _ _ _ _ CG10827 _ _ _ _ CG10830 _ _ _ _ CG10834 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG10837 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ CG10841 _ _ _ _ CG10845 cytoskeleton organization and biogenesis; GO:0007010 | inferred from electronic annotation _ _ _ CG10853 _ _ _ _ CG10854 _ _ _ _ CG10855 _ _ _ _ CG10857 _ _ _ _ CG10858 _ _ _ _ CG10859 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG10860 _ _ _ _ CG10861 autophagy; GO:0006914 | non-traceable author statement _ _ _ CG10862 _ _ _ _ CG10864 _ _ _ _ CG10866 _ _ _ _ CG10869 _ _ _ _ CG10870 _ _ _ _ CG10871 _ _ _ _ CG10872 _ _ _ _ CG10874 _ _ _ _ CG10877 _ _ _ _ CG10879 _ _ _ _ CG10880 _ _ _ _ CG10881 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ CG10882 _ _ _ _ CG10883 _ _ _ _ CG10887 _ _ _ _ CG10889 _ _ _ _ CG10894 _ _ _ _ CG10898 _ _ _ _ CG10899 _ _ _ _ CG1090 _ _ _ _ CG10903 _ _ _ _ CG10904 _ _ _ _ CG10907 _ _ _ _ CG10908 _ _ _ _ CG10909 35S primary transcript processing; GO:0006365 | inferred from sequence similarity with SGD:NOP1; SGDID:S0002172 _ _ _ CG1091 _ _ _ _ CG10910 _ _ _ _ CG10911 _ _ _ _ CG10912 _ _ _ _ CG10914 _ _ _ _ CG10915 _ _ _ _ CG10916 _ _ _ _ CG10918 _ _ _ _ CG10919 _ _ _ _ CG1092 _ _ _ _ CG10920 _ _ _ _ CG10924 _ _ _ _ CG10927 _ _ _ _ CG10928 _ _ _ _ CG10931 _ _ _ _ CG10932 _ _ _ _ CG10933 _ _ _ _ CG10934 _ _ _ _ CG10936 _ _ _ _ CG10943 _ _ _ _ CG10946 _ _ _ _ CG10947 _ _ _ _ CG10948 _ _ _ _ CG10949 _ _ _ _ CG10950 protein-nucleus import; GO:0006606 | inferred from sequence similarity with SGD:MTR10; SGDID:S0005686 _ _ _ CG10951 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG10953 _ _ _ _ CG10955 _ _ _ _ CG10956 _ _ _ _ CG10958 _ _ _ _ CG10959 _ _ _ _ CG10960 _ _ _ _ CG10962 _ _ _ _ CG10965 _ _ _ _ CG10967 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG10969 _ _ _ _ CG10970 _ _ _ _ CG10971 cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with EMBL:AJ009556 _ _ _ CG10972 _ _ _ _ CG10973 _ _ _ _ CG10977 _ _ _ _ CG10978 _ _ _ _ CG10979 _ _ _ _ CG10981 _ _ _ _ CG10982 _ _ _ _ CG10984 _ _ _ _ CG10987 _ _ _ _ CG10989 _ _ _ _ CG10990 _ _ _ _ CG10991 _ _ _ _ CG10992 _ _ _ _ CG10993 _ _ _ _ CG10996 _ _ _ _ CG10997 _ _ _ _ CG10998 _ _ _ _ CG10999 _ _ _ _ Cg10AB _ _ Collagen-like 10AB _ CG11000 _ _ _ _ CG11002 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity with SGD:VPS13; SGDID:S0003963 _ _ _ CG11003 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity with SGD:VPS13; SGDID:S0003963 _ _ _ CG11005 _ _ _ _ CG11007 _ _ _ _ CG11008 _ _ _ _ CG11009 _ _ _ _ CG11010 _ _ _ _ CG11015 _ _ _ _ CG11016 _ _ _ _ CG11017 _ _ _ _ CG11018 _ _ _ _ CG11019 _ _ _ _ CG11023 _ _ _ _ CG11024 _ _ _ _ CG11029 _ _ _ _ CG1103 _ _ _ _ CG11030 _ _ _ _ CG11033 _ _ _ _ CG11034 _ _ _ _ CG11035 _ _ _ _ CG11037 _ _ _ _ CG1104 _ _ _ _ CG11040 protein-nucleus import; GO:0006606 | inferred from sequence similarity with MGD:Kpna4; MGI:MGI:1100848 _ _ _ CG11041 _ _ _ _ CG11042 _ _ _ _ CG11043 _ _ _ _ CG11044 _ _ _ _ CG11048 _ _ _ _ CG1105 _ _ _ _ CG11050 _ _ _ _ CG11051 _ _ _ _ CG11052 _ _ _ _ CG11053 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha2; MGI:MGI:894286 _ _ _ CG11055 _ _ _ _ CG11056 _ _ _ _ CG11058 _ _ _ _ CG11060 _ _ _ _ CG11063 _ _ _ _ CG11066 _ _ _ _ CG11068 _ _ _ _ CG11069 _ _ _ _ CG11071 _ _ _ _ CG11072 _ _ _ _ CG11073 _ _ _ _ CG11074 _ _ _ _ CG11075 _ _ _ _ CG11076 _ _ _ _ CG11077 _ _ _ _ CG11079 _ _ _ _ CG11082 _ _ _ _ CG11085 _ _ _ _ CG11086 _ _ _ _ CG11089 _ _ _ _ CG11093 _ _ _ _ CG11095 _ _ _ _ CG11096 _ _ _ _ CG11097 _ _ _ _ CG11098 _ _ _ _ CG11099 _ _ _ _ CG11100 _ _ _ _ CG11102 _ _ _ _ CG11103 _ _ _ _ CG11104 _ _ _ _ CG11105 _ _ _ _ CG11106 _ _ _ _ CG11107 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:011395 _ _ _ CG11109 _ _ _ _ CG11110 mitochondrial processing; GO:0006627 | inferred from sequence similarity with SGD:IMP2; SGDID:S0004638 _ _ _ CG11112 _ _ _ _ CG11113 _ _ _ _ CG11120 _ _ _ _ CG11122 _ _ _ _ CG11123 _ _ _ _ CG11124 _ _ _ _ CG11125 _ _ _ _ CG11126 _ _ _ _ CG11127 _ _ _ _ CG11128 _ _ _ _ CG1113 _ _ _ _ CG11131 _ _ _ _ CG11132 _ _ _ _ CG11133 _ _ _ _ CG11134 _ _ _ _ CG11136 _ _ _ _ CG11137 _ _ _ _ CG11138 _ _ _ _ CG11141 _ _ _ _ CG11142 _ _ _ _ CG11145 _ _ _ _ CG11146 _ _ _ _ CG11147 _ _ _ _ CG11148 _ _ _ _ CG11149 _ _ _ _ CG1115 _ _ _ _ CG11151 _ _ _ _ CG11152 _ _ _ _ CG11155 _ _ _ _ CG11158 _ _ _ _ CG11159 antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ _ _ CG1116 _ _ _ _ CG11160 _ _ _ _ CG11162 _ _ _ _ CG11164 _ _ _ _ CG11165 _ _ _ _ CG11166 _ _ _ _ CG11168 _ _ _ _ CG11169 _ _ _ _ CG11170 _ _ _ _ CG11175 _ _ _ _ CG11176 _ _ _ _ CG11178 _ _ _ _ CG11180 _ _ _ _ CG11183 _ _ _ _ CG11184 _ _ _ _ CG11188 _ _ _ _ CG11190 _ _ _ _ CG11191 _ _ _ _ CG11192 _ _ _ _ CG11196 _ _ _ _ CG11198 _ _ _ _ CG1120 _ _ _ _ CG11200 _ _ _ _ CG11201 _ _ _ _ CG11203 _ _ _ _ CG11206 _ _ _ _ CG11207 _ _ _ _ CG11208 _ _ _ _ CG11209 _ _ _ _ CG11210 _ _ _ _ CG11211 _ _ _ _ CG11212 _ _ _ _ CG11221 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG11224 _ _ _ _ CG11226 _ _ _ _ CG11227 _ _ _ _ CG11228 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG11229 _ _ _ _ CG11230 _ _ _ _ CG11231 _ _ _ _ CG11233 _ _ _ _ CG11235 _ _ _ _ CG11236 _ _ _ _ CG11237 _ _ _ _ CG1124 _ _ _ _ CG11241 _ _ _ _ CG11242 _ _ _ _ CG11243 _ _ _ _ CG11245 _ _ _ _ CG11247 _ _ _ _ CG11248 _ _ _ _ CG11249 _ _ _ _ CG11250 _ _ _ _ CG11251 _ _ _ _ CG11253 _ _ _ _ CG11255 _ _ _ _ CG11257 _ _ _ _ CG11259 _ _ _ _ CG1126 _ _ _ _ CG11260 _ _ _ _ CG11261 _ _ _ _ CG11262 _ _ _ _ CG11263 _ _ _ _ CG11264 _ _ _ _ CG11265 sister chromatid cohesion; GO:0007062 | non-traceable author statement _ _ _ CG11266 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:L10910; protein_id:AAA16346.1 _ _ _ CG11267 _ _ _ _ CG11268 _ _ _ _ CG11269 _ _ _ _ CG11274 _ _ _ _ CG11275 _ _ _ _ CG11279 _ _ _ _ CG11281 _ _ _ _ CG11284 _ _ _ _ CG11286 _ _ _ _ CG11288 _ _ _ _ CG11289 _ _ _ _ CG1129 _ _ _ _ CG11291 _ _ _ _ CG11293 _ _ _ _ CG11294 _ _ _ _ CG11296 _ _ _ _ CG11297 _ _ _ "Translated sequence claimed to have similarity with homeodomain, proteins, but translation in Q24476 not similar to known homeodomain, protein genes in distal 2L (i.e. al, Gsc)." CG11298 _ _ _ _ CG11299 _ _ _ _ CG11300 _ _ _ _ CG11301 _ _ _ _ CG11305 _ _ _ _ CG11306 _ _ _ _ CG11307 _ _ _ _ CG11308 _ _ _ _ CG11309 _ _ _ _ CG11310 _ _ _ _ CG11313 _ _ _ _ CG11314 _ _ _ _ CG11315 _ _ _ _ CG11316 _ _ _ _ CG11317 _ _ _ _ CG11318 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG11319 _ _ _ _ CG11320 _ _ _ _ CG11321 _ _ _ _ CG11322 _ _ _ _ CG11323 _ _ _ _ CG11327 _ _ _ _ CG11329 _ _ _ _ CG11332 _ _ _ _ CG11333 _ _ _ _ CG11334 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AC005970; protein_id:AAC95160.1 _ _ _ CG11337 _ _ _ _ CG11339 _ _ _ _ CG1134 _ _ _ _ CG11340 _ _ _ _ CG11342 _ _ _ _ CG11344 _ _ _ _ CG11345 _ _ _ _ CG11346 _ _ _ _ CG11347 _ _ _ _ CG11349 _ _ _ _ CG1135 _ _ _ _ CG11350 _ _ _ _ CG11353 _ _ _ _ CG11356 _ _ _ _ CG11357 _ _ _ _ CG11358 _ _ _ _ CG11359 _ _ _ _ CG1136 _ _ _ _ CG11360 _ _ _ _ CG11362 _ _ _ _ CG11366 _ _ _ _ CG11367 _ _ _ _ CG11368 _ _ _ _ CG11369 _ _ _ _ CG1137 _ _ _ _ CG11370 _ _ _ _ CG11373 _ _ _ _ CG11374 _ _ _ _ CG11375 _ _ _ _ CG11376 _ _ _ _ CG11377 _ _ _ _ CG1138 _ _ _ _ CG11381 _ _ _ _ CG11386 _ _ _ _ CG11388 _ _ _ _ CG1139 _ _ _ _ CG11391 _ _ _ _ CG11393 _ _ _ _ CG11395 _ _ _ _ CG11396 _ _ _ _ CG11399 _ _ _ _ CG1140 _ _ _ _ CG11400 _ _ _ _ CG11404 _ _ _ _ CG11406 _ _ _ _ CG11407 _ _ _ _ CG1141 _ _ _ _ CG11413 _ _ _ _ CG11414 _ _ _ _ CG11416 _ _ _ _ CG11419 _ _ _ _ CG1142 _ _ _ _ CG11423 _ _ _ _ CG11425 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG11426 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG11428 _ _ _ _ CG1143 _ _ _ _ CG11436 _ _ _ _ CG11437 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG11438 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG11440 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG11444 _ _ _ _ CG11446 _ _ _ _ CG11447 _ _ _ _ CG11449 _ _ _ _ CG11451 _ _ _ _ CG11452 _ _ _ _ CG11453 _ _ _ _ CG11454 _ _ _ _ CG11456 _ _ _ _ CG11458 _ _ _ _ CG11459 _ _ _ _ CG1146 _ _ _ _ CG11460 _ _ _ _ CG11461 _ _ _ _ CG11462 _ _ _ _ CG11465 _ _ _ _ CG11470 _ _ _ _ CG11473 _ _ _ _ CG11474 _ _ _ _ CG11475 _ _ _ _ CG11477 _ _ _ _ CG1148 _ _ _ _ CG11484 _ _ _ _ CG11486 _ _ _ _ CG11490 _ _ _ _ CG11493 _ _ _ _ CG11498 _ _ _ _ CG1150 _ _ _ _ CG11500 signal peptide processing; GO:0006465 | non-traceable author statement _ _ _ CG11501 _ _ _ _ CG11504 _ _ _ _ CG11505 _ _ _ _ CG11508 _ _ _ _ CG11509 _ _ _ _ CG11511 _ _ _ _ CG11513 nonsense-mediated mRNA decay; GO:0000184 | inferred from sequence similarity with EMBL:AF074017 _ _ _ CG11515 _ _ _ _ CG11516 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG11517 _ _ _ _ CG11520 defense response; GO:0006952 | non-traceable author statement _ _ _ CG11522 _ _ _ _ CG11523 _ _ _ _ CG11526 _ _ _ _ CG11529 _ _ _ _ CG1153 _ _ _ _ CG11530 _ _ _ _ CG11531 _ _ _ _ CG11532 _ _ _ _ CG11533 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG11537 _ _ _ _ CG11538 _ _ _ A 684 amino acid open reading frame included within Lsp2 but from the opposite strand. CG11539 _ _ _ _ CG1154 _ _ _ _ CG11542 _ _ _ _ CG11550 _ _ _ _ CG11552 proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with EMBL:D38047; protein_id:BAA07237.1 _ _ _ CG11555 _ _ _ _ CG11560 _ _ _ _ CG11562 _ _ _ _ CG11563 _ _ _ _ CG11566 _ _ _ _ CG11568 _ _ _ _ CG11569 _ _ _ _ CG1157 _ _ _ _ CG11570 _ _ _ _ CG11572 _ _ _ _ CG11573 _ _ _ _ CG11574 _ _ _ _ CG11575 _ _ _ _ CG11576 _ _ _ _ CG11577 _ _ _ _ CG11581 _ _ _ _ CG11582 _ _ _ _ CG11583 _ _ _ _ CG11584 _ _ _ _ CG11585 _ _ _ _ CG11586 _ _ _ _ CG11588 _ _ _ _ CG11590 _ _ _ _ CG11591 _ _ _ _ CG11593 _ _ _ _ CG11594 _ _ _ _ CG11595 _ _ _ _ CG11597 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG11598 _ _ _ _ CG11600 _ _ _ _ CG11601 _ _ _ _ CG11603 _ _ _ _ CG11604 _ _ _ _ CG11608 _ _ _ _ CG1161 _ _ _ _ CG11617 _ _ _ _ CG11619 _ _ _ _ CG11620 _ _ _ _ CG11623 _ _ _ _ CG11625 _ _ _ _ CG11626 _ _ _ _ CG11628 _ _ _ _ CG11629 _ _ _ _ CG11630 _ _ _ _ CG11631 _ _ _ _ CG11632 _ _ _ _ CG11634 _ _ _ _ CG11635 _ _ _ _ CG11637 _ _ _ _ CG11641 _ _ _ _ CG11648 _ _ _ _ CG11652 _ _ _ _ CG11655 _ _ _ _ CG11656 _ _ _ _ CG11658 _ _ _ _ CG11659 _ _ _ _ CG11660 _ _ _ _ CG11661 _ _ _ _ CG11663 _ _ _ _ CG11665 _ _ _ _ CG11666 _ _ _ _ CG11667 _ _ _ _ CG11668 _ _ _ _ CG11669 _ _ _ _ CG11670 _ _ _ _ CG11671 _ _ _ _ CG11672 _ _ _ _ CG11673 _ _ _ _ CG11674 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AC004682 _ _ _ CG11676 _ _ _ _ CG11679 _ _ _ _ CG11685 _ _ _ _ CG11686 _ _ _ _ CG11688 _ _ _ _ CG1169 _ _ _ _ CG11692 _ _ _ _ CG11693 _ _ _ _ CG11694 _ _ _ _ CG11695 _ _ _ _ CG11696 _ _ _ _ CG11697 _ _ _ _ CG11698 _ _ _ _ CG11699 _ _ _ _ CG11700 _ _ _ _ CG11703 _ _ _ _ CG11710 _ _ _ _ CG11711 _ _ _ _ CG11713 _ _ _ _ CG11714 _ _ _ _ CG11716 _ _ _ _ CG11718 _ _ _ _ CG1172 _ _ _ _ CG11722 _ _ _ _ CG11723 _ _ _ _ CG11726 _ _ _ _ CG11727 _ _ _ _ CG11729 _ _ _ _ CG11730 _ _ _ _ CG11731 _ _ _ _ CG11732 _ _ _ _ CG11733 _ _ _ _ CG11737 _ _ _ _ CG11738 _ _ _ _ CG11739 _ _ _ _ CG11740 _ _ _ _ CG11741 _ _ _ _ CG11745 _ _ _ _ CG11750 _ _ _ _ CG11752 _ _ _ _ CG11753 _ _ _ _ CG11754 _ _ _ _ CG11755 _ _ _ _ CG11756 _ _ _ _ CG11757 _ _ _ _ CG11760 _ _ _ _ CG11761 _ _ _ _ CG11762 _ _ _ _ CG11763 _ _ _ _ CG11768 _ _ _ _ CG11769 _ _ _ _ CG11771 _ _ _ _ CG11775 _ _ _ _ CG11776 _ _ _ _ CG11777 _ _ _ _ CG11778 _ _ _ _ CG11779 protein transport; GO:0015031 | inferred from sequence similarity with EMBL:U69898 _ _ _ CG11780 _ _ _ _ CG11781 _ _ _ _ CG11782 _ _ _ _ CG11784 _ _ _ _ CG11785 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity with SWISS-PROT:P49755 _ _ _ CG11786 _ _ _ _ CG11788 _ _ _ _ CG11790 _ _ _ _ CG11791 _ _ _ _ CG11796 _ _ _ _ CG11798 _ _ _ _ CG11799 _ _ _ _ CG11801 _ _ _ _ CG11802 _ _ _ _ CG11806 _ _ _ _ CG11807 _ _ _ _ CG11808 _ _ _ _ CG11811 _ _ _ _ CG11814 lysosomal transport; GO:0007041 | inferred from sequence similarity with SWISS-PROT:P97412 _ _ _ CG11815 _ _ _ _ CG11816 _ _ _ _ CG11819 _ _ _ _ CG11820 _ _ _ _ CG11824 _ _ _ _ CG11825 _ _ _ _ CG11828 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ _ _ CG11833 _ _ _ _ CG11834 _ _ _ _ CG11835 _ _ _ _ CG11836 _ _ _ _ CG11837 _ _ _ _ CG11838 _ _ _ _ CG11839 _ _ _ _ CG11841 _ _ _ _ CG11842 _ _ _ _ CG11843 _ _ _ _ CG11846 _ _ _ _ CG11847 _ _ _ _ CG11848 _ _ _ _ CG11849 _ _ _ _ CG11850 _ _ _ _ CG11851 protein amino acid glycosylation; GO:0006486 | inferred from sequence similarity with SGD:ALG9; SGDID:S0005163 _ _ _ CG11852 _ _ _ _ CG11854 _ _ _ _ CG11856 _ _ _ _ CG11857 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity with SGD:RER1; SGDID:S0000507 _ _ _ CG11858 _ _ _ _ CG11859 _ _ _ _ CG11866 _ _ _ _ CG11869 _ _ _ _ CG11870 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG11871 _ _ _ _ CG11872 _ _ _ _ CG11873 _ _ _ _ CG11874 _ _ _ _ CG11875 _ _ _ _ CG11876 _ _ _ _ CG11877 _ _ _ _ CG11878 _ _ _ _ CG11880 _ _ _ _ CG11881 _ _ _ _ CG11882 _ _ _ _ CG11883 _ _ _ _ CG11885 _ _ _ _ CG11887 _ _ _ _ CG11889 _ _ _ _ CG11891 _ _ _ _ CG11892 _ _ _ _ CG11893 _ _ _ _ CG11896 _ _ _ _ CG11897 _ _ _ _ CG11898 _ _ _ _ CG11900 _ _ _ _ CG11902 _ _ _ _ CG11905 _ _ _ _ CG11906 _ _ _ _ CG11907 _ _ _ _ CG11909 _ _ _ _ CG11910 _ _ _ _ CG11911 _ _ _ _ CG11912 _ _ _ _ CG11913 _ _ _ _ CG11915 _ _ _ _ CG11917 _ _ _ _ CG11918 _ _ _ _ CG11919 _ _ _ _ CG11920 _ _ _ _ CG11923 metabotropic glutamate receptor signaling pathway; GO:0007216 | inferred from sequence similarity _ _ _ CG11925 _ _ _ _ CG11926 _ _ _ _ CG11927 _ _ _ _ CG11928 _ _ _ _ CG11929 _ _ _ _ CG1193 microtubule-based process; GO:0007017 | inferred from sequence similarity _ _ _ CG11930 _ _ _ _ CG11931 _ _ _ _ CG11932 _ _ _ _ CG11933 _ _ _ _ CG11934 _ _ _ _ CG11935 _ _ _ _ CG11936 _ _ _ _ CG11940 _ _ _ _ CG11942 _ _ _ _ CG11943 _ _ _ _ CG11945 _ _ _ _ CG11951 _ _ _ _ CG11952 _ _ _ _ CG11953 _ _ _ _ CG11955 _ _ _ _ CG11957 _ _ _ _ CG11961 _ _ _ _ CG11962 _ _ _ _ CG11963 _ _ _ _ CG11964 _ _ _ _ CG11966 _ _ _ _ CG11967 _ _ _ _ CG11968 _ _ _ _ CG11971 _ _ _ _ CG11975 _ _ _ _ CG11976 _ _ _ _ CG11977 _ _ _ _ CG11978 _ _ _ _ CG11980 _ _ _ _ CG11982 _ _ _ _ CG11983 _ _ _ _ CG11984 _ _ _ _ CG11985 _ _ _ _ CG11986 _ _ _ _ CG11989 _ _ _ _ CG11990 _ _ _ _ CG11997 _ _ _ _ CG11999 _ _ _ _ CG12000 ATP-dependent proteolysis; GO:0006510 | non-traceable author statement; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ _ _ CG12001 _ _ _ _ CG12003 _ _ _ _ CG12004 _ _ _ _ CG12006 _ _ _ _ CG12007 _ _ _ _ CG12009 _ _ _ _ CG12010 _ _ _ _ CG12011 _ _ _ _ CG12012 _ _ _ _ CG12013 _ _ _ _ CG12014 _ _ _ _ CG12015 _ _ _ _ CG12016 _ _ _ _ CG12017 _ _ _ _ CG12020 _ _ _ _ CG12022 _ _ _ _ CG12023 _ _ _ _ CG12024 _ _ _ _ CG12025 _ _ _ _ CG12026 _ _ _ _ CG12027 _ _ _ _ CG12029 _ _ _ _ CG12030 galactose metabolism; GO:0006012 | non-traceable author statement _ _ _ CG12032 _ _ _ _ CG12034 _ _ _ _ CG12035 _ _ _ _ CG12036 _ _ _ _ CG12038 _ _ _ _ CG12042 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG12045 _ _ _ _ CG12048 _ _ _ _ CG12050 _ _ _ _ CG12054 _ _ _ _ CG12056 _ _ _ _ CG12057 _ _ _ _ CG12061 _ _ _ _ CG12063 _ _ _ _ CG12065 _ _ _ _ CG12067 _ _ _ _ CG12068 _ _ _ _ CG12069 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG12071 _ _ _ _ CG12075 _ _ _ _ CG12077 _ _ _ _ CG12078 _ _ _ _ CG12079 _ _ _ _ CG1208 _ _ _ _ CG12081 _ _ _ _ CG12082 deubiquitination; GO:0006514 | inferred from sequence similarity; deubiquitination; GO:0006514 | traceable author statement _ _ _ CG12086 _ _ _ _ CG12090 _ _ _ _ CG12091 _ _ _ _ CG12092 _ _ _ _ CG12093 _ _ _ _ CG12094 _ _ _ _ CG12096 _ _ _ _ CG12099 _ _ _ _ CG12102 _ _ _ _ CG12104 _ _ _ _ CG12105 _ _ _ _ CG12106 _ _ _ _ CG12107 _ _ _ _ CG1211 _ _ _ _ CG12111 _ _ _ _ CG12112 _ _ _ _ CG12113 _ _ _ _ CG12114 _ _ _ _ CG12115 _ _ _ _ CG12116 _ _ _ _ CG12118 _ _ _ _ CG12119 _ _ _ _ CG12120 _ _ _ _ CG12121 _ _ _ _ CG12122 _ _ _ _ CG12123 _ _ _ _ CG12124 _ _ _ _ CG12125 _ _ _ _ CG12126 _ _ _ _ CG12128 _ _ _ _ CG12129 _ _ _ _ CG1213 _ _ _ _ CG12130 _ _ _ _ CG12133 _ _ _ _ CG12134 _ _ _ _ CG12136 _ _ _ _ CG12139 _ _ _ _ CG12140 _ _ _ _ CG12141 lysyl-tRNA aminoacylation; GO:0006430 | inferred from sequence similarity with SGD:KRS1; SGDID:S0002444 _ _ _ CG12147 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG12148 _ _ _ _ CG12151 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG12155 _ _ _ _ CG12156 _ _ _ _ CG12158 _ _ _ _ CG12159 _ _ _ _ CG1216 _ _ _ _ CG12161 _ _ _ _ CG12162 _ _ _ _ CG12163 _ _ _ _ CG12164 _ _ _ _ CG12167 _ _ _ _ CG12168 _ _ _ _ CG12169 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG12170 _ _ _ _ CG12171 _ _ _ _ CG12173 _ _ _ _ CG12175 _ _ _ _ CG12176 _ _ _ _ CG12177 _ _ _ _ CG1218 _ _ _ _ CG12186 prolyl-tRNA aminoacylation; GO:0006433 | inferred from sequence similarity with SWISS-PROT:P39965 _ _ _ CG12187 _ _ _ _ CG12188 _ _ _ _ CG12190 _ _ _ _ CG12191 _ _ _ _ CG12192 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG12194 _ _ _ _ CG12199 _ _ _ _ CG12200 _ _ _ _ CG12201 _ _ _ _ CG12202 _ _ _ _ CG12203 _ _ _ _ CG12204 _ _ _ _ CG12206 _ _ _ _ CG12207 _ _ _ _ CG12208 _ _ _ _ CG12209 _ _ _ _ CG12211 _ _ _ _ CG12213 _ _ _ _ CG12214 _ _ _ _ CG12219 _ _ _ _ CG12224 _ _ _ _ CG12227 _ _ _ _ CG12229 _ _ _ _ CG12231 _ _ _ _ CG12233 _ _ _ _ CG12236 _ _ _ _ CG12237 _ _ _ _ CG12238 _ _ _ _ CG12239 _ _ _ _ CG12241 _ _ _ _ CG12243 _ _ _ _ CG12250 _ _ _ _ CG12252 _ _ _ _ CG12255 _ _ _ _ CG12256 _ _ _ _ CG12258 _ _ _ _ CG12259 _ _ _ _ CG12260 _ _ _ _ CG12262 _ _ _ _ CG12263 _ _ _ _ CG12264 iron-sulfur cluster assembly; GO:0016226 | inferred from sequence similarity with SWISS-PROT:Q9Y697; iron-sulfur cluster assembly; GO:0016226 | non-traceable author statement _ _ _ CG12265 _ _ _ _ CG12267 _ _ _ _ CG12268 _ _ _ _ CG12269 _ _ _ _ CG1227 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG12272 _ _ _ _ CG12274 _ _ _ _ CG12278 _ _ _ _ CG12279 _ _ _ _ CG12288 _ _ _ _ CG12289 _ _ _ _ CG12290 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG12292 _ _ _ _ CG12295 _ _ _ _ CG12299 _ _ _ _ CG12301 _ _ _ _ CG12303 _ _ _ _ CG12304 _ _ _ _ CG12307 _ _ _ _ CG12309 _ _ _ _ CG1231 _ _ _ _ CG12310 _ _ _ _ CG12313 _ _ _ _ CG12314 _ _ _ _ CG12316 _ _ _ _ CG12318 _ _ _ _ CG12320 _ _ _ _ CG12321 _ _ _ _ CG12324 _ _ _ _ CG12325 _ _ _ _ CG12329 _ _ _ _ CG1233 _ _ _ _ CG12330 _ _ _ _ CG12331 _ _ _ _ CG12332 _ _ _ _ CG12333 _ _ _ _ CG12334 _ _ _ _ CG12338 _ _ _ _ CG12339 _ _ _ _ CG1234 _ _ _ _ CG12341 _ _ _ _ CG12342 _ _ _ _ CG12343 _ _ _ _ CG12344 _ _ _ _ CG12347 _ _ _ _ CG12349 _ _ _ _ CG12355 _ _ _ _ CG1236 _ _ _ _ CG12360 _ _ _ _ CG12361 _ _ _ _ CG12362 _ _ _ _ CG12364 _ _ _ _ CG12367 _ _ _ _ CG12370 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG12374 _ _ _ _ CG12375 _ _ _ _ CG12376 _ _ _ _ CG12377 _ _ _ _ CG12378 _ _ _ _ CG12379 _ _ _ _ CG12380 _ _ _ _ CG12383 _ _ _ _ CG12384 _ _ _ _ CG1239 _ _ _ _ CG12391 _ _ _ _ CG12393 _ _ _ _ CG12395 _ _ _ _ CG12398 _ _ _ _ CG1240 _ _ _ _ CG12400 _ _ _ _ CG12402 _ _ _ _ CG12404 _ _ _ _ CG12408 _ _ _ _ CG12409 _ _ _ _ CG1241 _ _ _ _ CG12413 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:IFM1; SGDID:S0005383 _ _ _ CG12416 _ _ _ _ CG12417 _ _ _ _ CG12418 _ _ _ _ CG12419 _ _ _ _ CG12420 _ _ _ _ CG12423 _ _ _ _ CG12424 _ _ _ _ CG12425 _ _ _ _ CG12426 _ _ _ _ CG12427 _ _ _ _ CG12428 _ _ _ _ CG12430 _ _ _ _ CG12431 _ _ _ _ CG12432 _ _ _ _ CG12433 _ _ _ _ CG12435 _ _ _ _ CG12436 _ _ _ _ CG12438 _ _ _ _ CG12439 _ _ _ _ CG1244 _ _ _ _ CG12441 _ _ _ _ CG12442 _ _ _ _ CG12443 _ _ _ _ CG12444 _ _ _ _ CG12446 _ _ _ _ CG12447 _ _ _ _ CG12451 _ _ _ _ CG12452 _ _ _ _ CG12453 _ _ _ _ CG12454 _ _ _ _ CG12458 _ _ _ _ CG12459 _ _ _ _ CG1246 _ _ _ _ CG12460 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AF110499 _ _ _ CG12462 _ _ _ _ CG12464 _ _ _ _ CG12466 _ _ _ _ CG12467 _ _ _ _ CG1247 snRNP protein-nucleus import; GO:0006608 | inferred from sequence similarity with SWISS-PROT:O95149 _ _ _ CG12474 _ _ _ _ CG12475 _ _ _ _ CG12476 _ _ _ _ CG12477 _ _ _ _ CG12479 _ _ _ _ CG12480 _ _ _ _ CG12481 _ _ _ _ CG12483 _ _ _ _ CG12484 _ _ _ _ CG12485 _ _ _ _ CG12486 _ _ _ _ CG12487 _ _ _ _ CG12488 _ _ _ _ CG12489 _ _ _ _ CG1249 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004588; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:013377 _ _ _ CG12490 _ _ _ _ CG12491 _ _ _ _ CG12492 _ _ _ _ CG12493 _ _ _ _ CG12494 _ _ _ _ CG12499 _ _ _ _ CG12502 _ _ _ _ CG12503 _ _ _ _ CG12504 _ _ _ _ CG12505 _ _ _ _ CG12506 _ _ _ _ CG12507 _ _ _ _ CG12508 _ _ _ _ CG12509 _ _ _ _ CG12511 _ _ _ _ CG12512 _ _ _ _ CG12515 _ _ _ _ CG12516 _ _ _ _ CG12517 _ _ _ _ CG12518 _ _ _ _ CG12519 _ _ _ _ CG12520 _ _ _ _ CG12521 _ _ _ _ CG12522 _ _ _ _ CG12523 _ _ _ _ CG12524 _ _ _ _ CG12525 _ _ _ _ CG12527 _ _ _ _ CG12528 _ _ _ _ CG12531 _ _ _ _ CG12533 _ _ _ _ CG12534 _ _ _ _ CG12535 _ _ _ _ CG12536 _ _ _ _ CG12537 _ _ _ _ CG12538 _ _ _ _ CG12539 _ _ _ _ CG12540 _ _ _ _ CG12541 _ _ _ _ CG12542 _ _ _ _ CG12543 _ _ _ _ CG12544 _ _ _ _ CG12545 _ _ _ _ CG12546 _ _ _ _ CG12547 _ _ _ _ CG12550 _ _ _ _ CG12551 _ _ _ _ CG12552 _ _ _ _ CG12554 _ _ _ _ CG12555 _ _ _ _ CG12557 _ _ _ _ CG12558 _ _ _ _ CG12560 _ _ _ _ CG12563 _ _ _ _ CG12564 _ _ _ _ CG12565 _ _ _ _ CG12566 _ _ _ _ CG12567 _ _ _ _ CG12569 _ _ _ _ CG12571 _ _ _ _ CG12572 _ _ _ _ CG12573 _ _ _ _ CG12575 _ _ _ _ CG12576 _ _ _ _ CG12577 _ _ _ _ CG12578 _ _ _ _ CG12579 _ _ _ _ CG12581 _ _ _ _ CG12582 _ _ _ _ CG12584 _ _ _ _ CG12585 _ _ _ _ CG12586 _ _ _ _ CG12587 _ _ _ _ CG12588 _ _ _ _ CG12589 _ _ _ _ CG1259 _ _ _ _ CG12590 _ _ _ _ CG12591 _ _ _ _ CG12593 _ _ _ _ CG12594 _ _ _ _ CG12595 _ _ _ _ CG12599 _ _ _ _ CG12600 _ _ _ _ CG12601 _ _ _ _ CG12602 _ _ _ _ CG12604 _ _ _ _ CG12605 _ _ _ _ CG12607 _ _ _ _ CG12608 _ _ _ _ CG12609 _ _ _ _ CG12610 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG12611 _ _ _ _ CG12612 _ _ _ _ CG12613 _ _ _ _ CG12616 _ _ _ _ CG12617 _ _ _ _ CG12620 _ _ _ _ CG12623 _ _ _ _ CG12624 _ _ _ _ CG12625 _ _ _ _ CG12626 _ _ _ _ CG12628 _ _ _ _ CG12629 _ _ _ _ CG12631 _ _ _ _ CG12632 _ _ _ _ CG12634 _ _ _ _ CG12637 _ _ _ _ CG12639 _ _ _ _ CG12640 _ _ _ _ CG12641 _ _ _ _ CG12643 _ _ _ _ CG12644 _ _ _ _ CG12645 _ _ _ _ CG12647 _ _ _ _ CG12648 _ _ _ _ CG12649 _ _ _ _ CG1265 _ _ _ _ CG12650 _ _ _ _ CG12654 _ _ _ _ CG12655 _ _ _ _ CG12656 _ _ _ _ CG12657 _ _ _ _ CG12659 _ _ _ _ CG12660 _ _ _ _ CG12661 _ _ _ _ CG12662 _ _ _ _ CG12663 _ _ _ _ CG12666 _ _ _ _ CG12667 _ _ _ _ CG12672 _ _ _ _ CG12674 _ _ _ _ CG12677 _ _ _ _ CG12678 _ _ _ _ CG12679 _ _ _ _ CG1268 _ _ _ _ CG12680 _ _ _ _ CG12681 _ _ _ _ CG12682 _ _ _ _ CG12683 _ _ _ _ CG12684 _ _ _ _ CG12685 _ _ _ _ CG12686 _ _ _ _ CG12687 _ _ _ _ CG12688 _ _ _ _ CG12689 _ _ _ _ CG12691 _ _ _ _ CG12692 _ _ _ _ CG12693 _ _ _ _ CG12694 _ _ _ _ CG12696 _ _ _ _ CG12698 _ _ _ _ CG12701 _ _ _ _ CG12702 _ _ _ _ CG12703 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with SWISS-PROT:P16970 _ _ _ CG12704 _ _ _ _ CG12706 _ _ _ _ CG12708 _ _ _ _ CG1271 _ _ _ _ CG12710 _ _ _ _ CG12711 _ _ _ _ CG12712 _ _ _ _ CG12713 _ _ _ _ CG12714 _ _ _ _ CG12715 _ _ _ _ CG12716 _ _ _ _ CG12717 _ _ _ _ CG12719 _ _ _ _ CG12720 _ _ _ _ CG12721 _ _ _ _ CG12722 _ _ _ _ CG12723 _ _ _ _ CG12724 _ _ _ _ CG12725 _ _ _ _ CG12726 _ _ _ _ CG12727 _ _ _ _ CG12728 _ _ _ _ CG12729 _ _ _ _ CG1273 _ _ _ _ CG12730 _ _ _ _ CG12731 _ _ _ _ CG12732 _ _ _ _ CG12734 _ _ _ _ CG12736 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P49410 _ _ _ CG12740 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P17702 _ _ _ CG12744 _ _ _ _ CG12746 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG1275 _ _ _ _ CG12750 _ _ _ _ CG12753 _ _ _ _ CG12756 _ _ _ _ CG12765 _ _ _ _ CG12766 _ _ _ _ CG12768 _ _ _ _ CG12769 _ _ _ _ CG1277 _ _ _ _ CG12772 _ _ _ _ CG12775 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ _ _ CG12780 _ _ _ _ CG12782 poly(A)+ mRNA-nucleus export; GO:0016973 | inferred from sequence similarity with SWISS-PROT:P41838 _ _ _ CG12783 _ _ _ _ CG12784 _ _ _ _ CG12785 _ _ _ _ CG12787 _ _ _ _ CG12790 _ _ _ _ CG12792 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with MGD:Pex7; MGI:MGI:1321392 _ _ _ CG12795 _ _ _ _ CG12796 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG12797 _ _ _ _ CG12798 _ _ _ _ CG12802 _ _ _ _ CG12804 _ _ _ _ CG12805 _ _ _ _ CG12806 _ _ _ _ CG12807 _ _ _ _ CG12808 _ _ _ _ CG12810 _ _ _ _ CG12811 _ _ _ _ CG12812 _ _ _ _ CG12813 _ _ _ _ CG12814 _ _ _ _ CG12815 _ _ _ _ CG12816 _ _ _ _ CG12817 _ _ _ _ CG12818 _ _ _ _ CG12819 _ _ _ _ CG1282 _ _ _ _ CG12820 _ _ _ _ CG12821 _ _ _ _ CG12822 _ _ _ _ CG12824 _ _ _ _ CG12825 _ _ _ _ CG12826 _ _ _ _ CG12827 _ _ _ _ CG12828 _ _ _ _ CG1283 _ _ _ _ CG12830 _ _ _ _ CG12831 _ _ _ _ CG12835 _ _ _ _ CG12836 _ _ _ _ CG12842 _ _ _ _ CG12848 _ _ _ _ CG12849 _ _ _ _ CG12851 _ _ _ _ CG12852 _ _ _ _ CG12853 _ _ _ _ CG12854 _ _ _ _ CG12855 _ _ _ _ CG12856 _ _ _ _ CG12857 _ _ _ _ CG12858 _ _ _ _ CG12859 _ _ _ _ CG12860 _ _ _ _ CG12861 _ _ _ _ CG12862 _ _ _ _ CG12863 _ _ _ _ CG12864 _ _ _ _ CG12865 _ _ _ _ CG12866 _ _ _ _ CG12868 _ _ _ _ CG12869 _ _ _ _ CG1287 _ _ _ _ CG12870 _ _ _ _ CG12871 _ _ _ _ CG12872 _ _ _ _ CG12873 _ _ _ _ CG12874 _ _ _ _ CG12875 _ _ _ _ CG12876 _ _ _ _ CG12877 _ _ _ _ CG12879 _ _ _ _ CG1288 _ _ _ _ CG12880 _ _ _ _ CG12882 _ _ _ _ CG12883 _ _ _ _ CG12885 _ _ _ _ CG12895 _ _ _ _ CG12896 _ _ _ _ CG12897 _ _ _ _ CG12898 _ _ _ _ CG12899 _ _ _ _ CG12900 _ _ _ _ CG12901 _ _ _ _ CG12902 _ _ _ _ CG12904 _ _ _ _ CG12905 _ _ _ _ CG12907 _ _ _ _ CG12908 _ _ _ _ CG12909 _ _ _ _ CG1291 _ _ _ _ CG12910 _ _ _ _ CG12911 _ _ _ _ CG12912 _ _ _ _ CG12913 _ _ _ _ CG12914 _ _ _ _ CG12917 _ _ _ _ CG12918 _ _ _ _ CG12919 _ _ _ _ CG12920 _ _ _ _ CG12922 _ _ _ _ CG12923 _ _ _ _ CG12924 _ _ _ _ CG12926 _ _ _ _ CG12927 _ _ _ _ CG12928 _ _ _ _ CG12929 _ _ _ _ CG12932 _ _ _ _ CG12933 _ _ _ _ CG12934 _ _ _ _ CG12935 _ _ _ _ CG12936 _ _ _ _ CG12938 _ _ _ _ CG12939 _ _ _ _ CG1294 _ _ _ _ CG12942 _ _ _ _ CG12943 _ _ _ _ CG12945 _ _ _ _ CG12946 _ _ _ _ CG12947 _ _ _ _ CG12948 _ _ _ _ CG12949 _ _ _ _ CG1295 _ _ _ _ CG12950 _ _ _ _ CG12951 _ _ _ _ CG12953 _ _ _ _ CG12954 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI912106 _ _ _ CG12955 _ _ _ _ CG12958 _ _ _ _ CG12959 _ _ _ _ CG12960 _ _ _ _ CG12963 _ _ _ _ CG12964 _ _ _ _ CG12965 _ _ _ _ CG12970 _ _ _ _ CG12971 _ _ _ _ CG12972 _ _ _ _ CG12973 _ _ _ _ CG12974 _ _ _ _ CG12975 _ _ _ _ CG12976 _ _ _ _ CG12977 _ _ _ _ CG12979 _ _ _ _ CG1298 _ _ _ _ CG12980 _ _ _ _ CG12981 _ _ _ _ CG12982 _ _ _ _ CG12983 _ _ _ _ CG12984 _ _ _ _ CG12985 _ _ _ _ CG12986 _ _ _ _ CG12987 _ _ _ _ CG12988 _ _ _ _ CG12989 _ _ _ _ CG1299 _ _ _ _ CG12990 _ _ _ _ CG12991 _ _ _ _ CG12992 _ _ _ _ CG12993 _ _ _ _ CG12994 _ _ _ _ CG12995 _ _ _ _ CG12996 _ _ _ _ CG12997 _ _ _ _ CG12998 _ _ _ _ CG13000 _ _ _ _ CG13001 _ _ _ _ CG13002 _ _ _ _ CG13003 _ _ _ _ CG13004 _ _ _ _ CG13005 _ _ _ _ CG13006 _ _ _ _ CG13007 _ _ _ _ CG13008 _ _ _ _ CG13009 _ _ _ _ CG13010 _ _ _ _ CG13011 _ _ _ _ CG13012 _ _ _ _ CG13013 _ _ _ _ CG13014 _ _ _ _ CG13016 _ _ _ _ CG13018 _ _ _ _ CG13019 _ _ _ _ CG13020 _ _ _ _ CG13021 _ _ _ _ CG13022 _ _ _ _ CG13023 _ _ _ _ CG13024 _ _ _ _ CG13025 _ _ _ _ CG13026 _ _ _ _ CG13027 _ _ _ _ CG13028 _ _ _ _ CG13029 _ _ _ _ CG13030 _ _ _ _ CG13031 _ _ _ _ CG13032 _ _ _ _ CG13033 _ _ _ _ CG13034 _ _ _ _ CG13035 _ _ _ _ CG13036 _ _ _ _ CG13038 _ _ _ _ CG13039 _ _ _ _ CG1304 _ _ _ _ CG13040 _ _ _ _ CG13041 _ _ _ _ CG13042 _ _ _ _ CG13043 _ _ _ _ CG13044 _ _ _ _ CG13045 _ _ _ _ CG13046 _ _ _ _ CG13047 _ _ _ _ CG13048 _ _ _ _ CG13049 _ _ _ _ CG13050 _ _ _ _ CG13051 _ _ _ _ CG13052 _ _ _ _ CG13053 _ _ _ _ CG13054 _ _ _ _ CG13055 _ _ _ _ CG13056 _ _ _ _ CG13057 _ _ _ _ CG13058 _ _ _ _ CG13059 _ _ _ _ CG13060 _ _ _ _ CG13061 _ _ _ _ CG13062 _ _ _ _ CG13063 _ _ _ _ CG13064 _ _ _ _ CG13065 _ _ _ _ CG13066 _ _ _ _ CG13067 _ _ _ _ CG13068 _ _ _ _ CG13069 _ _ _ _ CG13070 _ _ _ _ CG13071 _ _ _ _ CG13073 _ _ _ _ CG13074 _ _ _ _ CG13075 _ _ _ _ CG13077 _ _ _ _ CG13078 _ _ _ _ CG13079 _ _ _ _ CG1308 _ _ _ _ CG13080 _ _ _ _ CG13081 _ _ _ _ CG13082 _ _ _ _ CG13083 _ _ _ _ CG13084 _ _ _ _ CG13085 _ _ _ _ CG13086 _ _ _ _ CG13087 _ _ _ _ CG13088 _ _ _ _ CG13089 _ _ _ _ CG1309 _ _ _ _ CG13090 Mo-molybdopterin cofactor biosynthesis; GO:0006777 | inferred from sequence similarity with EMBL:AF102544 _ _ _ CG13091 _ _ _ _ CG13095 _ _ _ _ CG13096 _ _ _ _ CG13097 _ _ _ _ CG13101 _ _ _ _ CG13102 _ _ _ _ CG13103 _ _ _ _ CG13104 _ _ _ _ CG13105 _ _ _ _ CG13108 _ _ _ _ CG1311 _ _ _ _ CG13110 _ _ _ _ CG13111 _ _ _ _ CG13112 _ _ _ _ CG13113 _ _ _ _ CG13114 _ _ _ _ CG13116 _ _ _ _ CG13117 _ _ _ _ CG13120 _ _ _ _ CG13121 _ _ _ _ CG13123 _ _ _ _ CG13124 _ _ _ _ CG13125 _ _ _ _ CG13126 _ _ _ _ CG13127 _ _ _ _ CG13128 _ _ _ _ CG13129 _ _ _ _ CG13130 _ _ _ _ CG13131 _ _ _ _ CG13133 _ _ _ _ CG13134 _ _ _ _ CG13135 _ _ _ _ CG13136 _ _ _ _ CG13137 _ _ _ _ CG13138 _ _ _ _ CG13139 _ _ _ _ CG1314 _ _ _ _ CG13140 _ _ _ _ CG13141 _ _ _ _ CG13142 _ _ _ _ CG13143 _ _ _ _ CG13144 _ _ _ _ CG13145 _ _ _ _ CG13148 _ _ _ _ CG13151 _ _ _ _ CG13154 _ _ _ _ CG13155 _ _ _ _ CG13156 _ _ _ _ CG13157 _ _ _ _ CG13159 _ _ _ _ CG1316 _ _ _ _ CG13160 _ _ _ _ CG13162 _ _ _ _ CG13163 _ _ _ _ CG13164 _ _ _ _ CG13165 _ _ _ _ CG13166 _ _ _ _ CG13167 hydrogen transport; GO:0006818 | inferred from sequence similarity with SWISS-PROT:P39942 _ _ _ CG13168 _ _ _ _ CG13169 _ _ _ _ CG1317 _ _ _ _ CG13170 _ _ _ _ CG13171 _ _ _ _ CG13175 _ _ _ _ CG13176 _ _ _ _ CG13177 _ _ _ _ CG13178 _ _ _ _ CG13181 _ _ _ _ CG13183 _ _ _ _ CG13185 _ _ _ _ CG13186 _ _ _ _ CG13188 _ _ _ _ CG13189 _ _ _ _ CG1319 _ _ _ _ CG13190 _ _ _ _ CG13191 _ _ _ _ CG13192 _ _ _ _ CG13193 _ _ _ _ CG13194 _ _ _ _ CG13195 _ _ _ _ CG13196 _ _ _ _ CG13197 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG13198 _ _ _ _ CG13200 _ _ _ _ CG13201 _ _ _ _ CG13202 _ _ _ _ CG13203 _ _ _ _ CG13204 _ _ _ _ CG13208 _ _ _ _ CG13209 _ _ _ _ CG13210 _ _ _ _ CG13211 _ _ _ _ CG13213 _ _ _ _ CG13214 _ _ _ _ CG13215 _ _ _ _ CG13216 _ _ _ _ CG13217 _ _ _ _ CG13218 _ _ _ _ CG13220 _ _ _ _ CG13222 _ _ _ _ CG13223 _ _ _ _ CG13224 _ _ _ _ CG13226 _ _ _ _ CG13227 _ _ _ _ CG13228 _ _ _ _ CG13229 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG13230 _ _ _ _ CG13231 _ _ _ _ CG13232 _ _ _ _ CG13233 _ _ _ _ CG13234 _ _ _ _ CG13235 _ _ _ _ CG13236 _ _ _ _ CG13237 _ _ _ _ CG13238 _ _ _ _ CG13239 _ _ _ _ CG1324 _ _ _ _ CG13244 _ _ _ _ CG13247 _ _ _ _ CG13248 _ _ _ _ CG13250 _ _ _ _ CG13251 _ _ _ _ CG13252 _ _ _ _ CG13253 _ _ _ _ CG13255 _ _ _ _ CG13256 _ _ _ _ CG13257 _ _ _ _ CG13258 _ _ _ _ CG1326 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with SWISS-PROT:O70579 _ _ _ CG13260 _ _ _ _ CG13261 _ _ _ _ CG13272 _ _ _ _ CG13277 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:014252; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAD56231 _ _ _ CG13278 _ _ _ _ CG13280 _ _ _ _ CG13282 _ _ _ _ CG13283 _ _ _ _ CG13284 _ _ _ _ CG13285 _ _ _ _ CG13286 _ _ _ _ CG13287 _ _ _ _ CG13288 _ _ _ _ CG13289 _ _ _ _ CG13290 _ _ _ _ CG13291 _ _ _ _ CG13292 _ _ _ _ CG13293 _ _ _ _ CG13294 _ _ _ _ CG13295 _ _ _ _ CG13296 _ _ _ _ CG13297 _ _ _ _ CG13298 _ _ _ _ CG13299 _ _ _ _ CG13300 _ _ _ _ CG13301 _ _ _ _ CG13302 _ _ _ _ CG13303 _ _ _ _ CG13305 _ _ _ _ CG13306 _ _ _ _ CG13307 _ _ _ _ CG13308 _ _ _ _ CG13309 _ _ _ _ CG13310 _ _ _ _ CG13311 _ _ _ _ CG13312 _ _ _ _ CG13313 _ _ _ _ CG13314 _ _ _ _ CG13315 _ _ _ _ CG13317 _ _ _ _ CG13318 _ _ _ _ CG13319 _ _ _ _ CG1332 _ _ _ _ CG13320 _ _ _ _ CG13321 _ _ _ _ CG13322 _ _ _ _ CG13323 _ _ _ _ CG13324 _ _ _ _ CG13325 _ _ _ _ CG13326 _ _ _ _ CG13328 _ _ _ _ CG13330 _ _ _ _ CG13331 _ _ _ _ CG13332 _ _ _ _ CG13333 _ _ _ _ CG13334 _ _ _ _ CG13335 _ _ _ _ CG13337 _ _ _ _ CG13338 _ _ _ _ CG13339 _ _ _ _ CG13340 _ _ _ _ CG13341 _ _ _ _ CG13343 _ _ _ _ CG13344 _ _ _ _ CG13349 _ _ _ _ CG13350 _ _ _ _ CG13352 _ _ _ _ CG13353 _ _ _ _ CG13356 _ _ _ _ CG13361 _ _ _ _ CG13362 _ _ _ _ CG13365 _ _ _ _ CG13373 _ _ _ _ CG13376 _ _ _ _ CG13379 _ _ _ _ CG1338 _ _ _ _ CG13380 _ _ _ _ CG13381 _ _ _ _ CG13382 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with SWISS-PROT:P54001 _ _ _ CG13384 _ _ _ _ CG13385 _ _ _ _ CG13386 _ _ _ _ CG13390 _ _ _ _ CG13392 _ _ _ _ CG13393 anti-apoptosis; GO:0006916 | non-traceable author statement _ _ _ CG13394 _ _ _ _ CG13398 _ _ _ _ CG1340 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ CG13402 _ _ _ _ CG13403 _ _ _ _ CG13404 _ _ _ _ CG13405 _ _ _ _ CG13406 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG13407 _ _ _ _ CG13408 _ _ _ _ CG13409 _ _ _ _ CG13413 _ _ _ _ CG13414 _ _ _ _ CG13415 _ _ _ _ CG13416 _ _ _ _ CG13419 _ _ _ _ CG1342 _ _ _ _ CG13420 _ _ _ _ CG13422 _ _ _ _ CG13423 _ _ _ _ CG13424 _ _ _ _ CG13426 "SRP-dependent, co-translational membrane targeting, translocation; GO:0006616 | inferred from sequence similarity with SWISS-PROT:P38384" _ _ _ CG13427 _ _ _ _ CG13428 _ _ _ _ CG13434 _ _ _ _ CG13436 _ _ _ _ CG13437 _ _ _ _ CG13438 _ _ _ _ CG13442 _ _ _ _ CG13443 _ _ _ _ CG13444 _ _ _ _ CG13445 _ _ _ _ CG13446 _ _ _ _ CG13449 _ _ _ _ CG13450 _ _ _ _ CG13451 _ _ _ _ CG13452 _ _ _ _ CG13453 _ _ _ _ CG13454 _ _ _ _ CG13455 _ _ _ _ CG13456 _ _ _ _ CG13457 _ _ _ _ CG13458 _ _ _ _ CG13459 _ _ _ _ CG13460 _ _ _ _ CG13461 _ _ _ _ CG13462 _ _ _ _ CG13463 _ _ _ _ CG13465 _ _ _ _ CG13466 microtubule-based process; GO:0007017 | non-traceable author statement _ _ _ CG13467 _ _ _ _ CG1347 _ _ _ _ CG13470 _ _ _ _ CG13471 _ _ _ _ CG13472 _ _ _ _ CG13473 _ _ _ _ CG13474 _ _ _ _ CG13476 _ _ _ _ CG13477 _ _ _ _ CG13479 _ _ _ _ CG13481 _ _ _ _ CG13482 _ _ _ _ CG13484 _ _ _ _ CG13485 _ _ _ _ CG13487 _ _ _ _ CG13488 _ _ _ _ CG13489 _ _ _ _ CG13490 _ _ _ _ CG13492 _ _ _ _ CG13493 _ _ _ _ CG13494 _ _ _ _ CG13496 _ _ _ _ CG13498 _ _ _ _ CG13499 _ _ _ _ CG13500 _ _ _ _ CG13501 _ _ _ _ CG13502 _ _ _ _ CG13503 _ _ _ _ CG13504 _ _ _ _ CG13506 _ _ _ _ CG13509 _ _ _ _ CG13510 _ _ _ _ CG13511 _ _ _ _ CG13512 _ _ _ _ CG13516 _ _ _ _ CG13518 _ _ _ _ CG13519 _ _ _ _ CG13524 _ _ _ _ CG13526 _ _ _ _ CG13527 _ _ _ _ CG13530 _ _ _ _ CG13531 _ _ _ _ CG13532 _ _ _ _ CG13533 _ _ _ _ CG13534 _ _ _ _ CG13535 _ _ _ _ CG13538 _ _ _ _ CG13539 _ _ _ _ CG1354 _ _ _ _ CG13540 _ _ _ _ CG13541 _ _ _ _ CG13542 _ _ _ _ CG13544 _ _ _ _ CG13545 _ _ _ _ CG13548 _ _ _ _ CG13550 _ _ _ _ CG13551 _ _ _ _ CG13552 _ _ _ _ CG13553 _ _ _ _ CG13556 _ _ _ _ CG13557 _ _ _ _ CG13558 _ _ _ _ CG13559 _ _ _ _ CG13560 _ _ _ _ CG13561 _ _ _ _ CG13562 _ _ _ _ CG13563 _ _ _ _ CG13564 _ _ _ _ CG13565 _ _ _ _ CG13566 _ _ _ _ CG13567 _ _ _ _ CG13568 _ _ _ _ CG13569 _ _ _ _ CG13574 _ _ _ _ CG13575 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG13576 _ _ _ _ CG13577 _ _ _ _ CG13578 _ _ _ _ CG13579 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG1358 _ _ _ _ CG13581 _ _ _ _ CG13582 _ _ _ _ CG13585 _ _ _ _ CG13586 _ _ _ _ CG13587 _ _ _ _ CG13588 _ _ _ _ CG13589 _ _ _ _ CG1359 _ _ _ _ CG13590 _ _ _ _ CG13592 _ _ _ _ CG13593 _ _ _ _ CG13594 _ _ _ _ CG13595 _ _ _ _ CG13596 _ _ _ _ CG13597 _ _ _ _ CG13599 _ _ _ _ CG1360 _ _ _ _ CG13601 _ _ _ _ CG13602 _ _ _ _ CG13603 _ _ _ _ CG13604 _ _ _ _ CG13605 _ _ _ _ CG13606 _ _ _ _ CG13607 _ _ _ _ CG13609 _ _ _ _ CG13610 _ _ _ _ CG13611 _ _ _ _ CG13613 _ _ _ _ CG13614 _ _ _ _ CG13615 _ _ _ _ CG13616 _ _ _ _ CG13617 _ _ _ _ CG13618 _ _ _ _ CG13620 _ _ _ _ CG13621 _ _ _ _ CG13622 _ _ _ _ CG13623 _ _ _ _ CG13624 _ _ _ _ CG13625 _ _ _ _ CG13627 _ _ _ _ CG13630 _ _ _ _ CG13631 _ _ _ _ CG13632 _ _ _ _ CG13634 _ _ _ _ CG13636 _ _ _ _ CG13638 _ _ _ _ CG13639 _ _ _ _ CG13640 _ _ _ _ CG13641 _ _ _ _ CG13642 _ _ _ _ CG13643 _ _ _ _ CG13644 _ _ _ _ CG13645 _ _ _ _ CG13646 _ _ _ _ CG13647 _ _ _ _ CG13648 _ _ _ _ CG13649 _ _ _ _ CG13650 _ _ _ _ CG13651 _ _ _ _ CG13652 _ _ _ _ CG13653 _ _ _ _ CG13654 _ _ _ _ CG13655 _ _ _ _ CG13656 _ _ _ _ CG13657 _ _ _ _ CG13658 _ _ _ _ CG13659 _ _ _ _ CG13660 _ _ _ _ CG13661 _ _ _ _ CG13662 _ _ _ _ CG13663 _ _ _ _ CG13664 _ _ _ _ CG13665 _ _ _ _ CG13666 _ _ _ _ CG13667 _ _ _ _ CG13669 _ _ _ _ CG13670 _ _ _ _ CG13671 _ _ _ _ CG13672 _ _ _ _ CG13673 _ _ _ _ CG13674 _ _ _ _ CG13675 _ _ _ _ CG13676 _ _ _ _ CG13678 _ _ _ _ CG13679 _ _ _ _ CG1368 _ _ _ _ CG13680 _ _ _ _ CG13681 _ _ _ _ CG13682 _ _ _ _ CG13683 _ _ _ _ CG13684 _ _ _ _ CG13685 _ _ _ _ CG13687 _ _ _ _ CG13688 _ _ _ _ CG13689 _ _ _ _ CG13690 _ _ _ _ CG13691 _ _ _ _ CG13692 protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with SWISS-PROT:Q20758 _ _ _ CG13693 _ _ _ _ CG13694 _ _ _ _ CG13696 _ _ _ _ CG13697 _ _ _ _ CG13698 _ _ _ _ CG13699 _ _ _ _ CG13700 _ _ _ _ CG13703 _ _ _ _ CG13704 _ _ _ _ CG13705 _ _ _ _ CG13706 _ _ _ _ CG13707 _ _ _ _ CG13708 _ _ _ _ CG1371 _ _ _ _ CG13711 _ _ _ _ CG13712 _ _ _ _ CG13713 _ _ _ _ CG13714 _ _ _ _ CG13715 _ _ _ _ CG13716 _ _ _ _ CG13717 _ _ _ _ CG13718 _ _ _ _ CG13719 _ _ _ _ CG13720 _ _ _ _ CG13721 _ _ _ _ CG13722 _ _ _ _ CG13723 _ _ _ _ CG13724 _ _ _ _ CG13725 _ _ _ _ CG13727 _ _ _ _ CG13728 _ _ _ _ CG13729 _ _ _ _ CG13730 _ _ _ _ CG13731 _ _ _ _ CG13732 _ _ _ _ CG13733 _ _ _ _ CG13735 _ _ _ _ CG13736 _ _ _ _ CG13737 _ _ _ _ CG13738 _ _ _ _ CG13739 _ _ _ _ CG13740 _ _ _ _ CG13741 _ _ _ _ CG13742 _ _ _ _ CG13743 _ _ _ _ CG13744 _ _ _ _ CG13745 _ _ _ _ CG13746 _ _ _ _ CG13747 _ _ _ _ CG13748 _ _ _ _ CG13749 _ _ _ _ CG13751 _ _ _ _ CG13757 _ _ _ _ CG13764 _ _ _ _ CG13765 _ _ _ _ CG13766 _ _ _ _ CG13767 _ _ _ _ CG13768 _ _ _ _ CG13769 _ _ _ _ CG13770 _ _ _ _ CG13771 _ _ _ _ CG13775 _ _ _ _ CG13776 _ _ _ _ CG13779 _ _ _ _ CG13783 _ _ _ _ CG13784 _ _ _ _ CG13785 _ _ _ _ CG13786 _ _ _ _ CG13789 _ _ _ _ CG1379 _ _ _ _ CG13790 _ _ _ _ CG13791 _ _ _ _ CG13792 _ _ _ _ CG13793 _ _ _ _ CG13794 _ _ _ _ CG13795 _ _ _ _ CG13796 _ _ _ _ CG13798 _ _ _ _ CG13799 _ _ _ _ CG13800 _ _ _ _ CG13801 _ _ _ _ CG13802 _ _ _ _ CG13803 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG13805 _ _ _ _ CG13806 _ _ _ _ CG13807 _ _ _ _ CG13809 microtubule-based movement; GO:0007018 | inferred from sequence similarity with NCBI_gi:1086678 _ _ _ CG1381 _ _ _ _ CG13810 _ _ _ _ CG13811 _ _ _ _ CG13812 _ _ _ _ CG13813 _ _ _ _ CG13814 _ _ _ _ CG13815 _ _ _ _ CG13817 _ _ _ _ CG13818 _ _ _ _ CG13819 _ _ _ _ CG13820 _ _ _ _ CG13821 _ _ _ _ CG13822 _ _ _ _ CG13823 _ _ _ _ CG13824 _ _ _ _ CG13825 _ _ _ _ CG13826 _ _ _ _ CG13827 _ _ _ _ CG13828 _ _ _ _ CG13829 _ _ _ _ CG1383 _ _ _ _ CG13830 _ _ _ _ CG13831 _ _ _ _ CG13833 _ _ _ _ CG13834 _ _ _ _ CG13835 _ _ _ _ CG13836 _ _ _ _ CG13837 _ _ _ _ CG13838 _ _ _ _ CG13839 _ _ _ _ CG13840 _ _ _ _ CG13841 _ _ _ _ CG13842 _ _ _ _ CG13843 _ _ _ _ CG13844 _ _ _ _ CG13845 _ _ _ _ CG13846 _ _ _ _ CG13847 _ _ _ _ CG13848 _ _ _ _ CG13850 _ _ _ _ CG13851 _ _ _ _ CG13852 _ _ _ _ CG13853 _ _ _ _ CG13855 _ _ _ _ CG13856 _ _ _ _ CG13857 _ _ _ _ CG13858 _ _ _ _ CG13859 _ _ _ _ CG13860 _ _ _ _ CG13861 _ _ _ _ CG13862 _ _ _ _ CG13863 _ _ _ _ CG13864 _ _ _ _ CG13865 _ _ _ _ CG13868 _ _ _ _ CG13869 _ _ _ _ CG1387 _ _ _ _ CG13870 _ _ _ _ CG13871 _ _ _ _ CG13872 _ _ _ _ CG13875 _ _ _ _ CG13876 _ _ _ _ CG13877 _ _ _ _ CG13878 _ _ _ _ CG13879 _ _ _ _ CG13881 _ _ _ _ CG13882 _ _ _ _ CG13883 _ _ _ _ CG13884 _ _ _ _ CG13885 _ _ _ _ CG13886 _ _ _ _ CG13887 _ _ _ _ CG13889 _ _ _ _ CG13890 _ _ _ _ CG13891 _ _ _ _ CG13893 _ _ _ _ CG13894 _ _ _ _ CG13895 _ _ _ _ CG13896 _ _ _ _ CG13897 _ _ _ _ CG13898 _ _ _ _ CG13899 _ _ _ _ CG13900 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:013663; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:CAB56791 _ _ _ CG13901 _ _ _ _ CG13902 _ _ _ _ CG13903 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG13904 _ _ _ _ CG13905 _ _ _ _ CG13907 _ _ _ _ CG13908 _ _ _ _ CG13910 _ _ _ _ CG13911 _ _ _ _ CG13912 _ _ _ _ CG13913 _ _ _ _ CG13914 _ _ _ _ CG13915 _ _ _ _ CG13916 _ _ _ _ CG13917 _ _ _ _ CG13919 _ _ _ _ CG13921 _ _ _ _ CG13923 _ _ _ _ CG13924 _ _ _ _ CG13925 _ _ _ _ CG13926 _ _ _ _ CG13928 _ _ _ _ CG13930 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG13931 _ _ _ _ CG13932 _ _ _ _ CG13933 _ _ _ _ CG13934 _ _ _ _ CG13935 _ _ _ _ CG13936 _ _ _ _ CG13937 _ _ _ _ CG13938 _ _ _ _ CG13939 _ _ _ _ CG1394 _ _ _ _ CG13941 _ _ _ _ CG13942 _ _ _ _ CG13943 _ _ _ _ CG13944 _ _ _ _ CG13946 _ _ _ _ CG13947 _ _ _ _ CG13949 _ _ _ _ CG13950 _ _ _ _ CG13952 _ _ _ _ CG13953 _ _ _ _ CG13954 _ _ _ _ CG13955 _ _ _ _ CG13957 _ _ _ _ CG13958 _ _ _ _ CG13959 _ _ _ _ CG13960 _ _ _ _ CG13961 _ _ _ _ CG13962 _ _ _ _ CG13964 _ _ _ _ CG13965 _ _ _ _ CG13966 _ _ _ _ CG1397 _ _ _ _ CG13972 _ _ _ _ CG13978 _ _ _ _ CG13980 _ _ _ _ CG13981 _ _ _ _ CG13982 _ _ _ _ CG13983 _ _ _ _ CG13984 _ _ _ _ CG13985 _ _ _ _ CG13986 _ _ _ _ CG13987 _ _ _ _ CG13988 _ _ _ _ CG13989 _ _ _ _ CG1399 _ _ _ _ CG13990 _ _ _ _ CG13991 _ _ _ _ CG13992 _ _ _ _ CG13993 _ _ _ _ CG13994 _ _ _ _ CG13995 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG13996 _ _ _ _ CG13997 _ _ _ _ CG13998 _ _ _ _ CG13999 _ _ _ _ CG14000 _ _ _ _ CG14002 _ _ _ _ CG14003 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:Takr99D; FB:FBgn0004622 _ _ _ CG14004 _ _ _ _ CG14005 _ _ _ _ CG14006 _ _ _ _ CG14007 _ _ _ _ CG14008 _ _ _ _ CG14009 _ _ _ _ CG1401 _ _ _ _ CG14010 _ _ _ _ CG14011 _ _ _ _ CG14013 _ _ _ _ CG14014 _ _ _ _ CG14015 _ _ _ _ CG14016 _ _ _ _ CG14017 _ _ _ _ CG14019 _ _ _ _ CG1402 _ _ _ _ CG14020 _ _ _ _ CG14021 _ _ _ _ CG14022 _ _ _ _ CG14023 _ _ _ _ CG14024 _ _ _ _ CG14030 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG14033 _ _ _ _ CG14034 _ _ _ _ CG14035 _ _ _ _ CG14036 _ _ _ _ CG14037 _ _ _ _ CG14038 _ _ _ _ CG14040 _ _ _ _ CG14042 _ _ _ _ CG14043 _ _ _ _ CG14044 _ _ _ _ CG14049 _ _ _ _ CG1405 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:054722 _ _ _ CG14052 _ _ _ _ CG14053 _ _ _ _ CG14054 _ _ _ _ CG14055 _ _ _ _ CG14056 _ _ _ _ CG14057 _ _ _ _ CG14058 _ _ _ _ CG14059 _ _ _ _ CG14060 mRNA splicing; GO:0006371 | inferred from electronic annotation _ _ _ CG14061 _ _ _ _ CG14062 _ _ _ _ CG14063 _ _ _ _ CG14065 _ _ _ _ CG14067 _ _ _ _ CG14068 _ _ _ _ CG14069 _ _ _ _ CG1407 _ _ _ _ CG14070 _ _ _ _ CG14071 _ _ _ _ CG14072 _ _ _ _ CG14073 _ _ _ _ CG14074 _ _ _ _ CG14075 _ _ _ _ CG14076 _ _ _ _ CG14077 _ _ _ _ CG14079 _ _ _ _ CG14082 _ _ _ _ CG14083 _ _ _ _ CG14084 _ _ _ _ CG14085 _ _ _ _ CG14086 _ _ _ _ CG14087 _ _ _ _ CG14088 _ _ _ _ CG14089 _ _ _ _ CG1409 _ _ _ _ CG14090 _ _ _ _ CG14091 _ _ _ _ CG14092 _ _ _ _ CG14094 _ _ _ _ CG14095 _ _ _ _ CG14096 _ _ _ _ CG14098 _ _ _ _ CG14100 _ _ _ _ CG14101 _ _ _ _ CG14102 _ _ _ _ CG14103 _ _ _ _ CG14104 _ _ _ _ CG14105 _ _ _ _ CG14106 _ _ _ _ CG14107 _ _ _ _ CG14108 _ _ _ _ CG14109 _ _ _ _ CG14110 _ _ _ _ CG14111 _ _ _ _ CG14112 _ _ _ _ CG14113 _ _ _ _ CG14114 _ _ _ _ CG14115 _ _ _ _ CG14116 _ _ _ _ CG14117 _ _ _ _ CG14118 _ _ _ _ CG14119 _ _ _ _ CG14120 _ _ _ _ CG14121 _ _ _ _ CG14122 _ _ _ _ CG14123 _ _ _ _ CG14125 _ _ _ _ CG14126 _ _ _ _ CG14127 _ _ _ _ CG14128 _ _ _ _ CG14129 _ _ _ _ CG14130 _ _ _ _ CG14131 _ _ _ _ CG14132 _ _ _ _ CG14133 _ _ _ _ CG14134 _ _ _ _ CG14135 _ _ _ _ CG14136 _ _ _ _ CG14137 _ _ _ _ CG14138 _ _ _ _ CG14141 _ _ _ _ CG14142 _ _ _ _ CG14143 _ _ _ _ CG14145 _ _ _ _ CG14146 _ _ _ _ CG14147 _ _ _ _ CG14148 _ _ _ _ CG14149 _ _ _ _ CG14150 _ _ _ _ CG14151 _ _ _ _ CG14152 _ _ _ _ CG14153 _ _ _ _ CG14154 _ _ _ _ CG14155 _ _ _ _ CG14158 _ _ _ _ CG14159 _ _ _ _ CG1416 _ _ _ _ CG14160 _ _ _ _ CG14161 _ _ _ _ CG14162 _ _ _ _ CG14163 _ _ _ _ CG14164 _ _ _ _ CG14165 _ _ _ _ CG14166 _ _ _ _ CG14167 _ _ _ _ CG14168 _ _ _ _ CG14169 _ _ _ _ CG14170 _ _ _ _ CG14172 _ _ _ _ CG14173 _ _ _ _ CG14174 _ _ _ _ CG14177 _ _ _ _ CG14178 _ _ _ _ CG14179 _ _ _ _ CG1418 _ _ _ _ CG14180 _ _ _ _ CG14181 _ _ _ _ CG14182 _ _ _ _ CG14183 _ _ _ _ CG14184 _ _ _ _ CG14185 _ _ _ _ CG14186 _ _ _ _ CG14187 _ _ _ _ CG14188 _ _ _ _ CG14189 _ _ _ _ CG14190 _ _ _ _ CG14191 _ _ _ _ CG14192 _ _ _ _ CG14193 _ _ _ _ CG14194 _ _ _ _ CG14195 _ _ _ _ CG14196 _ _ _ _ CG14197 _ _ _ _ CG14199 _ _ _ _ CG1420 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AF101074; protein_id:AAD13774.1; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:006416 _ _ _ CG14200 _ _ _ _ CG14201 _ _ _ _ CG14202 _ _ _ _ CG14203 _ _ _ _ CG14204 _ _ _ _ CG14205 _ _ _ _ CG14206 _ _ _ _ CG14207 _ _ _ _ CG14208 _ _ _ _ CG1421 _ _ _ _ CG14210 _ _ _ _ CG14211 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG14212 _ _ _ _ CG14213 _ _ _ _ CG14214 "SRP-dependent, co-translational membrane targeting, translocation; GO:0006616 | inferred from sequence similarity with SWISS-PROT:P38384" _ _ _ CG14215 _ _ _ _ CG14216 _ _ _ _ CG14217 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG14218 _ _ _ _ CG14219 _ _ _ _ CG14220 _ _ _ _ CG14221 _ _ _ _ CG14222 _ _ _ _ CG14223 _ _ _ _ CG14224 _ _ _ _ CG14225 _ _ _ _ CG14227 _ _ _ _ CG14229 _ _ _ _ CG14230 _ _ _ _ CG14231 _ _ _ _ CG14232 _ _ _ _ CG14234 _ _ _ _ CG14236 _ _ _ _ CG14237 _ _ _ _ CG14238 _ _ _ _ CG14239 _ _ _ _ CG14240 _ _ _ _ CG14241 _ _ _ _ CG14242 _ _ _ _ CG14243 _ _ _ _ CG14244 _ _ _ _ CG14245 _ _ _ _ CG14246 _ _ _ _ CG14247 _ _ _ _ CG14248 _ _ _ _ CG14250 _ _ _ _ CG14251 _ _ _ _ CG14252 _ _ _ _ CG14253 _ _ _ _ CG14254 _ _ _ _ CG14255 _ _ _ _ CG14256 _ _ _ _ CG14257 _ _ _ _ CG14258 _ _ _ _ CG14259 _ _ _ _ CG14260 _ _ _ _ CG14261 _ _ _ _ CG14262 _ _ _ _ CG14263 _ _ _ _ CG14264 _ _ _ _ CG14268 _ _ _ _ CG14269 _ _ _ _ CG1427 _ _ _ _ CG14270 _ _ _ _ CG14272 _ _ _ _ CG14273 _ _ _ _ CG14274 _ _ _ _ CG14275 _ _ _ _ CG14277 _ _ _ _ CG14279 _ _ _ _ CG1428 _ _ _ _ CG14280 _ _ _ _ CG14281 _ _ _ _ CG14282 _ _ _ _ CG14284 _ _ _ _ CG14285 _ _ _ _ CG14286 _ _ _ _ CG14289 _ _ _ _ CG14290 _ _ _ _ CG14291 _ _ _ _ CG14292 _ _ _ _ CG14293 _ _ _ _ CG14294 _ _ _ _ CG14297 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG14298 _ _ _ _ CG14299 _ _ _ _ CG14300 _ _ _ _ CG14301 _ _ _ _ CG14302 _ _ _ _ CG14303 _ _ _ _ CG14304 _ _ _ _ CG14305 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG14306 _ _ _ _ CG14308 _ _ _ _ CG14309 _ _ _ _ CG14310 _ _ _ _ CG14311 _ _ _ _ CG14312 _ _ _ _ CG14313 _ _ _ _ CG14314 _ _ _ _ CG14315 _ _ _ _ CG14316 _ _ _ _ CG14317 _ _ _ _ CG14318 _ _ _ _ CG14319 _ _ _ _ CG14321 _ _ _ _ CG14322 _ _ _ _ CG14323 _ _ _ _ CG14324 _ _ _ _ CG14325 _ _ _ _ CG14326 _ _ _ _ CG14327 _ _ _ _ CG14328 _ _ _ _ CG14329 _ _ _ _ CG14330 _ _ _ _ CG14331 _ _ _ _ CG14332 _ _ _ _ CG14333 _ _ _ _ CG14336 _ _ _ _ CG14337 _ _ _ _ CG14339 _ _ _ _ CG1434 _ _ _ _ CG14340 _ _ _ _ CG14341 _ _ _ _ CG14342 _ _ _ _ CG14343 _ _ _ _ CG14344 _ _ _ _ CG14346 _ _ _ _ CG14349 _ _ _ _ CG14350 _ _ _ _ CG14351 _ _ _ _ CG14352 _ _ _ _ CG14353 _ _ _ _ CG14354 _ _ _ _ CG14355 _ _ _ _ CG14356 _ _ _ _ CG14357 _ _ _ _ CG14358 _ _ _ _ CG14359 _ _ _ _ CG14361 _ _ _ _ CG14362 _ _ _ _ CG14363 _ _ _ _ CG14364 _ _ _ _ CG14365 _ _ _ _ CG14366 _ _ _ _ CG14367 _ _ _ _ CG14368 _ _ _ _ CG14369 _ _ _ _ CG14370 _ _ _ _ CG14371 _ _ _ _ CG14372 _ _ _ _ CG14374 _ _ _ _ CG14375 _ _ _ _ CG14376 _ _ _ _ CG14377 _ _ _ _ CG14378 _ _ _ _ CG14379 _ _ _ _ CG14380 _ _ _ _ CG14383 _ _ _ _ CG14384 _ _ _ _ CG14385 _ _ _ _ CG14387 _ _ _ _ CG14388 _ _ _ _ CG14389 _ _ _ _ CG14391 _ _ _ _ CG14394 _ _ _ _ CG14395 _ _ _ _ CG14397 _ _ _ _ CG14398 _ _ _ _ CG14399 _ _ _ _ CG1440 _ _ _ _ CG14400 _ _ _ _ CG14401 _ _ _ _ CG14402 _ _ _ _ CG14403 _ _ _ _ CG14404 _ _ _ _ CG14405 _ _ _ _ CG14406 _ _ _ _ CG14407 _ _ _ _ CG14408 _ _ _ _ CG14409 _ _ _ _ CG1441 _ _ _ _ CG14410 _ _ _ _ CG14411 _ _ _ _ CG14414 _ _ _ _ CG14415 _ _ _ _ CG14419 _ _ _ _ CG1442 binding to mRNA cap; GO:0006441 | inferred from sequence similarity _ _ _ CG14420 _ _ _ _ CG14421 _ _ _ _ CG14422 _ _ _ _ CG14423 _ _ _ _ CG14425 _ _ _ _ CG14427 _ _ _ _ CG14428 _ _ _ _ CG14429 _ _ _ _ CG1443 _ _ _ _ CG14430 _ _ _ _ CG14431 _ _ _ _ CG14432 _ _ _ _ CG14434 _ _ _ _ CG14435 _ _ _ _ CG14436 _ _ _ _ CG14438 _ _ _ _ CG14439 _ _ _ _ CG1444 _ _ _ _ CG14440 _ _ _ _ CG14441 _ _ _ _ CG14442 _ _ _ _ CG14443 _ _ _ _ CG14444 _ _ _ _ CG14445 _ _ _ _ CG14446 _ _ _ _ CG14447 _ _ _ _ CG14448 _ _ _ _ CG14449 _ _ _ _ CG14450 _ _ _ _ CG14451 _ _ _ _ CG14452 _ _ _ _ CG14453 _ _ _ _ CG14454 _ _ _ _ CG14455 _ _ _ _ CG14456 _ _ _ _ CG14457 _ _ _ _ CG14458 _ _ _ _ CG14459 _ _ _ _ CG14460 _ _ _ _ CG14461 _ _ _ _ CG14462 _ _ _ _ CG14463 _ _ _ _ CG14464 _ _ _ _ CG14465 _ _ _ _ CG14469 _ _ _ _ CG14470 _ _ _ _ CG14471 _ _ _ _ CG14474 _ _ _ _ CG14479 _ _ _ _ CG14480 _ _ _ _ CG14481 _ _ _ _ CG14482 _ _ _ _ CG14483 _ _ _ _ CG14485 _ _ _ _ CG14487 _ _ _ _ CG14488 _ _ _ _ CG14490 _ _ _ _ CG14491 _ _ _ _ CG14492 _ _ _ _ CG14493 _ _ _ _ CG14494 _ _ _ _ CG14495 _ _ _ _ CG14496 _ _ _ _ CG14497 _ _ _ _ CG14498 _ _ _ _ CG14499 _ _ _ _ CG14500 _ _ _ _ CG14501 _ _ _ _ CG14502 _ _ _ _ CG14503 _ _ _ _ CG14504 _ _ _ _ CG14505 _ _ _ _ CG14506 _ _ _ _ CG14507 _ _ _ _ CG14508 oxidative phosphorylation; GO:0006119 | inferred from sequence similarity with SGD:CYT1; SGDID:S0005591 _ _ _ CG14509 _ _ _ _ CG14511 _ _ _ _ CG14512 _ _ _ _ CG14514 _ _ _ _ CG14515 _ _ _ _ CG14516 _ _ _ _ CG14517 _ _ _ _ CG14518 _ _ _ _ CG14519 _ _ _ _ CG14520 _ _ _ _ CG14521 _ _ _ _ CG14522 _ _ _ _ CG14523 _ _ _ _ CG14524 _ _ _ _ CG14525 _ _ _ _ CG14527 _ _ _ _ CG14528 _ _ _ _ CG14529 _ _ _ _ CG14530 _ _ _ _ CG14531 _ _ _ _ CG14532 _ _ _ _ CG14534 _ _ _ _ CG14535 _ _ _ _ CG14536 _ _ _ _ CG14537 _ _ _ _ CG14538 _ _ _ _ CG14539 _ _ _ _ CG14540 _ _ _ _ CG14541 _ _ _ _ CG14542 _ _ _ _ CG14543 _ _ _ _ CG14544 _ _ _ _ CG14545 _ _ _ _ CG14546 _ _ _ _ CG14547 _ _ _ _ CG14549 _ _ _ _ CG14550 _ _ _ _ CG14551 _ _ _ _ CG14555 _ _ _ _ CG14556 _ _ _ _ CG14557 _ _ _ _ CG14558 _ _ _ _ CG14559 _ _ _ _ CG14561 _ _ _ _ CG14562 _ _ _ _ CG14563 _ _ _ _ CG14564 _ _ _ _ CG14565 _ _ _ _ CG14566 _ _ _ _ CG14567 _ _ _ _ CG14568 _ _ _ _ CG14569 _ _ _ _ CG14570 _ _ _ _ CG14571 _ _ _ _ CG14572 _ _ _ _ CG14573 _ _ _ _ CG14574 _ _ _ _ CG14575 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG14579 _ _ _ _ CG1458 _ _ _ _ CG14580 _ _ _ _ CG14581 _ _ _ _ CG14582 _ _ _ _ CG14583 _ _ _ _ CG14584 _ _ _ _ CG14585 _ _ _ _ CG14586 _ _ _ _ CG14589 _ _ _ _ CG14590 _ _ _ _ CG14591 _ _ _ _ CG14593 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG14596 _ _ _ _ CG14597 _ _ _ _ CG14598 _ _ _ _ CG14599 _ _ _ _ CG14602 _ _ _ _ CG14605 _ _ _ _ CG14606 _ _ _ _ CG14607 _ _ _ _ CG14608 _ _ _ _ CG14609 _ _ _ _ CG1461 _ _ _ _ CG14610 _ _ _ _ CG14611 _ _ _ _ CG14612 _ _ _ _ CG14613 _ _ _ _ CG14614 _ _ _ _ CG14615 _ _ _ _ CG14616 _ _ _ _ CG14617 _ _ _ _ CG14618 _ _ _ _ CG14619 deubiquitination; GO:0006514 | inferred from sequence similarity; deubiquitination; GO:0006514 | traceable author statement _ _ _ CG14620 _ _ _ _ CG14621 _ _ _ _ CG1463 _ _ _ _ CG14631 _ _ _ _ CG14632 _ _ _ _ CG14633 _ _ _ _ CG14634 _ _ _ _ CG14635 _ _ _ _ CG14636 _ _ _ _ CG14638 _ _ _ _ CG14639 _ _ _ _ CG14640 _ _ _ _ CG14641 _ _ _ _ CG14642 _ _ _ _ CG14643 _ _ _ _ CG14644 _ _ _ _ CG14645 _ _ _ _ CG14646 _ _ _ _ CG14647 _ _ _ _ CG14648 _ _ _ _ CG14649 _ _ _ _ CG14650 _ _ _ _ CG14651 _ _ _ _ CG14652 _ _ _ _ CG14653 _ _ _ _ CG14654 _ _ _ _ CG14655 _ _ _ _ CG14656 _ _ _ _ CG14657 _ _ _ _ CG14658 _ _ _ _ CG14659 _ _ _ _ CG14660 _ _ _ _ CG14661 _ _ _ _ CG14662 _ _ _ _ CG14663 _ _ _ _ CG14664 _ _ _ _ CG14667 _ _ _ _ CG14668 _ _ _ _ CG14669 _ _ _ _ CG14670 _ _ _ _ CG14671 _ _ _ _ CG14673 _ _ _ _ CG14674 _ _ _ _ CG14675 _ _ _ _ CG14676 _ _ _ _ CG14677 _ _ _ _ CG14678 _ _ _ _ CG1468 _ _ _ _ CG14684 _ _ _ _ CG14685 _ _ _ _ CG14686 _ _ _ _ CG14687 _ _ _ _ CG14688 _ _ _ _ CG14689 _ _ _ _ CG14690 _ _ _ _ CG14691 _ _ _ _ CG14692 _ _ _ _ CG14693 _ _ _ _ CG14694 _ _ _ _ CG14695 _ _ _ _ CG14696 _ _ _ _ CG14698 _ _ _ _ CG14699 _ _ _ _ CG14700 _ _ _ _ CG14701 _ _ _ _ CG14702 _ _ _ _ CG14705 _ _ _ _ CG14706 _ _ _ _ CG14707 _ _ _ _ CG14708 _ _ _ _ CG1471 _ _ _ _ CG14710 _ _ _ _ CG14711 _ _ _ _ CG14712 _ _ _ _ CG14713 _ _ _ _ CG14714 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG14715 _ _ _ _ CG14717 _ _ _ _ CG14718 _ _ _ _ CG1472 ER to Golgi transport; GO:0006888 | inferred from sequence similarity with EMBL:AJ131245; protein_id:CAA10335 _ _ _ CG14720 _ _ _ _ CG14721 _ _ _ _ CG14722 _ _ _ _ CG14725 _ _ _ _ CG14726 _ _ _ _ CG14727 _ _ _ _ CG14729 _ _ _ _ CG14730 _ _ _ _ CG14731 _ _ _ _ CG14732 _ _ _ _ CG14735 _ _ _ _ CG14736 _ _ _ _ CG14737 _ _ _ _ CG14738 _ _ _ _ CG14739 _ _ _ _ CG14740 _ _ _ _ CG14741 _ _ _ _ CG14742 _ _ _ _ CG14743 _ _ _ _ CG14744 _ _ _ _ CG14747 _ _ _ _ CG14748 _ _ _ _ CG14749 poly(A)+ mRNA-nucleus export; GO:0016973 | inferred from sequence similarity with NCBI_gi:4557627 _ _ _ CG1475 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL16A; SGDID:S0001395 _ _ _ CG14750 _ _ _ _ CG14752 _ _ _ _ CG14754 _ _ _ _ CG14755 _ _ _ _ CG14756 _ _ _ _ CG14757 _ _ _ _ CG14759 _ _ _ _ CG14760 _ _ _ _ CG14762 _ _ _ _ CG14763 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG14764 _ _ _ _ CG14766 _ _ _ _ CG14767 _ _ _ _ CG14768 _ _ _ _ CG14770 _ _ _ _ CG14771 _ _ _ _ CG14772 _ _ _ _ CG14773 _ _ _ _ CG14774 _ _ _ _ CG14775 _ _ _ _ CG14778 _ _ _ _ CG14784 _ _ _ _ CG14794 _ _ _ _ CG14797 _ _ _ _ CG14798 _ _ _ _ CG14799 _ _ _ _ CG14806 _ _ _ _ CG14809 _ _ _ _ CG14810 _ _ _ _ CG14811 _ _ _ _ CG14819 _ _ _ _ CG14820 _ _ _ _ CG14821 _ _ _ _ CG14822 _ _ _ _ CG14823 _ _ _ _ CG14824 _ _ _ _ CG14825 _ _ _ _ CG14826 _ _ _ _ CG14828 _ _ _ _ CG14829 _ _ _ _ CG14830 _ _ _ _ CG14831 _ _ _ _ CG14832 _ _ _ _ CG14833 _ _ _ _ CG14834 _ _ _ _ CG14835 _ _ _ _ CG14836 _ _ _ _ CG14837 _ _ _ _ CG14838 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG14839 _ _ _ _ CG14840 _ _ _ _ CG14841 _ _ _ _ CG14842 _ _ _ _ CG14843 _ _ _ _ CG14844 _ _ _ _ CG14845 _ _ _ _ CG14846 _ _ _ _ CG14847 _ _ _ _ CG14848 _ _ _ _ CG14849 _ _ _ _ CG14850 _ _ _ _ CG14851 _ _ _ _ CG14852 _ _ _ _ CG14853 _ _ _ _ CG14854 _ _ _ _ CG14855 _ _ _ _ CG14856 _ _ _ _ CG14857 _ _ _ _ CG1486 _ _ _ _ CG14860 _ _ _ _ CG14861 _ _ _ _ CG14862 _ _ _ _ CG14863 _ _ _ _ CG14864 _ _ _ _ CG14865 _ _ _ _ CG14866 _ _ _ _ CG14867 _ _ _ _ CG14868 _ _ _ _ CG14869 _ _ _ _ CG14870 _ _ _ _ CG14871 _ _ _ _ CG14872 _ _ _ _ CG14873 _ _ _ _ CG14874 _ _ _ _ CG14875 _ _ _ _ CG14876 _ _ _ _ CG14877 _ _ _ _ CG14878 _ _ _ _ CG14879 _ _ _ _ CG14880 _ _ _ _ CG14881 _ _ _ _ CG14882 _ _ _ _ CG14883 _ _ _ _ CG14885 _ _ _ _ CG14886 _ _ _ _ CG14888 _ _ _ _ CG14889 _ _ _ _ CG14890 _ _ _ _ CG14891 _ _ _ _ CG14892 _ _ _ _ CG14893 _ _ _ _ CG14894 _ _ _ _ CG14896 _ _ _ _ CG14897 _ _ _ _ CG14898 _ _ _ _ CG14899 _ _ _ _ CG1490 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG14901 _ _ _ _ CG14903 _ _ _ _ CG14905 _ _ _ _ CG14906 _ _ _ _ CG14907 _ _ _ _ CG14909 _ _ _ _ CG14910 _ _ _ _ CG14911 _ _ _ _ CG14912 _ _ _ _ CG14913 _ _ _ _ CG14914 _ _ _ _ CG14915 _ _ _ _ CG1492 _ _ _ _ CG14920 _ _ _ _ CG14921 _ _ _ _ CG14922 _ _ _ _ CG14923 _ _ _ _ CG14925 _ _ _ _ CG14926 _ _ _ _ CG14928 _ _ _ _ CG14929 _ _ _ _ CG14930 _ _ _ _ CG14931 _ _ _ _ CG14932 _ _ _ _ CG14933 _ _ _ _ CG14934 _ _ _ _ CG14935 _ _ _ _ CG14937 _ _ _ _ CG14939 _ _ _ _ CG1494 _ _ _ _ CG14940 _ _ _ _ CG14942 _ _ _ _ CG14943 _ _ _ _ CG14944 _ _ _ _ CG14945 _ _ _ _ CG14946 _ _ _ _ CG14947 _ _ _ _ CG14948 _ _ _ _ CG14949 _ _ _ _ CG14950 _ _ _ _ CG14951 _ _ _ _ CG14952 _ _ _ _ CG14953 _ _ _ _ CG14954 _ _ _ _ CG14955 _ _ _ _ CG14956 _ _ _ _ CG14957 _ _ _ _ CG14958 _ _ _ _ CG14959 _ _ _ _ CG14960 _ _ _ _ CG14961 _ _ _ _ CG14962 _ _ _ _ CG14963 _ _ _ _ CG14964 _ _ _ _ CG14965 _ _ _ _ CG14966 _ _ _ _ CG14967 _ _ _ _ CG14968 _ _ _ _ CG14969 _ _ _ _ CG1497 _ _ _ _ CG14970 _ _ _ _ CG14971 _ _ _ _ CG14972 _ _ _ _ CG14973 _ _ _ _ CG14974 _ _ _ _ CG14975 _ _ _ _ CG14976 _ _ _ _ CG14977 _ _ _ _ CG14978 _ _ _ _ CG14980 _ _ _ _ CG14982 _ _ _ _ CG14983 _ _ _ _ CG14984 _ _ _ _ CG14985 _ _ _ _ CG14989 _ _ _ _ CG1499 _ _ _ _ CG14990 _ _ _ _ CG14991 _ _ _ _ CG14995 _ _ _ _ CG14997 _ _ _ _ CG14998 _ _ _ _ CG15000 _ _ _ _ CG15001 _ _ _ _ CG15003 _ _ _ _ CG15004 _ _ _ _ CG15005 _ _ _ _ CG15006 _ _ _ _ CG15007 _ _ _ _ CG15008 _ _ _ _ CG1501 _ _ _ _ CG15011 _ _ _ _ CG15012 _ _ _ _ CG15013 _ _ _ _ CG15014 _ _ _ _ CG15017 _ _ _ _ CG15018 _ _ _ _ CG15019 _ _ _ _ CG15020 _ _ _ _ CG15021 _ _ _ _ CG15022 _ _ _ _ CG15023 _ _ _ _ CG15024 _ _ _ _ CG15025 _ _ _ _ CG15026 _ _ _ _ CG15027 _ _ _ _ CG15028 _ _ _ _ CG15029 _ _ _ _ CG1503 _ _ _ _ CG15030 _ _ _ _ CG15031 _ _ _ _ CG15032 _ _ _ _ CG15033 _ _ _ _ CG15034 _ _ _ _ CG15035 _ _ _ _ CG15036 _ _ _ _ CG15037 _ _ _ _ CG1504 _ _ _ _ CG15040 _ _ _ _ CG15041 _ _ _ _ CG15042 _ _ _ _ CG15043 _ _ _ _ CG15044 _ _ _ _ CG15045 _ _ _ _ CG15046 _ _ _ _ CG15047 _ _ _ _ CG15048 _ _ _ _ CG15051 _ _ _ _ CG15055 _ _ _ _ CG15056 _ _ _ _ CG15057 _ _ _ _ CG15058 _ _ _ _ CG15059 _ _ _ _ CG15060 _ _ _ _ CG15061 _ _ _ _ CG15062 _ _ _ _ CG15063 _ _ _ _ CG15064 _ _ _ _ CG15065 _ _ _ _ CG15066 _ _ _ _ CG15067 _ _ _ _ CG15068 _ _ _ _ CG15069 _ _ _ _ CG15071 _ _ _ _ CG15072 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG15073 _ _ _ _ CG15075 _ _ _ _ CG15078 _ _ _ _ CG15080 _ _ _ _ CG15082 _ _ _ _ CG15083 _ _ _ _ CG15084 _ _ _ _ CG15086 _ _ _ _ CG15087 _ _ _ _ CG15088 _ _ _ _ CG15092 _ _ _ _ CG15093 _ _ _ _ CG15094 _ _ _ _ CG15096 _ _ _ _ CG15097 _ _ _ _ CG15098 _ _ _ _ CG15099 _ _ _ _ CG15100 _ _ _ _ CG15104 _ _ _ _ CG15105 _ _ _ _ CG15107 _ _ _ _ CG15108 _ _ _ _ CG15109 _ _ _ _ CG15111 _ _ _ _ CG15115 _ _ _ _ CG15116 _ _ _ _ CG15117 _ _ _ _ CG15118 _ _ _ _ CG15119 _ _ _ _ CG15120 _ _ _ _ CG15121 _ _ _ _ CG15122 _ _ _ _ CG15124 _ _ _ _ CG15125 _ _ _ _ CG15126 _ _ _ _ CG15127 _ _ _ _ CG15128 _ _ _ _ CG1513 _ _ _ _ CG15130 _ _ _ _ CG15131 _ _ _ _ CG15132 _ _ _ _ CG15133 _ _ _ _ CG15134 _ _ _ _ CG15135 _ _ _ _ CG15136 _ _ _ _ CG15139 _ _ _ _ CG1514 _ _ _ _ CG15140 _ _ _ _ CG15141 _ _ _ _ CG15142 _ _ _ _ CG15143 _ _ _ _ CG15144 _ _ _ _ CG15145 _ _ _ _ CG15146 _ _ _ _ CG15147 _ _ _ _ CG15148 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG15149 _ _ _ _ CG1515 _ _ _ _ CG15150 _ _ _ _ CG15151 _ _ _ _ CG15152 _ _ _ _ CG15153 _ _ _ _ CG15155 _ _ _ _ CG15156 _ _ _ _ CG15157 _ _ _ _ CG15158 _ _ _ _ CG15159 _ _ _ _ CG15160 _ _ _ _ CG15161 _ _ _ _ CG15163 _ _ _ _ CG15164 _ _ _ _ CG15165 _ _ _ _ CG15166 _ _ _ _ CG15167 _ _ _ _ CG15168 _ _ _ _ CG15169 _ _ _ _ CG15170 _ _ _ _ CG15172 _ _ _ _ CG15173 _ _ _ _ CG15174 _ _ _ _ CG15175 _ _ _ _ CG15176 _ _ _ _ CG15177 _ _ _ _ CG15178 _ _ _ _ CG15179 _ _ _ _ CG1518 _ _ _ _ CG15180 _ _ _ _ CG15181 _ _ _ _ CG15182 _ _ _ _ CG15183 _ _ _ _ CG15184 _ _ _ _ CG15185 _ _ _ _ CG15186 _ _ _ _ CG15187 _ _ _ _ CG15188 _ _ _ _ CG15189 _ _ _ _ CG15190 _ _ _ _ CG15192 _ _ _ _ CG15194 _ _ _ _ CG15196 _ _ _ _ CG15197 _ _ _ _ CG15198 _ _ _ _ CG15199 _ _ _ _ CG15200 _ _ _ _ CG15201 _ _ _ _ CG15202 _ _ _ _ CG15203 _ _ _ _ CG15204 _ _ _ _ CG15206 _ _ _ _ CG15207 _ _ _ _ CG15208 _ _ _ _ CG15209 _ _ _ _ CG1521 _ _ _ _ CG15210 _ _ _ _ CG15211 _ _ _ _ CG15212 _ _ _ _ CG15213 _ _ _ _ CG15214 _ _ _ _ CG15215 _ _ _ _ CG15216 _ _ _ _ CG15217 _ _ _ _ CG15219 _ _ _ _ CG15220 _ _ _ _ CG15221 _ _ _ _ CG15222 _ _ _ _ CG15223 _ _ _ _ CG15225 _ _ _ _ CG15226 _ _ _ _ CG15227 _ _ _ _ CG1523 _ _ _ _ CG15233 _ _ _ _ CG15234 _ _ _ _ CG15235 _ _ _ _ CG15236 _ _ _ _ CG15237 _ _ _ _ CG15238 _ _ _ _ CG15239 _ _ _ _ CG15240 _ _ _ _ CG15241 _ _ _ _ CG15245 _ _ _ _ CG15246 _ _ _ _ CG15247 _ _ _ _ CG15248 _ _ _ _ CG15249 _ _ _ _ CG15250 _ _ _ _ CG15251 _ _ _ _ CG15252 _ _ _ _ CG15258 _ _ _ _ CG15277 _ _ _ _ CG15278 _ _ _ _ CG15284 _ _ _ _ CG15285 _ _ _ _ CG1529 _ _ _ _ CG15292 _ _ _ _ CG15295 _ _ _ _ CG15296 _ _ _ _ CG1530 _ _ _ _ CG15303 _ _ _ _ CG15304 _ _ _ _ CG15305 _ _ _ _ CG15306 _ _ _ _ CG15307 _ _ _ _ CG15308 _ _ _ _ CG15309 _ _ _ _ CG1531 _ _ _ _ CG15310 _ _ _ _ CG15311 _ _ _ _ CG15312 _ _ _ _ CG15313 _ _ _ _ CG15314 _ _ _ _ CG15315 _ _ _ _ CG15316 _ _ _ _ CG15317 _ _ _ _ CG1532 _ _ _ _ CG15321 _ _ _ _ CG15322 _ _ _ _ CG15323 _ _ _ _ CG15324 _ _ _ _ CG15325 _ _ _ _ CG15326 _ _ _ _ CG15327 _ _ _ _ CG15329 _ _ _ _ CG15330 _ _ _ _ CG15331 _ _ _ _ CG15332 _ _ _ _ CG15333 _ _ _ _ CG15334 _ _ _ _ CG15335 _ _ _ _ CG15336 _ _ _ _ CG15337 _ _ _ _ CG15338 _ _ _ _ CG15339 _ _ _ _ CG1534 _ _ _ _ CG15340 _ _ _ _ CG15342 _ _ _ _ CG15343 _ _ _ _ CG15344 _ _ _ _ CG15345 _ _ _ _ CG15347 _ _ _ _ CG15348 _ _ _ _ CG15349 _ _ _ _ CG15350 _ _ _ _ CG15351 _ _ _ _ CG15352 _ _ _ _ CG15353 _ _ _ _ CG15354 _ _ _ _ CG15355 _ _ _ _ CG15356 _ _ _ _ CG15357 _ _ _ _ CG15358 _ _ _ _ CG15359 _ _ _ _ CG15360 _ _ _ _ CG15361 _ _ _ _ CG15362 _ _ _ _ CG15363 _ _ _ _ CG15364 _ _ _ _ CG15365 _ _ _ _ CG15366 _ _ _ _ CG15368 _ _ _ _ CG15369 _ _ _ _ CG1537 _ _ _ _ CG15370 _ _ _ _ CG15372 _ _ _ _ CG15373 _ _ _ _ CG15374 _ _ _ _ CG15375 _ _ _ _ CG15376 _ _ _ _ CG15379 _ _ _ _ CG15380 _ _ _ _ CG15381 _ _ _ _ CG15382 _ _ _ _ CG15383 _ _ _ _ CG15385 _ _ _ _ CG15386 _ _ _ _ CG15387 _ _ _ _ CG15388 _ _ _ _ CG15389 _ _ _ _ CG15390 _ _ _ _ CG15391 _ _ _ _ CG15392 _ _ _ _ CG15393 _ _ _ _ CG15394 _ _ _ _ CG15395 _ _ _ _ CG15397 _ _ _ _ CG15398 _ _ _ _ CG15399 _ _ _ _ CG15400 _ _ _ _ CG15401 _ _ _ _ CG15402 _ _ _ _ CG15403 _ _ _ _ CG15404 _ _ _ _ CG15405 _ _ _ _ CG15406 _ _ _ _ CG15407 _ _ _ _ CG15408 _ _ _ _ CG15409 _ _ _ _ CG15411 _ _ _ _ CG15412 _ _ _ _ CG15413 _ _ _ _ CG15414 _ _ _ _ CG15415 _ _ _ _ CG15416 _ _ _ _ CG15418 _ _ _ _ CG15419 _ _ _ _ CG1542 processing of 27S pre-rRNA; GO:0030489 | inferred from sequence similarity _ _ _ CG15421 _ _ _ _ CG15422 _ _ _ _ CG15423 _ _ _ _ CG15425 _ _ _ _ CG15429 _ _ _ _ CG15430 _ _ _ _ CG15431 _ _ _ _ CG15432 _ _ _ _ CG15433 _ _ _ _ CG15434 _ _ _ _ CG15435 _ _ _ _ CG15436 _ _ _ _ CG15439 _ _ _ _ CG1544 _ _ _ _ CG15440 _ _ _ _ CG15443 _ _ _ _ CG15445 _ _ _ _ CG15446 _ _ _ _ CG15447 _ _ _ _ CG15448 _ _ _ _ CG15449 _ _ _ _ CG1545 _ _ _ _ CG15450 _ _ _ _ CG15451 _ _ _ _ CG15452 _ _ _ _ CG15453 _ _ _ _ CG15454 _ _ _ _ CG15455 _ _ _ _ CG15456 _ _ _ _ CG15458 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ _ _ CG15459 _ _ _ _ CG15460 _ _ _ _ CG15461 _ _ _ _ CG15462 _ _ _ _ CG15463 _ _ _ _ CG15464 _ _ _ _ CG15465 _ _ _ _ CG15466 _ _ _ _ CG15467 _ _ _ _ CG15468 _ _ _ _ CG15469 _ _ _ _ CG15470 _ _ _ _ CG15471 _ _ _ _ CG15472 _ _ _ _ CG15473 _ _ _ _ CG15475 _ _ _ _ CG15476 _ _ _ _ CG15477 _ _ _ _ CG15478 _ _ _ _ CG15479 _ _ _ _ CG15480 _ _ _ _ CG15481 _ _ _ _ CG15482 _ _ _ _ CG15483 _ _ _ _ CG15484 _ _ _ _ CG15485 _ _ _ _ CG15486 _ _ _ _ CG15487 _ _ _ _ CG15488 _ _ _ _ CG15489 _ _ _ _ CG15492 _ _ _ _ CG15493 _ _ _ _ CG15494 _ _ _ _ CG15495 _ _ _ _ CG15496 _ _ _ _ CG15497 _ _ _ _ CG15498 _ _ _ _ CG15499 _ _ _ _ CG1550 _ _ _ _ CG15500 _ _ _ _ CG15501 _ _ _ _ CG15503 _ _ _ _ CG15506 _ _ _ _ CG15507 _ _ _ _ CG15510 _ _ _ _ CG15512 _ _ _ _ CG15513 _ _ _ _ CG15514 _ _ _ _ CG15515 _ _ _ _ CG15516 _ _ _ _ CG15517 _ _ _ _ CG15518 _ _ _ _ CG1552 _ _ _ _ CG15522 _ _ _ _ CG15523 _ _ _ _ CG15524 _ _ _ _ CG15525 _ _ _ _ CG15526 _ _ _ _ CG15527 _ _ _ _ CG15528 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG15529 _ _ _ _ CG1553 _ _ _ _ CG15530 _ _ _ _ CG15531 _ _ _ _ CG15533 _ _ _ _ CG15534 _ _ _ _ CG15535 _ _ _ _ CG15536 _ _ _ _ CG15537 _ _ _ _ CG15538 _ _ _ _ CG15539 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ _ _ CG15540 _ _ _ _ CG15541 _ _ _ _ CG15543 _ _ _ _ CG15544 _ _ _ _ CG15545 _ _ _ _ CG15546 _ _ _ _ CG15547 _ _ _ _ CG15548 _ _ _ _ CG15549 _ _ _ _ CG15550 _ _ _ _ CG15551 _ _ _ _ CG15552 _ _ _ _ CG15553 _ _ _ _ CG15554 _ _ _ _ CG15555 _ _ _ _ CG15556 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG15557 _ _ _ _ CG15558 _ _ _ _ CG15560 _ _ _ _ CG15561 _ _ _ _ CG15563 _ _ _ _ CG15564 _ _ _ _ CG15565 _ _ _ _ CG15566 _ _ _ _ CG15567 _ _ _ _ CG15569 _ _ _ _ CG1557 _ _ _ _ CG15570 _ _ _ _ CG15571 _ _ _ _ CG15572 _ _ _ _ CG15574 _ _ _ _ CG15575 _ _ _ _ CG15576 _ _ _ _ CG15577 _ _ _ _ CG15578 _ _ _ _ CG15579 _ _ _ _ CG1558 _ _ _ _ CG15580 _ _ _ _ CG15584 _ _ _ _ CG15585 _ _ _ _ CG15586 _ _ _ _ CG15587 _ _ _ _ CG15588 _ _ _ _ CG15589 _ _ _ _ CG15590 _ _ _ _ CG15591 _ _ _ _ CG15592 _ _ _ _ CG15593 _ _ _ _ CG15594 _ _ _ _ CG15595 _ _ _ _ CG15596 _ _ _ _ CG15597 _ _ _ _ CG15598 _ _ _ _ CG15599 _ _ _ _ CG15600 _ _ _ _ CG15601 _ _ _ _ CG15602 _ _ _ _ CG15603 _ _ _ _ CG15604 _ _ _ _ CG15605 _ _ _ _ CG15606 _ _ _ _ CG15609 _ _ _ _ CG1561 _ _ _ _ CG15610 _ _ _ _ CG15611 _ _ _ _ CG15614 _ _ _ _ CG15615 _ _ _ _ CG15616 _ _ _ _ CG15617 _ _ _ _ CG15618 _ _ _ _ CG15621 _ _ _ _ CG15622 _ _ _ _ CG15623 _ _ _ _ CG15624 _ _ _ _ CG15625 _ _ _ _ CG15626 _ _ _ _ CG15627 _ _ _ _ CG15628 _ _ _ _ CG15629 _ _ _ _ CG15630 _ _ _ _ CG15631 _ _ _ _ CG15633 _ _ _ _ CG15634 _ _ _ _ CG15635 _ _ _ _ CG15636 _ _ _ _ CG15639 _ _ _ _ CG15641 _ _ _ _ CG15642 _ _ _ _ CG15643 _ _ _ _ CG15644 _ _ _ _ CG15645 _ _ _ _ CG15646 _ _ _ _ CG15649 _ _ _ _ CG15650 _ _ _ _ CG15651 _ _ _ _ CG15653 _ _ _ _ CG15654 _ _ _ _ CG15655 _ _ _ _ CG15657 _ _ _ _ CG15658 _ _ _ _ CG15659 _ _ _ _ CG15660 _ _ _ _ CG15661 _ _ _ _ CG15663 _ _ _ _ CG15664 _ _ _ _ CG15666 _ _ _ _ CG15673 _ _ _ _ CG15674 _ _ _ _ CG15675 _ _ _ _ CG15676 _ _ _ _ CG15678 _ _ _ _ CG15682 _ _ _ _ CG15683 _ _ _ _ CG15684 _ _ _ _ CG15685 _ _ _ _ CG15688 _ _ _ _ CG15689 _ _ _ _ CG15690 _ _ _ _ CG15695 _ _ _ _ CG15696 _ _ _ _ CG15697 _ _ _ _ CG15698 _ _ _ _ CG15699 _ _ _ _ CG15701 _ _ _ _ CG15702 _ _ _ _ CG15703 _ _ _ _ CG15704 _ _ _ _ CG15705 _ _ _ _ CG15706 _ _ _ _ CG15707 _ _ _ _ CG15708 _ _ _ _ CG15709 _ _ _ _ CG1571 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG15710 _ _ _ _ CG15711 _ _ _ _ CG15712 _ _ _ _ CG15713 _ _ _ _ CG15714 _ _ _ _ CG15715 _ _ _ _ CG15716 _ _ _ _ CG15717 _ _ _ _ CG15719 _ _ _ _ CG1572 _ _ _ _ CG15720 _ _ _ _ CG15721 _ _ _ _ CG15722 _ _ _ _ CG15723 _ _ _ _ CG15725 _ _ _ _ CG15726 _ _ _ _ CG15727 _ _ _ _ CG15728 _ _ _ _ CG15729 _ _ _ _ CG1573 _ _ _ _ CG15730 _ _ _ _ CG15731 _ _ _ _ CG15732 _ _ _ _ CG15733 _ _ _ _ CG15734 _ _ _ _ CG15735 _ _ _ _ CG15737 _ _ _ _ CG15738 _ _ _ _ CG15739 _ _ _ _ CG15740 _ _ _ _ CG15741 _ _ _ _ CG15742 _ _ _ _ CG15743 _ _ _ _ CG15744 _ _ _ _ CG15745 _ _ _ _ CG15746 _ _ _ _ CG15747 _ _ _ _ CG15748 _ _ _ _ CG1575 _ _ _ _ CG15751 _ _ _ _ CG15752 _ _ _ _ CG15753 _ _ _ _ CG15754 _ _ _ _ CG15755 _ _ _ _ CG15756 _ _ _ _ CG15757 _ _ _ _ CG15758 _ _ _ _ CG15759 _ _ _ _ CG15760 _ _ _ _ CG15761 _ _ _ _ CG15763 _ _ _ _ CG15764 _ _ _ _ CG15765 _ _ _ _ CG15766 _ _ _ _ CG15767 _ _ _ _ CG15768 _ _ _ _ CG15769 _ _ _ _ CG15770 _ _ _ _ CG15771 _ _ _ _ CG15772 _ _ _ _ CG15773 _ _ _ _ CG15774 _ _ _ _ CG15775 _ _ _ _ CG15776 _ _ _ _ CG15777 _ _ _ _ CG15778 _ _ _ _ CG1578 _ _ _ _ CG15780 _ _ _ _ CG15781 _ _ _ _ CG15782 _ _ _ _ CG15783 _ _ _ _ CG15784 _ _ _ _ CG15785 _ _ _ _ CG15786 _ _ _ _ CG15797 _ _ _ _ CG15800 _ _ _ _ CG15803 _ _ _ _ CG15813 _ _ _ _ CG15814 _ _ _ _ CG15816 _ _ _ _ CG15818 _ _ _ _ CG15819 _ _ _ _ CG1582 _ _ _ _ CG15820 _ _ _ _ CG15821 _ _ _ _ CG15822 _ _ _ _ CG15824 _ _ _ _ CG15825 _ _ _ _ CG15828 _ _ _ _ CG15829 acyl-CoA homeostasis; GO:0042049 | inferred from sequence similarity with SWISS-PROT:P45882 _ _ _ CG1583 _ _ _ _ CG15831 _ _ _ _ CG15835 _ _ _ _ CG15841 _ _ _ _ CG15859 _ _ _ _ CG15860 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ CG15861 _ _ _ _ CG15863 _ _ _ _ CG15864 _ _ _ _ CG15865 _ _ _ "The largest intron of r includes a second gene, CG15865 that, is transcribed in the opposite direction. This arrangement is preserved, in the homologous genes in D.simulans." CG15866 _ _ _ _ CG15867 _ _ _ _ CG15868 _ _ _ _ CG15869 _ _ _ _ CG15870 _ _ _ _ CG15873 _ _ _ _ CG15874 _ _ _ _ CG15876 _ _ _ _ CG15877 _ _ _ _ CG15878 _ _ _ _ CG15879 _ _ _ _ CG15880 _ _ _ _ CG15881 _ _ _ _ CG15882 _ _ _ _ CG15884 _ _ _ _ CG15887 _ _ _ _ CG15888 _ _ _ _ CG15889 _ _ _ _ CG15890 _ _ _ _ CG15891 _ _ _ _ CG15893 _ _ _ _ CG15894 _ _ _ _ CG15895 _ _ _ _ CG15896 _ _ _ _ CG15897 _ _ _ _ CG15904 _ _ _ _ CG15905 _ _ _ _ CG15906 _ _ _ _ CG15907 _ _ _ _ CG15908 _ _ _ _ CG15909 _ _ _ _ CG15910 _ _ _ _ CG15911 _ _ _ _ CG15912 _ _ _ _ CG15914 _ _ _ _ CG15916 _ _ _ _ CG15917 _ _ _ _ CG15918 _ _ _ _ CG15919 _ _ _ _ CG15920 _ _ _ _ CG15921 _ _ _ _ CG15922 _ _ _ _ CG15923 _ _ _ _ CG15924 _ _ _ _ CG15925 _ _ _ _ CG15926 _ _ _ _ CG15927 _ _ _ _ CG15928 _ _ _ _ CG15929 _ _ _ _ CG15930 _ _ _ _ CG1597 _ _ _ _ CG1598 _ _ _ _ CG1599 _ _ _ _ Cg16-17 _ _ Collagen-like 16-17 _ CG1600 _ _ _ _ CG1602 _ _ _ _ CG1603 _ _ _ _ CG1607 _ _ _ _ CG1620 _ _ _ _ CG1621 _ _ _ _ CG1622 _ _ _ _ CG1623 _ _ _ _ CG1625 _ _ _ _ CG1627 _ _ _ _ CG1628 _ _ _ _ CG1630 _ _ _ _ CG1631 _ _ _ _ CG1632 _ _ _ _ CG1635 _ _ _ _ CG1636 _ _ _ _ CG1637 _ _ _ _ CG1638 _ _ _ _ CG1640 _ _ _ _ CG1643 autophagy; GO:0006914 | non-traceable author statement _ _ _ CG1646 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:013667; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:BAA92024 _ _ _ CG1647 _ _ _ _ CG1648 _ _ _ _ CG1655 _ _ _ _ CG1657 _ _ _ _ CG1662 _ _ _ _ CG1663 _ _ _ _ CG1665 _ _ _ _ CG1667 _ _ _ _ CG16700 _ _ _ _ CG16701 _ _ _ _ CG16704 _ _ _ _ CG16705 _ _ _ _ CG16708 _ _ _ _ CG1671 _ _ _ _ CG16710 _ _ _ _ CG16711 _ _ _ _ CG16712 _ _ _ _ CG16713 _ _ _ _ CG16716 _ _ _ _ CG16717 _ _ _ _ CG16718 _ _ _ _ CG16719 _ _ _ _ CG16721 _ _ _ _ CG16723 _ _ _ _ CG16726 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG16727 _ _ _ _ CG16728 _ _ _ _ CG1673 _ _ _ _ CG16731 _ _ _ _ CG16732 _ _ _ _ CG16733 _ _ _ _ CG16734 _ _ _ _ CG16735 _ _ _ _ CG16736 _ _ _ _ CG16739 _ _ _ _ CG1674 _ _ _ _ CG16741 _ _ _ _ CG16742 _ _ _ _ CG16743 _ _ _ _ CG16749 _ _ _ _ CG1675 _ _ _ _ CG16751 _ _ _ _ CG16752 _ _ _ _ CG16753 _ _ _ _ CG16756 antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ _ _ CG16758 _ _ _ _ CG16762 _ _ _ _ CG16764 _ _ _ _ CG16766 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG1677 _ _ _ _ CG16771 _ _ _ _ CG16772 _ _ _ _ CG16775 _ _ _ _ CG16776 _ _ _ _ CG16777 _ _ _ _ CG16779 _ _ _ _ CG1678 _ _ _ _ CG16781 _ _ _ _ CG16782 _ _ _ _ CG16783 _ _ _ _ CG16786 _ _ _ _ CG16787 _ _ _ _ CG16788 _ _ _ _ CG16789 _ _ _ _ CG16790 _ _ _ _ CG16791 _ _ _ _ CG16793 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ CG16797 _ _ _ _ CG16798 _ _ _ _ CG16799 antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ _ _ CG16800 _ _ _ _ CG16801 _ _ _ _ CG16804 _ _ _ _ CG16804a _ _ _ _ CG16804b _ _ _ _ CG16807 _ _ _ _ CG1681 _ _ _ _ CG16812 _ _ _ _ CG16813 _ _ _ _ CG16815 _ _ _ _ CG16817 _ _ _ _ CG16820 _ _ _ _ CG16821 _ _ _ _ CG16823 _ _ _ _ CG16824 _ _ _ _ CG16825 _ _ _ _ CG16826 _ _ _ _ CG16828 _ _ _ _ CG16829 _ _ _ _ CG16832 _ _ _ _ CG16836 _ _ _ _ CG16837 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG16838 _ _ _ _ CG16840 _ _ _ _ CG16844 _ _ _ _ CG16848 _ _ _ _ CG16849 _ _ _ _ CG16850 _ _ _ _ CG16851 _ _ _ _ CG16854 _ _ _ _ CG16866 _ _ _ _ CG16868 _ _ _ _ CG16885 _ _ _ _ CG16888 _ _ _ _ CG16892 _ _ _ _ CG16894 _ _ _ _ CG16896 _ _ _ _ CG16898 _ _ _ _ CG16899 _ _ _ _ CG1690 _ _ _ _ CG16901 _ _ _ _ CG16904 _ _ _ _ CG16905 _ _ _ _ CG16906 _ _ _ _ CG16908 _ _ _ _ CG16912 _ _ _ _ CG16918 _ _ _ _ CG16922 _ _ _ _ CG16926 _ _ _ _ CG16935 _ _ _ _ CG16937 _ _ _ _ CG16940 _ _ _ _ CG16941 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:005868; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012332; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_gi:5032087 _ _ _ CG16942 _ _ _ _ CG16947 _ _ _ _ CG1695 _ _ _ _ CG16952 _ _ _ _ CG16953 _ _ _ _ CG16954 response to heat shock; GO:0006951 | inferred from sequence similarity with SWISS-PROT:P50140 _ _ _ CG16956 _ _ _ _ CG16957 _ _ _ _ CG16958 _ _ _ _ CG16959 _ _ _ _ CG1696 _ _ _ _ CG16964 _ _ _ _ CG16965 _ _ _ _ CG16969 _ _ _ _ CG16970 _ _ _ _ CG16971 _ _ _ _ CG16972 _ _ _ _ CG16974 _ _ _ _ CG16975 _ _ _ _ CG16976 _ _ _ _ CG16978 _ _ _ _ CG16979 _ _ _ _ CG1698 _ _ _ _ CG16984 _ _ _ _ CG16985 _ _ _ _ CG16986 _ _ _ _ CG16992 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:mth; FB:FBgn0023000; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG16995 _ _ _ _ CG16996 _ _ _ _ CG16997 _ _ _ _ CG16998 _ _ _ _ CG17002 _ _ _ _ CG17003 _ _ _ _ CG17004 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:5-HT7; FB:FBgn0004573 _ _ _ CG17005 _ _ _ _ CG17006 _ _ _ _ CG17008 _ _ _ _ CG17009 _ _ _ _ CG1701 _ _ _ _ CG17010 _ _ _ _ CG17012 _ _ _ _ CG17014 _ _ _ _ CG17015 _ _ _ _ CG17018 _ _ _ _ CG17019 _ _ _ _ CG1702 _ _ _ _ CG17022 _ _ _ _ CG17023 _ _ _ _ CG17024 _ _ _ _ CG17025 _ _ _ _ CG17026 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG17027 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG17028 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG17029 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG1703 _ _ _ _ CG17030 _ _ _ _ CG17031 _ _ _ _ CG17032 _ _ _ _ CG17033 _ _ _ _ CG17034 _ _ _ _ CG17036 _ _ _ _ CG1704 _ _ _ _ CG17041 _ _ _ _ CG17042 _ _ _ _ CG17043 _ _ _ _ CG17047 _ _ _ _ CG17048 _ _ _ _ CG17049 _ _ _ _ CG17050 _ _ _ _ CG17052 _ _ _ _ CG17059 _ _ _ _ CG17061 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:mth; FB:FBgn0023000; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG17062 _ _ _ _ CG17064 _ _ _ _ CG17065 _ _ _ _ CG17068 _ _ _ _ CG1707 _ _ _ _ CG17075 _ _ _ _ CG17078 _ _ _ _ CG17081 _ _ _ _ CG17082 _ _ _ _ CG17083 _ _ _ _ CG17084 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG17085 _ _ _ _ CG17086 _ _ _ _ CG17087 _ _ _ _ CG17090 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG17093 _ _ _ _ CG17097 _ _ _ _ CG17098 _ _ _ _ CG17099 _ _ _ _ CG17101 _ _ _ _ CG17104 _ _ _ _ CG17105 _ _ _ _ CG17107 _ _ _ _ CG17108 _ _ _ _ CG17109 _ _ _ _ CG17110 _ _ _ _ CG17111 _ _ _ _ CG17118 _ _ _ _ CG17119 cystine transport; GO:0015811 | non-traceable author statement _ _ _ CG17121 _ _ _ _ CG17122 _ _ _ _ CG17124 _ _ _ _ CG17127 _ _ _ _ CG17129 _ _ _ _ CG17130 _ _ _ _ CG17134 _ _ _ _ CG17137 _ _ _ _ CG17138 _ _ _ _ CG17139 _ _ _ _ CG17140 _ _ _ _ CG17141 _ _ _ _ CG17142 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ CG17143 _ _ _ _ CG17144 _ _ _ _ CG17145 _ _ _ _ CG17147 _ _ _ _ CG17149 _ _ _ _ CG17150 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG17152 _ _ _ _ CG17153 _ _ _ _ CG17154 _ _ _ _ CG17159 _ _ _ _ CG1716 _ _ _ _ CG17162 _ _ _ _ CG17163 _ _ _ _ CG17164 _ _ _ _ CG17165 _ _ _ _ CG17167 _ _ _ _ CG17168 _ _ _ _ CG17169 _ _ _ _ CG17172 _ _ _ _ CG17173 _ _ _ _ CG17177 _ _ _ _ CG17179 _ _ _ _ CG1718 _ _ _ _ CG17180 _ _ _ _ CG17181 _ _ _ _ CG17184 _ _ _ _ CG17186 _ _ _ _ CG17187 _ _ _ _ CG17189 _ _ _ _ CG17190 _ _ _ _ CG17191 _ _ _ _ CG17192 _ _ _ _ CG17193 _ _ _ _ CG17195 _ _ _ _ CG17196 _ _ _ _ CG17197 _ _ _ _ CG17198 _ _ _ _ CG17199 _ _ _ _ CG17201 _ _ _ _ CG17202 _ _ _ _ CG17203 _ _ _ _ CG17205 _ _ _ _ CG17207 _ _ _ _ CG17208 _ _ _ _ CG17209 transcription from Pol III promoter; GO:0006383 | inferred from sequence similarity with SWISS-PROT:O14802 _ _ _ CG17210 _ _ _ _ CG17211 _ _ _ _ CG17214 _ _ _ _ CG17215 _ _ _ _ CG17217 _ _ _ _ CG17218 _ _ _ _ CG17219 _ _ _ _ CG1722 _ _ _ _ CG17221 _ _ _ _ CG17223 _ _ _ _ CG17224 _ _ _ _ CG17227 _ _ _ _ CG17229 regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with SWISS-PROT:O08774 _ _ _ CG17233 _ _ _ _ CG17234 _ _ _ _ CG17237 _ _ _ _ CG17238 _ _ _ _ CG17239 _ _ _ _ CG1724 protein transport; GO:0015031 | inferred from sequence similarity with SWISS-PROT:O35092 _ _ _ CG17242 _ _ _ _ CG17244 _ _ _ _ CG17249 _ _ _ _ CG17251 _ _ _ _ CG17255 _ _ _ _ CG17257 _ _ _ _ CG17258 _ _ _ _ CG17259 seryl-tRNA aminoacylation; GO:0006434 | inferred from sequence similarity with MGD:Sars; MGI:MGI:102809 _ _ _ CG1726 _ _ _ _ CG17260 _ _ _ _ CG17261 _ _ _ _ CG17262 _ _ _ _ CG17264 _ _ _ _ CG17265 _ _ _ _ CG17266 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:006338 _ _ _ CG17267 _ _ _ _ CG17270 _ _ _ _ CG17271 _ _ _ _ CG17272 _ _ _ _ CG17274 _ _ _ _ CG17275 _ _ _ _ CG17276 _ _ _ _ CG17277 _ _ _ _ CG17279 _ _ _ _ CG17280 _ _ _ _ CG17282 _ _ _ _ CG17283 _ _ _ _ CG17284 _ _ _ _ CG17287 _ _ _ _ CG17290 _ _ _ _ CG17292 _ _ _ _ CG17293 _ _ _ _ CG17294 _ _ _ _ CG17295 _ _ _ _ CG17298 _ _ _ _ CG1730 _ _ _ _ CG17300 _ _ _ _ CG17301 ubiquitin-dependent protein catabolism; GO:0006511 | inferred from sequence similarity with SWISS-PROT:P40307 _ _ _ CG17304 _ _ _ _ CG17309 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG17319 _ _ _ _ CG1732 _ _ _ _ CG17321 _ _ _ _ CG17323 _ _ _ _ CG17325 _ _ _ _ CG17326 _ _ _ _ CG17327 _ _ _ _ CG1733 _ _ _ _ CG17331 _ _ _ _ CG17333 _ _ _ _ CG17337 _ _ _ _ CG17338 _ _ _ _ CG17343 _ _ _ _ CG17344 _ _ _ _ CG17345 _ _ _ _ CG17347 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG17349 _ _ _ _ CG1735 _ _ _ _ CG17350 _ _ _ _ CG17352 _ _ _ _ CG17355 _ _ _ _ CG17357 _ _ _ _ CG17359 _ _ _ _ CG1736 _ _ _ _ CG17360 _ _ _ _ CG17361 _ _ _ _ CG17362 _ _ _ _ CG17363 _ _ _ _ CG17364 _ _ _ _ CG17365 _ _ _ _ CG17366 _ _ _ _ CG17368 _ _ _ _ CG1737 _ _ _ _ CG17370 _ _ _ _ CG17373 _ _ _ _ CG17374 fatty acid biosynthesis; GO:0006633 | inferred from sequence similarity with MGD:Fasn; MGI:MGI:95485 _ _ _ CG17375 _ _ _ _ CG17376 _ _ _ _ CG17377 _ _ _ _ CG17378 _ _ _ _ CG17379 _ _ _ _ CG1738 _ _ _ _ CG17380 _ _ _ _ CG17381 _ _ _ _ CG17382 _ _ _ _ CG17383 _ _ _ _ CG17385 _ _ _ _ CG17386 _ _ _ _ CG17387 _ _ _ _ CG17388 _ _ _ _ CG17389 _ _ _ _ CG1739 _ _ _ _ CG17390 _ _ _ _ CG17395 _ _ _ _ CG17396 _ _ _ _ CG17398 _ _ _ _ CG17401 _ _ _ _ CG17402 _ _ _ _ CG17404 _ _ _ _ CG17409 _ _ _ _ CG17412 _ _ _ _ CG17413 _ _ _ _ CG17415 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG17416 _ _ _ _ CG17417 _ _ _ _ CG17418 _ _ _ _ CG17419 _ _ _ _ CG17427 _ _ _ _ CG17429 _ _ _ _ CG17438 _ _ _ _ CG17440 _ _ _ _ CG17441 _ _ _ _ CG17443 _ _ _ _ CG17444 _ _ _ _ CG17445 _ _ _ _ CG17446 _ _ _ _ CG1745 _ _ _ _ CG17450 _ _ _ _ CG17454 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AF083385; protein_id:AAC64086.1; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:005862 _ _ _ CG17455 _ _ _ _ CG17459 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG1746 _ _ _ _ CG17462 sister chromatid cohesion; GO:0007062 | inferred from sequence similarity with SGD:TRF5; SGDID:S0005243; sister chromatid cohesion; GO:0007062 | non-traceable author statement _ _ _ CG17465 _ _ _ _ CG17466 _ _ _ _ CG17467 _ _ _ _ CG17468 _ _ _ _ CG17469 _ _ _ _ CG1747 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG17470 _ _ _ _ CG17471 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG17472 _ _ _ _ CG17473 _ _ _ _ CG17474 _ _ _ _ CG17475 _ _ _ _ CG17477 _ _ _ _ CG17478 _ _ _ _ CG17479 _ _ _ _ CG17482 _ _ _ _ CG17486 _ _ _ _ CG1749 Mo-molybdopterin cofactor biosynthesis; GO:0006777 | inferred from sequence similarity with EMBL:AF102544 _ _ _ CG17490 _ _ _ _ CG17492 _ _ _ _ CG17493 _ _ _ _ CG17494 _ _ _ _ CG17495 _ _ _ _ CG17498 mitotic spindle checkpoint; GO:0007094 | inferred from sequence similarity with SGD:MAD2; SGDID:S0003567 _ _ _ CG1750 _ _ _ _ CG17506 _ _ _ _ CG17508 _ _ _ _ CG17509 _ _ _ _ CG1751 signal peptide processing; GO:0006465 | inferred from sequence similarity with SWISS-PROT:Q15005 _ _ _ CG17510 _ _ _ _ CG17514 _ _ _ _ CG17515 _ _ _ _ CG17522 _ _ _ _ CG17523 _ _ _ _ CG17524 _ _ _ _ CG17525 _ _ _ _ CG17527 _ _ _ _ CG17528 microtubule-based process; GO:0007017 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG1753 _ _ _ _ CG17530 _ _ _ _ CG17531 _ _ _ _ CG17540 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_gi:5454082 _ _ _ CG17541 _ _ _ _ CG17544 _ _ _ _ CG17549 _ _ _ _ CG17556 _ _ _ _ CG1756 _ _ _ _ CG17560 _ _ _ _ CG17562 _ _ _ _ CG17564 _ _ _ _ CG17565 _ _ _ _ CG17567 _ _ _ _ CG17568 _ _ _ _ CG17569 _ _ _ _ CG17570 _ _ _ _ CG17571 _ _ _ _ CG17572 _ _ _ _ CG17574 _ _ _ _ CG17575 _ _ _ _ CG17580 _ _ _ _ CG17586 _ _ _ _ CG17587 _ _ _ _ CG17588 _ _ _ _ CG17589 _ _ _ _ CG17593 _ _ _ _ CG17595 _ _ _ _ CG17597 _ _ _ _ CG17598 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG17599 _ _ _ _ CG1760 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG17600 _ _ _ _ CG17601 _ _ _ _ CG17604 _ _ _ _ CG17612 _ _ _ _ CG17613 _ _ _ _ CG17615 _ _ _ _ CG17618 _ _ _ _ CG17621 _ _ _ _ CG17622 _ _ _ _ CG17623 _ _ _ _ CG17624 _ _ _ _ CG17625 _ _ _ _ CG17626 _ _ _ _ CG17631 _ _ _ _ CG17633 _ _ _ _ CG17637 _ _ _ _ CG17639 _ _ _ _ CG1764 _ _ _ _ CG17643 _ _ _ _ CG17646 _ _ _ _ CG17648 _ _ _ _ CG17649 _ _ _ _ CG17650 _ _ _ _ CG17652 _ _ _ _ CG17653 _ _ _ _ CG17656 _ _ _ _ CG17657 _ _ _ _ CG17658 _ _ _ _ CG17660 _ _ _ _ CG17661 _ _ _ _ CG17662 _ _ _ _ CG17664 _ _ _ _ CG17665 _ _ _ _ CG17666 _ _ _ _ CG17667 _ _ _ _ CG17668 _ _ _ _ CG17669 _ _ _ _ CG17672 _ _ _ _ CG17674 _ _ _ _ CG17680 _ _ _ _ CG17681 _ _ _ _ CG17683 _ _ _ _ CG17684 _ _ _ _ CG17687 _ _ _ _ CG17689 _ _ _ _ CG17691 _ _ _ _ CG17698 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG17702 _ _ _ _ CG17706 _ _ _ _ CG17711 _ _ _ _ CG17715 _ _ _ _ CG17717 _ _ _ _ CG17721 _ _ _ _ CG17723 _ _ _ _ CG17724a _ _ _ _ CG17724b _ _ _ _ CG17726 _ _ _ _ CG1773 _ _ _ _ CG17732 _ _ _ _ CG17734 _ _ _ _ CG17735 _ _ _ _ CG17736 _ _ _ _ CG17737 protein biosynthesis; GO:0006412 | non-traceable author statement _ _ _ CG17738 _ _ _ _ CG17739 _ _ _ _ CG1774 _ _ _ _ CG17742 _ _ _ _ CG17744 _ _ _ _ CG17745 _ _ _ _ CG17746 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG17750 _ _ _ _ CG17751 _ _ _ _ CG17752 _ _ _ _ CG17754 _ _ _ _ CG17756 _ _ _ _ CG17757 _ _ _ _ CG17758 _ _ _ _ CG1776 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG17760 _ _ _ _ CG17761 _ _ _ _ CG17763 _ _ _ _ CG17764 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:011037; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:036453 _ _ _ CG17765 _ _ _ _ CG17768 _ _ _ _ CG17770 _ _ _ _ CG17776 _ _ _ _ CG17777 _ _ _ _ CG17779 _ _ _ _ CG17780 _ _ _ _ CG17781 _ _ _ _ CG17782 _ _ _ _ CG17784 _ _ _ _ CG17786 _ _ _ _ CG17787 _ _ _ _ CG17788 _ _ _ _ CG17789 _ _ _ _ CG17793 _ _ _ _ CG17795 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:mth; FB:FBgn0023000; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG17796 _ _ _ _ CG17801 _ _ _ _ CG17802 _ _ _ _ CG17803 _ _ _ _ CG17806 _ _ _ _ CG17807 _ _ _ _ CG17812 _ _ _ _ CG17816 _ _ _ _ CG17819 protein amino acid ADP-ribosylation; GO:0006471 | inferred from sequence similarity with SWISS-PROT:P37996 _ _ _ CG17820 _ _ _ _ CG17821 _ _ _ _ CG17824 _ _ _ _ CG17826 _ _ _ _ CG1783 _ _ _ _ CG17834 _ _ _ _ CG17836 _ _ _ _ CG17837 _ _ _ _ CG17838 _ _ _ _ CG17839 _ _ _ _ CG17840 _ _ _ _ CG17843 _ _ _ _ CG1785 _ _ _ _ CG17855 _ _ _ _ CG17856 _ _ _ _ CG17860 _ _ _ _ CG17865 _ _ _ _ CG17878 _ _ _ _ CG17879 _ _ _ _ CG17883 _ _ _ _ CG1789 _ _ _ _ CG17904 _ _ _ _ CG17905 _ _ _ _ CG17906 _ _ _ _ CG1791 _ _ _ _ CG17912 _ _ _ _ CG17917 _ _ _ _ CG17919 _ _ _ _ CG1792 _ _ _ _ CG17920 _ _ _ _ CG17922 _ _ _ _ CG17923 _ _ _ _ CG17925 _ _ _ _ CG17928 _ _ _ _ CG17929 _ _ _ _ CG17930 _ _ _ _ CG17931 _ _ _ _ CG17944 _ _ _ _ CG17952 _ _ _ _ CG17959 _ _ _ _ CG1796 _ _ _ _ CG17974 _ _ _ _ CG17977 _ _ _ _ CG17982 _ _ _ _ CG17985 _ _ _ _ CG17991 _ _ _ _ CG17994 _ _ _ _ CG17996 _ _ _ _ CG17999 _ _ _ _ CG1800 _ _ _ _ CG18001 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506645 _ _ _ CG18003 _ _ _ _ CG18004 _ _ _ _ CG18005 _ _ _ _ CG1801 _ _ _ _ CG18011 _ _ _ _ CG18012 protein amino acid glycosylation; GO:0006486 | inferred from sequence similarity with SGD:ALG1; SGDID:S0000314 _ _ _ CG18013 _ _ _ _ CG18030 _ _ _ _ CG1804 _ _ _ _ CG18041 _ _ _ _ CG18048 _ _ _ _ CG1806 _ _ _ _ CG18065 _ _ _ _ CG18066 _ _ _ _ CG18067 _ _ _ _ CG18078 _ _ _ _ CG18079 _ _ _ _ CG18081 _ _ _ _ CG18082 _ _ _ _ CG18088 _ _ _ _ CG18089 _ _ _ _ CG1809 _ _ _ _ CG18094 _ _ _ _ CG18107 _ _ _ _ CG18110 _ _ _ _ CG18112 _ _ _ _ CG1812 _ _ _ _ CG18128 _ _ _ _ CG18130 _ _ _ _ CG18131 _ _ _ _ CG18132 _ _ _ _ CG18133 _ _ _ _ CG18134 _ _ _ _ CG18135 _ _ _ _ CG18136 _ _ _ _ CG18137 _ _ _ _ CG18138 _ _ _ _ CG18139 _ _ _ _ CG1814 _ _ _ _ CG18141 _ _ _ _ CG18142 _ _ _ _ CG18143 _ _ _ _ CG18145 _ _ _ _ CG1815 _ _ _ _ CG18151 _ _ _ _ CG18153 _ _ _ _ CG18155 _ _ _ _ CG18156 _ _ _ _ CG18157 _ _ _ _ CG18158 _ _ _ _ CG18160 _ _ _ _ CG18162 _ _ _ _ CG18166 _ _ _ _ CG18170 _ _ _ _ CG18171 _ _ _ _ CG18172 _ _ _ _ CG18173 _ _ _ _ CG18176 _ _ _ _ CG18177 _ _ _ _ CG18178 _ _ _ _ CG18179 _ _ _ _ CG18180 _ _ _ _ CG18182 _ _ _ _ CG18184 _ _ _ _ CG18185 _ _ _ _ CG18186 _ _ _ _ CG18189 _ _ _ _ CG1819 _ _ _ _ CG18190 _ _ _ _ CG18193 _ _ _ _ CG18208 _ _ _ _ CG18210 _ _ _ _ CG18212 _ _ _ _ CG18213 _ _ _ _ CG18217 _ _ _ _ CG18219 _ _ _ _ CG18223 _ _ _ _ CG18228 _ _ _ _ CG1823 _ _ _ _ CG18231 _ _ _ _ CG18233 _ _ _ _ CG18234 _ _ _ _ CG1824 _ _ _ _ CG18240 _ _ _ _ CG18242 _ _ _ _ CG18249 _ _ _ _ CG18253 _ _ _ _ CG18257 _ _ _ _ CG18258 _ _ _ _ CG18259 _ _ _ _ CG1826 _ _ _ _ CG18262 _ _ _ _ CG18265 _ _ _ _ CG18266 _ _ _ _ CG18268 _ _ _ _ CG18269 _ _ _ _ CG1827 _ _ _ _ CG18271 _ _ _ _ CG18273 _ _ _ _ CG18275 _ _ _ _ CG18278 _ _ _ _ CG18279 _ _ _ _ CG18280 _ _ _ _ CG18281 _ _ _ _ CG18282 _ _ _ _ CG18284 _ _ _ _ CG18287 _ _ _ _ CG18289 _ _ _ _ CG18291 _ _ _ _ CG18292 _ _ _ _ CG18293 _ _ _ _ CG18294 _ _ _ _ CG18301 _ _ _ _ CG18302 _ _ _ _ CG18304 _ _ _ _ CG18313 _ _ _ _ CG18314 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG18316 _ _ _ _ CG18317 _ _ _ _ CG18318 _ _ _ _ CG1832 _ _ _ _ CG18324 _ _ _ _ CG18326 _ _ _ _ CG18327 _ _ _ _ CG18331 _ _ _ _ CG18334 _ _ _ _ CG18335 _ _ _ _ CG18336 _ _ _ _ CG18341 _ _ _ _ CG18342 _ _ _ _ CG18343 _ _ _ _ CG18344 _ _ _ _ CG18347 _ _ _ _ CG18348 _ _ _ _ CG18349 _ _ _ _ CG1835 _ _ _ _ CG18356 _ _ _ _ CG18358 _ _ _ _ CG18363 _ _ _ _ CG18365 _ _ _ _ CG18367 _ _ _ _ CG18368 _ _ _ _ CG18369 _ _ _ _ CG1837 _ _ _ _ CG18371 _ _ _ _ CG18375 _ _ _ _ CG18378 _ _ _ _ CG18379 _ _ _ _ CG18380 _ _ _ _ CG18381 _ _ _ _ CG1839 _ _ _ _ CG18397 _ _ _ _ CG18398 _ _ _ _ CG1840 _ _ _ _ CG18404 _ _ _ _ CG1841 _ _ _ _ CG18410 _ _ _ _ CG18413 _ _ _ _ CG18415 _ _ _ _ CG18416 _ _ _ _ CG18417 _ _ _ _ CG18418 _ _ _ _ CG18419 _ _ _ _ CG18427 _ _ _ _ CG18428 _ _ _ _ CG18432 _ _ _ _ CG18435 _ _ _ _ CG18437 _ _ _ _ CG1844 _ _ _ _ CG18441 _ _ _ _ CG18442 _ _ _ _ CG18445 _ _ _ _ CG18446 _ _ _ _ CG18449 _ _ _ _ CG1845 _ _ _ _ CG1846 _ _ _ _ CG18467 _ _ _ _ CG18468 _ _ _ _ CG18469 _ _ _ _ CG1847 _ _ _ _ CG18472 _ _ _ _ CG18473 _ _ _ _ CG18476 _ _ _ _ CG18490 _ _ _ _ CG18493 _ _ _ _ CG18496 _ _ _ _ CG18499 _ _ _ _ CG1850 _ _ _ _ CG18501 _ _ _ _ CG18505 _ _ _ _ CG18506 _ _ _ _ CG18510 _ _ _ _ CG18516 _ _ _ _ CG18519 _ _ _ _ CG1852 _ _ _ _ CG18522 _ _ _ _ CG18528 _ _ _ _ CG18530 _ _ _ _ CG18536 _ _ _ _ CG18537 _ _ _ _ CG18538 _ _ _ _ CG18539 _ _ _ _ CG18540 _ _ _ _ CG18542 _ _ _ _ CG18543 _ _ _ _ CG18545 _ _ _ _ CG18547 _ _ _ _ CG18549 _ _ _ _ CG1855 _ _ _ _ CG18551 _ _ _ _ CG18553 _ _ _ _ CG18554 _ _ _ _ CG18555 _ _ _ _ CG18557 _ _ _ _ CG18558 _ _ _ _ CG18561 _ _ _ _ CG18563 _ _ _ _ CG18565 _ _ _ _ CG18568 _ _ _ _ CG18577 _ _ _ _ CG18581 _ _ _ _ CG18584 _ _ _ _ CG18585 _ _ _ _ CG18586 _ _ _ _ CG18589 _ _ _ _ CG1859 _ _ _ _ CG18590 _ _ _ _ CG18591 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003085; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:014802 _ _ _ CG18592 _ _ _ _ CG18594 _ _ _ _ CG18596 _ _ _ _ CG18598 _ _ _ _ CG18599 _ _ _ _ CG18600 _ _ _ _ CG18604 _ _ _ _ CG18605 _ _ _ _ CG18606 _ _ _ _ CG18607 _ _ _ _ CG18609 _ _ _ _ CG1861 _ _ _ _ CG18619 _ _ _ _ CG18620 _ _ _ _ CG18622 _ _ _ _ CG18623 _ _ _ _ CG18624 _ _ _ _ CG18625 _ _ _ _ CG18628 _ _ _ _ CG1863 _ _ _ _ CG18630 _ _ _ _ CG18631 _ _ _ _ CG18632 _ _ _ _ CG18633 _ _ _ _ CG18635 _ _ _ _ CG18636 _ _ _ _ CG18638 _ _ _ _ CG18641 _ _ _ _ CG18643 _ _ _ _ CG18646 _ _ _ _ CG18648 _ _ _ _ CG18649 _ _ _ _ CG18655 _ _ _ _ CG18656 _ _ _ _ CG1866 _ _ _ _ CG18661 _ _ _ _ CG18662 _ _ _ _ CG18663 _ _ _ _ CG18666 _ _ _ _ CG18669 _ _ _ _ CG18672 _ _ _ _ CG18673 _ _ _ _ CG18675 _ _ _ _ CG18676 _ _ _ _ CG18678 _ _ _ _ CG18679 _ _ _ _ CG1868 _ _ _ _ CG18682 _ _ _ _ CG18683 _ _ _ _ CG1869 _ _ _ _ CG18731 _ _ _ _ CG18732 _ _ _ _ CG18735 _ _ _ _ CG1874 _ _ _ _ CG18744 _ _ _ _ CG18745 _ _ _ _ CG18746 _ _ _ _ CG18747 _ _ _ _ CG18748 _ _ _ _ CG18749 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ _ _ CG18754 _ _ _ _ CG18761 _ _ _ _ CG18762 _ _ _ _ CG18763 _ _ _ _ CG18764 _ _ _ _ CG18765 _ _ _ _ CG18766 _ _ _ _ CG18767 _ _ _ _ CG18769 _ _ _ _ CG18771 _ _ _ _ CG18774 _ _ _ _ CG18777 _ _ _ _ CG18778 _ _ _ _ CG18779 _ _ _ _ CG18784 _ _ _ _ CG18787 _ _ _ _ CG18788 _ _ _ _ CG18799 _ _ _ _ CG18806 _ _ _ _ CG18807 _ _ _ _ CG18808 _ _ _ _ CG18809 _ _ _ _ CG18810 _ _ _ _ CG18811 _ _ _ _ CG18812 _ _ _ _ CG18813 _ _ _ _ CG18814 _ _ _ _ CG18815 _ _ _ _ CG18818 _ _ _ _ CG18819 _ _ _ _ CG1882 _ _ _ _ CG18820 _ _ _ _ CG18821 _ _ _ _ CG18822 _ _ _ _ CG18823 _ _ _ _ CG18824 _ _ _ _ CG18825 _ _ _ _ CG18826 _ _ _ _ CG18827 _ _ _ _ CG18828 _ _ _ _ CG18829 _ _ _ _ CG1883 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506741 _ _ _ CG18831 _ _ _ _ CG18832 _ _ _ _ CG18833 _ _ _ _ CG18834 _ _ _ _ CG18835 _ _ _ _ CG18836 _ _ _ _ CG18837 _ _ _ _ CG1884 _ _ _ _ CG18842 _ _ _ _ CG18843 _ _ _ _ CG18844 _ _ _ _ CG18845 _ _ _ _ CG18846 _ _ _ _ CG18847 _ _ _ _ CG18848 _ _ _ _ CG18849 _ _ _ _ CG1885 _ _ _ _ CG18850 _ _ _ _ CG18852 _ _ _ _ CG18853 _ _ _ _ CG18854 _ _ _ _ CG18856 _ _ _ _ CG1886 _ _ _ _ CG18860 _ _ _ _ CG18861 _ _ _ _ CG18869 _ _ _ _ CG1887 defense response; GO:0006952 | non-traceable author statement _ _ _ CG18870 _ _ _ _ CG1888 _ _ _ _ CG1889 _ _ _ _ CG1890 _ _ _ _ CG1893 _ _ _ _ CG1894 _ _ _ _ CG1896 _ _ _ _ Cg19-20 _ _ _ _ CG1900 _ _ _ _ CG1902 _ _ _ _ CG1905 _ _ _ _ CG1906 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG1907 _ _ _ _ CG1908 _ _ _ _ CG1909 _ _ _ _ CG1910 _ _ _ _ CG1911 mitosis; GO:0007067 | inferred from sequence similarity with EMBL:AF067969; mitotic chromosome condensation; GO:0007076 | inferred from sequence similarity with MGD:Rapsn; MGI:MGI:99422; mitotic chromosome segregation; GO:0000070 | inferred from sequence similarity with EMBL:AF067969 _ _ _ CG1919 _ _ _ _ CG1924 _ _ _ _ CG1937 _ _ _ _ CG1939 _ _ _ _ CG1941 _ _ _ _ CG1942 _ _ _ _ CG1943 _ _ _ _ CG1946 _ _ _ _ CG1950 _ _ _ _ CG1951 _ _ _ _ CG1958 _ _ _ _ CG1961 _ _ _ _ CG1962 _ _ _ _ CG1964 _ _ _ _ CG1965 _ _ _ _ CG1967 post Golgi transport; GO:0006892 | inferred from sequence similarity with EMBL:AJ132270; protein_id:CAB40416.1 _ _ _ CG1968 _ _ _ _ CG1969 _ _ _ _ CG1970 _ _ _ _ CG1971 _ _ _ _ CG1972 mRNA cleavage; GO:0006379 | inferred from sequence similarity with EMBL:AF017269; mRNA cleavage; GO:0006379 | inferred from sequence similarity with protein_id:AAF00224; mRNA polyadenylation; GO:0006378 | inferred from sequence similarity with protein_id:AAF00224 _ _ _ CG1973 _ _ _ _ CG1983 _ _ _ _ CG1984 _ _ _ _ CG1986 _ _ _ _ CG1988 _ _ _ _ CG1994 _ _ _ _ CG1998 _ _ _ _ CG1999 _ _ _ _ CG2003 _ _ _ _ CG2004 _ _ _ _ CG2006 _ _ _ _ CG2008 _ _ _ _ CG2010 _ _ _ _ CG2014 _ _ _ _ CG2016 _ _ _ _ CG2017 _ _ _ _ CG2021 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AL031179; protein_id:CAA20133; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012556; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAD56232 _ _ _ CG2022 _ _ _ _ CG2023 _ _ _ _ CG2025 _ _ _ _ CG2031 _ _ _ _ CG2034 _ _ _ _ CG2042 _ _ _ _ CG2046 _ _ _ _ CG2049 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG2051 _ _ _ _ CG2052 _ _ _ _ CG2053 _ _ _ _ CG2056 _ _ _ _ CG2059 _ _ _ _ CG2063 _ _ _ _ CG2064 _ _ _ _ CG2065 _ _ _ _ CG2069 _ _ _ _ CG2070 _ _ _ _ CG2076 _ _ _ _ CG2077 _ _ _ _ CG2079 _ _ _ _ CG2081 _ _ _ _ CG2083 _ _ _ _ CG2091 _ _ _ _ CG2093 protein-vacuolar targeting; GO:0006623 | inferred from sequence similarity with SGD:VPS13; SGDID:S0003963 _ _ _ CG2095 _ _ _ _ CG2097 mRNA cleavage; GO:0006379 | inferred from sequence similarity with NCBI_NP:004810 _ _ _ CG2099 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P04646 _ _ _ CG2100 _ _ _ _ CG2103 _ _ _ _ CG2104 _ _ _ _ CG2105 _ _ _ _ CG2107 _ _ _ _ CG2108 _ _ _ _ CG2111 _ _ _ _ CG2112 _ _ _ _ CG2113 _ _ _ _ CG2116 _ _ _ _ CG2118 _ _ _ _ CG2120 _ _ _ _ CG2121 _ _ _ _ CG2124 _ _ _ _ CG2126 _ _ _ _ CG2127 _ _ _ _ CG2129 _ _ _ _ CG2131 _ _ _ _ CG2135 _ _ _ _ CG2136 _ _ _ _ CG2137 _ _ _ _ CG2143 _ _ _ _ CG2144 _ _ _ _ CG2145 _ _ _ _ CG2147 _ _ _ _ CG2150 _ _ _ _ CG2156 _ _ _ _ CG2157 _ _ _ _ CG2158 _ _ _ _ CG2159 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG2162 _ _ _ _ CG2164 _ _ _ _ CG2176 _ _ _ _ CG2177 _ _ _ _ CG2179 _ _ _ _ CG2182 _ _ _ _ CG2183 mismatch repair; GO:0006298 | inferred from sequence similarity with EMBL:U80054 _ _ _ CG2185 _ _ _ _ CG2186 _ _ _ _ CG2187 _ _ _ _ CG2190 _ _ _ _ CG2191 _ _ _ _ CG2196 _ _ _ _ CG2199 _ _ _ _ CG2200 proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ _ _ CG2201 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG2202 _ _ _ _ CG2206 _ _ _ _ CG2209 _ _ _ _ CG2211 _ _ _ _ CG2213 _ _ _ _ CG2218 _ _ _ _ CG2219 _ _ _ _ CG2221 _ _ _ _ CG2222 _ _ _ _ CG2224 _ _ _ _ CG2225 _ _ _ _ CG2229 _ _ _ _ CG2233 _ _ _ _ CG2241 proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with MGD:Psmc5; MGI:MGI:105047 _ _ _ CG2245 _ _ _ _ CG2246 _ _ _ _ CG2247 _ _ _ _ CG2249 _ _ _ _ CG2253 _ _ _ _ CG2254 _ _ _ _ CG2256 _ _ _ _ CG2258 _ _ _ _ CG2260 _ _ _ _ CG2263 _ _ _ _ CG2264 _ _ _ _ CG2267 _ _ _ _ CG2269 _ _ _ _ CG2277 _ _ _ _ CG2278 _ _ _ _ CG2291 _ _ _ _ CG2292 _ _ _ _ CG2304 _ _ _ _ CG2309 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG2310 _ _ _ _ CG2316 _ _ _ _ CG2321 _ _ _ _ CG2330 _ _ _ _ CG2336 _ _ _ _ CG2337 _ _ _ _ CG2371 _ _ _ _ CG2380 _ _ _ _ CG2396 _ _ _ _ CG2444 _ _ _ _ CG2446 _ _ _ _ CG2448 protein amino acid glycosylation; GO:0006486 | inferred from sequence similarity _ _ _ CG2453 _ _ _ _ CG2467 _ _ _ _ CG2469 _ _ _ _ CG2471 _ _ _ _ CG2478 _ _ _ _ CG2493 _ _ _ _ CG2503 _ _ _ _ CG2508 _ _ _ _ CG2509 _ _ _ _ CG2519 _ _ _ _ CG2528 _ _ _ _ CG2532 _ _ _ _ CG2533 _ _ _ _ CG2540 _ _ _ _ CG2543 _ _ _ _ CG2551 _ _ _ _ CG2555 _ _ _ _ CG2556 _ _ _ _ CG2560 _ _ _ _ CG2574 _ _ _ _ CG2577 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG2590 cell-matrix adhesion; GO:0007160 | inferred from sequence similarity with EMBL:AF059485 _ _ _ Cg25C _ _ Collagen type IV _ CG2604 _ _ _ _ CG2608 _ _ _ _ CG2611 _ _ _ _ CG2614 _ _ _ _ CG2616 _ _ _ _ CG2617 _ _ _ _ CG2640 _ _ _ _ CG2641 _ _ _ _ CG2649 _ _ _ _ CG2650 _ _ _ _ CG2656 _ _ _ _ CG2657 _ _ _ _ CG2663 _ _ _ _ CG2667 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG2669 _ _ _ _ CG2676 _ _ _ _ CG2678 _ _ _ Transcription unit upstream of that of Prat. CG2691 _ _ _ _ CG2698 _ _ _ _ CG2702 _ _ _ _ CG2736 defense response; GO:0006952 | non-traceable author statement _ _ _ CG2747 _ _ _ _ CG2750 _ _ _ _ CG2761 _ _ _ _ CG2765 _ _ _ _ CG2767 _ _ _ _ CG2772 _ _ _ _ CG2774 intracellular protein transport; GO:0006886 | inferred from sequence similarity with NCBI_gi:4507141 _ _ _ CG2776 _ _ _ _ CG2779 _ _ _ _ CG2781 _ _ _ _ CG2789 _ _ _ _ CG2791 _ _ _ _ CG2794 _ _ _ _ CG2803 _ _ _ _ CG2807 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AF054284; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:014015; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:036565 _ _ _ CG2808 _ _ _ _ CG2811 _ _ _ _ CG2812 _ _ _ _ CG2813 _ _ _ _ CG2816 _ _ _ _ CG2818 _ _ _ _ CG2837 _ _ _ _ CG2839 _ _ _ _ CG2843 _ _ _ _ CG2846 _ _ _ Transcription unit directly upstream of that of Prat. CG2848 mRNA-nucleus export; GO:0006406 | inferred from sequence similarity with SGD:MTR10; SGDID:S0005686 _ _ _ CG2852 _ _ _ _ CG2857 _ _ _ _ CG2861 _ _ _ _ CG2862 _ _ _ _ CG2871 _ _ _ _ CG2875 _ _ _ _ CG2881 _ _ _ _ CG2883 _ _ _ _ CG2885 _ _ _ _ CG2887 _ _ _ _ CG2889 _ _ _ _ CG2892 _ _ _ _ CG2893 _ _ _ _ CG2898 _ _ _ _ CG2901 _ _ _ _ CG2905 _ _ _ _ CG2906 _ _ _ _ CG2907 _ _ _ _ CG2908 _ _ _ _ CG2909 _ _ _ _ CG2911 _ _ _ _ CG2915 _ _ _ _ CG2919 _ _ _ _ CG2921 _ _ _ _ CG2926 _ _ _ _ CG2931 _ _ _ _ CG2938 _ _ _ _ CG2941 _ _ _ _ CG2943 _ _ _ _ CG2944 _ _ _ _ CG2947 _ _ _ _ CG2948 _ _ _ _ CG2950 _ _ _ _ CG2955 _ _ _ _ CG2961 _ _ _ _ CG2962 _ _ _ _ CG2964 _ _ _ _ CG2968 _ _ _ _ CG2970 _ _ _ _ CG2971 _ _ _ _ CG2972 _ _ _ _ CG2973 _ _ _ _ CG2974 _ _ _ _ CG2975 _ _ _ _ CG2976 _ _ _ _ CG2980 _ _ _ _ CG2982 _ _ _ _ CG2983 _ _ _ _ CG2989 _ _ _ _ CG2990 _ _ _ _ CG2991 _ _ _ _ CG2993 _ _ _ _ CG2994 _ _ _ _ CG2996 _ _ _ _ CG2998 _ _ _ _ CG30000 _ _ _ _ CG30001 _ _ _ _ CG30002 _ _ _ _ CG30004 _ _ _ _ CG30005 _ _ _ _ CG30006 _ _ _ _ CG30007 _ _ _ _ CG30008 _ _ _ _ CG30010 _ _ _ _ CG30011 _ _ _ _ CG30012 _ _ _ _ CG30013 _ _ _ _ CG30014 _ _ _ _ CG30015 _ _ _ _ CG30016 _ _ _ _ CG30017 _ _ _ _ CG30018 _ _ _ _ CG30019 _ _ _ _ CG3002 _ _ _ _ CG30020 _ _ _ _ CG30022 _ _ _ _ CG30023 _ _ _ _ CG30025 _ _ _ _ CG30026 _ _ _ _ CG30027 _ _ _ _ CG30028 _ _ _ _ CG30029 _ _ _ _ CG3003 _ _ _ _ CG30030 _ _ _ _ CG30031 _ _ _ _ CG30032 _ _ _ _ CG30033 _ _ _ _ CG30034 _ _ _ _ CG30035 _ _ _ _ CG30036 _ _ _ _ CG30037 _ _ _ _ CG30038 _ _ _ _ CG30039 _ _ _ _ CG3004 _ _ _ _ CG30041 _ _ _ _ CG30042 _ _ _ _ CG30043 _ _ _ _ CG30044 _ _ _ _ CG30045 _ _ _ _ CG30046 _ _ _ _ CG30047 _ _ _ _ CG30048 _ _ _ _ CG30049 _ _ _ _ CG30050 _ _ _ _ CG30051 _ _ _ _ CG30052 _ _ _ _ CG30053 _ _ _ _ CG30054 _ _ _ _ CG30055 _ _ _ _ CG30056 _ _ _ _ CG30057 _ _ _ _ CG30058 _ _ _ _ CG30059 _ _ _ _ CG30060 _ _ _ _ CG30061 _ _ _ _ CG30062 _ _ _ _ CG30063 _ _ _ _ CG30064 _ _ _ _ CG30065 _ _ _ _ CG30067 _ _ _ _ CG30069 _ _ _ _ CG30070 _ _ _ _ CG30071 _ _ _ _ CG30072 _ _ _ _ CG30073 _ _ _ _ CG30074 _ _ _ _ CG30075 _ _ _ _ CG30076 _ _ _ _ CG30077 _ _ _ _ CG30078 _ _ _ _ CG30079 _ _ _ _ CG3008 _ _ _ _ CG30080 _ _ _ _ CG30081 _ _ _ _ CG30082 _ _ _ _ CG30083 _ _ _ _ CG30084 _ _ _ _ CG30085 _ _ _ _ CG30086 _ _ _ _ CG30087 _ _ _ _ CG30088 _ _ _ _ CG30089 _ _ _ _ CG3009 _ _ _ _ CG30090 _ _ _ _ CG30091 _ _ _ _ CG30092 _ _ _ _ CG30093 _ _ _ _ CG30094 _ _ _ _ CG30095 _ _ _ _ CG30096 _ _ _ _ CG30097 _ _ _ _ CG30098 _ _ _ _ CG30099 _ _ _ _ CG30100 _ _ _ _ CG30101 _ _ _ _ CG30102 _ _ _ _ CG30103 _ _ _ _ CG30104 _ _ _ _ CG30105 _ _ _ _ CG30106 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG30108 _ _ _ _ CG30109 _ _ _ _ CG3011 _ _ _ _ CG30110 _ _ _ _ CG30111 _ _ _ _ CG30112 _ _ _ _ CG30113 _ _ _ _ CG30114 _ _ _ _ CG30115 _ _ _ _ CG30118 _ _ _ _ CG30119 _ _ _ _ CG30120 _ _ _ _ CG30121 _ _ _ _ CG30122 _ _ _ _ CG30123 _ _ _ _ CG30124 _ _ _ _ CG30125 _ _ _ _ CG30126 _ _ _ _ CG30127 _ _ _ _ CG30130 _ _ _ _ CG30131 _ _ _ _ CG30132 _ _ _ _ CG30135 _ _ _ _ CG3014 _ _ _ _ CG30141 _ _ _ _ CG30142 _ _ _ _ CG30143 _ _ _ _ CG30144 _ _ _ _ CG30147 _ _ _ _ CG30148 _ _ _ _ CG30149 _ _ _ _ CG30150 _ _ _ _ CG30151 _ _ _ _ CG30152 _ _ _ _ CG30153 _ _ _ _ CG30154 _ _ _ _ CG30156 _ _ _ _ CG30157 _ _ _ _ CG30158 _ _ _ _ CG30159 _ _ _ _ CG3016 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG30160 _ _ _ _ CG30161 _ _ _ _ CG30162 _ _ _ _ CG30163 _ _ _ _ CG30164 _ _ _ _ CG30165 _ _ _ _ CG30166 _ _ _ _ CG30169 _ _ _ _ CG30171 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG30172 _ _ _ _ CG30173 _ _ _ _ CG30174 _ _ _ _ CG30175 _ _ _ _ CG30177 _ _ _ _ CG30178 _ _ _ _ CG30179 _ _ _ _ CG30180 _ _ _ _ CG30181 _ _ _ _ CG30182 _ _ _ _ CG30183 _ _ _ _ CG30184 _ _ _ _ CG30185 _ _ _ _ CG30186 _ _ _ _ CG30187 _ _ _ _ CG30188 _ _ _ _ CG30190 _ _ _ _ CG30192 _ _ _ _ CG30193 _ _ _ _ CG30194 _ _ _ _ CG30195 _ _ _ _ CG30196 _ _ _ _ CG30197 _ _ _ _ CG3020 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with MGD:Syt2; MGI:MGI:99666; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with MGD:Syt2; MGI:MGI:99666 _ _ _ CG30203 _ _ _ _ CG30217 _ _ _ _ CG30219 _ _ _ _ CG30222 _ _ _ _ CG30259 _ _ _ _ CG30263 _ _ _ _ CG30264 _ _ _ _ CG30265 _ _ _ _ CG30266 _ _ _ _ CG30267 _ _ _ _ CG30268 _ _ _ _ CG30269 _ _ _ _ CG30271 _ _ _ _ CG30272 _ _ _ _ CG30273 _ _ _ _ CG30274 _ _ _ _ CG30275 _ _ _ _ CG30277 _ _ _ _ CG30278 _ _ _ _ CG30279 _ _ _ _ CG30280 _ _ _ _ CG30281 _ _ _ _ CG30282 _ _ _ _ CG30283 _ _ _ _ CG30284 _ _ _ _ CG30285 _ _ _ _ CG30286 _ _ _ _ CG30287 _ _ _ _ CG30288 _ _ _ _ CG30289 _ _ _ _ CG30290 _ _ _ _ CG30291 _ _ _ _ CG30293 _ _ _ _ CG30295 _ _ _ _ CG30296 _ _ _ _ CG3032 _ _ _ _ CG30320 _ _ _ _ CG30321 _ _ _ _ CG30322 _ _ _ _ CG30323 _ _ _ _ CG30324 _ _ _ _ CG30325 _ _ _ _ CG30327 _ _ _ _ CG30329 _ _ _ _ CG3033 attachment of GPI anchor to protein; GO:0016255 | inferred from sequence similarity with SGD:END2; SGDID:S0004078 _ _ _ CG30332 _ _ _ _ CG30334 _ _ _ _ CG30335 _ _ _ _ CG30336 _ _ _ _ CG30337 _ _ _ _ CG30338 _ _ _ _ CG30339 _ _ _ _ CG30340 _ _ _ _ CG30342 _ _ _ _ CG30343 _ _ _ _ CG30344 _ _ _ _ CG30345 _ _ _ _ CG30346 _ _ _ _ CG30349 _ _ _ _ CG30350 _ _ _ _ CG30351 _ _ _ _ CG30352 _ _ _ _ CG30353 _ _ _ _ CG30354 _ _ _ _ CG30355 _ _ _ _ CG30356 _ _ _ _ CG30357 _ _ _ _ CG30358 _ _ _ _ CG30359 _ _ _ _ CG3036 phosphate transport; GO:0006817 | inferred from sequence similarity with SWISS-PROT:O00624 _ _ _ CG30360 _ _ _ _ CG30361 metabotropic glutamate receptor signaling pathway; GO:0007216 | inferred from sequence similarity with FLYBASE:Glu-RA; FB:FBgn0019985 _ _ _ CG30362 _ _ _ _ CG30363 _ _ _ _ CG30364 _ _ _ _ CG30365 _ _ _ _ CG30366 _ _ _ _ CG30367 _ _ _ _ CG30368 _ _ _ _ CG30369 _ _ _ _ CG3037 _ _ _ _ CG30371 _ _ _ _ CG30372 _ _ _ _ CG30373 _ _ _ _ CG30374 _ _ _ _ CG30375 _ _ _ _ CG30376 _ _ _ _ CG30377 _ _ _ _ CG30378 _ _ _ _ CG30379 _ _ _ _ CG30380 _ _ _ _ CG30381 _ _ _ _ CG30382 _ _ _ _ CG30383 _ _ _ _ CG30384 _ _ _ _ CG30385 _ _ _ _ CG30386 _ _ _ _ CG30387 _ _ _ _ CG30389 _ _ _ _ CG30390 _ _ _ _ CG30391 _ _ _ _ CG30392 _ _ _ _ CG30393 _ _ _ _ CG30394 _ _ _ _ CG30395 _ _ _ _ CG30396 _ _ _ _ CG30398 _ _ _ _ CG3040 _ _ _ _ CG30400 _ _ _ _ CG30401 _ _ _ _ CG30402 _ _ _ _ CG30403 _ _ _ _ CG30404 _ _ _ _ CG30405 _ _ _ _ CG30408 _ _ _ _ CG30409 _ _ _ _ CG30410 _ _ _ _ CG30411 _ _ _ _ CG30412 _ _ _ _ CG30413 _ _ _ _ CG30414 _ _ _ _ CG30415 _ _ _ _ CG30416 _ _ _ _ CG30417 _ _ _ _ CG30418 _ _ _ _ CG30419 _ _ _ _ CG3042 _ _ _ _ CG30420 _ _ _ _ CG30421 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG30422 _ _ _ _ CG30423 _ _ _ _ CG30424 _ _ _ _ CG30426 _ _ _ _ CG30427 _ _ _ _ CG30428 _ _ _ _ CG30429 _ _ _ _ CG30430 _ _ _ _ CG30431 _ _ _ _ CG30432 _ _ _ _ CG30435 _ _ _ _ CG30436 _ _ _ _ CG30437 _ _ _ _ CG30438 _ _ _ _ CG30439 _ _ _ _ CG3044 _ _ _ _ CG30440 _ _ _ _ CG30441 _ _ _ _ CG30442 _ _ _ _ CG30443 _ _ _ _ CG30444 _ _ _ _ CG30445 _ _ _ _ CG30446 _ _ _ _ CG30447 _ _ _ _ CG30448 _ _ _ _ CG3045 _ _ _ _ CG30450 _ _ _ _ CG30456 _ _ _ _ CG30457 _ _ _ _ CG30458 _ _ _ _ CG30459 _ _ _ _ CG30460 _ _ _ _ CG30461 _ _ _ _ CG30462 _ _ _ _ CG30463 _ _ _ _ CG30464 _ _ _ _ CG30465 _ _ _ _ CG30466 _ _ _ _ CG30467 _ _ _ _ CG30468 _ _ _ _ CG30469 _ _ _ _ CG30470 _ _ _ _ CG30471 _ _ _ _ CG30472 _ _ _ _ CG30473 _ _ _ _ CG30474 _ _ _ _ CG30475 _ _ _ _ CG30476 _ _ _ _ CG30477 _ _ _ _ CG30479 _ _ _ _ CG30480 _ _ _ _ CG30481 _ _ _ _ CG30482 _ _ _ _ CG30483 _ _ _ _ CG30484 _ _ _ _ CG30485 _ _ _ _ CG30486 _ _ _ _ CG30487 _ _ _ _ CG30488 _ _ _ _ CG30489 _ _ _ _ CG30490 _ _ _ _ CG30491 _ _ _ _ CG30492 _ _ _ _ CG30493 _ _ _ _ CG30495 _ _ _ _ CG30496 _ _ _ _ CG30497 _ _ _ _ CG30499 _ _ _ _ CG30500 _ _ _ _ CG30501 _ _ _ _ CG30502 _ _ _ _ CG30503 _ _ _ _ CG3058 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:006692; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:015407 _ _ _ CG3060 _ _ _ _ CG3061 _ _ _ _ CG3065 _ _ _ _ CG3066 defense response; GO:0006952 | non-traceable author statement _ _ _ CG3073 _ _ _ _ CG3074 _ _ _ _ CG3075 _ _ _ _ CG3077 _ _ _ _ CG3080 _ _ _ _ CG3085 _ _ _ _ CG3088 _ _ _ _ CG3091 _ _ _ _ CG3092 _ _ _ _ CG3097 _ _ _ _ CG3098 _ _ _ _ CG3099 _ _ _ _ CG3101 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG3104 _ _ _ _ CG3105 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG31051 _ _ _ _ CG31058 _ _ _ _ CG3106 _ _ _ _ CG31062 _ _ _ _ CG3107 _ _ _ _ CG3108 _ _ _ _ CG31155 _ _ _ _ CG3116 _ _ _ _ CG3117 _ _ _ _ CG3119 _ _ _ _ CG3121 microtubule-based process; GO:0007017 | inferred from sequence similarity _ _ _ CG3123 _ _ _ _ CG3124 _ _ _ _ CG3125 _ _ _ _ CG3130 _ _ _ _ CG3131 _ _ _ _ CG31317 _ _ _ _ CG3132 _ _ _ _ CG3135 _ _ _ _ CG31352 _ _ _ _ CG3136 _ _ _ _ CG3138 _ _ _ _ CG3141 _ _ _ _ CG31469 _ _ _ _ CG31481 _ _ _ _ CG31495 _ _ _ _ CG3153 _ _ _ _ CG3160 _ _ _ _ CG31608 _ _ _ _ CG3162 mRNA splicing; GO:0006371 | inferred from sequence similarity with PIR:S22646 _ _ _ CG31628 _ _ _ _ CG3163 _ _ _ _ CG3165 _ _ _ _ CG3167 _ _ _ _ CG3168 _ _ _ _ CG31683 _ _ _ _ CG31705 _ _ _ _ CG31706 _ _ _ _ CG31709 _ _ _ _ CG31725 _ _ _ _ CG3173 _ _ _ _ CG31740 _ _ _ _ CG3176 _ _ _ _ CG31776 _ _ _ _ CG31777 _ _ _ _ CG31778 _ _ _ _ CG3179 _ _ _ _ CG31806 _ _ _ _ CG3184 _ _ _ _ CG31867 _ _ _ _ CG3187 _ _ _ _ CG31908 _ _ _ _ CG31916 _ _ _ _ CG3192 _ _ _ _ CG3194 _ _ _ _ CG31953 _ _ _ _ CG31956 _ _ _ _ CG3198 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:010196; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:BAA90542 _ _ _ CG3199 _ _ _ _ CG3203 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P24049 _ _ _ CG3209 _ _ _ _ CG32096 _ _ _ _ CG3210 _ _ _ _ CG3212 defense response; GO:0006952 | non-traceable author statement _ _ _ CG3213 _ _ _ _ CG32134 _ _ _ _ CG3214 _ _ _ _ CG3215 _ _ _ _ CG3216 _ _ _ _ CG32174 _ _ _ _ CG3221 _ _ _ _ CG3222 _ _ _ _ CG3223 _ _ _ _ CG3224 _ _ _ _ CG3225 mRNA splicing; GO:0006371 | inferred from sequence similarity with SGD:PRP2; SGDID:S0000815 _ _ _ CG32256 _ _ _ _ CG32257 _ _ _ _ CG3226 _ _ _ _ CG3227 _ _ _ _ CG3229 _ _ _ _ CG3238 _ _ _ _ CG3239 _ _ _ _ CG3244 _ _ _ _ CG32444 _ _ _ _ CG32445 _ _ _ _ CG3246 _ _ _ _ CG3248 _ _ _ _ CG3249 _ _ _ _ CG32490 _ _ _ _ CG3251 _ _ _ _ CG3252 _ _ _ _ CG3254 _ _ _ _ CG3257 _ _ _ _ CG32577 _ _ _ _ CG32578 _ _ _ _ CG3259 _ _ _ _ CG3260 _ _ _ _ CG3262 _ _ _ _ CG3264 _ _ _ _ CG3267 _ _ _ _ CG3270 _ _ _ _ CG3271 _ _ _ _ CG3273 _ _ _ _ CG3277 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG3278 _ _ _ _ CG3279 _ _ _ _ CG3280 _ _ _ _ CG3281 _ _ _ _ CG3285 _ _ _ _ CG32853 _ _ _ _ CG3288 _ _ _ _ CG3290 _ _ _ _ CG3292 _ _ _ _ CG3294 mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:BAA08533 _ _ _ CG3295 _ _ _ _ CG3301 _ _ _ _ CG3303 _ _ _ _ CG3304 _ _ _ _ CG3305 _ _ _ _ CG3306 _ _ _ _ CG3307 _ _ _ _ CG3308 _ _ _ _ CG3309 _ _ _ _ CG3313 _ _ _ _ CG3315 _ _ _ _ CG3321 _ _ _ _ CG3323 _ _ _ _ CG3326 _ _ _ _ CG3328 _ _ _ _ CG3330 _ _ _ _ CG3332 _ _ _ _ CG3335 _ _ _ _ CG3337 _ _ _ _ CG3338 _ _ _ _ CG3339 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG3342 _ _ _ _ CG3344 _ _ _ _ CG3345 _ _ _ _ CG3347 _ _ _ _ CG3348 _ _ _ _ CG3349 _ _ _ _ CG3353 _ _ _ _ CG3355 _ _ _ _ CG3356 _ _ _ _ CG3358 _ _ _ _ CG3361 _ _ _ _ CG3362 _ _ _ _ CG3363 _ _ _ _ CG3367 _ _ _ _ CG3368 _ _ _ _ CG3371 _ _ _ _ CG3376 _ _ _ _ CG3380 _ _ _ _ CG3382 _ _ _ _ CG3386 _ _ _ _ CG3392 _ _ _ _ CG3394 _ _ _ _ CG3397 potassium transport; GO:0006813 | inferred from sequence similarity with EMBL:U65591 _ _ _ CG3402 _ _ _ _ CG3403 _ _ _ _ CG3407 _ _ _ _ CG3408 _ _ _ _ CG3409 _ _ _ _ CG3415 _ _ _ _ CG3419 _ _ _ _ CG3420 _ _ _ _ CG3424 _ _ _ _ CG3426 _ _ _ _ CG3427 _ _ _ _ CG3428 _ _ _ _ CG3430 _ _ _ _ CG3434 _ _ _ _ CG3436 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AF090988; protein_id:AAC69625.1; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004805 _ _ _ CG3437 _ _ _ _ CG3441 _ _ _ _ CG3445 _ _ _ _ CG3446 _ _ _ _ CG3448 _ _ _ _ CG3450 _ _ _ _ CG3476 _ _ _ _ CG3483 _ _ _ _ CG3485 _ _ _ _ CG3488 _ _ _ Defined during the molecular analysis of Mad. CG3492 _ _ _ _ CG3493 _ _ _ _ CG3494 _ _ _ _ CG3499 _ _ _ _ CG3500 _ _ _ _ CG3501 _ _ _ _ CG3502 _ _ _ _ CG3505 _ _ _ _ CG3508 _ _ _ _ CG3509 _ _ _ _ CG3511 _ _ _ _ CG3513 _ _ _ _ CG3515 _ _ _ _ CG3517 _ _ _ _ CG3520 _ _ _ _ CG3522 _ _ _ _ CG3527 rRNA processing; GO:0006364 | non-traceable author statement; ribosomal small subunit biogenesis; GO:0042274 | non-traceable author statement _ _ _ CG3528 _ _ _ _ CG3529 _ _ _ _ CG3532 _ _ _ _ CG3534 _ _ _ _ CG3536 _ _ _ _ CG3541 _ _ _ _ CG3542 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012913; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAD39463 _ _ _ CG3544 _ _ _ _ CG3546 _ _ _ _ CG3548 _ _ _ _ CG3552 _ _ _ _ CG3556 _ _ _ _ CG3557 _ _ _ _ CG3560 _ _ _ _ CG3561 _ _ _ _ CG3563 _ _ _ _ CG3564 _ _ _ _ CG3565 _ _ _ _ CG3566 _ _ _ _ CG3568 _ _ _ _ CG3570 _ _ _ _ CG3571 _ _ _ _ CG3575 _ _ _ _ CG3579 _ _ _ _ CG3581 _ _ _ _ CG3585 _ _ _ _ CG3589 _ _ _ _ CG3590 _ _ _ _ CG3591 _ _ _ _ CG3592 _ _ _ _ CG3597 _ _ _ _ CG3599 _ _ _ _ CG3602 _ _ _ _ CG3603 _ _ _ _ CG3604 _ _ _ _ CG3605 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:006833; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:013967; mRNA splicing; GO:0006371 | inferred from sequence similarity with SWISS-PROT:Q13435 _ _ _ CG3608 _ _ _ _ CG3609 _ _ _ _ CG3610 _ _ _ _ CG3611 _ _ _ _ CG3615 _ _ _ _ CG3618 _ _ _ _ CG3622 _ _ _ _ CG3624 _ _ _ _ CG3625 _ _ _ _ CG3626 _ _ _ _ CG3628 _ _ _ _ CG3631 _ _ _ _ CG3632 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG3634 _ _ _ _ CG3635 _ _ _ _ CG3639 peroxisome organization and biogenesis; GO:0007031 | non-traceable author statement; protein-peroxisome targeting; GO:0006625 | non-traceable author statement _ _ _ CG3640 _ _ _ _ CG3641 _ _ _ _ CG3645 _ _ _ _ CG3649 _ _ _ _ CG3650 _ _ _ _ CG3651 _ _ _ _ CG3652 _ _ _ _ CG3654 _ _ _ _ CG3660 _ _ _ _ CG3662 _ _ _ _ CG3663 _ _ _ _ CG3669 _ _ _ _ CG3672 _ _ _ _ CG3675 _ _ _ _ CG3678 _ _ _ _ CG3680 _ _ _ _ CG3683 _ _ _ _ CG3684 _ _ _ _ CG3687 _ _ _ _ CG3689 mRNA cleavage; GO:0006379 | inferred from sequence similarity with EMBL:AJ001810; protein_id:CAA05026.1; mRNA cleavage; GO:0006379 | inferred from sequence similarity with NCBI_NP:008937 _ _ _ CG3692 _ _ _ _ CG3698 _ _ _ _ CG3700 _ _ _ _ CG3701 _ _ _ _ CG3702 _ _ _ _ CG3709 _ _ _ _ CG3714 _ _ _ _ CG3726 _ _ _ _ CG3729 _ _ _ _ CG3731 _ _ _ _ CG3732 _ _ _ _ CG3734 _ _ _ _ CG3735 _ _ _ _ CG3739 _ _ _ _ CG3744 _ _ _ _ CG3746 _ _ _ _ CG3748 _ _ _ _ CG3751 protein biosynthesis; GO:0006412 | inferred from sequence similarity with PIR:S40161 _ _ _ CG3752 _ _ _ _ CG3753 _ _ _ _ CG3754 _ _ _ _ CG3756 transcription from Pol I promoter; GO:0006360 | non-traceable author statement; transcription from Pol III promoter; GO:0006383 | non-traceable author statement _ _ _ CG3759 _ _ _ _ CG3760 _ _ _ _ CG3761 _ _ _ _ CG3764 _ _ _ _ CG3765 _ _ _ _ CG3768 _ _ _ _ CG3769 _ _ _ _ CG3770 _ _ _ _ CG3773 _ _ _ _ CG3774 _ _ _ _ CG3775 _ _ _ _ CG3776 _ _ _ _ CG3781 _ _ _ _ CG3788 _ _ _ _ CG3790 _ _ _ _ CG3792 _ _ _ _ CG3794 _ _ _ _ CG3797 _ _ _ _ CG3800 _ _ _ _ CG3803 cytochrome c oxidase biogenesis; GO:0008535 | inferred from sequence similarity with SGD:COX15; SGDID:S0000943 _ _ _ CG3805 _ _ _ _ CG3808 _ _ _ _ CG3809 _ _ _ _ CG3811 _ _ _ _ CG3812 _ _ _ _ CG3815 _ _ _ _ CG3817 _ _ _ _ CG3818 _ _ _ _ CG3819 _ _ _ _ CG3822 _ _ _ _ CG3823 _ _ _ _ CG3825 _ _ _ _ CG3829 defense response; GO:0006952 | non-traceable author statement _ _ _ CG3831 _ _ _ _ CG3837 _ _ _ _ CG3838 _ _ _ _ CG3841 _ _ _ _ CG3842 _ _ _ _ CG3843 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P52859 _ _ _ CG3847 _ _ _ _ CG3849 _ _ _ _ CG3850 _ _ _ _ CG3860 _ _ _ _ CG3861 _ _ _ _ CG3862 _ _ _ _ CG3868 _ _ _ _ CG3875 ubiquinone biosynthesis; GO:0006744 | inferred from sequence similarity with SGD:COQ4; SGDID:S0002612 _ _ _ CG3876 _ _ _ _ CG3877 ubiquinone biosynthesis; GO:0006744 | inferred from sequence similarity with SGD:COQ4; SGDID:S0002612 _ _ _ CG3878 _ _ _ _ CG3880 _ _ _ _ CG3881 _ _ _ _ CG3882 _ _ _ _ CG3883 _ _ _ _ CG3884 _ _ _ _ CG3885 _ _ _ _ CG3887 _ _ _ _ CG3891 _ _ _ _ CG3893 _ _ _ _ CG3894 _ _ _ _ CG3896 _ _ _ _ CG3898 _ _ _ _ CG3902 _ _ _ _ CG3906 _ _ _ _ CG3907 _ _ _ _ CG3910 _ _ _ _ CG3911 _ _ _ _ CG3916 _ _ _ _ CG3918 _ _ _ _ CG3919 _ _ _ _ CG3921 _ _ _ _ CG3925 _ _ _ _ CG3927 _ _ _ _ CG3928 _ _ _ _ CG3931 _ _ _ _ CG3934 _ _ _ _ CG3940 _ _ _ _ CG3941 _ _ _ _ CG3942 _ _ _ _ CG3947 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with NCBI_gi:4758898 _ _ _ CG3950 _ _ _ _ CG3955 _ _ _ _ CG3957 _ _ _ _ CG3960 _ _ _ _ CG3961 _ _ _ _ CG3962 _ _ _ _ CG3964 _ _ _ _ CG3967 _ _ _ _ CG3973 _ _ _ _ CG3977 _ _ _ _ CG3980 _ _ _ _ CG3982 _ _ _ _ CG3983 _ _ _ _ CG3984 _ _ _ _ CG3987 _ _ _ _ CG3995 _ _ _ _ CG3996 _ _ _ _ CG3999 _ _ _ _ CG4000 _ _ _ _ CG4004 _ _ _ _ CG4005 _ _ _ _ CG4009 _ _ _ _ CG4016 _ _ _ _ CG4017 _ _ _ _ CG4019 _ _ _ _ CG4020 _ _ _ _ CG4021 _ _ _ _ CG4022 _ _ _ _ CG4023 _ _ _ _ CG4026 _ _ _ _ CG4030 _ _ _ _ CG4036 _ _ _ _ CG4038 _ _ _ _ CG4040 _ _ _ _ CG4041 _ _ _ _ CG4042 _ _ _ _ CG4043 _ _ _ _ CG4046 protein biosynthesis; GO:0006412 | inferred from sequence similarity with MGD:Rps16; MGI:MGI:98118 _ _ _ CG4049 DNA repair; GO:0006281 | inferred from sequence similarity with SGD:RAD54; SGDID:S0003131 _ _ _ CG4050 _ _ _ _ CG4052 _ _ _ _ CG4053 _ _ _ _ CG4054 _ _ _ _ CG4058 _ _ _ _ CG4060 _ _ _ _ CG4064 _ _ _ _ CG4065 _ _ _ _ CG4066 _ _ _ _ CG4068 _ _ _ _ CG4069 _ _ _ _ CG4071 _ _ _ _ CG4073 _ _ _ _ CG4074 _ _ _ _ CG4078 nucleotide-excision repair; GO:0006289 | inferred from sequence similarity with SWISS-PROT:O08811 _ _ _ CG4080 _ _ _ _ CG4089 _ _ _ _ CG4090 _ _ _ _ CG4091 _ _ _ _ CG4094 _ _ _ _ CG4096 _ _ _ _ CG4098 _ _ _ _ CG4101 _ _ _ _ CG4110 _ _ _ _ CG4111 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P42766 _ _ _ CG4115 _ _ _ _ CG4116 _ _ _ _ CG4124 _ _ _ _ CG4133 _ _ _ _ CG4136 _ _ _ _ CG4137 _ _ _ _ CG4151 _ _ _ _ CG4154 _ _ _ _ CG4159 _ _ _ _ CG4164 _ _ _ _ CG4165 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG4169 _ _ _ _ CG4174 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ _ _ CG4186 _ _ _ _ CG4187 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG4196 _ _ _ _ CG4198 _ _ _ _ CG4203 _ _ _ _ CG4210 _ _ _ _ CG4213 _ _ _ _ CG4221 _ _ _ _ CG4224 _ _ _ _ CG4225 _ _ _ _ CG4226 _ _ _ _ CG4229 _ _ _ _ CG4230 _ _ _ _ CG4232 _ _ _ _ CG4233 _ _ _ _ CG4238 _ _ _ _ CG4239 _ _ _ _ CG4241 _ _ _ _ CG4250 _ _ _ _ CG4259 _ _ _ _ CG4263 _ _ _ _ CG4266 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AF023142 _ _ _ CG4267 _ _ _ _ CG4269 _ _ _ _ CG4270 _ _ _ _ CG4271 _ _ _ _ CG4278 _ _ _ _ CG4279 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:01241; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:CAB45865 _ _ _ CG4282 _ _ _ _ CG4285 _ _ _ _ CG4286 _ _ _ _ CG4287 _ _ _ _ CG4288 _ _ _ _ CG4289 protein-peroxisome targeting; GO:0006625 | non-traceable author statement _ _ _ CG4291 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012913; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAC34810 _ _ _ CG4294 _ _ _ _ CG4297 _ _ _ _ Cg42DE _ _ Collagen-like 42DE _ CG4300 _ _ _ _ CG4301 _ _ _ _ CG4306 _ _ _ _ CG4318 _ _ _ _ CG4320 _ _ _ _ CG4323 _ _ _ _ CG4324 _ _ _ _ CG4328 _ _ _ _ CG4329 _ _ _ _ CG4330 _ _ _ _ CG4331 _ _ _ _ CG4332 _ _ _ _ CG4334 _ _ _ _ CG4335 _ _ _ _ CG4338 _ _ _ _ CG4342 _ _ _ _ CG4346 _ _ _ _ CG4347 _ _ _ _ CG4349 iron homeostasis; GO:0006879 | inferred from sequence similarity with NCBI_gi:4503795 _ _ _ CG4350 _ _ _ _ CG4351 _ _ _ _ CG4357 _ _ _ _ CG4360 _ _ _ _ CG4362 _ _ _ _ CG4363 _ _ _ _ CG4364 _ _ _ _ CG4365 _ _ _ _ CG4367 _ _ _ _ CG4372 _ _ _ _ CG4374 _ _ _ _ CG4375 _ _ _ _ CG4377 _ _ _ _ CG4382 _ _ _ _ CG4383 axon guidance; GO:0007411 | inferred from sequence similarity with EMBL:AF134904; protein_id:AAD30114.1 _ _ _ CG4386 _ _ _ _ CG4390 _ _ _ _ CG4392 _ _ _ _ CG4393 _ _ _ _ CG4395 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG4398 _ _ _ _ CG4400 _ _ _ _ CG4404 _ _ _ _ CG4407 _ _ _ _ CG4408 _ _ _ _ CG4409 _ _ _ _ CG4410 complex III (ubiquinone to cytochrome c); GO:0006122 | inferred from sequence similarity with SGD:ABC1; SGDID:S0003087 _ _ _ CG4413 _ _ _ _ CG4415 nascent polypeptide association; GO:0006444 | inferred from sequence similarity with SGD:EDG2; SGDID:S0001236 _ _ _ CG4420 _ _ _ _ CG4424 _ _ _ _ CG4428 _ _ _ _ CG4433 _ _ _ _ CG4434 _ _ _ _ CG4437 _ _ _ _ CG4438 _ _ _ _ CG4439 _ _ _ _ CG4440 _ _ _ _ CG4446 _ _ _ _ CG4447 _ _ _ _ CG4448 _ _ _ _ CG4449 _ _ _ _ CG4450 _ _ _ _ CG4452 _ _ _ _ CG4453 _ _ _ _ CG4454 _ _ _ _ CG4459 _ _ _ _ CG4461 response to heat shock; GO:0006951 | inferred from sequence similarity with EMBL:U96099 _ _ _ CG4462 _ _ _ _ CG4465 _ _ _ _ CG4467 _ _ _ _ CG4468 _ _ _ _ CG4476 _ _ _ _ CG4477 _ _ _ _ CG4480 _ _ _ _ CG4483 _ _ _ _ CG4484 _ _ _ _ CG4495 _ _ _ _ CG4496 _ _ _ _ CG4497 _ _ _ _ CG4502 _ _ _ _ CG4509 calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity _ _ _ CG4511 _ _ _ _ CG4520 _ _ _ _ CG4521 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG4523 _ _ _ _ CG4524 _ _ _ _ CG4525 _ _ _ _ CG4526 _ _ _ _ CG4527 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG4532 _ _ _ _ CG4536 calcium ion transport; GO:0006816 | inferred from sequence similarity; olfaction; GO:0007608 | inferred from sequence similarity _ _ _ CG4537 _ _ _ _ CG4538 _ _ _ _ CG4541 _ _ _ _ CG4542 N-linked glycosylation; GO:0006487 | non-traceable author statement _ _ _ CG4546 _ _ _ _ CG4547 _ _ _ _ CG4549 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG4552 _ _ _ _ CG4553 _ _ _ _ CG4554 _ _ _ _ CG4557 _ _ _ _ CG4558 _ _ _ _ CG4560 _ _ _ _ CG4561 _ _ _ _ CG4562 _ _ _ _ CG4563 _ _ _ _ CG4564 _ _ _ _ CG4565 _ _ _ _ CG4566 _ _ _ _ CG4567 translational elongation; GO:0006414 | inferred from sequence similarity with SWISS-PROT:Q07803 _ _ _ CG4570 _ _ _ _ CG4571 _ _ _ _ CG4572 _ _ _ _ CG4573 _ _ _ _ CG4575 _ _ _ _ CG4576 _ _ _ _ CG4577 _ _ _ _ CG4580 _ _ _ _ CG4582 _ _ _ _ CG4585 _ _ _ _ CG4586 _ _ _ _ CG4588 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG4589 _ _ _ _ CG4592 _ _ _ _ CG4593 _ _ _ _ CG4594 _ _ _ _ CG4596 _ _ _ _ CG4597 _ _ _ _ CG4598 _ _ _ _ CG4603 _ _ _ _ CG4607 _ _ _ _ CG4610 _ _ _ _ CG4611 _ _ _ _ CG4612 _ _ _ _ CG4613 _ _ _ _ CG4615 _ _ _ _ CG4616 _ _ _ _ CG4617 _ _ _ _ CG4618 _ _ _ _ CG4619 _ _ _ _ CG4621 _ _ _ _ CG4622 _ _ _ _ CG4623 _ _ _ _ CG4624 _ _ _ _ CG4627 _ _ _ _ CG4629 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG4630 _ _ _ _ CG4631 _ _ _ _ CG4639 _ _ _ _ CG4641 _ _ _ _ CG4643 _ _ _ _ CG4644 _ _ _ _ CG4645 _ _ _ _ CG4646 _ _ _ _ CG4648 _ _ _ _ CG4650 _ _ _ _ CG4653 _ _ _ _ CG4655 calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity _ _ _ CG4656 _ _ _ _ CG4658 _ _ _ _ CG4660 _ _ _ _ CG4661 _ _ _ _ CG4662 _ _ _ _ CG4663 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with NCBI_gi:4505723 _ _ _ CG4664 _ _ _ _ CG4666 _ _ _ _ CG4668 _ _ _ _ CG4669 _ _ _ _ CG4670 _ _ _ _ CG4673 _ _ _ _ CG4674 _ _ _ _ CG4676 _ _ _ _ CG4678 _ _ _ _ CG4679 _ _ _ _ CG4680 _ _ _ _ CG4682 _ _ _ _ CG4683 _ _ _ _ CG4684 _ _ _ _ CG4685 _ _ _ _ CG4686 _ _ _ _ CG4688 _ _ _ _ CG4692 _ _ _ _ CG4693 _ _ _ _ CG4695 _ _ _ _ CG4699 _ _ _ _ CG4702 _ _ _ _ CG4704 _ _ _ _ CG4705 _ _ _ _ CG4706 _ _ _ _ CG4707 _ _ _ _ CG4709 _ _ _ _ CG4710 _ _ _ _ CG4712 _ _ _ _ CG4713 _ _ _ _ CG4714 _ _ _ _ CG4715 _ _ _ _ CG4716 _ _ _ _ CG4721 _ _ _ _ CG4723 _ _ _ _ CG4724 _ _ _ _ CG4725 _ _ _ _ CG4726 _ _ _ _ CG4727 _ _ _ _ CG4729 _ _ _ _ CG4730 _ _ _ _ CG4733 _ _ _ _ CG4734 _ _ _ _ CG4735 _ _ _ _ CG4738 _ _ _ _ CG4741 _ _ _ _ CG4743 _ _ _ _ CG4744 _ _ _ _ CG4749 _ _ _ _ CG4750 _ _ _ _ CG4751 _ _ _ _ CG4752 _ _ _ _ CG4753 _ _ _ _ CG4756 _ _ _ _ CG4759 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL27A; SGDID:S0001052 _ _ _ CG4763 _ _ _ _ CG4764 _ _ _ _ CG4768 _ _ _ _ CG4769 oxidative phosphorylation; GO:0006119 | inferred from sequence similarity with NCBI_gi:4503185 _ _ _ CG4770 _ _ _ _ CG4771 _ _ _ _ CG4774 _ _ _ _ CG4780 intra-Golgi transport; GO:0006891 | inferred from sequence similarity _ _ _ CG4781 _ _ _ _ CG4782 _ _ _ _ CG4783 _ _ _ _ CG4784 _ _ _ _ CG4785 _ _ _ _ CG4786 _ _ _ _ CG4787 _ _ _ _ CG4788 _ _ _ _ CG4789 _ _ _ _ CG4791 _ _ _ _ CG4794 _ _ _ _ CG4797 _ _ _ _ CG4798 _ _ _ _ CG4800 _ _ _ _ CG4802 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG4804 _ _ _ _ CG4805 _ _ _ _ CG4806 _ _ _ _ CG4810 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ CG4813 _ _ _ _ CG4814 _ _ _ _ CG4815 _ _ _ _ CG4818 _ _ _ _ CG4820 _ _ _ _ CG4822 _ _ _ _ CG4823 _ _ _ _ CG4825 _ _ _ _ CG4826 _ _ _ _ CG4827 _ _ _ _ CG4829 _ _ _ _ CG4830 _ _ _ _ CG4834 _ _ _ _ CG4835 _ _ _ _ CG4836 _ _ _ _ CG4839 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG4840 _ _ _ _ CG4841 _ _ _ _ CG4842 _ _ _ _ CG4844 _ _ _ _ CG4844a _ _ _ _ CG4844b _ _ _ _ CG4845 _ _ _ _ CG4847 _ _ _ _ CG4848 _ _ _ _ CG4849 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004238; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012748 _ _ _ CG4851 _ _ _ _ CG4853 DNA recombination; GO:0006310 | inferred from sequence similarity with SWISS-PROT:Q61216; DNA repair; GO:0006281 | inferred from sequence similarity with SWISS-PROT:Q61216 _ _ _ CG4854 _ _ _ _ CG4857 _ _ _ _ CG4858 _ _ _ _ CG4860 _ _ _ _ CG4861 _ _ _ _ CG4866 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:Z99531; protein_id:CAB16715 _ _ _ CG4869 _ _ _ _ CG4870 _ _ _ _ CG4872 _ _ _ _ CG4874 _ _ _ _ CG4875 _ _ _ _ CG4877 _ _ _ _ CG4880 _ _ _ _ CG4882 _ _ _ _ CG4884 _ _ _ _ CG4887 _ _ _ _ CG4893 _ _ _ _ CG4896 _ _ _ _ CG4901 "lariat formation, 5'-splice site cleavage; GO:0006372 | inferred from sequence similarity with SGD:PRP22; SGDID:S0000815" _ _ _ CG4907 _ _ _ _ CG4908 cytochrome bc(1) complex biogenesis; GO:0017062 | inferred from sequence similarity with SGD:BCS1; SGDID:S0002783 _ _ _ CG4911 _ _ _ _ CG4914 _ _ _ _ CG4917 _ _ _ _ CG4925 _ _ _ _ CG4927 _ _ _ _ CG4933 _ _ _ _ CG4936 _ _ _ _ CG4940 _ _ _ _ CG4942 cytochrome c oxidase biogenesis; GO:0008535 | inferred from sequence similarity with SGD:COX18; SGDID:S0003294 _ _ _ CG4945 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG4946 _ _ _ _ CG4947 queuosine biosynthesis; GO:0008616 | inferred from sequence similarity _ _ _ CG4949 _ _ _ _ CG4950 _ _ _ _ CG4951 _ _ _ _ CG4953 _ _ _ _ CG4955 _ _ _ _ CG4956 _ _ _ _ CG4957 _ _ _ _ CG4960 _ _ _ _ CG4962 _ _ _ _ CG4963 _ _ _ _ CG4964 _ _ _ _ CG4966 _ _ _ _ CG4968 _ _ _ _ CG4970 _ _ _ _ CG4972 _ _ _ _ CG4973 _ _ _ _ CG4975 _ _ _ _ CG4979 _ _ _ _ CG4980 mRNA splicing; GO:0006371 | inferred from electronic annotation _ _ _ CG4982 _ _ _ _ CG4983 _ _ _ _ CG4984 _ _ _ _ CG4985 _ _ _ _ CG4988 _ _ _ _ CG4989 _ _ _ _ CG4991 _ _ _ _ CG4995 _ _ _ _ CG4996 _ _ _ _ CG4998 _ _ _ _ CG5001 _ _ _ _ CG5002 _ _ _ _ CG5003 _ _ _ _ CG5004 _ _ _ _ CG5010 _ _ _ _ CG5011 _ _ _ _ CG5013 _ _ _ _ CG5017 nucleosome assembly; GO:0006334 | inferred from sequence similarity with SGD:NAP1; SGDID:S0001756 _ _ _ CG5018 _ _ _ _ CG5021 _ _ _ _ CG5022 _ _ _ _ CG5023 _ _ _ _ CG5024 _ _ _ _ CG5026 _ _ _ _ CG5027 _ _ _ _ CG5028 _ _ _ _ CG5030 _ _ _ _ CG5035 _ _ _ _ CG5037 _ _ _ _ CG5038 _ _ _ _ CG5039 _ _ _ _ CG5043 _ _ _ _ CG5044 _ _ _ _ CG5045 _ _ _ _ CG5047 _ _ _ _ CG5048 _ _ _ _ CG5050 _ _ _ _ CG5051 _ _ _ _ CG5053 _ _ _ _ CG5056 _ _ _ _ CG5059 _ _ _ _ CG5060 _ _ _ _ CG5062 _ _ _ _ CG5063 _ _ _ _ CG5064 "SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity; SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity with EMBL:X53744; protein_id:CAA37773" _ _ _ CG5065 _ _ _ _ CG5068 _ _ _ _ CG5070 _ _ _ _ CG5071 _ _ _ _ CG5073 _ _ _ _ CG5074 _ _ _ _ CG5075 _ _ _ _ CG5077 _ _ _ _ CG5078 _ _ _ _ CG5079 _ _ _ _ CG5080 _ _ _ _ CG5082 _ _ _ _ CG5084 _ _ _ _ CG5085 _ _ _ _ CG5086 _ _ _ _ CG5087 _ _ _ _ CG5089 _ _ _ _ CG5091 N-linked glycosylation; GO:0006487 | non-traceable author statement _ _ _ CG5094 _ _ _ _ CG5095 _ _ _ _ CG5097 _ _ _ _ CG5098 _ _ _ _ CG5103 _ _ _ _ CG5104 _ _ _ _ CG5106 _ _ _ _ CG5107 _ _ _ _ CG5110 _ _ _ _ CG5111 _ _ _ _ CG5112 _ _ _ _ CG5113 _ _ _ _ CG5114 _ _ _ _ CG5115 _ _ _ _ CG5116 _ _ _ _ CG5118 _ _ _ _ CG5122 _ _ _ _ CG5124 _ _ _ _ CG5126 _ _ _ _ CG5127 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity with EMBL:U35245 _ _ _ CG5130 _ _ _ _ CG5131 _ _ _ _ CG5135 _ _ _ _ CG5139 _ _ _ _ CG5140 defense response; GO:0006952 | inferred from sequence similarity with EMBL:AJ010317; protein_id:CAA09084.1; signal transduction; GO:0007165 | inferred from sequence similarity with EMBL:AJ010317; protein_id:CAA09084.1 _ _ _ CG5142 _ _ _ _ CG5143 _ _ _ _ CG5144 _ _ _ _ CG5145 _ _ _ _ CG5146 _ _ _ _ CG5147 _ _ _ _ CG5148 _ _ _ _ CG5149 _ _ _ _ CG5150 _ _ _ _ CG5151 _ _ _ _ CG5152 _ _ _ _ CG5154 _ _ _ _ CG5155 _ _ _ _ CG5156 _ _ _ _ CG5157 _ _ _ _ CG5160 _ _ _ _ CG5161 _ _ _ _ CG5162 _ _ _ _ CG5166 _ _ _ _ CG5167 _ _ _ _ CG5168 _ _ _ _ CG5169 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG5171 _ _ _ _ CG5172 _ _ _ _ CG5174 _ _ _ _ CG5175 _ _ _ _ CG5177 _ _ _ _ CG5180 _ _ _ _ CG5181 _ _ _ _ CG5188 _ _ _ _ CG5189 _ _ _ _ CG5190 _ _ _ _ CG5191 _ _ _ _ CG5194 _ _ _ _ CG5195 _ _ _ _ CG5196 _ _ _ _ CG5197 _ _ _ _ CG5198 _ _ _ _ CG5199 _ _ _ _ CG5202 _ _ _ _ CG5204 _ _ _ _ CG5205 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:011099; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:011787; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:CAA94089 _ _ _ CG5207 _ _ _ _ CG5213 _ _ _ _ CG5214 _ _ _ _ CG5217 _ _ _ _ CG5220 _ _ _ _ CG5222 mRNA cleavage; GO:0006379 | inferred from sequence similarity with protein_id:BAA91867; mRNA polyadenylation; GO:0006378 | inferred from sequence similarity with protein_id:BAA91867 _ _ _ CG5224 _ _ _ _ CG5225 _ _ _ _ CG5226 _ _ _ _ CG5228 _ _ _ _ CG5233 _ _ _ _ CG5235 _ _ _ _ CG5237 _ _ _ _ CG5240 _ _ _ _ CG5241 _ _ _ _ CG5244 _ _ _ _ CG5245 _ _ _ _ CG5246 _ _ _ _ CG5249 _ _ _ _ CG5250 _ _ _ _ CG5253 _ _ _ _ CG5255 _ _ _ _ CG5261 _ _ _ _ CG5262 _ _ _ _ CG5265 _ _ _ _ CG5267 _ _ _ _ CG5270 _ _ _ _ CG5272 _ _ _ _ CG5274 _ _ _ _ CG5276 _ _ _ _ CG5278 _ _ _ _ CG5280 _ _ _ _ CG5281 _ _ _ _ CG5282 _ _ _ _ CG5284 _ _ _ _ CG5285 _ _ _ _ CG5287 _ _ _ _ CG5288 _ _ _ _ CG5290 _ _ _ _ CG5292 _ _ _ _ CG5295 _ _ _ _ CG5302 _ _ _ _ CG5308 _ _ _ _ CG5315 _ _ _ _ CG5316 _ _ _ _ CG5317 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL7A; SGDID:S0003044 _ _ _ CG5319 _ _ _ _ CG5321 _ _ _ _ CG5322 _ _ _ _ CG5323 _ _ _ _ CG5325 _ _ _ _ CG5326 _ _ _ _ CG5327 _ _ _ _ CG5329 _ _ _ _ CG5333 _ _ _ _ CG5334 _ _ _ _ CG5335 _ _ _ _ CG5337 _ _ _ _ CG5338 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPS19A; SGDID:S0005481 _ _ _ CG5339 _ _ _ _ CG5340 _ _ _ _ CG5342 _ _ _ _ CG5343 _ _ _ _ CG5344 _ _ _ _ CG5346 _ _ _ _ CG5347 _ _ _ _ CG5348 _ _ _ _ CG5355 _ _ _ _ CG5356 _ _ _ _ CG5357 _ _ _ _ CG5358 _ _ _ _ CG5359 _ _ _ _ CG5360 _ _ _ _ CG5361 _ _ _ _ CG5362 _ _ _ _ CG5367 _ _ _ _ CG5369 _ _ _ _ CG5375 _ _ _ _ CG5376 _ _ _ _ CG5377 _ _ _ _ CG5379 _ _ _ _ CG5380 transcription from Pol III promoter; GO:0006383 | non-traceable author statement _ _ _ CG5381 _ _ _ _ CG5382 _ _ _ _ CG5383 _ _ _ _ CG5384 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG5385 _ _ _ _ CG5386 _ _ _ _ CG5388 _ _ _ _ CG5389 _ _ _ _ CG5390 _ _ _ _ CG5391 _ _ _ _ CG5392 _ _ _ _ CG5397 _ _ _ _ CG5398 _ _ _ _ CG5399 _ _ _ _ CG5402 _ _ _ _ CG5404 _ _ _ _ CG5410 _ _ _ _ CG5411 _ _ _ _ CG5412 _ _ _ _ CG5414 _ _ _ _ CG5417 "SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity with MGD:Srp14; MGI:MGI:107169" _ _ _ CG5418 _ _ _ _ CG5421 _ _ _ _ CG5427 _ _ _ _ CG5428 _ _ _ _ CG5429 _ _ _ _ CG5431 _ _ _ _ CG5432 _ _ _ _ CG5434 "SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity with EMBL:AF069765" _ _ _ CG5435 _ _ _ _ CG5439 _ _ _ _ CG5440 _ _ _ _ CG5445 _ _ _ _ CG5446 _ _ _ _ CG5447 _ _ _ _ CG5449 _ _ _ _ CG5451 _ _ _ _ CG5453 _ _ _ _ CG5454 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003084; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:013401; mRNA splicing; GO:0006371 | inferred from sequence similarity with SWISS-PROT:Q03369 _ _ _ CG5455 _ _ _ _ CG5458 _ _ _ _ CG5463 _ _ _ _ CG5466 _ _ _ _ CG5467 _ _ _ _ CG5468 _ _ _ _ CG5469 _ _ _ _ CG5470 _ _ _ _ CG5471 _ _ _ _ CG5476 _ _ _ _ CG5478 _ _ _ _ CG5480 _ _ _ _ CG5482 _ _ _ _ CG5483 _ _ _ _ CG5484 _ _ _ _ CG5485 _ _ _ _ CG5489 _ _ _ _ CG5491 _ _ _ _ CG5493 _ _ _ _ CG5494 _ _ _ _ CG5500 _ _ _ _ CG5505 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG5506 _ _ _ _ CG5509 _ _ _ _ CG5510 _ _ _ _ CG5514 _ _ _ _ CG5515 _ _ _ _ CG5516 _ _ _ _ CG5521 _ _ _ _ CG5522 _ _ _ _ CG5524 DNA repair; GO:0006281 | inferred from sequence similarity with SWISS-PROT:P53692 _ _ _ CG5525 _ _ _ _ CG5527 _ _ _ _ CG5530 _ _ _ "A CG5530 cDNA has been cloned and sequenced. CG5530, is expressed in the early mesoderm." CG5532 _ _ _ _ CG5535 _ _ _ _ CG5537 _ _ _ _ CG5538 _ _ _ _ CG5539 _ _ _ _ CG5541 _ _ _ _ CG5543 _ _ _ _ CG5546 _ _ _ _ CG5547 _ _ _ _ CG5548 _ _ _ _ CG5549 _ _ _ _ CG5550 _ _ _ _ CG5552 _ _ _ _ CG5554 _ _ _ _ CG5555 _ _ _ _ CG5556 _ _ _ _ CG5558 _ _ _ _ CG5559 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with SWISS-PROT:P29101; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with SWISS-PROT:P29101 _ _ _ CG5560 _ _ _ _ CG5561 _ _ _ _ CG5564 _ _ _ _ CG5565 _ _ _ _ CG5566 _ _ _ _ CG5567 _ _ _ _ CG5568 _ _ _ _ CG5569 _ _ _ _ CG5571 _ _ _ _ CG5572 _ _ _ _ CG5577 _ _ _ _ CG5579 _ _ _ _ CG5582 _ _ _ _ CG5584 _ _ _ _ CG5585 _ _ _ _ CG5586 _ _ _ _ CG5589 _ _ _ _ CG5590 _ _ _ _ CG5591 _ _ _ _ CG5592 _ _ _ _ CG5597 _ _ _ _ CG5599 _ _ _ _ CG5602 _ _ _ _ CG5603 _ _ _ _ CG5604 _ _ _ _ CG5608 _ _ _ _ CG5611 _ _ _ _ CG5612 _ _ _ _ CG5613 _ _ _ _ CG5614 _ _ _ _ CG5618 _ _ _ _ CG5620 _ _ _ _ CG5621 _ _ _ _ CG5623 _ _ _ _ CG5625 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity with SGD:VPS35; SGDID:S0003690 _ _ _ CG5626 _ _ _ _ CG5630 _ _ _ _ CG5632 _ _ _ _ CG5634 _ _ _ _ CG5639 _ _ _ _ CG5640 _ _ _ _ CG5641 _ _ _ _ CG5642 _ _ _ _ CG5644 _ _ _ _ CG5645 _ _ _ _ CG5646 _ _ _ _ CG5648 _ _ _ _ CG5651 _ _ _ _ CG5653 _ _ _ _ CG5656 _ _ _ _ CG5660 _ _ _ _ CG5662 protein-mitochondrial targeting; GO:0006626 | inferred from sequence similarity with SWISS-PROT:Q13505 _ _ _ CG5664 _ _ _ _ CG5665 _ _ _ _ CG5669 _ _ _ _ CG5674 _ _ _ _ CG5676 _ _ _ _ CG5677 signal peptide processing; GO:0006465 | inferred from sequence similarity with SWISS-PROT:P12280; signal peptide processing; GO:0006465 | non-traceable author statement _ _ _ CG5681 _ _ _ _ CG5682 _ _ _ _ CG5684 _ _ _ _ CG5687 _ _ _ _ CG5690 _ _ _ _ CG5691 lysosome organization and biogenesis; GO:0007040 | inferred from sequence similarity with EMBL:AF114785 _ _ _ CG5693 _ _ _ _ CG5694 _ _ _ _ CG5697 _ _ _ _ CG5699 _ _ _ _ CG5703 _ _ _ _ CG5705 translational termination; GO:0006415 | inferred from sequence similarity with SGD:MRF1; SGDID:S0003111 _ _ _ CG5706 _ _ _ _ CG5708 _ _ _ _ CG5714 _ _ _ _ CG5715 _ _ _ _ CG5718 _ _ _ _ CG5719 _ _ _ _ CG5721 _ _ _ _ CG5724 _ _ _ _ CG5726 _ _ _ _ CG5727 _ _ _ _ CG5728 rRNA processing; GO:0006364 | inferred from sequence similarity with SGD:RRP5; SGDID:S0004842 _ _ _ CG5731 _ _ _ _ CG5732 _ _ _ _ CG5733 _ _ _ _ CG5734 _ _ _ _ CG5735 _ _ _ _ CG5736 _ _ _ _ CG5739 _ _ _ _ CG5740 _ _ _ _ CG5741 _ _ _ _ CG5742 _ _ _ _ CG5744 _ _ _ _ CG5745 _ _ _ _ CG5746 _ _ _ _ CG5747 _ _ _ _ CG5750 defense response; GO:0006952 | non-traceable author statement _ _ _ CG5751 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ CG5755 _ _ _ _ CG5756 _ _ _ _ CG5757 _ _ _ _ CG5758 _ _ _ _ CG5762 _ _ _ _ CG5765 _ _ _ _ CG5767 _ _ _ _ CG5768 _ _ _ _ CG5770 _ _ _ _ CG5773 _ _ _ _ CG5775 _ _ _ _ CG5776 _ _ _ _ CG5778 _ _ _ _ CG5780 _ _ _ _ CG5781 _ _ _ _ CG5783 _ _ _ _ CG5787 _ _ _ _ CG5789 _ _ _ _ CG5790 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG5791 _ _ _ _ CG5792 _ _ _ _ CG5793 _ _ _ _ CG5794 _ _ _ _ CG5797 _ _ _ _ CG5798 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG5800 _ _ _ _ CG5802 _ _ _ _ CG5804 acyl-CoA homeostasis; GO:0042049 | inferred from sequence similarity with SWISS-PROT:P45883 _ _ _ CG5805 _ _ _ _ CG5806 _ _ _ _ CG5810 _ _ _ _ CG5819 _ _ _ _ CG5822 _ _ _ _ CG5823 _ _ _ _ CG5828 _ _ _ _ CG5829 _ _ _ _ CG5830 _ _ _ _ CG5831 _ _ _ _ CG5833 _ _ _ _ CG5834 _ _ _ _ CG5835 _ _ _ _ CG5839 _ _ _ _ CG5840 _ _ _ _ CG5841 _ _ _ _ CG5842 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ CG5844 _ _ _ _ CG5845 _ _ _ _ CG5846 _ _ _ _ CG5847 _ _ _ _ CG5849 _ _ _ _ CG5850 _ _ _ _ CG5853 _ _ _ _ CG5854 _ _ _ _ CG5857 _ _ _ _ CG5860 _ _ _ _ CG5861 _ _ _ _ CG5862 _ _ _ _ CG5863 _ _ _ _ CG5866 _ _ _ _ CG5871 _ _ _ _ CG5872 _ _ _ _ CG5873 _ _ _ _ CG5874 _ _ _ _ CG5875 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG5877 _ _ _ _ CG5878 _ _ _ _ CG5879 _ _ _ _ CG5880 _ _ _ _ CG5882 _ _ _ _ CG5883 _ _ _ _ CG5886 _ _ _ _ CG5890 _ _ _ _ CG5892 _ _ _ _ CG5895 _ _ _ _ CG5896 _ _ _ _ CG5897 _ _ _ _ CG5898 _ _ _ _ CG5899 _ _ _ _ CG5902 _ _ _ _ CG5903 _ _ _ _ CG5906 _ _ _ _ CG5909 _ _ _ _ CG5910 _ _ _ _ CG5911 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:Takr86C; FB:FBgn0004841 _ _ _ CG5913 _ _ _ _ CG5916 _ _ _ _ CG5917 _ _ _ _ CG5919 _ _ _ _ CG5921 _ _ _ _ CG5922 _ _ _ _ CG5924 _ _ _ _ CG5926 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:013543; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:CAB45866 _ _ _ CG5928 _ _ _ _ CG5929 _ _ _ _ CG5931 mRNA splicing; GO:0006371 | inferred from electronic annotation _ _ _ CG5932 _ _ _ _ CG5933 _ _ _ _ CG5934 _ _ _ _ CG5936 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG5937 _ _ _ _ CG5938 _ _ _ _ CG5941 _ _ _ _ CG5944 _ _ _ _ CG5945 _ _ _ _ CG5946 _ _ _ _ CG5948 _ _ _ _ CG5953 _ _ _ _ CG5955 _ _ _ _ CG5956 _ _ _ _ CG5958 _ _ _ _ CG5959 _ _ _ _ CG5961 _ _ _ _ CG5963 _ _ _ _ CG5964 _ _ _ _ CG5966 _ _ _ _ CG5968 _ _ _ _ CG5969 _ _ _ _ CG5970 _ _ _ _ CG5971 pre-replicative complex formation and maintenance; GO:0006267 | inferred from sequence similarity with SGD:CDC6; SGDID:S0003730 _ _ _ CG5972 _ _ _ _ CG5973 _ _ _ _ CG5976 _ _ _ _ CG5977 _ _ _ _ CG5978 _ _ _ _ CG5980 _ _ _ _ CG5984 _ _ _ _ CG5987 _ _ _ _ CG5988 _ _ _ _ CG5989 _ _ _ "Transcription unit identified during molecular analysis of the RpL14, region." CG5990 _ _ _ _ CG5991 _ _ _ _ CG5994 _ _ _ "Transcription unit identified during molecular analysis of the RpL14, region." CG5999 _ _ _ _ CG6000 _ _ _ _ CG6001 _ _ _ _ CG6004 _ _ _ _ CG6005 _ _ _ _ CG6006 _ _ _ _ CG6012 _ _ _ _ CG6013 _ _ _ _ CG6015 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AF038392; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAC39730 _ _ _ CG6016 _ _ _ _ CG6017 _ _ _ _ CG6018 _ _ _ _ CG6020 _ _ _ _ CG6022 _ _ _ _ CG6023 _ _ _ _ CG6024 _ _ _ _ CG6026 _ _ _ _ CG6028 _ _ _ _ CG6031 _ _ _ _ CG6034 _ _ _ _ CG6036 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG6038 _ _ _ _ CG6040 _ _ _ _ CG6041 _ _ _ _ CG6043 _ _ _ _ CG6044 _ _ _ _ CG6045 _ _ _ _ CG6048 _ _ _ _ CG6049 _ _ _ _ CG6051 _ _ _ _ CG6052 _ _ _ _ CG6053 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG6055 _ _ _ _ CG6059 _ _ _ _ CG6060 _ _ _ _ CG6061 _ _ _ _ CG6062 _ _ _ _ CG6064 _ _ _ _ CG6066 _ _ _ _ CG6067 _ _ _ _ CG6069 _ _ _ _ CG6070 _ _ _ _ CG6071 _ _ _ _ CG6073 _ _ _ _ CG6074 _ _ _ _ CG6083 _ _ _ _ CG6084 _ _ _ _ CG6087 _ _ _ _ CG6089 _ _ _ _ CG6090 _ _ _ _ CG6091 _ _ _ _ CG6094 _ _ _ _ CG6095 _ _ _ _ CG6100 _ _ _ _ CG6106 _ _ _ _ CG6107 _ _ _ _ CG6108 _ _ _ _ CG6110 _ _ _ _ CG6111 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG6112 _ _ _ _ CG6113 _ _ _ _ CG6114 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG6115 _ _ _ _ CG6116 _ _ _ _ CG6118 _ _ _ _ CG6119 _ _ _ _ CG6123 _ _ _ _ CG6124 _ _ _ _ CG6125 _ _ _ _ CG6126 _ _ _ _ CG6128 O-glycoside catabolism; GO:0016142 | inferred from sequence similarity; fucose metabolism; GO:0006004 | inferred from sequence similarity with HUGO:FUCA1; OMIM:230000 _ _ _ CG6129 _ _ _ _ CG6130 _ _ _ _ CG6131 _ _ _ _ CG6136 _ _ _ _ CG6138 _ _ _ _ CG6139 _ _ _ _ CG6140 _ _ _ _ CG6142 _ _ _ _ CG6144 _ _ _ _ CG6145 _ _ _ _ CG6149 _ _ _ _ CG6151 _ _ _ _ CG6152 _ _ _ _ CG6153 _ _ _ _ CG6154 _ _ _ _ CG6156 _ _ _ _ CG6162 _ _ _ _ CG6163 _ _ _ _ CG6164 _ _ _ _ CG6166 _ _ _ _ CG6167 _ _ _ _ CG6168 _ _ _ _ CG6169 _ _ _ _ CG6171 _ _ _ _ CG6175 _ _ _ _ CG6178 _ _ _ _ CG6179 _ _ _ _ CG6180 _ _ _ _ CG6181 _ _ _ _ CG6182 _ _ _ _ CG6184 _ _ _ _ CG6185 _ _ _ _ CG6187 _ _ _ _ CG6188 _ _ _ _ CG6190 _ _ _ _ CG6192 _ _ _ _ CG6194 _ _ _ _ CG6195 _ _ _ _ CG6196 _ _ _ _ CG6197 _ _ _ _ CG6199 _ _ _ _ CG6201 _ _ _ _ CG6204 _ _ _ _ CG6207 _ _ _ _ CG6208 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity with SWISS-PROT:P81127 _ _ _ CG6209 _ _ _ _ CG6210 _ _ _ _ CG6214 _ _ _ _ CG6216 _ _ _ _ CG6218 _ _ _ _ CG6220 _ _ _ _ CG6225 _ _ _ _ CG6227 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:009796 _ _ _ CG6231 _ _ _ _ CG6232 _ _ _ _ CG6234 _ _ _ _ CG6236 _ _ _ _ CG6239 _ _ _ _ CG6240 _ _ _ _ CG6241 _ _ _ _ CG6244 _ _ _ _ CG6247 _ _ _ _ CG6249 _ _ _ _ CG6251 _ _ _ _ CG6254 _ _ _ _ CG6255 _ _ _ _ CG6256 _ _ _ _ CG6259 _ _ _ _ CG6261 _ _ _ _ CG6262 _ _ _ _ CG6263 _ _ _ _ CG6265 _ _ _ _ CG6267 _ _ _ _ CG6271 _ _ _ _ CG6272 _ _ _ _ CG6273 _ _ _ _ CG6276 _ _ _ _ CG6277 _ _ _ _ CG6278 _ _ _ _ CG6279 _ _ _ _ CG6280 _ _ _ _ CG6282 _ _ _ _ CG6283 _ _ _ _ CG6284 _ _ _ _ CG6287 _ _ _ _ CG6289 _ _ _ _ CG6290 _ _ _ _ CG6293 _ _ _ _ CG6294 _ _ _ _ CG6295 _ _ _ _ CG6296 _ _ _ _ CG6298 _ _ _ _ CG6299 _ _ _ _ Cg63-64 _ _ Collagen-like 63-64 _ CG6300 _ _ _ _ CG6301 _ _ _ _ CG6304 _ _ _ _ CG6305 _ _ _ _ CG6306 _ _ _ _ CG6308 _ _ _ _ CG6309 _ _ _ _ CG6310 _ _ _ _ CG6311 _ _ _ _ CG6316 _ _ _ _ CG6321 _ _ _ _ CG6322 RNA splicing; GO:0008380 | inferred from sequence similarity with EMBL:Z80215; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004688; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:015504 _ _ _ CG6324 _ _ _ _ CG6325 _ _ _ _ CG6327 _ _ _ _ CG6328 _ _ _ _ CG6329 _ _ _ _ CG6330 _ _ _ _ CG6332 _ _ _ _ CG6333 _ _ _ _ CG6335 _ _ _ _ CG6337 _ _ _ _ CG6340 _ _ _ _ CG6345 _ _ _ _ CG6347 _ _ _ _ CG6350 _ _ _ _ CG6353 _ _ _ _ CG6356 _ _ _ _ CG6357 _ _ _ _ CG6359 intracellular protein transport; GO:0006886 | inferred from sequence similarity with EMBL:AF062484 _ _ _ CG6361 _ _ _ _ CG6364 _ _ _ _ CG6365 _ _ _ _ CG6367 _ _ _ _ CG6369 _ _ _ _ CG6370 _ _ _ _ CG6372 _ _ _ _ CG6379 _ _ _ _ CG6380 _ _ _ _ CG6385 _ _ _ _ CG6388 tRNA modification; GO:0006400 | inferred from sequence similarity _ _ _ CG6390 _ _ _ _ CG6391 _ _ _ _ CG6393 _ _ _ _ CG6394 _ _ _ _ CG6396 _ _ _ _ CG6398 _ _ _ _ CG6400 _ _ _ _ CG6401 _ _ _ _ CG6403 _ _ _ _ CG6405 _ _ _ _ CG6406 _ _ _ _ CG6409 GPI anchor biosynthesis; GO:0006506 | inferred from sequence similarity with PIR:A55731 _ _ _ CG6410 _ _ _ _ CG6412 translational elongation; GO:0006414 | inferred from sequence similarity with SWISS-PROT:P43896 _ _ _ CG6414 _ _ _ _ CG6415 _ _ _ _ CG6416 _ _ _ _ CG6417 _ _ _ _ CG6418 _ _ _ _ CG6420 _ _ _ _ CG6422 _ _ _ _ CG6425 _ _ _ _ CG6426 _ _ _ _ CG6428 _ _ _ _ CG6429 _ _ _ _ CG6431 _ _ _ _ CG6432 _ _ _ _ CG6434 _ _ _ _ CG6435 _ _ _ _ CG6437 _ _ _ _ CG6439 _ _ _ _ CG6441 _ _ _ _ CG6444 _ _ _ _ CG6447 _ _ _ _ CG6448 _ _ _ _ CG6452 _ _ _ _ CG6453 _ _ _ _ CG6454 _ _ _ _ CG6458 _ _ _ _ CG6459 _ _ _ _ CG6460 _ _ _ _ CG6461 _ _ _ _ CG6462 _ _ _ _ CG6463 _ _ _ _ CG6465 _ _ _ _ CG6467 _ _ _ _ CG6469 _ _ _ _ CG6470 _ _ _ _ CG6471 _ _ _ _ CG6472 _ _ _ _ CG6475 _ _ _ _ CG6478 _ _ _ _ CG6479 _ _ _ _ CG6480 _ _ _ _ CG6481 _ _ _ _ CG6482 _ _ _ _ CG6483 _ _ _ _ CG6484 _ _ _ _ CG6485 _ _ _ _ CG6486 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with MGD:Pex7; MGI:MGI:1321392 _ _ _ CG6487 _ _ _ _ CG6488 _ _ _ _ CG6489 _ _ _ _ CG6490 _ _ _ _ CG6491 _ _ _ _ CG6497 _ _ _ _ CG6498 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG6499 _ _ _ _ CG6503 _ _ _ _ CG6506 _ _ _ _ CG6508 _ _ _ _ CG6509 _ _ _ _ CG6511 _ _ _ _ CG6512 _ _ _ _ CG6513 _ _ _ _ CG6514 _ _ _ _ CG6516 _ _ _ _ CG6520 _ _ _ _ CG6522 _ _ _ _ CG6523 _ _ _ _ CG6525 _ _ _ _ CG6527 _ _ _ _ CG6531 _ _ _ _ CG6532 _ _ _ _ CG6535 cell cycle checkpoint; GO:0000075 | inferred from sequence similarity; phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG6536 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG6540 _ _ _ _ CG6543 _ _ _ _ CG6546 cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity _ _ _ CG6550 _ _ _ _ CG6553 _ _ _ _ CG6554 _ _ _ _ CG6555 _ _ _ _ CG6559 _ _ _ _ CG6560 _ _ _ _ CG6563 _ _ _ _ CG6565 _ _ _ _ CG6567 _ _ _ _ CG6568 _ _ _ _ CG6569 _ _ _ _ CG6573 _ _ _ _ CG6574 _ _ _ _ CG6576 _ _ _ _ CG6579 _ _ _ _ CG6580 _ _ _ _ CG6583 _ _ _ _ CG6589 _ _ _ _ CG6590 phospholipid scrambling; GO:0017121 | inferred from sequence similarity with MGD:Plscr1; MGI:MGI:893575 _ _ _ CG6592 _ _ _ _ CG6596 _ _ _ _ CG6597 _ _ _ _ CG6599 _ _ _ _ CG6600 _ _ _ _ CG6602 _ _ _ _ CG6606 _ _ _ _ CG6607 _ _ _ _ CG6608 _ _ _ _ CG6610 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:011073; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:036454 _ _ _ CG6613 _ _ _ _ CG6614 _ _ _ _ CG6615 _ _ _ _ CG6617 _ _ _ _ CG6619 _ _ _ _ CG6621 _ _ _ _ CG6623 _ _ _ _ CG6626 _ _ _ _ CG6628 _ _ _ _ CG6629 complex II (succinate to ubiquinone); GO:0006121 | inferred from sequence similarity with NCBI_gi:4506863; succinate metabolism; GO:0006105 | inferred from sequence similarity with NCBI_gi:4506863; tricarboxylic acid cycle; GO:0006099 | inferred from sequence similarity with NCBI_gi:4506863 _ _ _ CG6630 _ _ _ _ CG6631 _ _ _ _ CG6632 _ _ _ _ CG6634 _ _ _ _ CG6637 _ _ _ _ CG6638 _ _ _ _ CG6639 _ _ _ _ CG6640 _ _ _ _ CG6643 _ _ _ _ CG6645 _ _ _ _ CG6646 _ _ _ _ CG6650 _ _ _ _ CG6652 _ _ _ _ CG6654 _ _ _ _ CG6656 _ _ _ _ CG6659 _ _ _ _ CG6660 _ _ _ _ CG6661 _ _ _ _ CG6662 _ _ _ _ CG6663 _ _ _ _ CG6664 _ _ _ _ CG6665 _ _ _ _ CG6666 complex II (succinate to ubiquinone); GO:0006121 | inferred from sequence similarity with NCBI_gi:4506863; succinate metabolism; GO:0006105 | inferred from sequence similarity with NCBI_gi:4506863; tricarboxylic acid cycle; GO:0006099 | inferred from sequence similarity with NCBI_gi:4506863 _ _ _ CG6668 _ _ _ _ CG6670 _ _ _ _ CG6672 _ _ _ _ CG6673 _ _ _ _ CG6674 _ _ _ _ CG6675 _ _ _ _ CG6678 _ _ _ _ CG6680 _ _ _ _ CG6683 _ _ _ _ CG6685 _ _ _ _ CG6686 _ _ _ _ CG6687 _ _ _ _ CG6688 _ _ _ _ CG6689 _ _ _ _ CG6690 _ _ _ _ CG6691 _ _ _ _ CG6693 _ _ _ _ CG6694 _ _ _ _ CG6695 _ _ _ _ CG6696 _ _ _ _ CG6700 _ _ _ _ CG6701 _ _ _ _ CG6704 _ _ _ _ CG6707 _ _ _ _ CG6709 _ _ _ _ CG6712 _ _ _ _ CG6717 _ _ _ _ CG6718 _ _ _ _ CG6719 'de novo' protein folding; GO:0006458 | inferred from sequence similarity _ _ _ CG6723 _ _ _ _ CG6724 _ _ _ _ CG6726 _ _ _ _ CG6728 _ _ _ _ CG6729 _ _ _ _ CG6733 _ _ _ _ CG6734 _ _ _ _ CG6735 _ _ _ _ CG6736 _ _ _ _ CG6737 _ _ _ _ CG6738 _ _ _ _ CG6739 _ _ _ _ CG6740 _ _ _ _ CG6744 _ _ _ _ CG6745 _ _ _ _ CG6746 _ _ _ _ CG6749 _ _ _ _ CG6750 _ _ _ _ CG6751 _ _ _ _ CG6752 _ _ _ _ CG6753 _ _ _ _ CG6755 _ _ _ _ CG6756 _ _ _ _ CG6758 _ _ _ _ CG6761 _ _ _ _ CG6762 _ _ _ _ CG6763 _ _ _ _ CG6764 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506619 _ _ _ CG6765 _ _ _ _ CG6766 _ _ _ _ CG6767 _ _ _ _ CG6769 _ _ _ _ CG6770 _ _ _ _ CG6771 _ _ _ _ CG6776 _ _ _ _ CG6778 _ _ _ _ CG6781 _ _ _ _ CG6782 _ _ _ _ CG6783 _ _ _ _ CG6784 _ _ _ _ CG6785 _ _ _ _ CG6788 _ _ _ _ CG6789 _ _ _ _ CG6790 _ _ _ _ CG6791 _ _ _ _ CG6792 _ _ _ _ CG6793 _ _ _ _ CG6796 _ _ _ _ Cg67C _ _ Collagen-like 67C _ CG6800 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG6801 _ _ _ _ CG6803 _ _ _ _ CG6805 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG6807 _ _ _ _ CG6808 _ _ _ _ CG6812 _ _ _ _ CG6813 _ _ _ _ CG6830 _ _ _ _ CG6833 _ _ _ _ CG6834 _ _ _ _ CG6835 _ _ _ _ CG6836 _ _ _ _ CG6838 _ _ _ _ CG6839 _ _ _ _ CG6841 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:009611; mRNA splicing; GO:0006371 | inferred from sequence similarity with SGD:PRP6; SGDID:S0000259; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:BAA37140 _ _ _ CG6843 _ _ _ _ CG6845 _ _ _ _ CG6846 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P12749 _ _ _ CG6847 _ _ _ _ CG6852 _ _ _ _ CG6854 _ _ _ _ CG6856 _ _ _ _ CG6859 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with NCBI_gi:4505727 _ _ _ CG6860 RAS protein signal transduction; GO:0007265 | inferred from sequence similarity with EMBL:AF068919 _ _ _ CG6865 _ _ _ _ CG6866 _ _ _ _ CG6867 _ _ _ _ CG6870 _ _ _ _ CG6873 _ _ _ _ CG6874 _ _ _ _ CG6876 mRNA splicing; GO:0006371 | inferred from sequence similarity with PIR:S6438; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:CAB43677 _ _ _ CG6878 _ _ _ _ CG6879 _ _ _ _ CG6882 _ _ _ _ CG6885 _ _ _ _ CG6888 _ _ _ _ CG6891 _ _ _ _ CG6893 _ _ _ _ CG6896 _ _ _ _ CG6897 _ _ _ _ CG6900 _ _ _ _ CG6901 _ _ _ _ CG6902 _ _ _ _ CG6903 _ _ _ _ CG6904 glycogen biosynthesis; GO:0005978 | non-traceable author statement _ _ _ CG6905 mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAB61210 _ _ _ CG6906 _ _ _ _ CG6907 _ _ _ _ CG6908 _ _ _ _ CG6910 _ _ _ _ CG6911 _ _ _ _ CG6912 _ _ _ _ CG6914 _ _ _ _ CG6915 _ _ _ _ CG6919 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG6921 _ _ _ _ CG6922 heme a biosynthesis; GO:0006784 | inferred from sequence similarity with SGD:COX11; SGDID:S0006053 _ _ _ CG6923 _ _ _ _ CG6926 _ _ _ _ CG6927 _ _ _ _ CG6928 _ _ _ _ CG6930 _ _ _ _ CG6931 _ _ _ _ CG6933 _ _ _ _ CG6934 _ _ _ _ CG6937 _ _ _ _ CG6938 _ _ _ _ CG6941 _ _ _ _ CG6942 _ _ _ _ CG6943 translational elongation; GO:0006414 | inferred from sequence similarity with SGD:MEF1; SGDID:S0004059 _ _ _ CG6945 _ _ _ _ CG6946 _ _ _ _ CG6947 _ _ _ _ CG6950 _ _ _ _ CG6951 _ _ _ _ CG6952 _ _ _ _ CG6954 _ _ _ _ CG6958 _ _ _ _ CG6959 _ _ _ _ CG6960 _ _ _ _ CG6961 _ _ _ _ CG6962 _ _ _ _ CG6965 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG6966 _ _ _ _ CG6967 nonsense-mediated mRNA decay; GO:0000184 | inferred from sequence similarity with EMBL:AF074017 _ _ _ CG6968 _ _ _ _ CG6969 _ _ _ _ CG6971 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG6972 _ _ _ _ CG6974 _ _ _ _ CG6978 _ _ _ _ CG6980 _ _ _ _ CG6981 _ _ _ _ CG6982 _ _ _ _ CG6983 _ _ _ _ CG6984 _ _ _ _ CG6985 _ _ _ _ CG6986 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG6989 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG6994 _ _ _ _ CG6995 _ _ _ _ CG6996 _ _ _ _ CG6999 _ _ _ _ CG7000 defense response; GO:0006952 | non-traceable author statement _ _ _ CG7003 DNA repair; GO:0006281 | inferred from sequence similarity with SGD:MSH6; SGDID:S0002504; post-replication repair; GO:0006301 | non-traceable author statement _ _ _ CG7006 _ _ _ _ CG7008 _ _ _ _ CG7009 _ _ _ _ CG7010 _ _ _ _ CG7011 _ _ _ _ CG7014 protein biosynthesis; GO:0006412 | inferred from sequence similarity with MGD:Rps5; MGI:MGI:1097682 _ _ _ CG7015 _ _ _ _ CG7016 _ _ _ _ CG7017 _ _ _ _ CG7023 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG7024 _ _ _ _ CG7025 _ _ _ _ CG7026 _ _ _ _ CG7027 _ _ _ _ CG7029 _ _ _ _ CG7031 _ _ _ _ CG7033 _ _ _ _ CG7036 "regulation of transcription, DNA-dependent; GO:0006355 | inferred from sequence similarity with SWISS-PROT:O54826" _ _ May function as a negative regulator of the EGFR/Ras/MAPK signaling pathway. CG7039 _ _ _ _ CG7042 _ _ _ _ CG7043 _ _ _ _ CG7044 _ _ _ _ CG7045 _ _ _ _ CG7046 _ _ _ _ CG7047 _ _ _ _ CG7048 'de novo' protein folding; GO:0006458 | inferred from sequence similarity _ _ _ CG7049 _ _ _ _ CG7051 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG7053 _ _ _ _ CG7054 _ _ _ _ CG7056 _ _ _ _ CG7058 _ _ _ _ CG7059 _ _ _ _ CG7060 _ _ _ _ CG7065 _ _ _ _ CG7066 _ _ _ _ CG7069 _ _ _ _ CG7071 _ _ _ _ CG7072 _ _ _ _ CG7075 _ _ _ _ CG7076 _ _ _ _ CG7077 _ _ _ _ CG7078 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG7079 _ _ _ _ CG7080 _ _ _ _ CG7081 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with EMBL:AF031128 _ _ _ CG7082 _ _ _ _ CG7083 _ _ _ _ CG7084 _ _ _ _ CG7085 _ _ _ _ CG7086 _ _ _ _ CG7087 _ _ _ _ CG7091 _ _ _ _ CG7093 _ _ _ _ CG7094 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG7095 regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with SWISS-PROT:O54829 _ _ _ CG7096 _ _ _ _ CG7097 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG7099 _ _ _ _ CG7101 _ _ _ _ CG7102 _ _ _ _ CG7110 _ _ _ _ CG7112 _ _ _ _ CG7117 _ _ _ _ CG7118 _ _ _ _ CG7120 _ _ _ _ CG7125 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG7126 _ _ _ _ CG7130 _ _ _ _ CG7131 _ _ _ _ CG7133 _ _ _ _ CG7134 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG7135 _ _ _ _ CG7137 _ _ _ _ CG7138 _ _ _ _ CG7140 _ _ _ _ CG7142 _ _ _ _ CG7145 _ _ _ _ CG7146 _ _ _ _ CG7149 _ _ _ _ CG7151 _ _ _ _ CG7154 _ _ _ _ CG7155 metabotropic glutamate receptor signaling pathway; GO:0007216 | inferred from sequence similarity _ _ _ CG7156 _ _ _ _ CG7158 _ _ _ _ CG7160 _ _ _ _ CG7161 _ _ _ _ CG7163 _ _ _ _ CG7164 _ _ _ _ CG7166 _ _ _ _ CG7167 _ _ _ _ CG7168 _ _ _ _ CG7170 _ _ _ _ CG7172 _ _ _ _ CG7173 _ _ _ _ CG7175 _ _ _ _ CG7177 _ _ _ _ CG7179 _ _ _ _ CG7180 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG7181 _ _ _ _ CG7182 _ _ _ _ CG7183 _ _ _ _ CG7185 mRNA cleavage; GO:0006379 | inferred from sequence similarity with NCBI_NP:008938 _ _ _ CG7187 _ _ _ _ CG7188 _ _ _ _ CG7190 _ _ _ _ CG7191 _ _ _ _ CG7192 _ _ _ _ CG7194 _ _ _ _ CG7196 _ _ _ _ CG7197 _ _ _ _ CG7198 _ _ _ _ CG7200 _ _ _ _ CG7201 _ _ _ _ CG7202 _ _ _ _ CG7203 _ _ _ _ CG7204 _ _ _ _ CG7206 _ _ _ _ CG7208 _ _ _ _ CG7211 _ _ _ _ CG7212 _ _ _ _ CG7213 _ _ _ _ CG7214 _ _ _ _ CG7215 _ _ _ _ CG7217 _ _ _ _ CG7218 _ _ _ _ CG7219 _ _ _ _ CG7220 proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with MGD:Ubce4; MGI:MGI:107412 _ _ _ CG7221 _ _ _ _ CG7222 _ _ _ _ CG7224 _ _ _ _ CG7227 defense response; GO:0006952 | non-traceable author statement _ _ _ CG7228 defense response; GO:0006952 | non-traceable author statement _ _ _ CG7229 _ _ _ _ CG7231 _ _ _ _ CG7233 _ _ _ _ CG7235 protein folding; GO:0006457 | inferred from sequence similarity with SGD:HSP60; SGDID:S0004249 _ _ _ CG7236 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG7237 _ _ _ _ CG7239 _ _ _ _ CG7245 _ _ _ _ CG7246 _ _ _ _ CG7248 _ _ _ _ CG7251 _ _ _ _ CG7252 _ _ _ _ CG7255 _ _ _ _ CG7257 _ _ _ _ CG7262 _ _ _ _ CG7263 DNA fragmentation; GO:0006309 | inferred from sequence similarity; induction of apoptosis; GO:0006917 | inferred from sequence similarity _ _ _ CG7264 _ _ _ _ CG7265 "peptidyl-diphthamide biosynthesis, from peptidyl-histidine; GO:0017183 | inferred from sequence similarity with NCBI_gi:4557533" _ _ _ CG7267 _ _ _ _ CG7271 _ _ _ _ CG7272 _ _ _ _ CG7274 _ _ _ _ CG7275 _ _ _ _ CG7276 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG7277 _ _ _ _ CG7280 _ _ _ _ CG7282 _ _ _ _ CG7283 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P52859 _ _ _ CG7285 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG7288 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG7289 _ _ _ _ CG7290 _ _ _ _ CG7291 _ _ _ _ CG7292 _ _ _ _ CG7294 _ _ _ _ CG7295 _ _ _ _ CG7296 _ _ _ _ CG7297 _ _ _ _ CG7298 _ _ _ _ CG7299 _ _ _ _ CG7300 _ _ _ _ CG7301 _ _ _ _ CG7304 _ _ _ _ CG7305 _ _ _ _ CG7306 _ _ _ _ CG7307 _ _ _ _ CG7308 _ _ _ _ CG7309 _ _ _ _ CG7312 _ _ _ _ CG7313 _ _ _ _ CG7317 _ _ _ _ CG7319 _ _ _ _ CG7320 _ _ _ _ CG7322 _ _ _ _ CG7323 _ _ _ _ CG7324 _ _ _ _ CG7326 _ _ _ _ CG7328 _ _ _ _ CG7329 _ _ _ _ CG7330 _ _ _ _ CG7331 _ _ _ _ CG7332 _ _ _ _ CG7333 _ _ _ _ CG7334 _ _ _ _ CG7335 _ _ _ _ CG7337 _ _ _ _ CG7338 _ _ _ _ CG7339 _ _ _ _ CG7341 _ _ _ _ CG7342 _ _ _ _ CG7343 synaptic vesicle endocytosis; GO:0008099 | inferred from sequence similarity with MGD:Rph3a; MGI:MGI:102788 _ _ _ CG7344 _ _ _ _ CG7346 _ _ _ _ CG7348 _ _ _ _ CG7349 _ _ _ _ CG7351 _ _ _ _ CG7352 _ _ _ _ CG7356 _ _ _ _ CG7357 _ _ _ _ CG7358 _ _ _ _ CG7360 _ _ _ _ CG7362 _ _ _ _ CG7363 _ _ _ _ CG7365 _ _ _ _ CG7366 _ _ _ _ CG7367 _ _ _ _ CG7368 _ _ _ _ CG7369 _ _ _ _ CG7370 _ _ _ _ CG7371 _ _ _ _ CG7372 _ _ _ _ CG7373 _ _ _ _ CG7375 _ _ _ _ CG7376 _ _ _ _ CG7377 _ _ _ _ CG7378 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG7379 _ _ _ _ CG7380 _ _ _ _ CG7381 _ _ _ _ CG7382 _ _ _ _ CG7384 _ _ _ _ CG7385 _ _ _ _ CG7386 _ _ _ _ CG7387 _ _ _ _ CG7388 _ _ _ _ CG7394 _ _ _ _ CG7397 _ _ _ _ CG7402 _ _ _ _ CG7406 _ _ _ _ CG7407 _ _ _ _ CG7408 _ _ _ _ CG7409 _ _ _ _ CG7414 _ _ _ _ CG7415 _ _ _ _ CG7417 _ _ _ _ CG7418 _ _ _ _ CG7420 _ _ _ _ CG7422 defense response; GO:0006952 | inferred from sequence similarity with MGD:Cd36; MGI:MGI:107899 _ _ _ CG7423 _ _ _ _ CG7424 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506651 _ _ _ CG7427 _ _ _ _ CG7428 _ _ _ _ CG7429 _ _ _ _ CG7430 _ _ _ _ CG7431 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG7432 _ _ _ _ CG7433 _ _ _ _ CG7440 _ _ _ _ CG7441 _ _ _ _ CG7442 _ _ _ _ CG7443 _ _ _ _ CG7444 _ _ _ _ CG7447 _ _ _ _ CG7448 _ _ _ _ CG7453 _ _ _ _ CG7456 _ _ _ _ CG7457 _ _ _ _ CG7458 _ _ _ _ CG7459 _ _ _ _ CG7460 _ _ _ _ CG7461 _ _ _ _ CG7465 _ _ _ _ CG7466 _ _ _ _ CG7470 proline biosynthesis; GO:0006561 | inferred from sequence similarity with SWISS-PROT:Q9Z110 _ _ _ CG7472 _ _ _ _ CG7473 _ _ _ _ CG7474 _ _ _ _ CG7475 vitamin B2 biosynthesis; GO:0009231 | inferred from sequence similarity with SGD:RIB2; SGDID:S0005427 _ _ _ CG7476 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:mth; FB:FBgn0023000; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ CG7477 _ _ _ _ CG7479 _ _ _ _ CG7483 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ CG7484 _ _ _ _ CG7488 _ _ _ _ CG7489 _ _ _ _ CG7491 _ _ _ _ CG7492 _ _ _ _ CG7495 _ _ _ _ CG7497 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG7498 _ _ _ _ CG7502 _ _ _ _ CG7504 _ _ _ _ CG7506 _ _ _ _ CG7509 _ _ _ _ CG7510 _ _ _ _ CG7511 _ _ _ _ CG7512 _ _ _ _ CG7513 _ _ _ _ CG7514 _ _ _ _ CG7515 _ _ _ _ CG7518 _ _ _ _ CG7519 _ _ _ _ CG7520 _ _ _ _ CG7523 _ _ _ _ CG7526 _ _ _ _ CG7529 _ _ _ _ CG7530 _ _ _ _ CG7536 _ _ _ _ CG7542 _ _ _ _ CG7543 _ _ _ _ CG7544 _ _ _ _ CG7545 _ _ _ _ CG7546 _ _ _ _ CG7547 _ _ _ _ CG7548 _ _ _ _ CG7549 _ _ _ _ CG7550 _ _ _ _ CG7551 _ _ _ _ CG7552 _ _ _ _ CG7556 _ _ _ _ CG7557 _ _ _ _ CG7560 _ _ _ _ CG7564 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:010196; mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:BAA91737 _ _ _ CG7565 _ _ _ _ CG7567 _ _ _ _ CG7568 _ _ _ _ CG7570 _ _ _ _ CG7571 _ _ _ _ CG7573 _ _ _ _ CG7577 _ _ _ _ CG7579 _ _ _ _ CG7580 _ _ _ _ CG7582 _ _ _ _ CG7587 _ _ _ _ CG7589 _ _ _ _ CG7593 _ _ _ _ CG7597 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ _ CG7598 complex I (NADH to ubiquinone); GO:0006120 | inferred from sequence similarity _ _ _ CG7603 _ _ _ _ CG7605 _ _ _ _ CG7606 _ _ _ _ CG7607 _ _ _ _ CG7611 _ _ _ _ CG7613 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG7615 _ _ _ _ CG7616 _ _ _ _ CG7621 _ _ _ _ CG7627 _ _ _ _ CG7628 _ _ _ _ CG7630 _ _ _ _ CG7632 _ _ _ _ CG7633 _ _ _ _ CG7634 _ _ _ _ CG7635 _ _ _ _ CG7637 _ _ _ _ CG7638 _ _ _ _ CG7639 _ _ _ _ CG7640 _ _ _ _ CG7643 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG7646 _ _ _ _ CG7649 _ _ _ _ CG7650 phototransduction; GO:0007602 | inferred from sequence similarity with NCBI_gi:4104075 _ _ _ CG7651 _ _ _ _ CG7654 _ _ _ _ CG7655 _ _ _ _ CG7656 _ _ _ _ CG7658 _ _ _ _ CG7663 _ _ _ _ CG7668 _ _ _ _ CG7669 _ _ _ _ CG7670 _ _ _ _ CG7671 _ _ _ _ CG7675 _ _ _ _ CG7676 _ _ _ _ CG7678 _ _ _ _ CG7682 _ _ _ _ CG7685 _ _ _ _ CG7687 _ _ _ _ CG7691 _ _ _ _ CG7692 _ _ _ _ CG7694 _ _ _ _ CG7695 _ _ _ _ CG7696 _ _ _ _ CG7698 mRNA cleavage; GO:0006379 | inferred from sequence similarity with EMBL:X95906; protein_id:CAA65151; mRNA cleavage; GO:0006379 | inferred from sequence similarity with protein_id:AAB70268; mRNA polyadenylation; GO:0006378 | inferred from sequence similarity with protein_id:AAB70268 _ _ _ CG7702 _ _ _ _ CG7705 _ _ _ _ CG7706 _ _ _ _ CG7707 _ _ _ _ CG7708 _ _ _ _ CG7709 _ _ _ _ CG7710 _ _ _ _ CG7712 _ _ _ _ CG7713 _ _ _ _ CG7714 _ _ _ _ CG7715 _ _ _ _ CG7716 microtubule nucleation; GO:0007020 | inferred from sequence similarity with EMBL:AF042379 _ _ _ CG7718 _ _ _ _ CG7720 _ _ _ _ CG7722 _ _ _ _ CG7724 _ _ _ _ CG7725 _ _ _ _ CG7728 _ _ _ _ CG7729 _ _ _ _ CG7730 _ _ _ _ CG7735 _ _ _ _ CG7737 _ _ _ _ CG7738 _ _ _ _ CG7739 _ _ _ _ CG7741 _ _ _ _ CG7742 _ _ _ _ CG7744 _ _ _ _ CG7745 _ _ _ _ CG7747 _ _ _ _ CG7752 _ _ _ _ CG7755 _ _ _ _ CG7757 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004689; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:010761; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_gi:4758556 _ _ _ CG7759 _ _ _ _ CG7766 _ _ _ _ CG7768 _ _ _ _ CG7770 'de novo' protein folding; GO:0006458 | inferred from sequence similarity _ _ _ CG7772 _ _ _ _ CG7777 _ _ _ _ CG7778 _ _ _ _ CG7781 _ _ _ _ CG7785 _ _ _ _ CG7786 transcription; GO:0006350 | inferred from sequence similarity with SWISS-PROT:Q60925 _ _ _ CG7787 _ _ _ _ CG7789 _ _ _ _ CG7791 _ _ _ _ CG7794 cytoskeleton organization and biogenesis; GO:0007010 | inferred from electronic annotation _ _ _ CG7795 _ _ _ _ CG7796 _ _ _ _ CG7798 antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ _ _ CG7799 _ _ _ _ CG7800 _ _ _ _ CG7802 _ _ _ _ CG7804 _ _ _ _ CG7806 _ _ _ _ CG7808 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506743 _ _ _ CG7809 _ _ _ _ CG7810 _ _ _ _ CG7813 _ _ _ _ CG7814 _ _ _ _ CG7816 _ _ _ _ CG7818 _ _ _ _ CG7823 _ _ _ _ CG7824 _ _ _ _ CG7828 _ _ _ _ CG7829 _ _ _ _ CG7830 _ _ _ _ CG7834 _ _ _ _ CG7835 _ _ _ _ CG7837 _ _ _ _ CG7839 _ _ _ _ CG7840 _ _ _ _ CG7841 _ _ _ _ CG7842 _ _ _ _ CG7843 arsenate sensitivity/resistance; GO:0017139 | inferred from sequence similarity with EMBL:AF082871; protein_id:AAD17774; arsenate sensitivity/resistance; GO:0017139 | non-traceable author statement _ _ _ CG7845 _ _ _ _ CG7846 _ _ _ _ CG7848 _ _ _ _ CG7849 _ _ _ _ CG7852 _ _ _ _ CG7853 _ _ _ _ CG7854 _ _ _ _ CG7856 _ _ _ _ CG7857 _ _ _ _ CG7859 _ _ _ _ CG7860 _ _ _ _ CG7861 _ _ _ _ CG7864 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with NCBI_gi:4505715 _ _ _ CG7866 _ _ _ _ CG7870 _ _ _ _ CG7871 _ _ _ _ CG7872 _ _ _ _ CG7874 _ _ _ _ CG7876 _ _ _ _ CG7878 _ _ _ _ CG7879 _ _ _ _ CG7880 _ _ _ _ CG7881 _ _ _ _ CG7882 _ _ _ _ CG7884 _ _ _ _ CG7886 _ _ _ _ CG7888 _ _ _ _ CG7889 _ _ _ _ CG7890 _ _ _ _ CG7891 _ _ _ _ CG7894 _ _ _ _ CG7896 _ _ _ _ CG7900 _ _ _ _ CG7903 _ _ _ _ CG7905 _ _ _ _ CG7906 _ _ _ _ CG7907 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:002477 _ _ _ CG7908 proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ _ _ CG7910 _ _ _ _ CG7911 _ _ _ _ CG7912 _ _ _ _ CG7914 _ _ _ _ CG7915 _ _ _ _ CG7918 "acetyl choline receptor signaling, muscarinic pathway; GO:0007213 | inferred from sequence similarity with FLYBASE:mAcR-60C; FB:FBgn0000037" _ _ _ CG7920 _ _ _ _ CG7922 _ _ _ _ CG7924 _ _ _ _ CG7928 _ _ _ _ CG7934 _ _ _ _ CG7940 cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with NCBI_gi:1730738 _ _ _ CG7941 _ _ _ _ CG7942 mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAD53327 _ _ _ CG7943 _ _ _ _ CG7945 _ _ _ _ CG7946 _ _ _ _ CG7949 _ _ _ _ CG7950 _ _ _ _ CG7955 _ _ _ _ CG7956 _ _ _ _ CG7958 _ _ _ _ CG7963 _ _ _ _ CG7966 _ _ _ _ CG7967 _ _ _ _ CG7970 _ _ _ _ CG7971 mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAF21439 _ _ _ CG7972 mRNA splicing; GO:0006371 | inferred from electronic annotation _ _ _ CG7973 _ _ _ _ CG7974 _ _ _ _ CG7979 _ _ _ _ CG7980 _ _ _ _ CG7983 _ _ _ _ CG7986 _ _ _ _ CG7987 _ _ _ _ CG7988 _ _ _ _ CG7989 _ _ _ _ CG7990 _ _ _ _ CG7991 _ _ _ _ CG7992 _ _ _ _ CG7993 _ _ _ _ CG7994 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG7995 _ _ _ _ CG7997 _ _ _ _ CG7998 _ _ _ _ CG8001 _ _ _ _ CG8002 _ _ _ _ CG8003 _ _ _ _ CG8004 protein-mitochondrial targeting; GO:0006626 | inferred from sequence similarity with SWISS-PROT:Q13505 _ _ _ CG8005 "hypusine biosynthesis, from peptidyl-lysine; GO:0008612 | inferred from sequence similarity" _ _ _ CG8006 _ _ _ _ CG8007 serotonin receptor signaling pathway; GO:0007210 | inferred from sequence similarity with FLYBASE:5-HT2; FB:FBgn0013743 _ _ _ CG8008 _ _ _ _ CG8009 _ _ _ _ CG8010 _ _ _ _ CG8012 _ _ _ _ CG8014 _ _ _ _ CG8020 _ _ _ _ CG8021 _ _ _ _ CG8023 binding to mRNA cap; GO:0006441 | inferred from sequence similarity _ _ _ CG8025 _ _ _ _ CG8026 _ _ _ _ CG8027 _ _ _ _ CG8028 _ _ _ _ CG8029 _ _ _ _ CG8031 _ _ _ _ CG8032 _ _ _ _ CG8034 _ _ _ _ CG8036 _ _ _ _ CG8038 _ _ _ _ CG8040 _ _ _ _ CG8043 _ _ _ _ CG8044 _ _ _ _ CG8045 _ _ _ _ CG8046 _ _ _ _ CG8051 _ _ _ _ CG8055 _ _ _ _ CG8057 _ _ _ _ CG8058 _ _ _ _ CG8060 _ _ _ _ CG8064 _ _ _ _ CG8065 _ _ _ _ CG8066 _ _ _ _ CG8067 _ _ _ _ CG8069 _ _ _ _ CG8072 _ _ _ _ CG8078 _ _ _ _ CG8079 _ _ _ _ CG8080 _ _ _ _ CG8082 _ _ _ _ CG8086 _ _ _ _ CG8087 _ _ _ _ CG8089 _ _ _ _ CG8090 _ _ _ _ CG8092 _ _ _ _ CG8093 _ _ _ _ CG8097 _ _ _ _ CG8100 _ _ _ _ CG8102 _ _ _ _ CG8104 _ _ _ _ CG8105 _ _ _ _ CG8106 _ _ _ _ CG8111 _ _ _ _ CG8112 _ _ _ _ CG8116 _ _ _ _ CG8117 RNA elongation from Pol II promoter; GO:0006368 | inferred from sequence similarity with EMBL:M18209 _ _ _ CG8119 _ _ _ _ CG8120 _ _ _ _ CG8121 _ _ _ _ CG8125 _ _ _ _ CG8128 _ _ _ _ CG8129 _ _ _ _ CG8132 _ _ _ _ CG8134 _ _ _ _ CG8135 _ _ _ _ CG8136 _ _ _ _ CG8138 _ _ _ _ CG8141 _ _ _ _ CG8142 DNA replication; GO:0006260 | inferred from sequence similarity with NCBI_gi:4506491 _ _ _ CG8145 _ _ _ _ CG8147 _ _ _ _ CG8149 _ _ _ _ CG8152 _ _ _ _ CG8154 _ _ _ _ CG8155 _ _ _ _ CG8157 _ _ _ _ CG8159 _ _ _ _ CG8160 _ _ _ _ CG8163 _ _ _ _ CG8165 _ _ _ _ CG8170 _ _ _ _ CG8172 _ _ _ _ CG8173 _ _ _ _ CG8176 _ _ _ _ CG8177 _ _ _ _ CG8179 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG8180 _ _ _ _ CG8181 _ _ _ _ CG8184 _ _ _ _ CG8187 _ _ _ _ CG8188 _ _ _ _ CG8191 _ _ _ _ CG8192 _ _ _ _ CG8193 defense response; GO:0006952 | non-traceable author statement _ _ _ CG8195 _ _ _ _ CG8197 _ _ _ _ CG8198 _ _ _ _ CG8199 _ _ _ _ CG8202 _ _ _ _ CG8204 _ _ _ _ CG8206 _ _ _ _ CG8207 _ _ _ _ CG8209 _ _ _ _ CG8211 _ _ _ _ CG8213 _ _ _ _ CG8214 _ _ _ _ CG8216 _ _ _ _ CG8219 protein-nucleus import; GO:0006606 | inferred from sequence similarity with EMBL:AF059614 _ _ _ CG8220 _ _ _ _ CG8223 _ _ _ _ CG8226 _ _ _ _ CG8228 intracellular protein transport; GO:0006886 | inferred from sequence similarity with EMBL:U66865; lysosome organization and biogenesis; GO:0007040 | inferred from sequence similarity with EMBL:U66865; protein targeting; GO:0006605 | inferred from sequence similarity with EMBL:U66865 _ _ _ CG8229 _ _ _ _ CG8231 _ _ _ _ CG8232 _ _ _ _ CG8233 _ _ _ _ CG8234 _ _ _ _ CG8235 _ _ _ _ CG8236 _ _ _ _ CG8237 _ _ _ _ CG8239 _ _ _ _ CG8241 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004932; mRNA splicing; GO:0006371 | inferred from sequence similarity with SGD:PRP22; SGDID:S0000815 _ _ _ CG8243 _ _ _ _ CG8244 _ _ _ _ CG8245 _ _ _ _ CG8247 _ _ _ _ CG8248 _ _ _ _ CG8249 _ _ _ _ CG8252 _ _ _ _ CG8253 _ _ _ _ CG8257 _ _ _ _ CG8258 _ _ _ _ CG8260 _ _ _ _ CG8268 "SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity; SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity with NCBI_gi:4507217" _ _ _ CG8270 _ _ _ _ CG8271 _ _ _ _ CG8272 _ _ _ _ CG8273 _ _ _ _ CG8277 binding to mRNA cap; GO:0006441 | inferred from sequence similarity _ _ _ CG8279 _ _ _ _ CG8281 _ _ _ _ CG8282 intracellular protein transport; GO:0006886 | inferred from sequence similarity with EMBL:U83194 _ _ _ CG8286 _ _ _ _ CG8289 _ _ _ _ CG8291 _ _ _ _ CG8292 _ _ _ _ CG8294 _ _ _ _ CG8297 _ _ _ _ CG8298 _ _ _ _ CG8299 _ _ _ _ CG8300 _ _ _ _ CG8301 _ _ _ _ CG8303 _ _ _ _ CG8306 _ _ _ _ CG8309 _ _ _ _ CG8311 _ _ _ _ CG8312 _ _ _ _ CG8314 _ _ _ _ CG8315 peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with EMBL:AF093671 _ _ _ CG8316 _ _ _ _ CG8317 _ _ _ _ CG8319 _ _ _ _ CG8320 _ _ _ _ CG8321 _ _ _ _ CG8323 _ _ _ _ CG8326 _ _ _ _ CG8327 _ _ _ _ CG8329 _ _ _ _ CG8330 _ _ _ _ CG8331 _ _ _ _ CG8332 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506687 _ _ _ CG8334 _ _ _ _ CG8335 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ CG8336 _ _ _ _ CG8339 microtubule-based process; GO:0007017 | inferred from sequence similarity _ _ _ CG8347 _ _ _ _ CG8349 _ _ _ _ CG8351 _ _ _ _ CG8353 _ _ _ _ CG8358 _ _ _ _ CG8359 _ _ _ _ CG8360 _ _ _ _ CG8366 _ _ _ _ CG8368 _ _ _ _ CG8369 _ _ _ _ CG8370 _ _ _ _ CG8372 _ _ _ _ CG8379 _ _ _ _ CG8383 _ _ _ _ CG8386 _ _ _ _ CG8388 _ _ _ _ CG8389 _ _ _ _ CG8394 _ _ _ _ CG8395 _ _ _ _ CG8397 _ _ _ _ CG8398 _ _ _ _ CG8399 _ _ _ _ CG8400 _ _ _ _ CG8401 _ _ _ _ CG8405 _ _ _ _ CG8407 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG8408 _ _ _ _ CG8412 _ _ _ _ CG8414 _ _ _ _ CG8415 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P90707 _ _ _ CG8417 _ _ _ _ CG8419 _ _ _ _ CG8420 _ _ _ _ CG8422 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG8424 _ _ _ _ CG8426 transcription; GO:0006350 | inferred from sequence similarity with SGD:NOT3; SGDID:S0001300 _ _ _ CG8430 _ _ _ _ CG8433 _ _ _ _ CG8434 _ _ _ _ CG8435 _ _ _ _ CG8436 _ _ _ _ CG8441 _ _ _ _ CG8443 translational initiation; GO:0006413 | inferred from sequence similarity with SGD:CLU1; SGDID:S0004614 _ _ _ CG8444 _ _ _ _ CG8445 _ _ _ _ CG8446 _ _ _ _ CG8447 _ _ _ _ CG8448 _ _ _ _ CG8449 _ _ _ _ CG8451 _ _ _ _ CG8454 _ _ _ _ CG8455 _ _ _ _ CG8456 _ _ _ _ CG8460 _ _ _ _ CG8461 _ _ _ _ CG8463 _ _ _ _ CG8464 _ _ _ _ CG8465 _ _ _ _ CG8468 _ _ _ _ CG8473 _ _ _ _ CG8475 _ _ _ _ CG8476 _ _ _ _ CG8478 _ _ _ _ CG8479 _ _ _ _ CG8481 _ _ _ _ CG8483 _ _ _ _ CG8484 _ _ _ _ CG8485 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG8486 _ _ _ _ CG8487 _ _ _ _ CG8489 _ _ _ _ CG8490 _ _ _ _ CG8492 antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ _ _ CG8493 _ _ _ _ CG8494 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG8495 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506717 _ _ _ CG8498 acyl-CoA homeostasis; GO:0042049 | inferred from sequence similarity with SGD:ACB1; SGDID:S0003269 _ _ _ CG8500 _ _ _ _ CG8501 _ _ _ _ CG8502 _ _ _ _ CG8503 _ _ _ _ CG8505 _ _ _ _ CG8506 _ _ _ _ CG8507 _ _ _ _ CG8508 _ _ _ _ CG8509 _ _ _ _ CG8510 _ _ _ _ CG8511 _ _ _ _ CG8515 _ _ _ _ CG8516 _ _ _ _ CG8517 _ _ _ _ CG8519 _ _ _ _ CG8520 _ _ _ _ CG8525 _ _ _ _ CG8526 _ _ _ _ CG8527 _ _ _ _ CG8528 _ _ _ _ CG8531 _ _ _ _ CG8533 _ _ _ _ CG8534 _ _ _ _ CG8538 _ _ _ _ CG8539 _ _ _ _ CG8541 _ _ _ _ CG8543 _ _ _ _ CG8545 rRNA processing; GO:0006364 | inferred from sequence similarity with SGD:YNA1; SGDID:S0005005 _ _ _ CG8546 _ _ _ _ CG8547 _ _ _ _ CG8549 _ _ _ _ CG8550 _ _ _ _ CG8552 _ _ _ _ CG8555 _ _ _ _ CG8557 _ _ _ _ CG8560 _ _ _ _ CG8561 _ _ _ _ CG8562 _ _ _ _ CG8563 _ _ _ _ CG8564 _ _ _ _ CG8565 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG8568 _ _ _ _ CG8569 _ _ _ _ CG8572 _ _ _ _ CG8578 _ _ _ _ CG8579 _ _ _ _ CG8580 _ _ _ _ CG8583 _ _ _ _ CG8584 _ _ _ _ CG8586 _ _ _ _ CG8588 _ _ _ _ CG8589 _ _ _ _ CG8594 _ _ _ _ CG8596 _ _ _ _ CG8598 _ _ _ _ CG8600 _ _ _ _ CG8601 _ _ _ _ CG8602 _ _ _ _ CG8603 _ _ _ _ CG8605 _ _ _ _ CG8607 _ _ _ _ CG8613 _ _ _ _ CG8615 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P12001 _ _ _ CG8616 _ _ _ _ CG8617 _ _ _ _ CG8618 _ _ _ _ CG8619 _ _ _ _ CG8620 _ _ _ _ CG8626 _ _ _ _ CG8628 acyl-CoA homeostasis; GO:0042049 | inferred from sequence similarity with SGD:ACB1; SGDID:S0003269 _ _ _ CG8629 acyl-CoA homeostasis; GO:0042049 | inferred from sequence similarity with SGD:ACB1; SGDID:S0003269 _ _ _ CG8630 _ _ _ _ CG8632 _ _ _ _ CG8634 _ _ _ _ CG8635 _ _ _ _ CG8636 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ CG8638 _ _ _ _ CG8640 _ _ _ _ CG8641 _ _ _ _ CG8642 _ _ _ _ CG8644 _ _ _ _ CG8645 _ _ _ _ CG8646 _ _ _ _ CG8647 _ _ _ _ CG8654 _ _ _ _ CG8655 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG8656 _ _ _ _ CG8661 _ _ _ _ CG8663 _ _ _ _ CG8664 _ _ _ _ CG8665 _ _ _ _ CG8668 _ _ _ _ CG8671 _ _ _ _ CG8672 _ _ _ _ CG8673 _ _ _ _ CG8674 _ _ _ _ CG8675 _ _ _ _ CG8678 _ _ _ _ CG8679 _ _ _ _ CG8680 _ _ _ _ CG8683 _ _ _ _ CG8684 _ _ _ _ CG8690 _ _ _ _ CG8693 _ _ _ _ CG8701 _ _ _ _ CG8706 _ _ _ _ CG8707 _ _ _ _ CG8708 _ _ _ _ CG8709 _ _ _ _ CG8710 _ _ _ _ CG8712 _ _ _ _ CG8713 _ _ _ _ CG8715 _ _ _ _ CG8726 _ _ _ _ CG8728 _ _ _ _ CG8734 _ _ _ _ CG8735 _ _ _ _ CG8736 _ _ _ _ CG8738 _ _ _ _ CG8741 _ _ _ _ CG8743 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ CG8745 _ _ _ _ CG8746 _ _ _ _ CG8747 _ _ _ _ CG8748 _ _ _ _ CG8750 _ _ _ _ CG8756 _ _ _ _ CG8757 _ _ _ _ CG8760 _ _ _ _ CG8765 _ _ _ _ CG8767 _ _ _ _ CG8768 _ _ _ _ CG8771 _ _ _ _ CG8773 _ _ _ _ CG8774 _ _ _ _ CG8775 _ _ _ _ CG8776 _ _ _ _ CG8777 _ _ _ _ CG8778 _ _ _ _ CG8780 _ _ _ _ CG8782 _ _ _ _ CG8783 _ _ _ _ CG8784 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG8785 _ _ _ _ CG8786 _ _ _ _ CG8788 _ _ _ _ CG8789 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG8791 _ _ _ _ CG8793 _ _ _ _ CG8795 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG8797 _ _ _ _ CG8798 _ _ _ _ CG8800 _ _ _ _ CG8806 _ _ _ _ CG8811 _ _ _ _ CG8813 _ _ _ _ CG8814 acyl-CoA homeostasis; GO:0042049 | inferred from sequence similarity with SGD:ACB1; SGDID:S0003269 _ _ _ CG8816 _ _ _ _ CG8818 _ _ _ _ CG8828 _ _ _ _ CG8829 _ _ _ _ CG8830 deubiquitination; GO:0006514 | inferred from sequence similarity _ _ _ CG8831 _ _ _ _ CG8833 _ _ _ _ CG8834 _ _ _ _ CG8836 _ _ _ _ CG8837 _ _ _ _ CG8838 _ _ _ _ CG8839 _ _ _ _ CG8840 _ _ _ _ CG8841 _ _ _ _ CG8850 _ _ _ _ CG8851 _ _ _ _ CG8852 _ _ _ _ CG8853 _ _ _ _ CG8854 _ _ _ _ CG8857 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506681 _ _ _ CG8858 _ _ _ _ CG8860 "SRP-dependent, co-translational membrane targeting, translocation; GO:0006616 | inferred from sequence similarity with SWISS-PROT:P38384" _ _ _ CG8861 _ _ _ _ CG8862 _ _ _ _ CG8863 _ _ _ _ CG8866 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG8869 _ _ _ _ CG8870 _ _ _ _ CG8871 _ _ _ _ CG8873 _ _ _ _ CG8877 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:006436; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012035; mRNA splicing; GO:0006371 | inferred from sequence similarity with SGD:PRP8; SGDID:S0001208 _ _ _ CG8885 _ _ _ _ CG8888 _ _ _ _ CG8889 _ _ _ _ CG8891 _ _ _ _ CG8892 _ _ _ _ CG8895 _ _ _ _ CG8902 _ _ _ _ CG8907 _ _ _ _ CG8908 _ _ _ _ CG8909 _ _ _ _ CG8913 _ _ _ _ CG8915 _ _ _ _ CG8916 _ _ _ _ CG8918 _ _ _ _ CG8924 _ _ _ _ CG8925 _ _ _ _ CG8926 _ _ _ _ CG8927 _ _ _ _ CG8928 _ _ _ _ CG8929 _ _ _ _ CG8931 _ _ _ _ CG8932 _ _ _ _ CG8934 _ _ _ _ CG8936 actin filament organization; GO:0007015 | non-traceable author statement _ _ _ CG8939 rRNA processing; GO:0006364 | inferred from sequence similarity with SWISS-PROT:O42832 _ _ _ CG8944 _ _ _ _ CG8945 _ _ _ _ CG8949 _ _ _ _ CG8950 _ _ _ _ CG8951 _ _ _ _ CG8952 _ _ _ _ CG8954 _ _ _ _ CG8957 _ _ _ _ CG8958 _ _ _ _ CG8959 _ _ _ _ CG8960 _ _ _ _ CG8963 _ _ _ _ CG8964 _ _ _ _ CG8965 _ _ _ _ CG8966 _ _ _ _ CG8968 _ _ _ _ CG8970 _ _ _ _ CG8974 _ _ _ _ CG8976 _ _ _ _ CG8979 _ _ _ _ CG8981 _ _ _ _ CG8985 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG8986 _ _ _ _ CG8991 _ _ _ _ CG8993 _ _ _ _ CG8998 _ _ _ _ CG9000 _ _ _ _ CG9001 _ _ _ _ CG9003 _ _ _ _ CG9004 _ _ _ _ CG9005 _ _ _ _ CG9006 _ _ _ _ CG9007 _ _ _ _ CG9010 _ _ _ _ CG9013 hydrogen transport; GO:0006818 | inferred from sequence similarity with SGD:CUP5; SGDID:S0000753 _ _ _ CG9016 _ _ _ _ CG9018 _ _ _ _ CG9020 _ _ _ _ CG9021 _ _ _ _ CG9025 _ _ _ _ CG9027 _ _ _ _ CG9028 _ _ _ _ CG9029 _ _ _ _ CG9030 _ _ _ _ CG9034 _ _ _ _ CG9036 _ _ _ _ CG9040 _ _ _ _ CG9044 _ _ _ _ CG9047 _ _ _ _ CG9050 _ _ _ _ CG9053 _ _ _ _ CG9056 _ _ _ _ CG9057 _ _ _ _ CG9059 _ _ _ _ CG9062 _ _ _ _ CG9065 cytochrome c oxidase biogenesis; GO:0008535 | inferred from sequence similarity with SWISS-PROT:P81045 _ _ _ CG9066 _ _ _ _ CG9067 _ _ _ _ CG9068 _ _ _ _ CG9070 _ _ _ _ CG9072 _ _ _ _ CG9076 _ _ _ _ CG9077 _ _ _ _ CG9079 _ _ _ _ CG9080 _ _ _ _ CG9083 _ _ _ _ CG9084 _ _ _ _ CG9086 protein ubiquitination; GO:0016567 | inferred from sequence similarity with EMBL:AF061555 _ _ _ CG9087 _ _ _ _ CG9090 _ _ _ _ CG9091 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506641 _ _ _ CG9092 _ _ _ _ CG9094 _ _ _ _ CG9095 cell adhesion; GO:0007155 | inferred from sequence similarity with MGD:Sele; MGI:MGI:98278 _ _ _ CG9098 _ _ _ _ CG9099 _ _ _ _ CG9100 _ _ _ _ CG9101 _ _ _ _ CG9104 _ _ _ _ CG9106 _ _ _ _ CG9107 _ _ _ _ CG9109 _ _ _ _ CG9112 _ _ _ _ CG9114 _ _ _ _ CG9117 _ _ _ _ CG9119 _ _ _ _ CG9121 cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity with MGD:Ank1; MGI:MGI:88024 _ _ _ CG9122 _ _ _ _ CG9123 _ _ _ _ CG9125 _ _ _ _ CG9128 _ _ _ _ CG9129 _ _ _ _ CG9130 _ _ _ _ CG9132 _ _ _ _ CG9133 _ _ _ _ CG9134 _ _ _ _ CG9135 _ _ _ _ CG9137 _ _ _ _ CG9139 _ _ _ _ CG9140 _ _ _ _ CG9143 _ _ _ _ CG9144 _ _ _ _ CG9147 _ _ _ _ CG9149 _ _ _ _ CG9150 _ _ _ _ CG9152 _ _ _ _ CG9153 _ _ _ _ CG9154 _ _ _ _ CG9162 _ _ _ _ CG9164 _ _ _ _ CG9168 _ _ _ _ CG9169 _ _ _ _ CG9170 _ _ _ _ CG9171 _ _ _ _ CG9172 _ _ _ _ CG9173 _ _ _ _ CG9175 _ _ _ _ CG9184 _ _ _ _ CG9186 _ _ _ _ CG9187 _ _ _ _ CG9188 _ _ _ _ CG9192 _ _ _ _ CG9194 _ _ _ _ CG9196 _ _ _ _ CG9198 _ _ _ _ CG9200 _ _ _ _ CG9203 _ _ _ _ CG9205 _ _ _ _ CG9207 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:MLLT1; OMIM:159556; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:MLLT3; OMIM:159558; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:ANC1; SGDID:S0006050; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:YAF9; SGDID:S0005051 _ _ _ CG9211 _ _ _ _ CG9213 _ _ _ _ CG9215 _ _ _ _ CG9216 _ _ _ _ CG9220 _ _ _ _ CG9222 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG9226 _ _ _ _ CG9227 _ _ _ _ CG9231 _ _ _ _ CG9232 _ _ _ _ CG9235 _ _ _ _ CG9236 _ _ _ _ CG9238 _ _ _ _ CG9240 mitochondrial processing; GO:0006627 | inferred from sequence similarity with SGD:IMP1; SGDID:S0004758 _ _ _ CG9243 _ _ _ _ CG9245 _ _ _ _ CG9246 _ _ _ _ CG9247 _ _ _ _ CG9248 _ _ _ _ CG9249 ubiquinone metabolism; GO:0006743 | inferred from sequence similarity with EMBL:L20427 _ _ _ CG9252 _ _ _ _ CG9253 _ _ _ _ CG9255 _ _ _ _ CG9257 _ _ _ _ CG9259 _ _ _ _ CG9263 _ _ _ _ CG9264 _ _ _ _ CG9265 _ _ _ _ CG9266 _ _ _ _ CG9267 _ _ _ _ CG9268 _ _ _ _ CG9269 _ _ _ _ CG9270 _ _ _ _ CG9272 DNA repair; GO:0006281 | inferred from sequence similarity with MGD:Nthl1; MGI:MGI:1313275 _ _ _ CG9273 DNA dependent DNA replication; GO:0006261 | inferred from sequence similarity with SGD:RFA2; SGDID:S0005256 _ _ _ CG9279 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG9281 _ _ _ _ CG9282 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:Z81317 _ _ _ CG9283 _ _ _ _ CG9286 _ _ _ _ CG9287 _ _ _ _ CG9288 _ _ _ _ CG9289 _ _ _ _ CG9290 _ _ _ _ CG9293 _ _ _ _ CG9294 _ _ _ _ CG9295 _ _ _ _ CG9296 _ _ _ _ CG9297 calcium ion transport; GO:0006816 | inferred from sequence similarity with SWISS-PROT:P13666 _ _ _ CG9298 _ _ _ _ CG9299 _ _ _ _ CG9300 _ _ _ _ CG9302 _ _ _ _ CG9304 _ _ _ _ CG9305 _ _ _ _ CG9306 _ _ _ _ CG9307 _ _ _ _ CG9308 vesicle organization and biogenesis; GO:0016050 | inferred from sequence similarity with SWISS-PROT:Q63524 _ _ _ CG9311 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ CG9312 _ _ _ _ CG9313 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG9314 _ _ _ _ CG9316 _ _ _ _ CG9317 _ _ _ _ CG9318 _ _ _ _ CG9319 _ _ _ _ CG9320 _ _ _ _ CG9322 _ _ _ _ CG9323 _ _ _ _ CG9324 _ _ _ _ CG9326 _ _ _ _ CG9328 _ _ _ _ CG9329 _ _ _ _ CG9330 _ _ _ _ CG9331 _ _ _ _ CG9332 _ _ _ _ CG9333 _ _ _ _ CG9335 _ _ _ _ CG9336 _ _ _ _ CG9337 _ _ _ _ CG9338 _ _ _ _ CG9339 _ _ _ _ CG9340 _ _ _ _ CG9342 _ _ _ _ CG9344 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:009011; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:010666 _ _ _ CG9346 _ _ _ _ CG9350 _ _ _ _ CG9351 _ _ _ _ CG9354 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506637 _ _ _ CG9356 _ _ _ _ CG9357 _ _ _ _ CG9358 _ _ _ _ CG9360 _ _ _ _ CG9361 _ _ _ _ CG9362 phenylalanine catabolism; GO:0006559 | inferred from sequence similarity; tyrosine catabolism; GO:0006572 | inferred from sequence similarity _ _ _ CG9363 phenylalanine catabolism; GO:0006559 | inferred from sequence similarity; tyrosine catabolism; GO:0006572 | inferred from sequence similarity _ _ _ CG9368 _ _ _ _ CG9369 _ _ _ _ CG9372 _ _ _ _ CG9373 _ _ _ _ CG9374 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG9376 _ _ _ _ CG9377 _ _ _ _ CG9380 _ _ _ _ CG9381 _ _ _ _ CG9384 _ _ _ _ CG9386 _ _ _ _ CG9389 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG9391 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG9392 _ _ _ _ CG9393 protein-mitochondrial targeting; GO:0006626 | inferred from sequence similarity with SWISS-PROT:Q13505 _ _ _ CG9394 _ _ _ _ CG9395 _ _ _ _ CG9396 _ _ _ _ CG9399 _ _ _ _ CG9400 _ _ _ _ CG9404 _ _ _ _ CG9406 _ _ _ _ CG9410 _ _ _ _ CG9411 _ _ _ _ CG9413 _ _ _ _ CG9416 _ _ _ _ CG9422 _ _ _ _ CG9424 _ _ _ _ CG9425 _ _ _ _ CG9426 _ _ _ _ CG9427 _ _ _ _ CG9430 _ _ _ _ CG9431 _ _ _ _ CG9432 _ _ _ _ CG9436 _ _ _ _ CG9437 _ _ _ _ CG9443 _ _ _ _ CG9444 _ _ _ _ CG9445 _ _ _ _ CG9447 _ _ _ _ CG9448 _ _ _ _ CG9449 _ _ _ _ CG9451 _ _ _ _ CG9452 _ _ _ _ CG9454 _ _ _ _ CG9455 _ _ _ _ CG9458 _ _ _ _ CG9459 _ _ _ _ CG9460 _ _ _ _ CG9461 _ _ _ _ CG9463 _ _ _ _ CG9465 _ _ _ _ CG9466 _ _ _ _ CG9467 _ _ _ _ CG9468 _ _ _ _ CG9469 _ _ _ _ CG9471 _ _ _ _ CG9472 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ CG9475 proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SWISS-PROT:P54775 _ _ _ CG9480 _ _ _ _ CG9483 _ _ _ _ CG9485 _ _ _ _ CG9486 _ _ _ _ CG9487 _ _ _ _ CG9488 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG9490 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG9492 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG9497 _ _ _ _ CG9498 _ _ _ _ CG9499 _ _ _ _ CG9500 _ _ _ _ CG9501 _ _ _ _ CG9503 _ _ _ _ CG9504 _ _ _ _ CG9505 _ _ _ _ CG9506 _ _ _ _ CG9507 _ _ _ _ CG9508 _ _ _ _ CG9509 _ _ _ _ CG9510 _ _ _ _ CG9511 _ _ _ _ CG9512 _ _ _ _ CG9514 _ _ _ _ CG9517 _ _ _ _ CG9518 _ _ _ _ CG9519 _ _ _ _ CG9520 _ _ _ _ CG9521 _ _ _ _ CG9522 _ _ _ _ CG9523 _ _ _ _ CG9524 _ _ _ _ CG9525 _ _ _ _ CG9526 _ _ _ _ CG9527 _ _ _ _ CG9528 _ _ _ _ CG9531 _ _ _ _ CG9536 _ _ _ _ CG9541 _ _ _ _ CG9542 _ _ _ _ CG9545 _ _ _ _ CG9547 _ _ _ _ CG9548 _ _ _ _ CG9550 _ _ _ _ CG9551 _ _ _ _ CG9555 _ _ _ _ CG9557 _ _ _ _ CG9558 _ _ _ _ CG9561 _ _ _ _ CG9562 _ _ _ _ CG9568 _ _ _ _ CG9569 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG9570 _ _ _ _ CG9571 _ _ _ _ CG9572 _ _ _ _ CG9573 _ _ _ _ CG9575 _ _ _ _ CG9576 _ _ _ _ CG9577 _ _ _ _ CG9578 _ _ _ _ CG9581 _ _ _ _ CG9582 _ _ _ _ CG9584 _ _ _ _ CG9586 _ _ _ _ CG9587 _ _ _ _ CG9588 proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with NCBI_gi:4506235 _ _ _ CG9589 _ _ _ _ CG9590 _ _ _ _ CG9591 _ _ _ _ CG9592 _ _ _ _ CG9593 _ _ _ _ CG9595 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ CG9596 _ _ _ _ CG9597 _ _ _ _ CG9598 _ _ _ _ CG9600 _ _ _ _ CG9601 _ _ _ _ CG9602 _ _ _ _ CG9603 electron transport; GO:0006118 | inferred from sequence similarity _ _ _ CG9606 _ _ _ _ CG9609 _ _ _ _ CG9613 ubiquinone metabolism; GO:0006743 | inferred from sequence similarity with SGD:COQ2; SGDID:S0005324 _ _ _ CG9615 _ _ _ _ CG9616 _ _ _ _ CG9617 _ _ _ _ CG9619 _ _ _ _ CG9620 GDP-fucose transport; GO:0015783 | non-traceable author statement; GDP-fucose transport; GO:0015783 | traceable author statement _ _ _ CG9622 _ _ _ _ CG9624 _ _ _ _ CG9625 _ _ _ _ CG9626 _ _ _ _ CG9628 _ _ _ _ CG9629 _ _ _ _ CG9630 _ _ _ _ CG9632 _ _ _ _ CG9636 _ _ _ _ CG9637 _ _ _ _ CG9638 _ _ _ _ CG9640 _ _ _ _ CG9641 _ _ _ _ CG9642 _ _ _ _ CG9643 _ _ _ _ CG9644 _ _ _ _ CG9645 _ _ _ _ CG9646 _ _ _ _ CG9649 _ _ _ _ CG9650 _ _ _ _ CG9657 _ _ _ _ CG9662 _ _ _ _ CG9663 _ _ _ _ CG9664 _ _ _ _ CG9665 _ _ _ _ CG9666 _ _ _ _ CG9667 _ _ _ _ CG9669 _ _ _ _ CG9672 _ _ _ _ CG9673 _ _ _ _ CG9674 _ _ _ _ CG9675 _ _ _ _ CG9678 _ _ _ _ CG9682 _ _ _ _ CG9684 _ _ _ _ CG9686 _ _ _ _ CG9689 _ _ _ _ CG9691 _ _ _ _ CG9692 _ _ _ _ CG9698 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ _ _ CG9699 cytokinesis; GO:0016288 | inferred from sequence similarity _ _ _ CG9701 _ _ _ _ CG9702 _ _ _ _ CG9705 _ _ _ _ CG9706 _ _ _ _ CG9710 _ _ _ _ CG9715 _ _ _ _ CG9717 _ _ _ _ CG9722 _ _ _ _ CG9723 _ _ _ _ CG9725 _ _ _ _ CG9727 _ _ _ _ CG9729 _ _ _ _ CG9731 _ _ _ _ CG9733 defense response; GO:0006952 | non-traceable author statement _ _ _ CG9737 _ _ _ _ CG9740 _ _ _ _ CG9742 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003087; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:011170 _ _ _ CG9743 _ _ _ _ CG9746 _ _ _ _ CG9747 _ _ _ _ CG9752 _ _ _ _ CG9753 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG9754 _ _ _ _ CG9757 _ _ _ _ CG9759 _ _ _ _ CG9760 _ _ _ _ CG9764 _ _ _ _ CG9766 _ _ _ _ CG9767 _ _ _ _ CG9769 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ CG9770 _ _ _ _ CG9772 ubiquitin-dependent protein catabolism; GO:0006511 | inferred from sequence similarity with EMBL:AF083215; protein_id:AAD16037 _ _ _ CG9773 _ _ _ _ CG9775 _ _ _ _ CG9777 _ _ _ _ CG9778 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with SWISS-PROT:P29101; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with SWISS-PROT:P29101 _ _ _ CG9779 _ _ _ _ CG9780 _ _ _ _ CG9781 _ _ _ _ CG9782 _ _ _ _ CG9783 _ _ _ _ CG9784 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ CG9790 _ _ _ _ CG9791 _ _ _ _ CG9793 _ _ _ _ CG9795 _ _ _ _ CG9796 _ _ _ _ CG9797 _ _ _ _ CG9798 _ _ _ _ CG9799 _ _ _ _ CG9801 _ _ _ _ CG9804 _ _ _ _ CG9806 _ _ _ _ CG9807 _ _ _ _ CG9809 _ _ _ _ CG9811 _ _ _ _ CG9812 _ _ _ _ CG9813 _ _ _ _ CG9815 _ _ _ _ CG9817 _ _ _ _ CG9818 _ _ _ _ CG9821 _ _ _ _ CG9822 _ _ _ _ CG9825 _ _ _ _ CG9826 _ _ _ _ CG9828 _ _ _ _ CG9836 _ _ _ _ CG9837 _ _ _ _ CG9839 _ _ _ _ CG9843 _ _ _ _ CG9849 _ _ _ _ CG9850 _ _ _ _ CG9851 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ CG9853 _ _ _ _ CG9855 _ _ _ _ CG9861 _ _ _ _ CG9862 _ _ _ _ CG9863 _ _ _ _ CG9864 _ _ _ _ CG9865 _ _ _ _ CG9866 _ _ _ _ CG9867 _ _ _ _ CG9868 _ _ _ _ CG9870 _ _ _ _ CG9871 protein biosynthesis; GO:0006412 | inferred from sequence similarity with MGD:Rpl22; MGI:MGI:99262 _ _ _ CG9873 _ _ _ _ CG9875 _ _ _ _ CG9876 _ _ _ _ CG9877 _ _ _ _ CG9879 _ _ _ _ CG9882 _ _ _ _ CG9883 _ _ _ _ CG9886 _ _ _ _ CG9887 _ _ _ _ CG9890 _ _ _ _ CG9892 _ _ _ _ CG9894 _ _ _ _ CG9895 _ _ _ _ CG9896 _ _ _ _ CG9897 _ _ _ _ CG9898 _ _ _ _ CG9899 _ _ _ _ Cg98F-99A _ _ Collagen-like 88F-99A _ CG9902 _ _ _ _ CG9903 _ _ _ _ CG9906 _ _ _ _ CG9911 _ _ _ _ CG9914 _ _ _ _ CG9915 _ _ _ _ CG9917 _ _ _ _ CG9918 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ CG9919 _ _ _ _ CG9920 _ _ _ _ CG9921 _ _ _ _ CG9922 _ _ _ _ CG9924 _ _ _ _ CG9925 _ _ _ _ CG9926 _ _ _ _ CG9927 _ _ _ _ CG9928 _ _ _ _ CG9929 _ _ _ _ CG9932 _ _ _ _ CG9933 _ _ _ _ CG9934 ubiquitin-dependent protein catabolism; GO:0006511 | inferred from sequence similarity with EMBL:AF043117 _ _ _ CG9935 _ _ _ _ CG9938 _ _ _ _ CG9940 NADH biosynthesis; GO:0006736 | inferred from sequence similarity _ _ _ CG9941 _ _ _ _ CG9945 _ _ _ _ CG9947 _ _ _ _ CG9948 _ _ _ _ CG9951 _ _ _ _ CG9953 _ _ _ _ CG9961 _ _ _ _ CG9962 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ CG9965 _ _ _ _ CG9966 _ _ _ _ CG9967 _ _ _ _ CG9970 _ _ _ _ CG9972 _ _ _ _ CG9973 _ _ _ _ CG9975 _ _ _ _ CG9977 _ _ _ _ CG9978 _ _ _ _ CG9981 _ _ _ _ CG9986 _ _ _ _ CG9987 _ _ _ _ CG9988 _ _ _ _ CG9989 _ _ _ _ CG9990 _ _ _ _ CG9992 _ _ _ _ CG9993 _ _ _ _ CG9994 _ _ _ _ CG9996 _ _ _ _ CG9997 _ _ _ _ Cg9E _ _ Collagen-like 9E _ cgd _ _ congested Recovered in a screen for X-linked genes that affect embryo morphology. ch _ _ chubby _ Cha acetylcholine biosynthesis; GO:0008292 | non-traceable author statement; acetylcholine biosynthesis; GO:0008292 | traceable author statement _ Choline acetyltransferase "A complete Cha cDNA is able to direct the expression of hydrophilic, and amphiphilic enzyme activity in Xenopus oocyte." cha _ _ chaff _ chakra _ _ _ chakra is essential in controlling S-phase entry. chal oogenesis; GO:0007292 | inferred from mutant phenotype _ chalice _ Chap31 _ _ Chromosome-associated protein 31kD _ Chap50 _ _ Chromosome-associated protein 50kD _ Chap71 _ _ Chromosome-associated protein 71kD _ charon _ _ charon _ charybde _ _ _ _ chaste _ _ chaste _ chb mitosis; GO:0007067 | inferred from mutant phenotype; mitotic chromosome segregation; GO:0000070 | inferred from mutant phenotype; mitotic spindle assembly; GO:0007052 | inferred from mutant phenotype; spindle assembly; GO:0007051 | inferred from mutant phenotype _ chromosome bows _ Chc synaptic vesicle coating; GO:0016183 | traceable author statement _ Clathrin heavy chain _ Chd1 _ _ Chromodomain-helicase-DNA-binding protein _ Chd3 _ _ _ _ Chd64 _ _ _ _ CheA29a pheromone response; GO:0019236 | non-traceable author statement _ _ _ CheB42a pheromone response; GO:0019236 | non-traceable author statement _ _ _ chec _ _ che caos _ cher _ _ cheerio "Localization of cher to nascent ring canals is necessary for the, recruitment of actin filaments. cher may link filamentous actin to, the plasma membrane to the ring canal." ches _ _ chestnut _ CHES-1-like _ _ Checkpoint suppressor homologue _ Chi axon guidance; GO:0007411 | inferred from mutant phenotype; neurogenesis; GO:0007399 | inferred from mutant phenotype; transcription; GO:0006350 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype _ Chip _ chi _ _ chianti _ chic actin polymerization and/or depolymerization; GO:0008154 | non-traceable author statement; nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype _ chickadee _ chico insulin receptor signaling pathway; GO:0008286 | inferred from genetic interaction with FLYBASE:InR; FB:FBgn0013984; insulin receptor signaling pathway; GO:0008286 | inferred from genetic interaction with FLYBASE:Pi3k92E; FB:FBgn0015279 _ chico _ chif eggshell formation; GO:0007304 | inferred from mutant phenotype _ chiffon _ CHIP _ _ _ _ Chit cuticle chitin catabolism; GO:0006036 | inferred from sequence similarity with EMBL:U29615; protein_id:AAC50246.1 _ Chitinase-like _ chl _ _ chaetelle _ chm gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:Pc; FB:FBgn0003042 _ chameau _ Chmp1 _ _ _ _ Chn _ _ Cha's neighbor _ chn _ _ charlatan _ cho _ _ chocolate _ CHORD _ _ _ _ chp homophilic cell adhesion; GO:0007156 | inferred from direct assay _ chaoptic _ Chr2 _ _ Chloroform resistant 2 _ Chrac-14 _ _ _ _ Chrac-16 _ _ _ _ Chromator _ _ Chromator "Skeletor and Chromator are nuclear proteins that may be part of, a complex that forms a spindle matrix during mitosis." chrw _ _ chrowded _ chs _ _ chaos _ cht _ _ chaetae _ Cht1 cuticle chitin catabolism; GO:0006036 | inferred from sequence similarity with EMBL:U29615; protein_id:AAC50246.1 _ Chitinase 1 _ Cht2 cuticle chitin catabolism; GO:0006036 | inferred from sequence similarity with EMBL:U29615; protein_id:AAC50246.1 _ Chitinase 2 _ Cht3 cuticle chitin catabolism; GO:0006036 | inferred from sequence similarity with EMBL:U29615; protein_id:AAC50246.1 _ Chitinase 3 _ Cht4 cuticle chitin catabolism; GO:0006036 | inferred from sequence similarity with EMBL:U29615; protein_id:AAC50246.1 _ Chitinase 4 _ Chx1 _ _ _ _ Chx2 _ _ _ _ Chx3 _ _ _ _ chy _ _ chunky _ ci regulation of mitotic cell cycle; GO:0007346 | inferred from mutant phenotype _ cubitus interruptus _ cib brain development; GO:0007420 | inferred from mutant phenotype; brain development; GO:0007420 | inferred from mutant phenotype _ ciboulot cib and chic cooperate in central brain metamorphosis. cic negative regulation of transcription; GO:0016481 | traceable author statement _ capicua cic acts downstream of the tor phosphorylation cascade. cid chromatin assembly/disassembly; GO:0006333 | inferred from sequence similarity with PIR:S06743 _ centromere identifier _ cIF2 translational initiation; GO:0006413 | inferred from sequence similarity; translational initiation; GO:0006413 | inferred from sequence similarity with SGD:FUN12; SGDID:S0000033 _ _ _ cin Mo-molybdopterin cofactor biosynthesis; GO:0006777 | inferred from sequence similarity with SWISS-PROT:Q03555; embryonic development (sensu Insecta); GO:0001700 | traceable author statement _ cinnamon _ Cip4 actin cytoskeleton organization and biogenesis; GO:0030036 | inferred from sequence similarity with SWISS-PROT:Q15642; signal transduction; GO:0007165 | inferred from sequence similarity with SWISS-PROT:Q15642 _ _ _ Cir _ _ _ _ Cirl G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ ck _ _ crinkled _ Cka JNK cascade; GO:0007254 | non-traceable author statement; dorsal closure; GO:0007391 | non-traceable author statement _ Connector of kinase to AP-1 Cka functions in the JNK dorsal closure pathway. CkIalpha DNA repair; GO:0006281 | inferred from direct assay _ Casein kinase I _ CkIIalpha frizzled receptor signaling pathway; GO:0007222 | inferred from direct assay; protein amino acid phosphorylation; GO:0006468 | inferred from direct assay _ Casein kinase II alpha subunit "Casein kinase II specifically phosphorylates a set of serine residues, within the cact PEST domain." CkIIalpha-i1 _ _ CKII-alpha subunit interactor-1 _ CkIIalpha-i3 _ _ CKII-alpha subunit interactor-3 _ CkIIbeta protein amino acid phosphorylation; GO:0006468 | inferred from direct assay _ Casein kinase II beta subunit _ CkIIbeta2 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Casein kinase II beta2 subunit _ Cks protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Cyclin-dependent kinase subunit _ cl _ _ clot _ Clc neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ Clathrin light chain _ Clch _ _ Chloride channel _ cleo _ _ cleopatra Identified by interaction with asp. clg _ _ clootie dumpling _ CLIP-190 microtubule-based process; GO:0007017 | inferred from sequence similarity _ _ _ Clk regulation of sleep; GO:0045187 | inferred from mutant phenotype _ Clock _ clm _ _ clumpy marginals _ cln _ _ clown "cln acts between argos and Ras85D. cln may be important for, argos-mediated inhibition of Egfr activation during development, of various tissues." clo oogenesis; GO:0007292 | inferred from mutant phenotype _ close down _ Clp mRNA cleavage; GO:0006379 | inferred from sequence similarity with protein_id:AAD00321; mRNA polyadenylation; GO:0006378 | inferred from sequence similarity with protein_id:AAD00321 _ Clipper _ clt _ _ cricklet _ clumsy _ _ clumsy _ clv-1 _ _ cloven thorax 1 _ clv-2 _ _ cloven thorax 2 _ clw _ _ clubwing _ Cm _ _ Crimp _ cm non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ carmine _ Cma _ _ Comma _ cmd _ _ carminoid _ cmet microtubule-based movement; GO:0007018 | inferred from sequence similarity; mitotic metaphase plate congression; GO:0007080 | inferred from mutant phenotype _ CENP-meta "cmet is required for the maintenance of chromosomes at the metaphase, plate." cmp _ _ crumpled _ cmp44E _ _ conserved membrane protein at 44E _ cmt _ _ comet _ cn eye pigment biosynthesis; GO:0006726 | non-traceable author statement; ommochrome biosynthesis; GO:0006727 | non-traceable author statement _ cinnabar _ cn20 _ _ _ _ cnc "blastoderm segmentation; GO:0007350 | inferred from mutant phenotype; dorsal/ventral axis determination, oocyte; GO:0008072 | inferred from mutant phenotype; oocyte nucleus anchoring; GO:0042070 | inferred from mutant phenotype; oocyte nucleus anchoring; GO:0042070 | inferred from mutant phenotype; polarization of the oocyte microtubule cytoskeleton; GO:0008103 | inferred from mutant phenotype; regulation of pole plasm bicoid mRNA localization; GO:0008359 | inferred from mutant phenotype; regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype" _ cap-n-collar "cnc has diverse functions in anterior-posterior patterning in the, embryonic head." Cncbeta _ _ Cyclic-nucleotide-gated ion channel protein beta-subunit _ Cng cation transport; GO:0006812 | non-traceable author statement _ Cyclic-nucleotide-gated ion channel protein _ cngl _ _ CNG channel-like _ cni "dorsal/ventral axis determination; GO:0007310 | non-traceable author statement; dorsal/ventral axis determination, follicular epithelium; GO:0008069 | non-traceable author statement; oocyte anterior/posterior axis determination; GO:0007314 | non-traceable author statement" _ cornichon _ cnk _ _ connector enhancer of ksr "The cnk gene product functions in the Ras signaling pathway upstream, or in parallel to phl in transducing signals elicited by receptor, tyrosine kinases." cnn centrosome cycle; GO:0007098 | inferred from mutant phenotype; female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ centrosomin _ cno N receptor signaling pathway; GO:0007219 | traceable author statement; RAS protein signal transduction; GO:0007265 | traceable author statement; dorsal closure; GO:0007391 | traceable author statement _ canoe _ cnr _ _ censor _ Cnx14D _ _ Calnexin 14D _ Cnx99A _ _ Calnexin 99A _ Coa _ _ Coarse _ cob eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ cobblestone _ coc _ _ collapsed ocelli _ cod _ _ capodimonte _ cof _ _ condensed figures "cof is essential for the normal progression through mitosis in, neuroblasts." coi _ _ coitus interruptus _ colt _ _ congested-like trachea "The product of colt is presumed to be involved in a mitochondrial, metabolic process and can be critically required in specific morphogenetic, mechanisms." com _ _ compressed _ com-d _ _ compressed dilapidator _ comm axon guidance; GO:0007411 | non-traceable author statement; axon midline choice point recognition; GO:0016199 | traceable author statement _ commissureless comm downregulates robo expression. comm2 _ _ _ _ comm3 _ _ _ _ complexin synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ complexin _ comt Golgi organization and biogenesis; GO:0007030 | inferred from mutant phenotype _ comatose _ Con fasciculation of neuron; GO:0007413 | traceable author statement; homophilic cell adhesion; GO:0007156 | traceable author statement; synaptic target attraction; GO:0016200 | traceable author statement _ Connectin _ con _ _ condensed _ Cont cell adhesion; GO:0007155 | inferred from sequence similarity with SWISS-PROT:P28685 _ Contactin _ conv tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ convoluted _ deltaCOP retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity; retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity with SWISS-PROT:P53619 _ _ _ zetaCOP _ _ _ _ betaCop retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity with SGD:SEC26; SGDID:S0002646; retrograde (Golgi to ER) transport; GO:0006890 | non-traceable author statement _ beta-coatomer protein "betaCop, a Golgi-associated protein, has been cloned and an antibody raised to, monitor the spatial distribution of Golgi membranes with reference to the rapidly, dividing nuclei in early stages of embryogenesis." alphaCop retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity with SGD:COP1; SGDID:S0002304 _ alpha-coatomer protein _ gammaCop retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity with SWISS-PROT:P53620; retrograde (Golgi to ER) transport; GO:0006890 | non-traceable author statement _ gamma-coatomer protein _ cop _ _ copper _ Coprox heme biosynthesis; GO:0006783 | non-traceable author statement _ Coproporphyrinogen oxidase _ coq _ _ coquilled _ COQ7 ubiquinone metabolism; GO:0006743 | inferred from sequence similarity with SWISS-PROT:Q63619 _ _ _ Cor _ _ Corroded eye _ cora cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with EMBL:AB019257; protein_id:BAA76625.1; embryonic morphogenesis; GO:0009795 | inferred from mutant phenotype _ coracle _ corn _ _ cornetto _ coro _ _ _ _ cort _ _ cortex _ Cortactin cytoskeleton organization and biogenesis; GO:0007010 | inferred from sequence similarity with SWISS-PROT:Q60598 _ Cortactin _ corto _ _ corto _ Cos _ _ Costal _ cos microtubule-based movement; GO:0007018 | inferred from sequence similarity _ costa _ CoVa electron transport; GO:0006118 | non-traceable author statement _ Cytochrome c oxidase subunit Va _ cp _ _ clipped _ Cp1 protein catabolism; GO:0030163 | non-traceable author statement _ Cysteine proteinase-1 _ Cp15 insect chorion formation; GO:0007306 | non-traceable author statement _ Chorion protein 15 _ Cp16 insect chorion formation; GO:0007306 | non-traceable author statement _ Chorion protein 16 _ Cp18 insect chorion formation; GO:0007306 | non-traceable author statement _ Chorion protein 18 _ Cp19 insect chorion formation; GO:0007306 | non-traceable author statement _ Chorion protein 19 _ Cp36 insect chorion formation; GO:0007306 | traceable author statement; oogenesis; GO:0007292 | traceable author statement _ Chorion protein 36 _ Cp38 insect chorion formation; GO:0007306 | non-traceable author statement _ Chorion protein 38 _ Cp70 insect chorion formation; GO:0007306 | inferred from direct assay _ Chorion protein 70 _ Cp7Fa _ _ Chorion protein a at 7F _ Cp7Fb _ _ Chorion protein b at 7F _ Cp7Fc _ _ Chorion protein c at 7F _ cpb _ _ capping protein beta "Molecular and genetic characterization reveals cpb has an essential, function during development. cpb is required to regulate actin assembly, during the development of specialized structures that depend on actin, for their morphology." Cpn _ _ Calphotin _ cpo peripheral nervous system development; GO:0007422 | non-traceable author statement _ couch potato _ Cpr electron transport; GO:0006118 | non-traceable author statement _ Cytochrome P450 reductase _ cpsf mRNA cleavage; GO:0006379 | inferred from sequence similarity with SWISS-PROT:Q10570; mRNA cleavage; GO:0006379 | inferred from sequence similarity with SWISS-PROT:Q10570; mRNA polyadenylation; GO:0006378 | inferred from sequence similarity with SWISS-PROT:Q10570 _ cleavage and polyadenylation specificity factor _ Cpt _ _ Clipt _ CPTI _ _ mitochondrial carnitine palmitoyltransferase I _ CPtp62A intracellular signaling cascade; GO:0007242 | non-traceable author statement; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Cytoplasmic Protein tyrosine phosphatase 62A _ cpw _ _ canopy wing _ cpy _ _ clumpy _ CR _ _ Compensatory Response _ cr _ _ crisp _ cra _ _ crack _ Crag _ _ Calmodulin-binding protein related to a Rab3 GDP/GTP exchange protein _ Cralbp _ _ Cellular retinaldehyde binding protein _ cranky _ _ cranky _ crb establishment and/or maintenance of cell polarity; GO:0007163 | inferred from mutant phenotype; establishment and/or maintenance of polarity of embryonic epithelium; GO:0016332 | inferred from mutant phenotype; establishment and/or maintenance of polarity of follicular epithelium; GO:0016334 | inferred from mutant phenotype; zonula adherens assembly; GO:0045186 | inferred from mutant phenotype; zonula adherens maintenance; GO:0045218 | inferred from mutant phenotype _ crumbs _ Crc _ _ Calreticulin _ crc _ _ cryptocephal _ CrebA salivary gland morphogenesis; GO:0007435 | non-traceable author statement; transcription from Pol II promoter; GO:0006366 | non-traceable author statement _ Cyclic-AMP response element binding protein A _ CrebB-17A learning and/or memory; GO:0007611 | non-traceable author statement; locomotor rhythm; GO:0045475 | non-traceable author statement _ Cyclic-AMP response element binding protein B at 17A CrebB-17A supports cycling of the per/tim oscillator. CrebB-17B _ _ Cyclic-AMP response element binding protein B at 17B _ CREG _ _ Cellular Repressor of E1A-stimulated Genes _ Crg-1 _ _ Circadianly Regulated Gene "Isolated in a molecular screen for transcripts whose abundance undergoes, daily fluctuations in the head. Transcript abundance shows 24 hour, oscillations in LD conditions with the same phase as per and tim, mRNAs. The mRNA cycling persists in complete darkness and depends, on the per and tim proteins." cri _ _ _ _ crib _ _ cribble _ cripA _ _ crippled A _ cripB _ _ crippled B _ cripC _ _ crippled C _ Crk signal transduction; GO:0007165 | non-traceable author statement _ _ _ crl ubiquitin cycle; GO:0006512 | inferred from sequence similarity with SWISS-PROT:O00102 _ courtless crl is involved in male courtship behavior and spermatogenesis. Crlbp _ _ Chemical-sense-related lipophilic-ligand-binding protein _ crle _ _ crippled leg _ crm _ _ cramped "A member of the Pc group. The genetic interaction between crm, and mus209 highlight possible interactions between Pc-group mediated, gene silencing and DNA replication." CRMP _ _ Collapsin Response Mediator Protein _ Crn _ _ Crown _ crn mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:013218 _ crooked neck _ cro _ _ croaker _ croc "specification of segmental identity, head; GO:0007380 | non-traceable author statement" _ crocodile _ crol _ _ crooked legs _ crp _ _ cropped _ Crp22 _ _ Chromatin decondensation protein 22 "Crp22, a 22kD protein purified from early Drosophila embryos, catalyses, rapid and efficient decondensation of Xenopus sperm chromatin." crpe eggshell formation; GO:0007304 | inferred from mutant phenotype _ crepe _ crq apoptosis; GO:0006915 | non-traceable author statement; defense response; GO:0006952 | non-traceable author statement _ croquemort _ crs _ _ cru sterile _ crt _ _ crumpled tips _ Crtp _ _ Caldesmon-related protein _ cru _ _ cream underscored _ Cry _ _ Crystallin _ cry "G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from electronic annotation; UV-A, blue light phototransduction; GO:0009588 | inferred from sequence similarity with HUGO:CRY1; OMIM:601933; UV-A, blue light phototransduction; GO:0009588 | inferred from sequence similarity with HUGO:CRY2; OMIM:603732; circadian rhythm; GO:0007623 | inferred from genetic interaction with FLYBASE:per; FB:FBgn0003068; circadian rhythm; GO:0007623 | inferred from genetic interaction with FLYBASE:tim; FB:FBgn0014396; circadian rhythm; GO:0007623 | inferred from physical interaction with FLYBASE:tim; FB:FBgn0014396" _ cryptochrome _ Crz _ _ Corazonin _ cs _ _ creased _ CS-2 _ _ Chitin synthase 2 _ CS3-1 _ _ "Calcineurin suppressor, chromosome 3, group 1" _ CS3-2 _ _ "Calcineurin suppressor, chromosome 3, group 2" _ CS3-4 _ _ "Calcineurin suppressor, chromosome 3, group 4" _ Csat UDP-galactose transport; GO:0015785 | non-traceable author statement _ _ _ csk _ _ costakink _ csn _ _ casanova _ CSN1a _ _ COP9 complex homolog subunit 1 COP9 signalosome is essential for development. CSN1b _ _ COP9 complex homolog subunit 1 COP9 signalosome is essential for development. CSN3 _ _ COP9 complex homolog subunit 3 COP9 signalosome is essential for development. CSN4 photoreceptor differentiation; GO:0007467 | inferred from mutant phenotype _ COP9 complex homolog subunit 4 COP9 signalosome is essential for development. CSN5 axonogenesis; GO:0007409 | inferred from mutant phenotype; glia cell migration; GO:0008347 | inferred from mutant phenotype; oocyte axis determination; GO:0007309 | inferred from mutant phenotype; photoreceptor differentiation; GO:0007467 | inferred from mutant phenotype _ COP9 complex homolog subunit 5 _ CSN6 _ _ COP9 complex homolog subunit 6 COP9 signalosome is essential for development. CSN7 _ _ COP9 complex homolog subunit 7 COP9 signalosome is essential for development. CSN7b _ _ _ _ CSN8 _ _ _ COP9 signalosome is essential for development. Csp exocytosis; GO:0006887 | inferred from mutant phenotype; synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Cysteine string protein _ Csr _ _ Chaser _ CstF-50 mRNA cleavage; GO:0006379 | inferred from sequence similarity with EMBL:L02547; protein_id:AAA35691.1; mRNA cleavage; GO:0006379 | inferred from sequence similarity with NCBI_NP:001315 _ _ _ CstF-64 mRNA cleavage; GO:0006379 | inferred from sequence similarity with EMBL:U17394; mRNA cleavage; GO:0006379 | inferred from sequence similarity with NCBI_NP:001316 _ Cleavage stimulation factor 64 kilodalton subunit _ csul _ _ capsuleen _ csw EGF receptor signaling pathway; GO:0007173 | inferred from genetic interaction with FLYBASE:Egfr; FB:FBgn0003731; EGF receptor signaling pathway; GO:0007173 | inferred from genetic interaction with FLYBASE:Egfr; FB:FBgn0003731; R7 cell fate commitment; GO:0007465 | inferred from genetic interaction with FLYBASE:sev; FB:FBgn0003366; protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay; torso receptor signaling pathway; GO:0008293 | inferred from genetic interaction with FLYBASE:tor; FB:FBgn0003733 _ corkscrew _ Csyn _ _ Citrate synthase _ ct Malpighian tubule morphogenesis; GO:0007443 | non-traceable author statement; cell fate commitment; GO:0045165 | non-traceable author statement; determination of sensory organ precursor cell fate; GO:0016360 | non-traceable author statement; sensory organ determination; GO:0008052 | non-traceable author statement _ cut _ cta G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with MGD:Gna13; MGI:MGI:95768 _ concertina "cta protein is required for cell shape changes induced by ectopic, fog expression and thus may operate downstream of fog signaling, in wild-type embryos." CtBP _ _ C-terminal Binding Protein _ CTCF _ _ _ _ CTD-kinase _ _ _ "Encodes activities assayed in vitro that phosphorylate the largest, subunit of RNA polymerase II (the product of RpII215) at its C-terminal, repeat domain." ctl _ _ coatless _ ctp microtubule-based movement; GO:0007018 | inferred from sequence similarity _ cut up "ctp, a component of the dynein-dynactin complex, appears to have, a role in normal terminal branching, synaptogenesis and stabilization, of some sensory neurons." Ctr1A _ _ Copper transporter 1A _ Ctr1B _ _ Copper transporter 1B _ Ctr1C _ _ Copper transporter 1C _ ctt _ _ contorted _ ctw _ _ cut wing _ Cu _ _ Curl _ cu _ _ curled _ cu-X _ _ curled on X _ CU31.4 _ _ Cible d'Ubx 31.4 _ CU58 _ _ Cible d'Ubx 58 _ CU61 _ _ Cible d'Ubx 61 _ cub _ _ currant bun _ cuc _ _ cuckold _ cue _ _ cueball _ cuff oogenesis; GO:0007292 | inferred from mutant phenotype _ cutoff _ cui _ _ curvi _ cul-2 _ _ _ _ cul-4 _ _ _ _ cup oogenesis; GO:0007292 | inferred from mutant phenotype _ cup _ cur _ _ curvoid _ cutlet cell proliferation; GO:0008283 | inferred from mutant phenotype _ cutlet _ cv _ _ crossveinless _ cv-2 wing vein specification; GO:0007474 | inferred from mutant phenotype _ crossveinless 2 "cv-2 may act extracellularly or in the secretory pathway to directly, potentiate dpp or gbb signaling in the crossvein." cv-3 _ _ crossveinless 3 _ cv-b _ _ crossveinless b _ cv-c _ _ crossveinless c _ cv-d _ _ crossveinless d _ cwi _ _ crumpled wings _ cx _ _ curlex _ cxb _ _ calyx bulging _ Cy _ _ Curly "Phenotypic variation of the genetic components underlying oviposition, behavior is analyzed using the complete diallel mating design." cyc regulation of sleep; GO:0045187 | inferred from mutant phenotype _ cycle "Clk and cyc, along with other circadian genes per and dco (but, not tim) have roles in regulating cocaine sensitization and may function, as regulators of Tdc." CycA mitosis; GO:0007067 | inferred from mutant phenotype; mitotic sister chromatid separation; GO:0016359 | inferred from mutant phenotype _ Cyclin A _ CycB cytokinesis; GO:0016288 | inferred from mutant phenotype; mitotic anaphase B; GO:0000092 | inferred from mutant phenotype; mitotic chromosome movement; GO:0007079 | inferred from mutant phenotype _ Cyclin B _ CycB3 mitotic spindle assembly; GO:0007052 | inferred from mutant phenotype _ _ _ CycC G1/S transition of mitotic cell cycle; GO:0000082 | non-traceable author statement _ Cyclin C "CycC protein is a nuclear protein present, in a multiprotein complex. CycC protein interacts in vivo with Cdk8, protein." CycD cell proliferation; GO:0008283 | inferred from genetic interaction with FLYBASE:Cdk4; FB:FBgn0016131 _ Cyclin D _ CycE _ _ Cyclin E _ CycG DNA repair; GO:0006281 | non-traceable author statement _ Cyclin G _ CycH transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:CCNH; OMIM:601953; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:CCL1; SGDID:S0006229 _ Cyclin H _ CycJ mitosis; GO:0007067 | inferred from mutant phenotype _ Cyclin J CycJ is required for the early embryonic division cycles. CycK _ _ Cyclin K _ CycT response to heat shock; GO:0006951 | inferred from direct assay; transcription; GO:0006350 | inferred from direct assay _ Cyclin T "CycT encodes the large subunit of P-TEFb (positive transcription, elongation factor b)." Cyd _ _ Curlyoid _ Cyp1 protein folding; GO:0006457 | non-traceable author statement _ Cyclophilin 1 _ Cyp12a2 _ _ Cytochrome P450-12a2 _ Cyp12a4 _ _ _ _ Cyp12a5 _ _ _ _ Cyp12b2 _ _ _ _ Cyp12c1 _ _ _ _ Cyp12d1 _ _ _ _ Cyp12e1 _ _ _ _ Cyp18a1 steroid biosynthesis; GO:0006694 | non-traceable author statement _ Cytochrome P450-18a1 _ Cyp28a5 _ _ _ _ Cyp28c1 _ _ _ _ Cyp28d1 _ _ _ _ Cyp28d2 _ _ _ _ Cyp301a1 _ _ _ _ Cyp303a1 _ _ _ _ Cyp304a1 insecticide metabolism; GO:0017143 | non-traceable author statement _ _ _ Cyp305a1 _ _ _ _ Cyp306a1 insecticide metabolism; GO:0017143 | non-traceable author statement _ _ _ Cyp307a1 _ _ _ _ Cyp308a1 insecticide metabolism; GO:0017143 | non-traceable author statement _ _ _ Cyp309a1 _ _ _ _ Cyp309a2 _ _ _ _ Cyp310a1 _ _ _ _ Cyp311a1 _ _ _ _ Cyp312a1 _ _ _ _ Cyp313a1 insecticide metabolism; GO:0017143 | non-traceable author statement _ _ _ Cyp313a2 _ _ _ _ Cyp313a3 _ _ _ _ Cyp313a4 _ _ _ _ Cyp313a5 _ _ _ _ Cyp313b1 _ _ _ _ Cyp314a1 _ _ _ _ Cyp316a1 _ _ _ _ Cyp317a1 _ _ _ _ cyp33 protein folding; GO:0006457 | non-traceable author statement _ cyclophilin-33 _ Cyp450_U5csm _ _ _ _ Cyp49a1 _ _ _ _ Cyp4aa1 _ _ _ _ Cyp4ac1 _ _ _ _ Cyp4ac2 _ _ _ _ Cyp4ac3 _ _ _ _ Cyp4ad1 _ _ _ _ Cyp4ae1 _ _ Cytochrome P450-4ae1 _ Cyp4c3 _ _ Cytochrome P450-4c3 _ Cyp4d1 _ _ Cytochrome P450-4d1 _ Cyp4d14 _ _ _ _ Cyp4d2 _ _ Cytochrome P450-4d2 _ Cyp4d20 _ _ _ _ Cyp4d21 _ _ _ _ Cyp4d8 _ _ Cytochrome P450-4d8 _ Cyp4e1 _ _ Cytochrome P450-4e1 _ Cyp4e2 _ _ Cytochrome P450-4e2 _ Cyp4e3 _ _ Cytochrome P450-4e3 _ Cyp4g1 _ _ Cytochrome P450-4g1 Transcription unit defined during molecular analysis of the ASC. Cyp4g15 steroid biosynthesis; GO:0006694 | non-traceable author statement _ _ _ Cyp4p1 _ _ Cytochrome P450-4p1 _ Cyp4p2 _ _ _ _ Cyp4p3 _ _ _ _ Cyp4s3 _ _ _ _ Cyp6a13 _ _ _ _ Cyp6a14 _ _ _ _ Cyp6a17 _ _ _ _ Cyp6a18 _ _ _ _ Cyp6a19 _ _ _ _ Cyp6a2 insecticide susceptibility/resistance; GO:0016352 | inferred from direct assay _ Cytochrome P450-6a2 _ Cyp6a20 _ _ _ _ Cyp6a21 _ _ _ _ Cyp6a22 _ _ _ _ Cyp6a23 _ _ _ _ Cyp6a8 _ _ Cytochrome P450-6a8 _ Cyp6a9 insecticide metabolism; GO:0017143 | non-traceable author statement _ Cytochrome P450-6a9 _ Cyp6a9-rAF4-2 _ _ Cytochrome P450-6a9 related AF4-2 _ Cyp6d2 _ _ _ _ Cyp6d4 _ _ _ _ Cyp6d5 _ _ _ _ Cyp6g1 _ _ _ _ Cyp6g2 _ _ _ _ Cyp6t1 _ _ _ _ Cyp6t3 _ _ _ _ Cyp6u1 _ _ _ _ Cyp6v1 _ _ _ _ Cyp6w1 _ _ _ _ Cyp9b1 _ _ Cytochrome P450-9b1 _ Cyp9b2 _ _ Cytochrome P450-9b2 _ Cyp9c1 _ _ Cytochrome P450-9c1 _ Cyp9f2 _ _ _ _ Cyp9f3Psi _ _ _ _ Cyp9h1 _ _ _ _ CypB _ _ Cyclophylin B _ cype _ _ cyclope _ Cypl _ _ Cyclophilin-like Cypl is required for the regulation of ovulation upon mating. cypress _ _ cypress cypress has a function in dendritic development. Cys _ _ Cystatin-like _ cyst tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ cystic _ Cyt-b5 electron transport; GO:0006118 | non-traceable author statement _ _ _ Cyt-b5-r _ _ Cytochrome b5-related _ Cyt-c-d electron transport; GO:0006118 | non-traceable author statement; oxidative phosphorylation; GO:0006119 | inferred from sequence similarity with SGD:CYC1; SGDID:S0003809 _ Cytochrome c distal _ Cyt-c-p electron transport; GO:0006118 | non-traceable author statement; oxidative phosphorylation; GO:0006119 | inferred from sequence similarity with SGD:CYC1; SGDID:S0003809 _ Cytochrome c proximal _ D _ _ Dichaete _ d _ _ dachs _ D1 _ _ D1 chromosomal protein _ D12 _ _ _ _ D19A _ _ _ _ D19B _ _ _ _ D2 _ _ _ _ D2R _ _ _ "Pharmacologic assessment of the D2R reveals that among the, endogenous biogenic amines, dopamine is the most potent agonist., Stimulation of D2R with dopamine triggers pertussis toxin sensitive, Gi/o mediated signaling. The D2 selective agonist, bromocriptine, stimulates the D2R with nanomolar EC50." d4 _ _ _ _ D59 _ _ _ _ da "sex determination, primary response to X:A ratio; GO:0007541 | traceable author statement" _ daughterless "Transfection assays and in vitro DNA binding experiments indicate that, da/sc heterodimers directly activate the Sxl early promoter by, binding to both high and low affinity sites. dpn protein represses, this activation by specific binding to a unique site within the Sxl, early promoter." da::h _ _ _ _ Dab neurogenesis; GO:0007399 | non-traceable author statement _ Disabled _ dac mushroom body development; GO:0016319 | inferred from mutant phenotype; transcription; GO:0006350 | traceable author statement _ dachshund _ Dad regulation of TGFbeta receptor signaling pathway; GO:0017015 | inferred from sequence similarity with EMBL:AF010133 _ Daughters against dpp _ daeh _ _ daeh _ dah "cellularization; GO:0007349 | traceable author statement; cytokinesis, contractile ring assembly; GO:0045573 | non-traceable author statement" _ discontinuous actin hexagon _ Dak1 _ _ _ _ dal _ _ daughterless-like _ dalao chromatin modeling; GO:0006338 | inferred from genetic interaction with FLYBASE:brm; FB:FBgn0000212; chromatin modeling; GO:0006338 | inferred from physical interaction with FLYBASE:brm; FB:FBgn0000212 _ _ "dalao is likely to play a critical role in the function of SWI/SNF, like complexes." dali _ _ _ _ dally sensory organ determination; GO:0008052 | inferred from mutant phenotype _ division abnormally delayed _ dalm _ _ dalmatian _ dame _ _ daughterless maternal enhancer _ Damm apoptosis; GO:0006915 | inferred from genetic interaction with FLYBASE:W; FB:FBgn0003997; induction of apoptosis; GO:0006917 | inferred from mutant phenotype _ Death associated molecule related to Mch2 _ dap _ _ dacapo _ Dap160 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle endocytosis; GO:0008099 | traceable author statement _ Dynamin associated protein 160 _ dare molting cycle (sensu Insecta); GO:0007591 | non-traceable author statement; olfactory behavior; GO:0042048 | non-traceable author statement; steroid biosynthesis; GO:0006694 | non-traceable author statement _ defective in the avoidance of repellents _ DAT _ _ Dopamine transporter _ Dat catecholamine metabolism; GO:0006584 | inferred from direct assay _ Dopamine N acetyltransferase "Structural gene for arylamine N-acetyltransferase; also shows, dopamine acetyltransferase activity." db _ _ dark body _ dbe rRNA processing; GO:0006364 | inferred from mutant phenotype _ dribble _ dbf _ _ double fault _ Dbi acyl-CoA homeostasis; GO:0042049 | inferred from sequence similarity; acyl-CoA homeostasis; GO:0042049 | inferred from sequence similarity with SGD:ACB1; SGDID:S0003269 _ Diazepam-binding inhibitor _ dbl _ _ dichaete beadex lethal _ dbo _ _ diablo _ Dbp45A _ _ DEAD box protein 45A _ Dbp73D _ _ Dead box protein 73D _ Dbp80 _ _ Dead box protein 80 _ Dbx neurogenesis; GO:0007399 | inferred from mutant phenotype _ _ _ dc _ _ dosach _ dch _ _ dark chestnut _ dcm _ _ dark carmine _ dco cell communication; GO:0007154 | inferred from mutant phenotype; circadian rhythm; GO:0007623 | inferred from mutant phenotype; circadian rhythm; GO:0007623 | inferred from mutant phenotype; circadian rhythm; GO:0007623 | inferred from physical interaction; imaginal disc growth; GO:0007446 | inferred from mutant phenotype; imaginal disc growth; GO:0007446 | inferred from mutant phenotype; regulation of ecdysteroid secretion; GO:0007555 | inferred from mutant phenotype; response to cocaine (sensu Insecta); GO:0008341 | inferred from mutant phenotype _ discs overgrown _ Dcp-1 apoptosis; GO:0006915 | inferred from direct assay; apoptotic program; GO:0008632 | inferred from direct assay _ Death caspase-1 "Dcp-1 cleaves caspase substrates and induces apoptosis in cultured, cells." Dcr-1 RNA interference; GO:0016246 | inferred from direct assay _ Dicer-1 _ Dcr-2 RNA interference; GO:0016246 | inferred from direct assay; RNA interference; GO:0016246 | non-traceable author statement _ Dicer-2 _ dd _ _ displaced _ DDB1 nucleotide-excision repair; GO:0006289 | inferred from sequence similarity with EMBL:U32986; nucleotide-excision repair; GO:0006289 | non-traceable author statement _ _ _ DdbP1 "nucleotide-excision repair, DNA incision, 3' to lesion; GO:0006295 | inferred from direct assay; nucleotide-excision repair, DNA incision, 5' to lesion; GO:0006296 | inferred from direct assay" _ Damage-specific DNA-binding protein 1 "DdbP1 has been identified as a 30kD protein which selectively binds, to UV-damaged DNA. DdbP1 protein has been purified and characterized." DdbP2 _ _ Damage-specific DNA-binding protein 2 "DdbP2 has been identified as a 14kD protein which selectively binds, to UV-damaged DNA. DdbP2 protein has been purified and characterized." DdbP3 _ _ Damage-specific DNA-binding protein 3 "DdbP3 has been identified as a protein which selectively binds to, UV-damaged DNA." ddbt _ _ deadbeat _ Ddc "dopamine biosynthesis, from tyrosine; GO:0006585 | inferred from mutant phenotype; serotonin biosynthesis, from tryptophan; GO:0006587 | inferred from mutant phenotype" _ Dopa decarboxylase _ Ddx1 _ _ Dead-box-1 _ Deaf1 _ _ Deformed epidermal autoregulatory factor-1 _ DebA _ _ Developmental embryonic A _ DebB mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003086; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:015508 _ Developmental embryonic B _ DebC _ _ Developmental embryonic C _ debcl apoptosis; GO:0006915 | inferred from sequence similarity with HUGO:BCL2; OMIM:151430; apoptosis; GO:0006915 | inferred from sequence similarity with MGD:Bok; MGI:MGI:1858494; apoptosis; GO:0006915 | inferred from sequence similarity with WB:ced-9 _ death executioner Bcl-2 homologue _ 37591 insect chorion formation; GO:0007306 | traceable author statement; insect chorion formation; GO:0007306 | traceable author statement _ defective chorion 1 "The diverse distributions of the various dec-1 derivatives suggest, that they are functionally distinct and likely to play different roles, in the assembly and stabilization of the mature eggshell." decay apoptosis; GO:0006915 | inferred from mutant phenotype; apoptotic program; GO:0008632 | inferred from sequence similarity with FLYBASE:Cp1; FB:FBgn0013770 _ death executioner caspase related to Apopain/Yama "decay is required for the normal pattern of programmed cell death, in embryogenesis." ded _ _ depleted _ Def antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity _ Defensin _ deg _ _ degarni _ dei _ _ delilah _ Dek _ _ _ _ del oogenesis; GO:0007292 | inferred from mutant phenotype _ deadlock _ demented _ _ demented A divergent member of the dwarfin family. demo _ _ defective modalities _ den _ _ denervated _ Dep2 _ _ _ _ Dep3 _ _ _ _ Dep4 _ _ _ _ der _ _ deranged _ desat1 fatty acid biosynthesis; GO:0006633 | non-traceable author statement _ _ _ desat2 cuticular hydrocarbon biosynthesis; GO:0006723 | non-traceable author statement; fatty acid biosynthesis; GO:0006633 | non-traceable author statement _ _ _ desert _ _ _ _ Det anti-apoptosis; GO:0006916 | inferred from mutant phenotype; anti-apoptosis; GO:0006916 | inferred from sequence similarity with NCBI_gi:6647543 _ Deterin Det acts as an apoptosis inhibitor. det _ _ detached _ Dew _ _ _ _ df _ _ defective _ Df31 _ _ Decondensation factor 31 Df31 protein is involved in chromatin remodeling. dfc _ _ defaced _ Dfd "specification of segmental identity, head; GO:0007380 | non-traceable author statement" _ Deformed _ dfi _ _ deformed eye _ dfk _ _ distal of forkhead _ dft _ _ deformed tergites _ dfw _ _ deflected wing _ Dg cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ Dystroglycan _ dg _ _ don giovanni _ Dgk phosphatidylinositol biosynthesis; GO:0006661 | non-traceable author statement; phosphorylation; GO:0016310 | non-traceable author statement; protein kinase C deactivation; GO:0042313 | non-traceable author statement _ Diacyl glycerol kinase _ Dgkepsilon phosphorylation; GO:0016310 | non-traceable author statement _ Diacyl glycerol kinase epsilon _ Dgp-1 _ _ _ _ Dh _ _ Diuretic hormone _ dh _ _ double halteres _ Dh31 fluid secretion; GO:0007589 | inferred from direct assay; fluid secretion; GO:0007589 | inferred from sequence similarity _ Diuretic hormone 31 _ dh62 _ _ _ dh62 may be involved in the cross-talk between adherens and septate junctions. Dhap-at _ _ Dihydroxyacetone phosphate acyltransferase _ Dhc1 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Dynein heavy chain 1 "Spindle pole movements in embryos are directed by a temporally coordinated, balance of forces generated by three mitotic motors; cytoplasmic dynein,, Klp61F and ncd. Dynein acts to move the poles apart throughout, mitosis, and this activity is augmented by Klp61F after the fenestration, of the nuclear envelope, which occurs at the onset of prometaphase., ncd generates forces that pull the poles together between interphase, and metaphase, antagonizing the activity of both cytoplasmic dynein, and Klp61F and serving as a brake for spindle assembly." Dhc16F microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Dynein heavy chain at 16F "Spindle pole movements in embryos are directed by a temporally coordinated, balance of forces generated by three mitotic motors; cytoplasmic dynein,, Klp61F and ncd. Dynein acts to move the poles apart throughout, mitosis, and this activity is augmented by Klp61F after the fenestration, of the nuclear envelope, which occurs at the onset of prometaphase., ncd generates forces that pull the poles together between interphase, and metaphase, antagonizing the activity of both cytoplasmic dynein, and Klp61F and serving as a brake for spindle assembly." Dhc36C microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Dynein heavy chain at 36C "Spindle pole movements in embryos are directed by a temporally coordinated, balance of forces generated by three mitotic motors; cytoplasmic dynein,, Klp61F and ncd. Dynein acts to move the poles apart throughout, mitosis, and this activity is augmented by Klp61F after the fenestration, of the nuclear envelope, which occurs at the onset of prometaphase., ncd generates forces that pull the poles together between interphase, and metaphase, antagonizing the activity of both cytoplasmic dynein, and Klp61F and serving as a brake for spindle assembly." Dhc62B microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Dynein heavy chain at 62B "Spindle pole movements in embryos are directed by a temporally coordinated, balance of forces generated by three mitotic motors; cytoplasmic dynein,, Klp61F and ncd. Dynein acts to move the poles apart throughout, mitosis, and this activity is augmented by Klp61F after the fenestration, of the nuclear envelope, which occurs at the onset of prometaphase., ncd generates forces that pull the poles together between interphase, and metaphase, antagonizing the activity of both cytoplasmic dynein, and Klp61F and serving as a brake for spindle assembly." Dhc64C microtubule-based movement; GO:0007018 | inferred from direct assay _ Dynein heavy chain 64C _ Dhc93AB microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Dynein heavy chain at 93AB "Spindle pole movements in embryos are directed by a temporally coordinated, balance of forces generated by three mitotic motors; cytoplasmic dynein,, Klp61F and ncd. Dynein acts to move the poles apart throughout, mitosis, and this activity is augmented by Klp61F after the fenestration, of the nuclear envelope, which occurs at the onset of prometaphase., ncd generates forces that pull the poles together between interphase, and metaphase, antagonizing the activity of both cytoplasmic dynein, and Klp61F and serving as a brake for spindle assembly." Dhc98D microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Dynein heavy chain at 89D "Spindle pole movements in embryos are directed by a temporally coordinated, balance of forces generated by three mitotic motors; cytoplasmic dynein,, Klp61F and ncd. Dynein acts to move the poles apart throughout, mitosis, and this activity is augmented by Klp61F after the fenestration, of the nuclear envelope, which occurs at the onset of prometaphase., ncd generates forces that pull the poles together between interphase, and metaphase, antagonizing the activity of both cytoplasmic dynein, and Klp61F and serving as a brake for spindle assembly." dhd electron transport; GO:0006118 | non-traceable author statement; embryonic morphogenesis; GO:0009795 | non-traceable author statement; female meiosis; GO:0007143 | non-traceable author statement _ deadhead _ Dhfr "'de novo' IMP biosynthesis; GO:0006189 | non-traceable author statement; folic acid and derivative metabolism; GO:0006760 | non-traceable author statement; glycine biosynthesis; GO:0006545 | non-traceable author statement; nucleobase, nucleoside, nucleotide and nucleic acid metabolism; GO:0006139 | non-traceable author statement; pyrimidine deoxyribonucleotide interconversion; GO:0015955 | non-traceable author statement" _ Dihydrofolate reductase _ Dhh1 _ _ DEAD/DEAH RNA helicase 1 _ dhm _ _ dark hairy margins _ Dhod 'de novo' pyrimidine biosynthesis; GO:0006207 | non-traceable author statement _ Dihydroorotate dehydrogenase _ DhpO _ _ Dihydropterin oxidase _ Dhpr _ _ Dihydropteridine reductase _ Di _ _ Dopachrome isomerase _ dia cellularization; GO:0007349 | traceable author statement _ diaphanous dia has a role in actin cytoskeleton organization. Dia1 _ _ Diaphorase 1 _ Dia2 _ _ Diaphorase 2 _ Dia6 _ _ Diaphorase 6 _ Dia7 _ _ Diaphorase 7 _ dib dorsal closure; GO:0007391 | inferred from mutant phenotype; ecdysone biosynthesis; GO:0006697 | inferred from mutant phenotype; embryonic cuticle biosynthesis (sensu Insecta); GO:0008362 | inferred from mutant phenotype; head involution; GO:0008258 | inferred from mutant phenotype; midgut development; GO:0007494 | inferred from mutant phenotype _ disembodied _ dic _ _ dicephalic _ did _ _ diminished discs _ didum _ _ dilute class unconventional myosin _ Diego _ _ Diego _ Dif defense response; GO:0006952 | traceable author statement _ Dorsal-related immunity factor _ dif eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ disordered facets _ dik _ _ diskette _ dil _ _ dilute _ dimm _ _ dimmed _ Din _ _ Dinty _ Dip-1 _ _ Dipeptidase 1 _ Dip-2 _ _ Dipeptidase 2 _ Dip-3 _ _ Dipeptidase 3 _ Dip-A _ _ Dipeptidase A _ Dip-B _ _ Dipeptidase B _ Dip-C _ _ Dipeptidase C _ DIP1 _ _ DISCO Interacting Protein 1 _ Dip1 _ _ Dorsal interacting protein 1 _ DIP2 _ _ DISCO Interacting Protein 2 _ Dip2 _ _ Dorsal interacting protein 2 _ Dip3 _ _ Dorsal interacting protein 3 _ Dipp _ _ Defective in phototaxis plasticity _ dipp-3 _ _ defective in phototaxis plasticity 3 _ dipp-4 _ _ defective in phototaxis plasticity 4 _ dipp-5 _ _ defective in phototaxis plasticity 5 _ dipp-6 _ _ defective in phototaxis plasticity 6 _ dipp-7 _ _ defective in phototaxis plasticity 7 _ dipp-8 _ _ defective in phototaxis plasticity 8 _ Dipr _ _ Distal into proximal _ dis _ _ distorted eye _ Dis3 _ _ _ _ disco eclosion rhythm; GO:0008062 | inferred from mutant phenotype; locomotor rhythm; GO:0045475 | inferred from mutant phenotype _ disconnected "disco and disco-r appear to have redundant functions during development, of the larval head. Presence of either gene is sufficient for normal, development of the mandibular, maxillary and labial lobes." disco-r _ _ disco-related "disco and disco-r appear to have redundant functions during development, of the larval head. Presence of either gene is sufficient for normal, development of the mandibular, maxillary and labial lobes." disd _ _ dispersed _ disp _ _ dispatched "disp is required only in posterior compartment cells for effective, hh signaling to anterior compartment cells. disp functions to, release cholesterol-anchored hh protein." diva _ _ divagari _ dizzy axon target recognition; GO:0007412 | inferred from mutant phenotype _ dizzy _ dj _ _ don juan "dj has been cloned and characterized. dj encodes a sperm specific, product, and is first transcribed during meiotic prophase, although, dj protein is only found in postmeiotic germ cells." dj-1beta _ _ _ _ Dk _ _ Daughter killer _ DK-4 _ _ _ _ dkb _ _ dark bubbly _ dke _ _ dark eye _ dkn _ _ deathknell _ Dl antennal morphogenesis; GO:0007469 | inferred from mutant phenotype; leg morphogenesis; GO:0007480 | inferred from mutant phenotype _ Delta _ dl "immune response; GO:0006955 | inferred from expression pattern; maternal determination of anterior/posterior axis, embryo; GO:0008358 | inferred from mutant phenotype" _ dorsal _ Dl-l _ _ Delta-like _ Dlc90F microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Dynein light chain 90F Dlc90F is required for production of functional sperms. dlg1 establishment and/or maintenance of polarity of follicular epithelium; GO:0016334 | inferred from genetic interaction with FLYBASE:l(2)gl; FB:FBgn0002121 _ discs large 1 _ dlg2 _ _ discs large 2 _ Dlic2 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ Dll "analia morphogenesis (sensu Insecta); GO:0007487 | traceable author statement; antennal morphogenesis; GO:0007469 | traceable author statement; leg disc proximal/distal pattern formation; GO:0007479 | traceable author statement; proximal/distal pattern formation, imaginal disc; GO:0007449 | traceable author statement" _ Distal-less _ dlmd _ _ dorsal longitudinal muscle-defective _ DLP _ _ Daxx-like protein _ dlp _ _ dally-like _ dlt establishment and/or maintenance of polarity of follicular epithelium; GO:0016334 | inferred from physical interaction with FLYBASE:crb; FB:FBgn0000368 _ discs lost "dlt plays a crucial role in the polarization of embryonic epithelia, during cellular blastoderm formation." Dlw _ _ Dorsal wing _ Dly _ _ Delayed recovery _ dm oogenesis; GO:0007292 | traceable author statement; positive regulation of body size; GO:0040018 | traceable author statement; positive regulation of cell growth; GO:0030307 | traceable author statement; regulation of cell cycle; GO:0000074 | traceable author statement _ diminutive "dm links patterning signals to cell division by regulating primary, targets involved in cellular growth and metabolism. wg patterns, growth in the wing primordium by modulating dm expression." Dmn microtubule-based movement; GO:0007018 | inferred from sequence similarity _ Dynamitin _ Dmnd _ _ Dimethylnitrosamine demethylase _ dmrt11E _ _ doublesex-Mab related 11E "May encode a non-sex-specific factor that acts in conjunction with, sex-specific dsx proteins to direct specific aspects of sexual, differentiation." dmrt93B _ _ doublesex-Mab related 93B "May encode a non-sex-specific factor that acts in conjunction with, sex-specific dsx proteins to direct specific aspects of sexual, differentiation." dmrt99B _ _ doublesex-Mab related 99B "May encode a non-sex-specific factor that acts in conjunction with, sex-specific dsx proteins to direct specific aspects of sexual, differentiation." Dms _ _ Dromyosuppressin _ dmt _ _ dalmatian _ dn _ _ doughnut _ DNA-ligI _ _ DNA ligase I _ DNA-ligII _ _ DNA ligase II _ DnaJ-1 _ _ DnaJ-like-1 _ DnaJ-60 spermatogenesis; GO:0007283 | non-traceable author statement _ DnaJ-like-60 _ DNApol-alpha180 DNA strand elongation; GO:0006271 | non-traceable author statement _ DNA polymerase alpha 180kD _ DNApol-alpha50 "DNA replication; GO:0006260 | non-traceable author statement; DNA replication, priming; GO:0006269 | inferred from sequence similarity" _ DNA polymerase alpha 50kD _ DNApol-alpha60 DNA dependent DNA replication; GO:0006261 | traceable author statement _ DNA polymerase alpha 60kD _ DNApol-alpha73 DNA dependent DNA replication; GO:0006261 | inferred from sequence similarity _ DNA polymerase alpha 73kD "A monoclonal antibody to the 72kD protein stains interphase nuclei, but, not metaphase chromosomes., The protein is present in the embryo as a maternal product." DNApol-delta lagging strand elongation; GO:0006273 | non-traceable author statement; leading strand elongation; GO:0006272 | non-traceable author statement _ DNA-polymerase-delta _ DNApol-eta bypass DNA synthesis; GO:0019985 | inferred from direct assay; bypass DNA synthesis; GO:0019985 | inferred from sequence similarity with HUGO:POLH; OMIM:603968 _ _ _ DNApol-epsilon DNA dependent DNA replication; GO:0006261 | inferred from direct assay _ DNA polymerase epsilon _ DNApol-gamma35 DNA dependent DNA replication; GO:0006261 | inferred from physical interaction with FLYBASE:tam; FB:FBgn0004406 _ DNA polymerase gamma 35kD _ DNApol-iota bypass DNA synthesis; GO:0019985 | inferred from direct assay; bypass DNA synthesis; GO:0019985 | inferred from sequence similarity with HUGO:POLI; OMIM:605252 _ _ _ DNAprim DNA replication; GO:0006260 | non-traceable author statement _ _ _ DNase2 _ _ Deoxyribonuclease 2 _ DNAseII _ _ Deoxyribonuclease II _ dnc behavior; GO:0007610 | traceable author statement; courtship behavior; GO:0007619 | traceable author statement; courtship behavior; GO:0007619 | traceable author statement; learning and/or memory; GO:0007611 | traceable author statement; olfactory learning; GO:0008355 | traceable author statement; olfactory learning; GO:0008355 | traceable author statement; oogenesis; GO:0007292 | traceable author statement _ dunce _ dnk nucleoside-diphosphate phosphorylation; GO:0006165 | inferred from direct assay; nucleoside-diphosphate phosphorylation; GO:0006165 | inferred from direct assay; nucleoside-diphosphate phosphorylation; GO:0006165 | inferred from direct assay _ deoxyribonucleoside kinase "dnk encodes a multifunctional deoxynucleoside kinase that can phosphorylate, all four deoxynucleosides with high efficiency." Dns _ _ Dense _ dnt protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; signal transduction; GO:0007165 | inferred from sequence similarity _ doughnut on 2 _ Dnz1 _ _ DNZDHHC/NEW1 zinc finger protein 11 _ Doa NOT MAPKKK cascade; GO:0000165 | inferred from genetic interaction with FLYBASE:rl; FB:FBgn0003256; NOT MAPKKK cascade; GO:0000165 | inferred from genetic interaction with FLYBASE:sev; FB:FBgn0003366; NOT MAPKKK cascade; GO:0000165 | inferred from genetic interaction with FLYBASE:sina; FB:FBgn0003410; NOT MAPKKK cascade; GO:0000165 | inferred from genetic interaction with FLYBASE:svp; FB:FBgn0003651 _ Darkener of apricot _ Doc1 _ _ Dorsocross1 _ Doc2 _ _ Dorsocross2 _ Doc3 _ _ Dorsocross3 _ dock axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Dscam; FB:FBgn0033159; axon guidance; GO:0007411 | traceable author statement _ dreadlocks "dock facilitates synapse formation by the RP3 motoneuron and is required, for guidance of some interneuronal axons. dock mediated signaling, may be important in remodelling the RP3 growth cone's cytoskelton." dod _ _ dodo _ dode _ _ dorsal deviant _ Doe _ _ Downstream of Eyeless _ dog _ _ dog of glass _ dom gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:E(z); FB:FBgn0000629; gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:Pc; FB:FBgn0003042; gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:ash1; FB:FBgn0005386; gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:brm; FB:FBgn0000212; gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:mxc; FB:FBgn0005639; gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:ph-p; FB:FBgn0004861; gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:trx; FB:FBgn0003862 _ domino _ dome JAK-STAT cascade; GO:0007259 | inferred from genetic interaction with FLYBASE:Stat92E; FB:FBgn0016917; JAK-STAT cascade; GO:0007259 | inferred from genetic interaction with FLYBASE:hop; FB:FBgn0004864; JAK-STAT cascade; GO:0007259 | inferred from genetic interaction with FLYBASE:os; FB:FBgn0004956; JAK-STAT cascade; GO:0007259 | inferred from genetic interaction with FLYBASE:os; FB:FBgn0004956 _ domeless _ dop _ _ drop out _ DopR dopamine receptor signaling pathway; GO:0007212 | inferred from sequence similarity _ Dopamine receptor _ DopR2 dopamine receptor signaling pathway; GO:0007212 | inferred from sequence similarity _ Dopamine receptor 2 "DopR2 when expressed in Xenopus oocytes couples to two second messenger, systems: initiation of an intracellular calcium signal and stimulation, of adenylyl cyclase activity." dor endosome to lysosome transport; GO:0008333 | traceable author statement; eye pigment biosynthesis; GO:0006726 | traceable author statement _ deep orange _ dos _ _ daughter of sevenless "The interaction between csw and dos proteins is dependent on csw, SH2 domain function." Dot _ _ Dorothy Isolated as an enhancer-trap expressed in lymph glands. dot _ _ dotted _ dow _ _ downy _ Dox-A2 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD3; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN3; SGDID:S0000823 _ Diphenol oxidase A2 _ Dox-A3 defense response; GO:0006952 | non-traceable author statement _ Diphenol oxidase A3 _ Dp "dorsal/ventral axis determination, follicular epithelium; GO:0008069 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype; regulation of cell cycle; GO:0000074 | inferred from mutant phenotype" _ DP transcription factor _ dp _ _ dumpy "Phenotypic variation of the genetic components underlying oviposition, behavior is analyzed using the complete diallel mating design." Dp1 _ _ Dodeca-satellite-binding protein 1 _ dp1 _ _ _ _ dpa pre-replicative complex formation and maintenance; GO:0006267 | inferred from sequence similarity with MGD:Mcmd4; MGI:MGI:103199 _ disc proliferation abnormal _ Dph5 _ _ Diphthamide methyltransferase _ Dpit47 _ _ DNA polymerase interacting tpr containing protein of 47kD _ dpld _ _ dappled _ dpn "negative regulation of transcription; GO:0016481 | non-traceable author statement; sex determination, establishment of X:A ratio; GO:0007540 | non-traceable author statement" _ deadpan _ dpp TGFbeta receptor signaling pathway; GO:0007179 | inferred from sequence similarity with MGD:Bmp4; MGI:MGI:88180 _ decapentaplegic _ DPR1 taste aversion; GO:0001661 | non-traceable author statement _ _ _ Dpt antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern _ Diptericin _ DptB antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from sequence similarity _ Diptericin B _ dpy _ _ dumpyoidy _ Dr "dorsal/ventral pattern formation, imaginal disc; GO:0007450 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype" _ Drop _ dra _ _ drache _ drb _ _ dark red brown _ drd _ _ drop dead _ dre _ _ dark red _ dre4 DNA unwinding; GO:0006268 | inferred from sequence similarity with EMBL:AB004794; protein_id:BAA76334.1 _ _ _ dream _ _ _ _ Dredd apoptotic program; GO:0008632 | inferred from genetic interaction with FLYBASE:rpr; FB:FBgn0011706; defense response; GO:0006952 | inferred from mutant phenotype _ Death related ced-3/Nedd2-like protein Transcription unit defined during molecular analysis of the su(s) region. Dref _ _ DNA replication-related element factor "Dref is required for normal DNA replication in both the mitotic cell, cycle and endo cycle." drg _ _ dregs _ Drip water transport; GO:0006833 | inferred from sequence similarity with PIR:I39178; water transport; GO:0006833 | non-traceable author statement _ Drip _ drk RAS protein signal transduction; GO:0007265 | inferred from physical interaction with FLYBASE:Sos; FB:FBgn0001965; RAS protein signal transduction; GO:0007265 | inferred from physical interaction with FLYBASE:sev::tor; FB:FBgn0014284; RAS protein signal transduction; GO:0007265 | inferred from physical interaction with HUGO:EGFR; OMIM:13155; RAS protein signal transduction; GO:0007265 | inferred from sequence similarity with HUGO:GRB2; OMIM:108355; RAS protein signal transduction; GO:0007265 | inferred from sequence similarity with MGD:Grb2; MGI:MGI:95805 _ downstream of receptor kinase _ drl axon guidance; GO:0007411 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ derailed _ Drl-2 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Derailed 2 _ drm hindgut morphogenesis; GO:0007442 | inferred from mutant phenotype _ drumstick drm is required for patterning of the hindgut. Dro anti-Gram-negative bacterial polypeptide induction; GO:0006964 | non-traceable author statement; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern _ Drosocin _ drongo _ _ drongo drongo is also expressed during oogenesis. drosha _ _ _ _ Drp1 _ _ Dynamin related protein 1 _ drpr _ _ draper _ Drs antifungal humoral response (sensu Invertebrata); GO:0006966 | inferred from expression pattern; antifungal humoral response (sensu Invertebrata); GO:0006966 | non-traceable author statement _ Drosomycin "Dif and dl are functionally redundant in their ability to control, Drs gene expression in larvae." drw _ _ droopy wings _ ds establishment of ommatidial polarity (sensu Drosophila); GO:0042067 | inferred from mutant phenotype _ dachsous "ds play an important role in the regulation planar polarity in the, compound eye." Dscam axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:dock; FB:FBgn0010583 _ Down syndrome cell adhesion molecule _ dsf sex determination; GO:0007530 | traceable author statement _ dissatisfaction _ dsh establishment of ommatidial polarity (sensu Drosophila); GO:0042067 | inferred from mutant phenotype; oogenesis; GO:0007292 | traceable author statement _ dishevelled _ Dsk _ _ Drosulfakinin _ dsl _ _ diskless _ Dsor1 signal transduction; GO:0007165 | inferred from genetic interaction; signal transduction; GO:0007165 | inferred from mutant phenotype _ Downstream of raf1 "Downstream signal transducer of torso, sevenless and DER receptors." Dsor3 _ _ Downstream of raf 3 _ dsp _ _ dispersed _ Dsp1 DNA unwinding; GO:0006268 | non-traceable author statement _ Dorsal switch protein 1 Dsp1 may act as a chromatin remodeling factor. dsr _ _ disrupted _ dsRNABP5 _ _ ds-RNA binding protein 5 _ dsRNABP6 _ _ ds-RNA binding protein 6 _ dss _ _ disturbed segmentation _ lambdaDsubFC4 _ _ _ _ dsx female genital morphogenesis (sensu Insecta); GO:0007486 | inferred from genetic interaction with FLYBASE:tra2; FB:FBgn0003742; male genital morphogenesis (sensu Insecta); GO:0007485 | inferred from genetic interaction with FLYBASE:tra2; FB:FBgn0003742 _ doublesex _ dsx-c21C _ _ doublesex cognate 21C _ dsx-c35A _ _ doublesex cognate 35A _ dsx-c50F _ _ doublesex cognate 50F _ dsx-c73A _ _ doublesex cognate 73A _ dsx-c88D _ _ doublesex cognate 88D _ dsx-c98D _ _ doublesex cognate 98D _ dta _ _ delta wing _ DTD44.3 _ _ _ _ DTD44.4 _ _ _ _ DTD44.5 _ _ _ _ DTD45.1 _ _ _ _ DTD45.10 _ _ _ _ DTD45.11 _ _ _ _ DTD45.7 _ _ _ _ DTD45.8 _ _ _ _ DTD46.5 _ _ _ _ DTD46.6 _ _ _ _ DTD46.8 _ _ _ _ Dtf-1 _ _ _ _ dtr _ _ defective transmitter release encodes a product involved in transmitter distribution and release. du _ _ dunkel _ dud _ _ dud _ dup DNA replication; GO:0006260 | inferred from mutant phenotype; DNA replication checkpoint; GO:0000076 | inferred from mutant phenotype; eggshell formation; GO:0007304 | inferred from mutant phenotype _ double parked dup plays a direct role in DNA replication. Dup99B _ _ Ductus ejaculatorius peptide "Encodes a male peptide involved in mating elicited reduction of sexual, receptivity increase of oviposition." dust _ _ double stalk "dust is required in the tip cells of the Malpighian tubules for neuronal, differentiation and proliferation control." dv _ _ divergent _ dv2 _ _ divergent 2 _ dve _ _ defective proventriculus _ dvr _ _ divers _ dvw _ _ divergent wings _ dw-24E _ _ dwarf 24F _ dw-sc _ _ dwarf with scute _ dwg _ _ deformed wings _ dwh _ _ dwarfish _ dwx _ _ dwarfex _ dx N receptor signaling pathway; GO:0007219 | inferred from genetic interaction with FLYBASE:Dl; FB:FBgn0000463; N receptor signaling pathway; GO:0007219 | inferred from genetic interaction with FLYBASE:H; FB:FBgn0001169; N receptor signaling pathway; GO:0007219 | inferred from genetic interaction with FLYBASE:N; FB:FBgn0004647; N receptor signaling pathway; GO:0007219 | inferred from genetic interaction with FLYBASE:Su(H); FB:FBgn0004837; N receptor signaling pathway; GO:0007219 | inferred from genetic interaction with FLYBASE:mam; FB:FBgn0002643; N receptor signaling pathway; GO:0007219 | inferred from genetic interaction with FLYBASE:sno; FB:FBgn0005410; N receptor signaling pathway; GO:0007219 | inferred from physical interaction with FLYBASE:N; FB:FBgn0004647 _ deltex _ dy circadian rhythm; GO:0007623 | non-traceable author statement; eclosion rhythm; GO:0008062 | non-traceable author statement; locomotor rhythm; GO:0045475 | non-traceable author statement; wing morphogenesis; GO:0007476 | non-traceable author statement _ dusky "Genetic mosaic analysis identifies the tissues that require the Andante, product." Dyb _ _ Dystrobrevin-like _ dynactin-subunit-p25 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ dynamin-2 synaptic vesicle budding; GO:0016185 | non-traceable author statement _ _ _ Dyrk3 _ _ _ _ DyrkH _ _ _ _ Dys _ _ dystrophin _ e cuticle tanning; GO:0007593 | inferred from mutant phenotype _ ebony "Phenotypic variation of the genetic components underlying oviposition, behavior is analyzed using the complete diallel mating design." E(gammaTub37C[1]) _ _ Enhancer of gamma-Tubulin at 37C _ E(A[53g]) _ _ Enhancer of abnormal abdomen-53g _ E(ade2) _ _ Enhancer of ade2 _ E(B)2A _ _ Enhancer of Bar 2A _ E(Brd)M10 _ _ Enhancer of Bearded _ E(bx) nucleosome assembly; GO:0006334 | non-traceable author statement _ Enhancer of bithorax "NURF, a protein complex of four subunits Caf1, Nurf-38, E(bx), and Iswi, is able to facilitate transcription mediated by a Scer\GAL4, derivative carrying a constitutively activating region from Hsf., Once nucleosome remodelling by the DNA binding factor is accomplished, a high level of NURF activity is not continuously required for recruitment, of the general transcription machinery and transcription initiation., NURF is able to assist gene activation in a chromatin context: remodel, nucleosomes for gene activation in chromatin." E(cact[E10])11 _ _ "Enhancer of cactus[E10], number 11" _ E(cact[E10])81 _ _ "Enhancer of cactus[E10], number 81" _ E(csw)3B _ _ _ _ E(da) _ _ Enhancer of daughterless _ E(Dl)9P39.3 _ _ Enhancer of Delta 9P39.3 _ E(Dl)9P39.8 _ _ Enhancer of Delta 9P39.8 _ E(Dl)D165 _ _ Enhancer of Delta D165 _ E(Dl)D72 _ _ Enhancer of Delta D72 _ E(Dl)F10 _ _ Enhancer of Delta F10 _ E(Dl)F14 _ _ Enhancer of Delta F14 _ E(Dl)F167 _ _ Enhancer of Delta F167 _ E(Dl)F25 _ _ Enhancer of Delta F25 _ E(Dl)F42 _ _ Enhancer of Delta F42 _ E(Dl)KP254 _ _ Enhancer of Delta KP254 _ E(Dl)KP420 _ _ Enhancer of Delta KP420 _ e(dp[v]) _ _ enhancer of dumpy-vortex _ E(dpp)55A _ _ _ _ E(dpp)66C _ _ _ _ E(DTW) _ _ _ _ E(E2f)2B _ _ _ _ E(Egfr)B56 _ _ Enhancer of Egfr B56 _ E(Egfr)C12 _ _ Enhancer of Egfr C12 _ E(Egfr)C22 _ _ Enhancer of Egfr C22 _ e(fa[swb]) _ _ enhancer of facet-strawberry _ E(faf)bE160 _ _ Enhancer of faf bE160 _ E(faf)bE184 _ _ Enhancer of faf bE184 _ E(faf)bE365 _ _ Enhancer of faf bE365 _ E(faf)E1051 _ _ Enhancer of faf E1051 _ E(faf)E254 _ _ Enhancer of faf E254 _ E(faf)E263 _ _ Enhancer of faf E263 _ E(faf)E306 _ _ Enhancer of faf E306 _ E(faf)E337 _ _ Enhancer of faf E337 _ E(gl)2A _ _ Enhancer of glass 2A _ E(gl)2B _ _ Enhancer of glass 2B _ E(gl)2C _ _ Enhancer of glass 2C _ E(gl)2D _ _ Enhancer of glass 2D _ E(gl)2E _ _ Enhancer of glass 2E _ E(gl)2F _ _ Enhancer of glass 2F _ E(gl)2G _ _ Enhancer of glass 2G _ E(gl)2H _ _ Enhancer of glass 2H _ E(gl)3A _ _ Enhancer of glass 3A _ E(gl)3B _ _ Enhancer of glass 3B _ E(gl)3C _ _ Enhancer of glass 3C _ E(gl)3D _ _ Enhancer of glass 3D _ E(hop[Tum]) _ _ Enhancer of hop[Tum] _ e(if)1 _ _ enhancer of inflated 1 _ E(Khc)ek10 _ _ _ _ E(Khc)ek2 _ _ _ _ E(Khc)ek3 _ _ _ _ E(Khc)ek4 _ _ _ _ E(Khc)ek5 _ _ _ _ E(Khc)ek6 _ _ _ _ E(Khc)ek7 _ _ _ _ E(Khc)ek8 _ _ _ _ E(Khc)ek9 _ _ _ _ E(lt[v])319 _ _ _ _ E(lt[v])335 _ _ _ _ E(lz) _ _ Enhancer of lozenge _ E(lz)15 _ _ _ _ E(lz)174 _ _ _ _ E(lz)178 _ _ _ _ E(lz)205 _ _ _ _ E(lz)53 _ _ _ _ E(Mer)IIb _ _ _ _ E(Mer)IIIa _ _ _ _ e(mr) _ _ enhancer of morula _ E(mus304) _ _ Enhancer of mus304 _ E(nd)195 _ _ Enhancer(notchoid)195 _ e(olfC) _ _ _ _ E(Pc) _ _ Enhancer of Polycomb "Mosaic and expression pattern analysis reveals that the Pc-group genes, do not act only in a common complex or pathway: they must have some, independent functions." E(Pc)17B _ _ _ _ e(Pc)84DE _ _ _ _ e(Pi3K92E)alpha _ _ _ _ e(Pi3K92E)beta _ _ _ _ e(Pi3K92E)delta _ _ _ _ e(Pi3K92E)gamma _ _ _ _ e(r) regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement _ enhancer of rudimentary _ E(ro[DOM])1065 _ _ _ _ E(ro[DOM])1777 _ _ _ _ E(ro[DOM])1801 _ _ _ _ E(ro[DOM])2051 _ _ _ _ E(ro[DOM])2409 _ _ _ _ E(ro[DOM])3222 _ _ _ _ E(ro[DOM])50 _ _ _ _ E(rst)A5 _ _ _ _ E(rst)B203 _ _ _ _ E(rst)B246 _ _ _ _ E(rst)B37 _ _ _ _ E(rst)B47 _ _ _ _ E(rst)B50 _ _ _ _ E(rst)B54 _ _ _ _ E(rst)B6 _ _ _ _ E(rst)B80 _ _ _ _ E(rst)B92 _ _ _ _ E(rst)B94 _ _ _ _ E(rst)C109 _ _ _ _ E(rst)C137 _ _ _ _ E(rst)C14 _ _ _ _ E(rst)C162 _ _ _ _ E(rst)C210 _ _ _ _ E(rst)C317 _ _ _ _ E(rst)C329 _ _ _ _ E(rst)C349 _ _ _ _ E(rst)C383 _ _ _ _ E(rst)C384 _ _ _ _ E(rst)C389 _ _ _ _ E(rst)C408 _ _ _ _ E(rst)C41 _ _ _ _ E(rst)C421 _ _ _ _ E(rst)C45 _ _ _ _ E(rst)C463 _ _ _ _ E(rst)C532 _ _ _ _ E(rst)C544 _ _ _ _ E(rst)C6 _ _ _ _ E(rst)C7 _ _ _ _ E(rst)D151 _ _ _ _ E(rst)D160 _ _ _ _ E(rst)D17 _ _ _ _ E(rst)D184 _ _ _ _ E(rst)D187 _ _ _ _ E(rst)D19 _ _ _ _ E(rst)D25 _ _ _ _ E(rst)D61 _ _ _ _ E(rst)D70 _ _ _ _ E(rst)E146 _ _ _ _ E(rst)E370 _ _ _ _ E(rst)F84 _ _ _ _ E(rst)H122 _ _ _ _ E(rst)H125 _ _ _ _ E(rst)H186 _ _ _ _ E(rst)H253 _ _ _ _ E(rst)H42 _ _ _ _ E(rst)H54 _ _ _ _ E(rst)H65 _ _ _ _ E(rst)H74 _ _ _ _ E(rst)H94 _ _ _ _ E(rst)I12 _ _ _ _ E(rst)I19 _ _ _ _ E(rst)I2 _ _ _ _ E(rst)J25 _ _ _ _ E(rst)J76 _ _ _ _ E(rst)K137 _ _ _ _ E(rst)K166 _ _ _ _ E(rst)K45 _ _ _ _ E(S) _ _ Enhancer of Star _ e(S)X _ _ enhancer of S on X _ E(SD) _ _ Enhancer of Segregation Distorter _ e(sei) _ _ enhancer of seizure _ E(sev)3D _ _ Enhancer of sevenless 3D _ E(Sev-CycE)A14 _ _ _ _ E(Sev-CycE)D45 _ _ _ _ E(Sev-CycE)D50 _ _ _ _ E(Sev-CycE)E19 _ _ _ _ E(Sev-CycE)E44 _ _ _ _ E(Sev-CycE)E93 _ _ _ _ E(Sev-CycE)G66 _ _ _ _ E(sina)1 _ _ Enhancer of seven in absentia 1 _ E(sina)3 _ _ Enhancer of seven in absentia 3 _ E(sina)4 _ _ Enhancer of seven in absentia 4 _ E(sina)46C _ _ Enhancer of seven in absentia at 46C _ E(sina)6 _ _ Enhancer of seven in absentia 6 _ E(spl) EGF receptor signaling pathway; GO:0007173 | non-traceable author statement; N receptor signaling pathway; GO:0007219 | non-traceable author statement; cell fate commitment; GO:0045165 | non-traceable author statement; negative regulation of transcription from Pol II promoter; GO:0000122 | non-traceable author statement; regulation of R8 spacing; GO:0045468 | non-traceable author statement _ Enhancer of split _ E(Src64)2B ring canal stabilization; GO:0008335 | inferred from genetic interaction with FLYBASE:Src64B; FB:FBgn0003501 _ _ _ E(Sxl) _ _ Enhancer of Sex-lethal _ E(tkv)D1 _ _ _ _ E(tkv)D2 _ _ _ _ E(To)1 _ _ _ _ E(To)10 _ _ _ _ E(To)12 _ _ _ _ E(To)13 _ _ _ _ E(To)4 _ _ _ _ E(To)5 _ _ _ _ E(To)6 _ _ _ _ E(To)8 _ _ _ _ E(To)9 _ _ _ _ E(top)D105 _ _ Enhancer of torpedo D105 _ E(Ubx)3L _ _ _ _ E(var)100C-F _ _ Enhancer of variegation 100 _ E(var)102-1 _ _ _ _ E(var)104 _ _ _ _ E(var)113 _ _ _ _ E(var)125 _ _ _ _ E(var)129-1 _ _ _ _ E(var)130 _ _ _ _ E(var)166-7 _ _ _ _ E(var)181 _ _ _ _ E(var)1817 _ _ _ _ E(var)182 _ _ _ _ E(var)183 _ _ _ _ E(var)183-31 _ _ _ _ E(var)1847 _ _ _ _ E(var)188 _ _ _ _ E(var)19 _ _ _ _ E(var)190 _ _ _ _ E(var)195 _ _ _ _ E(var)2 _ _ _ _ E(var)2-88 _ _ Enhancer of variegation 2-88 _ E(var)211 _ _ _ _ E(var)212 _ _ _ _ E(var)222 _ _ _ _ E(var)231 _ _ _ _ E(var)236 _ _ _ _ E(var)25F _ _ Enhancer of variegation 25F _ E(var)261 _ _ _ _ E(var)26A _ _ Enhancer of variegation 26A _ E(var)27 _ _ _ _ E(var)28AB _ _ Enhancer of variegation 28AB _ E(var)29BD _ _ Enhancer of variegation 29BD _ E(var)3-101 _ _ _ _ E(var)3-11 _ _ _ _ E(var)3-12 _ _ _ _ E(var)3-13 _ _ _ _ E(var)3-14 _ _ _ _ E(var)3-201 _ _ _ _ E(var)3-4 _ _ _ _ E(var)3-5 _ _ _ _ E(var)3-6 _ _ _ _ E(var)3-7 _ _ _ _ E(var)3-8 _ _ _ _ E(var)3-9 _ _ _ _ E(var)301 _ _ Enhancer of variegation 301 _ E(var)302 _ _ Enhancer of variegation 302 _ E(var)303 _ _ Enhancer of variegation 303 _ E(var)31 _ _ _ _ E(var)3118 _ _ _ _ E(var)33AD _ _ Enhancer of variegation 33AD _ E(var)35 _ _ _ _ E(var)36AE _ _ Enhancer of variegation 36AE _ E(var)43A _ _ Enhancer of variegation 43A _ E(var)45 _ _ _ _ E(var)48 _ _ _ _ E(var)5 _ _ Enhancer of variegation 5 _ E(var)512 _ _ _ _ E(var)53E _ _ Enhancer of variegation 53E _ E(var)55 _ _ Enhancer of variegation 55 _ E(var)56-9 _ _ _ _ E(var)61 _ _ _ _ E(var)7 _ _ Enhancer of variegation _ E(var)70-2 _ _ _ _ E(var)71 _ _ _ _ E(var)8 _ _ Enhancer of variegation 8 _ E(var)87F _ _ Enhancer of variegation 3 _ E(var)88D _ _ Enhancer of variegation 88D _ E(var)90 _ _ _ _ E(var)915 _ _ _ _ E(var)A1 _ _ _ _ E(var)c101 _ _ Enhancer of variegation c101 _ E(vvl)23 _ _ _ _ E(w[a]) _ _ Enhancer of white-apricot _ e(w[a]) _ _ enhancer of white-apricot _ E(w[a])705 _ _ _ _ E(w[a])706 _ _ _ _ E(w[a])709 _ _ _ _ E(w[a])736 _ _ _ _ E(w[a])757 _ _ _ _ E(w[a])761 _ _ _ _ E(w[a])818 _ _ _ _ E(w[a])829 _ _ _ _ e(w[e]) _ _ enhancer of white-eosin _ e(y)1 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF9L; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF17; SGDID:S0004849 _ enhancer of yellow 1 "Does not interact, in vitro, with human thryroid-hormone receptor-beta." e(y)2 _ _ enhancer of yellow 2 _ e(y)3 _ _ enhancer of yellow 3 _ e(y)5 _ _ enhancer of yellow 5 _ e(y)6 _ _ enhancer of yellow 6 _ e(y)7 _ _ enhancer of yellow 7 _ E(z) negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | non-traceable author statement _ Enhancer of zeste "The gene products of esc and E(z) bind directly to each other and, co-localize at multiple chromosomal sites." E-1a _ _ _ _ E103 _ _ E103 _ E111 _ _ E111 _ E23 _ _ Early gene at 23 E23 corresponds to the early ecdysone puff at 23E. E2f G1/S-specific transcription in mitotic cell cycle; GO:0000083 | non-traceable author statement; growth; GO:0040007 | non-traceable author statement _ E2F transcription factor _ E2f2 "dorsal/ventral axis determination, oocyte; GO:0008072 | inferred from mutant phenotype; negative regulation of DNA replication; GO:0008156 | inferred from mutant phenotype; oocyte anterior/posterior axis determination; GO:0007314 | inferred from mutant phenotype" _ E2F transcription factor 2 _ E3 _ _ _ _ E5 _ _ E5 _ E64 _ _ _ _ E81 _ _ E81 _ ea defense response; GO:0006952 | non-traceable author statement; dorsal/ventral axis determination; GO:0007310 | non-traceable author statement _ easter _ Eaat1 _ _ Excitatory amino acid transporter 1 _ Eaat2 _ _ Excitatory amino acid transporter 2 _ eag courtship behavior; GO:0007619 | traceable author statement; potassium transport; GO:0006813 | traceable author statement _ ether a go-go _ ealk _ _ easterlike _ Eap _ _ Exu-associated protein _ ear transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:MLLT1; OMIM:159556; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:MLLT3; OMIM:159558; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:ANC1; SGDID:S0006050; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:YAF9; SGDID:S0005051 _ ENL/AF9-related _ eas phosphatidylethanolamine biosynthesis; GO:0006646 | non-traceable author statement; phosphorylation; GO:0016310 | non-traceable author statement _ easily shocked _ east _ _ enhanced adult salt tolerance _ eay _ _ early _ EB1 _ _ _ _ Eb1 microtubule-based process; GO:0007017 | inferred from sequence similarity _ _ _ ebi regulation of cell cycle; GO:0000074 | inferred from mutant phenotype _ ebi _ ebo _ _ ellipsoid body open _ ec _ _ echinus _ EC19 _ _ _ _ Ec3 _ _ Ecysone-induced RNA 3 _ EC33 _ _ _ _ EC66 _ _ _ _ EC69 _ _ _ _ EC7 _ _ _ _ EC70 _ _ _ _ EC76 _ _ _ _ EC88 _ _ _ _ EC91 _ _ _ _ ecd response to pest/pathogen/parasite; GO:0009613 | inferred from genetic interaction with FLYBASE:hop; FB:FBgn0004864 _ ecdysoneless _ ecl _ _ echinus-like _ Eco _ _ Extra combs _ ecp _ _ eclipse _ EcR neuronal remodeling; GO:0016322 | inferred from mutant phenotype _ Ecdysone receptor _ ECSIT Tl receptor signaling pathway; GO:0008063 | non-traceable author statement; Tl receptor signaling pathway; GO:0008063 | non-traceable author statement; defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | non-traceable author statement _ _ ECSIT plays a role in innate immunity on Drosophila. ect _ _ ectodermal _ ecta tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ ectatic _ ed EGF receptor signaling pathway; GO:0007173 | inferred from mutant phenotype _ echinoid _ eddy _ _ _ _ Edg43A _ _ Ecdysone-dependent gene at 43A _ Edg64CD _ _ Ecdysone-dependent gene 64CD _ Edg78E _ _ Ecdysone-dependent gene 78E _ Edg84A _ _ Ecdysone-dependent gene 84A _ Edg91 _ _ Ecdysone-dependent gene 91 _ Edl _ _ _ "A negative regulator of photoreceptor neuronal development, acting, downstream of Ras85D." EDTP _ _ Egg-derived tyrosine phosphatase _ ee _ _ extra eye _ eEF1delta translational elongation; GO:0006414 | inferred from sequence similarity; translational elongation; GO:0006414 | non-traceable author statement _ _ _ eel _ _ eel _ ef _ _ elfin _ Ef1alpha100E translational elongation; GO:0006414 | inferred from sequence similarity; translational elongation; GO:0006414 | non-traceable author statement _ Elongation factor 1alpha100E _ Ef1alpha48D translational elongation; GO:0006414 | inferred from sequence similarity; translational elongation; GO:0006414 | inferred from sequence similarity _ Elongation factor 1alpha48D _ Ef1beta translational elongation; GO:0006414 | inferred from sequence similarity; translational elongation; GO:0006414 | non-traceable author statement _ Elongation factor 1 beta _ Ef1gamma translational elongation; GO:0006414 | inferred from sequence similarity; translational elongation; GO:0006414 | inferred from sequence similarity with NCBI_gi:4503481 _ _ _ Ef2a translational elongation; GO:0006414 | inferred from sequence similarity _ Elongation factor 2a _ Ef2b protein biosynthesis; GO:0006412 | non-traceable author statement; translational elongation; GO:0006414 | inferred from sequence similarity _ Elongation factor 2b _ Ef4A translational elongation; GO:0006414 | inferred from sequence similarity _ Elongation factor 4a _ efe _ _ efendi _ eff ubiquitin cycle; GO:0006512 | inferred from genetic interaction with SGD:UBC4; SGDID:S0000286; ubiquitin cycle; GO:0006512 | inferred from genetic interaction with SGD:UBC5; SGDID:S0002466 _ effete _ EfSec _ _ _ _ EfTuM _ _ Elongation factor Tu mitochondrial _ eg _ _ eagle _ eg-1 _ _ _ _ EG:100G10.1 _ _ _ _ EG:100G10.2 _ _ _ _ EG:100G10.4 _ _ _ _ EG:100G10.6 _ _ _ _ EG:100G10.7 proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with EMBL:U09358 _ _ "Encodes a 2.7kb transcript flanking the 3' end of the 0.9kb transcript, of CG2650, and transcribed in the same direction as CG2650." EG:100G10.8 _ _ _ _ EG:100G7.3 _ _ _ _ EG:100G7.5 _ _ _ _ EG:100G7.6 _ _ _ _ EG:103B4.2 _ _ _ _ EG:103E12.2 _ _ _ _ EG:103E12.3 _ _ _ _ EG:114D9.1 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ _ _ EG:114D9.2 _ _ _ _ EG:115C2.1 _ _ _ _ EG:115C2.10 _ _ _ _ EG:115C2.12 _ _ _ _ EG:115C2.6 _ _ _ _ EG:115C2.8 _ _ _ Transcription unit defined during molecular analysis of the su(s) region. EG:118B3.2 _ _ _ _ EG:125H10.1 _ _ _ _ EG:131F2.2 _ _ _ _ EG:131F2.3 _ _ _ _ EG:132E8.1 _ _ _ _ EG:132E8.3 _ _ _ _ EG:132E8.4 _ _ _ _ EG:133E12.3 _ _ _ _ EG:137E7.1 _ _ _ _ EG:140G11.3 _ _ _ _ EG:140G11.5 _ _ _ _ EG:152A3.3 _ _ _ _ EG:152A3.7 _ _ _ _ EG:155E2.5 _ _ _ _ EG:171D11.1 _ _ _ _ EG:171D11.2 _ _ _ _ EG:171D11.5 _ _ _ _ EG:171D11.6 _ _ _ _ EG:171E4.2 _ _ _ _ EG:171E4.3 _ _ _ _ EG:171E4.4 _ _ _ _ EG:17E2.1 _ _ _ _ EG:190E7.1 _ _ _ _ EG:196F3.1 _ _ _ _ EG:196F3.2 _ _ _ _ EG:196F3.3 _ _ _ _ EG:22E5.10 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ EG:22E5.11 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ EG:22E5.12 _ _ _ _ EG:22E5.3 _ _ _ _ EG:22E5.4 _ _ _ _ EG:22E5.5 _ _ _ _ EG:22E5.6 _ _ _ _ EG:22E5.7 _ _ _ _ EG:22E5.8 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ EG:22E5.9 _ _ _ _ EG:23E12.1 _ _ _ _ EG:23E12.3 _ _ _ _ EG:23E12.5 _ _ _ _ EG:25E8.1 _ _ _ _ EG:25E8.2 ubiquitin cycle; GO:0006512 | non-traceable author statement _ _ _ EG:25E8.3 retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity _ _ _ EG:25E8.4 _ _ _ _ EG:25E8.6 _ _ _ _ EG:30B8.3 _ _ _ _ EG:30B8.6 _ _ _ _ EG:33C11.2 nucleotide-excision repair; GO:0006289 | inferred from sequence similarity with SWISS-PROT:O08811 _ _ _ EG:33C11.3 _ _ _ _ EG:34F3.10 _ _ _ _ EG:34F3.4 _ _ _ _ EG:34F3.5 _ _ _ _ EG:34F3.7 _ _ _ _ EG:34F3.8 _ _ _ _ EG:34F3.9 _ _ _ _ EG:39E1.1 _ _ _ _ EG:39E1.2 _ _ _ _ EG:39E1.3 _ _ _ _ EG:52C10.1 _ _ _ _ EG:52C10.2 regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with SWISS-PROT:P79348 _ _ _ EG:52C10.5 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ EG:52C10.6 _ _ _ _ EG:56G7.1 _ _ _ _ EG:63B12.11 _ _ _ _ EG:63B12.12 _ _ _ _ EG:63B12.13 _ _ _ _ EG:63B12.4 _ _ _ _ EG:63B12.5 _ _ _ _ EG:63B12.6 _ _ _ _ EG:63B12.7 _ _ _ _ EG:63B12.8 intracellular protein transport; GO:0006886 | inferred from sequence similarity with SWISS-PROT:P40336; lysosome organization and biogenesis; GO:0007040 | inferred from sequence similarity with SWISS-PROT:P40336; protein targeting; GO:0006605 | inferred from sequence similarity with SWISS-PROT:P40336 _ _ "This gene was first recognized by a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." EG:63B12.9 _ _ _ _ EG:65F1.1 _ _ _ _ EG:66A1.2 _ _ _ _ EG:66A1.3 _ _ _ _ EG:67A9.2 _ _ _ _ EG:73D1.1 _ _ _ _ EG:80H7.1 _ _ _ _ EG:80H7.10 _ _ _ _ EG:80H7.11 _ _ _ _ EG:80H7.2 _ _ _ _ EG:80H7.3 _ _ _ _ EG:80H7.4 _ _ _ _ EG:80H7.5 _ _ _ _ EG:84H4.4 _ _ _ _ EG:84H4.5 _ _ _ _ EG:86E4.2 _ _ _ _ EG:86E4.3 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ EG:86E4.4 _ _ _ _ EG:86E4.5 dephosphorylation; GO:0016311 | non-traceable author statement _ _ _ EG:87B1.3 _ _ _ _ EG:8D8.2 _ _ _ _ EG:8D8.3 _ _ _ _ EG:8D8.4 _ _ _ _ EG:8D8.6 _ _ _ _ EG:8D8.8 _ _ _ _ EG:95B7.3 _ _ _ _ EG:95B7.5 _ _ _ _ EG:95B7.7 _ _ _ _ EG:95B7.9 _ _ _ _ EG:96G10.8 _ _ _ _ EG:9D2.2 _ _ _ _ EG:9D2.4 _ _ _ _ EG:BACH48C10.1 _ _ _ _ EG:BACH48C10.2 _ _ _ _ EG:BACH48C10.4 _ _ _ _ EG:BACH59J11.2 _ _ _ _ EG:BACH61I5.1 _ _ _ _ EG:BACH7M4.1 _ _ _ _ EG:BACH7M4.2 _ _ _ _ EG:BACH7M4.4 _ _ _ _ EG:BACN32G11.2 _ _ _ _ EG:BACN32G11.3 _ _ _ _ EG:BACN32G11.4 _ _ _ _ EG:BACN32G11.5 _ _ _ _ EG:BACN33B1.2 _ _ _ _ EG:BACR19J1.2 _ _ _ _ EG:BACR19J1.3 _ _ _ _ EG:BACR25B3.1 _ _ _ _ EG:BACR25B3.10 _ _ _ _ EG:BACR25B3.2 _ _ _ _ EG:BACR25B3.3 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ EG:BACR25B3.4 hydrogen transport; GO:0006818 | non-traceable author statement _ _ _ EG:BACR25B3.5 _ _ _ _ EG:BACR25B3.6 _ _ _ _ EG:BACR37P7.1 _ _ _ _ EG:BACR37P7.2 _ _ _ _ EG:BACR37P7.5 _ _ _ _ EG:BACR37P7.8 _ _ _ _ EG:BACR37P7.9 _ _ _ _ EG:BACR42I17.1 binding to mRNA cap; GO:0006441 | inferred from sequence similarity _ _ _ EG:BACR42I17.10 _ _ _ _ EG:BACR42I17.11 _ _ _ _ EG:BACR42I17.12 _ _ _ _ EG:BACR42I17.2 _ _ _ _ EG:BACR42I17.3 _ _ _ _ EG:BACR42I17.4 _ _ _ _ EG:BACR42I17.5 _ _ _ _ EG:BACR42I17.6 _ _ _ _ EG:BACR42I17.7 _ _ _ _ EG:BACR42I17.8 _ _ _ _ EG:BACR42I17.9 _ _ _ _ EG:BACR43E12.1 _ _ _ _ EG:BACR43E12.4 _ _ _ _ EG:BACR43E12.5 _ _ _ _ EG:BACR43E12.6 _ _ _ _ EG:BACR43E12.7 _ _ _ _ EG:BACR7A4.12 _ _ _ _ EG:BACR7A4.13 _ _ _ _ EG:BACR7A4.14 _ _ _ _ EG:BACR7A4.15 _ _ _ _ EG:BACR7A4.16 _ _ _ _ EG:BACR7A4.17 _ _ _ _ EG:BACR7A4.18 nucleosome assembly; GO:0006334 | inferred from sequence similarity _ _ _ EG:BACR7A4.19 _ _ _ _ EG:BACR7A4.2 _ _ _ _ EG:BACR7A4.20 _ _ _ _ EG:BACR7A4.3 _ _ _ _ EG:BACR7A4.5 "SRP-dependent, co-translational membrane targeting, translocation; GO:0006616 | inferred from sequence similarity with SWISS-PROT:Q01685" _ _ _ EG:BACR7A4.8 _ _ _ _ EG:BACR7A4.9 _ _ _ _ EG:BACR7C10.1 _ _ _ _ EG:BACR7C10.2 phosphorylation; GO:0016310 | non-traceable author statement _ _ _ EG:BACR7C10.7 calcium ion transport; GO:0006816 | inferred from sequence similarity _ _ _ EG:EG0002.3 _ _ _ _ EG:EG0003.1 _ _ _ _ EG:EG0003.5 _ _ _ _ EG:EG0003.8 _ _ _ _ EG:EG0007.10 _ _ _ _ EG:EG0007.5 _ _ _ _ EG:EG0007.7 _ _ _ _ EG:EG0007.9 _ _ _ _ Egfr "eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype; eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype; imaginal disc development; GO:0007444 | inferred from mutant phenotype; maternal determination of dorsal/ventral axis, follicular epithelium, soma encoded; GO:0008071 | inferred from mutant phenotype; notum morphogenesis; GO:0007477 | inferred from mutant phenotype; second mitotic wave (sensu Drosophila); GO:0016330 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype" _ Epidermal growth factor receptor _ eggroll _ _ eggroll _ egh _ _ egghead "egh is important for germ cell differentiation, for the integrity, of the cortical actin cytoskeleton of the germ cells and for the establishment, of a correct anteroposterior axis of the egg chamber." egl oogenesis; GO:0007292 | inferred from direct assay _ egalitarian _ egm _ _ enigma _ ego _ _ early germ cell overproliferation _ Eh regulation of eclosion; GO:0007563 | inferred from sequence similarity _ Eclosion hormone _ eH3 _ _ _ _ eIF-1A protein biosynthesis; GO:0006412 | inferred from sequence similarity with HUGO:EIF1A; OMIM:300186 _ Eukaryotic initiation factor 1A _ eIF-2alpha translational initiation; GO:0006413 | inferred from sequence similarity with HUGO:EIF2S1; OMIM:603907; translational initiation; GO:0006413 | inferred from sequence similarity with SGD:GCN3; SGDID:S0001734; translational initiation; GO:0006413 | inferred from sequence similarity with SGD:SUI2; SGDID:S0003767 _ _ _ eIF-2beta ternary complex formation; GO:0001677 | non-traceable author statement; translational initiation; GO:0006413 | inferred from sequence similarity _ Eukaryotic initiation factor 2beta _ eIF-2bepsilon translational initiation; GO:0006413 | inferred from sequence similarity with SGD:GCD6; SGDID:S0002619 _ _ _ eIF-3p40 translational initiation; GO:0006413 | inferred from sequence similarity; translational initiation; GO:0006413 | inferred from sequence similarity with SPTREMBL:O15372 _ Eukaryotic initiation factor 3 p40 subunit _ eIF-3p66 translational initiation; GO:0006413 | inferred from sequence similarity _ Eukaryotic initiation factor 3 p66 subunit _ eIF-4a translational initiation; GO:0006413 | inferred from sequence similarity; translational initiation; GO:0006413 | inferred from sequence similarity with SGD:TIF1; SGDID:S0001767 _ Eukaryotic initiation factor 4a _ eIF-4B translational initiation; GO:0006413 | inferred from physical interaction with FLYBASE:eIF-4E; FB:FBgn0015218 _ Eukaryotic initiation factor 4B "A major phosphoprotein which co-purifies with eIF-4E on m[7]GTP-Sepharose, and shows decreased phosphorylation and association with eIF-4E after, heat shock has been identified. This phosphoprotein may correspond, to eIF-4B." eIF-4E protein biosynthesis; GO:0006412 | inferred from sequence similarity with HUGO:EIF4E; OMIM:133440; protein biosynthesis; GO:0006412 | inferred from sequence similarity with MGD:Eif4e; MGI:MGI:95305 _ Eukaryotic initiation factor 4E "Translation of the majority of non-heat shock, mRNAs and Hsp83 mRNA is very dependent on eIF-4E. In contrast,, translation of Hsp70 mRNAs and to a lesser extent the mRNAs for the, small heat shock proteins is almost independent of eIF-4E." eIF-4G translational initiation; GO:0006413 | inferred from sequence similarity _ Eukaryotic-initiation-factor-4G _ eIF-5A translational initiation; GO:0006413 | inferred from sequence similarity with NCBI_gi:4503545; translational initiation; GO:0006413 | non-traceable author statement _ _ _ eIF-5C translational initiation; GO:0006413 | non-traceable author statement _ elongation initiation factor 5C _ eIF2B-alpha translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ eIF2B-beta translational initiation; GO:0006413 | inferred from sequence similarity with SGD:GCD7; SGDID:S0004282 _ _ _ eIF2B-delta translational initiation; GO:0006413 | inferred from sequence similarity with SGD:GCD2; SGDID:S0003315; translational initiation; GO:0006413 | inferred from sequence similarity with SWISS-PROT:Q63186 _ _ _ eIF2B-gamma translational initiation; GO:0006413 | inferred from sequence similarity with SGD:GCD1; SGDID:S0005786; translational initiation; GO:0006413 | inferred from sequence similarity with SWISS-PROT:P70541 _ _ _ eIF3-S10 translational initiation; GO:0006413 | inferred from sequence similarity; translational initiation; GO:0006413 | inferred from sequence similarity with EMBL:AL031739; protein_id:CAA21076 _ _ _ eIF3-S8 translational initiation; GO:0006413 | inferred from sequence similarity; translational initiation; GO:0006413 | inferred from sequence similarity with SGD:PRT1; SGDID:S0005888 _ _ _ eIF3-S9 translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ eIF5 translational initiation; GO:0006413 | inferred from sequence similarity; translational initiation; GO:0006413 | inferred from sequence similarity with SWISS-PROT:Q07205 _ _ _ eIF6 protein biosynthesis; GO:0006412 | non-traceable author statement; translational initiation; GO:0006413 | inferred from sequence similarity _ _ _ Eig12E _ _ _ _ Eig17B _ _ _ _ Eig19C _ _ _ _ Eig34C _ _ _ _ Eig44C _ _ _ _ Eig45Aa _ _ _ _ Eig45Ab _ _ _ _ Eig4F _ _ Ecdysone-induced gene 4F _ Eig58C _ _ _ _ Eig71Ea _ _ Ecdysone-induced gene 71Ea _ Eig71Eb _ _ Ecdysone-induced gene 71Eb _ Eig71Ec _ _ Ecdysone-induced gene 71Ec _ Eig71Ed _ _ Ecdysone-induced gene 71Ed _ Eig71Ee _ _ Ecdysone-induced gene 71Ee _ Eig71Ef _ _ Ecdysone-induced gene 71Ef _ Eig71Eg _ _ Ecdysone-induced gene 71Eg _ Eig71Eh _ _ _ _ Eig71Ei _ _ _ _ Eig71Ej _ _ _ _ Eig71Ek _ _ _ _ Eig76Ea _ _ _ _ Eig76Eb _ _ _ _ Eig82F _ _ Ecdysone induced gene at 82F _ Eig83B _ _ _ _ Eig87F _ _ _ _ eiger JNK cascade; GO:0007254 | non-traceable author statement; apoptosis; GO:0006915 | non-traceable author statement _ eiger _ eightless _ _ _ _ Eip4F _ _ _ _ Eip55E _ _ _ _ Eip63E protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Ecdysone-induced protein 63E "Eip63E is required not only for metamorphosis, but also maternally, and for embryonic and larval development." Eip63F-1 _ _ Ecdysone-induced protein 63F 1 _ Eip63F-2 _ _ Ecdysone-induced protein 63F 2 _ Eip71CD _ _ Ecdysone-induced protein 28/29kD _ Eip74EF autophagy; GO:0006914 | inferred from mutant phenotype _ Ecdysone-induced protein 74EF _ Eip75B "molting cycle (sensu Insecta); GO:0007591 | non-traceable author statement; molting cycle (sensu Insecta); GO:0007591 | non-traceable author statement; molting cycle (sensu Insecta); GO:0007591 | non-traceable author statement; regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement" _ Ecdysone-induced protein 75B "The function of br is required for the complete ecdysone induction, of early mRNAs from Eip74EF, Eip75B and the broad complex itself." Eip78C larval/pupal development (sensu Insecta); GO:0002165 | non-traceable author statement _ Ecdysone-induced protein 78C _ Eip93F autophagy; GO:0006914 | inferred from mutant phenotype; induction of apoptosis by hormones; GO:0008628 | inferred from mutant phenotype _ _ _ EK2-5 _ _ _ _ EK2-7 _ _ _ _ EK3-3 _ _ _ _ eK6 _ _ _ _ Ela _ _ Elastin-like _ elA _ _ elbow A _ elav RNA metabolism; GO:0016070 | non-traceable author statement; neurogenesis; GO:0007399 | non-traceable author statement _ "embryonic lethal, abnormal vision" _ elB _ _ elbow B Regulator of inner photoreceptor opsin genes. Elf translational termination; GO:0006415 | inferred from sequence similarity with SGD:SUP35; SGDID:S0002579; translational termination; GO:0006415 | inferred from sequence similarity with SGD:SUP35; SGDID:S0002579 _ Ef1alpha-like factor _ elf _ _ extra lamina fiber _ elg _ _ elongatus _ elk potassium transport; GO:0006813 | non-traceable author statement _ eag-like K[+] channel _ Ell _ _ _ _ Elongin-B _ _ Elongin B _ Elongin-C _ _ Elongin C _ elyC _ _ early C _ EM3-1 _ _ _ _ ema N receptor signaling pathway; GO:0007219 | inferred from mutant phenotype _ ectopic margin "ema is required for refinement of N activity at the D/V, boundary of the wing." emb protein-nucleus export; GO:0006611 | inferred from sequence similarity with SGD:CRM1; SGDID:S0003450; protein-nucleus export; GO:0006611 | non-traceable author statement _ embargoed "Mutations of the S.pombe crm1 are suppressed by expression of, the Drosophila emb." emc "negative regulation of transcription from Pol II promoter; GO:0000122 | traceable author statement; sex determination, primary response to X:A ratio; GO:0007541 | traceable author statement" _ extra macrochaetae _ emm _ _ emmenthal _ emp defense response; GO:0006952 | non-traceable author statement _ epithelial membrane protein _ ems "specification of segmental identity, antennal segment; GO:0007383 | non-traceable author statement; specification of segmental identity, mandibular segment; GO:0042305 | non-traceable author statement" _ empty spiracles _ emu _ _ _ _ en "neuroblast determination; GO:0007400 | inferred from genetic interaction with FLYBASE:inv; FB:FBgn0001269, FLYBASE:gsb; FB:FBgn0001148; neuroblast determination; GO:0007400 | inferred from genetic interaction with FLYBASE:inv; FB:FBgn0001269, FLYBASE:gsb; FB:FBgn0001148, FLYBASE:ptc; FB:FBgn0003892" _ engrailed _ En(en)eg-1 _ _ _ _ en(lz)Y _ _ _ _ En(tc) _ _ Enhancer of terminal conversion _ En(tkv*)3-3 _ _ _ _ ena axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:robo; FB:FBgn0005631; axonogenesis; GO:0007409 | inferred from mutant phenotype _ enabled _ enb _ _ _ _ enc cystoblast cell division; GO:0007282 | inferred from mutant phenotype; egg chamber formation; GO:0007293 | inferred from mutant phenotype; oocyte determination; GO:0007294 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype _ encore _ endoA synaptic vesicle endocytosis; GO:0008099 | inferred from mutant phenotype; synaptic vesicle endocytosis; GO:0008099 | traceable author statement _ endophilin A "endoA is required presynapticlly at the neuromuscular junction and, has a role in endocytosis." endoB membrane organization and biogenesis; GO:0016044 | non-traceable author statement _ endophilin B _ endos oogenesis; GO:0007292 | inferred from mutant phenotype _ endosulfine _ EnNuc-m _ _ Endonuclease mitochondrial _ Eno glycolysis; GO:0006096 | non-traceable author statement _ Enolase _ enok mushroom body development; GO:0016319 | inferred from mutant phenotype; neuroblast proliferation; GO:0007405 | inferred from mutant phenotype _ enoki mushroom enok is required for mushroom body neuroblast proliferation. eo _ _ extra organs _ EP1016 _ _ _ _ EP1020 _ _ _ _ EP1051 _ _ _ _ EP1062 _ _ _ _ EP1065 _ _ _ _ EP1072 _ _ _ _ EP1081 _ _ _ _ EP1088 _ _ _ _ EP1095 _ _ _ _ EP1113 _ _ _ _ EP1121a _ _ _ _ EP1125 _ _ _ _ EP1139 _ _ _ _ EP115 _ _ _ _ EP1154 _ _ _ _ EP1191 _ _ _ _ EP1213 _ _ _ _ EP1216b _ _ _ _ EP1229 _ _ _ _ EP1230 _ _ _ _ EP1232 _ _ _ _ EP1236 _ _ _ _ EP1246 _ _ _ _ EP1321 _ _ _ _ EP1340 _ _ _ _ EP1344 _ _ _ _ EP1350 _ _ _ _ EP1371 _ _ _ _ EP1388 _ _ _ _ EP1413 _ _ _ _ EP1421 _ _ _ _ EP1452 _ _ _ _ EP1463 _ _ _ _ EP1493 _ _ _ _ EP1501 _ _ _ _ EP1509 _ _ _ _ EP1523 _ _ _ _ EP1534 _ _ _ _ EP1555 _ _ _ _ EP1565 _ _ _ _ EP1570 _ _ _ _ EP1592 _ _ _ _ EP1595 _ _ _ _ EP1603 _ _ _ _ EP1631 _ _ _ _ EP2002b _ _ _ _ EP2054 _ _ _ _ EP2086 _ _ _ _ EP2087 _ _ _ _ EP2146a _ _ _ _ EP2237 _ _ _ _ EP2251 _ _ _ _ EP2315 _ _ _ _ EP2356 _ _ _ _ EP2409 _ _ _ _ EP2416 _ _ _ _ EP2419 _ _ _ _ EP2431 _ _ _ _ EP2433 _ _ _ _ EP2448 _ _ _ _ EP2585 _ _ _ _ EP2587 _ _ _ _ EP2595 _ _ _ _ EP2599 _ _ _ _ EP2619 _ _ _ _ EP3015a _ _ _ _ EP3035 _ _ _ _ EP3060 _ _ _ _ EP3068 _ _ _ _ EP3085 _ _ _ _ EP3087 _ _ _ _ EP3104 _ _ _ _ EP3135 _ _ _ _ EP3139 _ _ _ _ EP3140 _ _ _ _ EP3186 _ _ _ _ EP3196 _ _ _ _ EP3208 _ _ _ _ EP3221 _ _ _ _ EP3223 _ _ _ _ EP3238 _ _ _ _ EP3263 _ _ _ _ EP3283 _ _ _ _ EP3289 _ _ _ _ EP3303 _ _ _ _ EP3306 _ _ _ _ EP3340 _ _ _ _ EP3373 _ _ _ _ EP339 _ _ _ _ EP3390 _ _ _ _ EP3408 _ _ _ _ EP344 _ _ _ _ EP3474 _ _ _ _ EP3524 _ _ _ _ EP3561 _ _ _ _ EP3621 _ _ _ _ EP3622 _ _ _ _ EP3697 _ _ _ _ EP3707 _ _ _ _ EP3714 _ _ _ _ EP374 _ _ _ _ EP382 _ _ _ _ EP383 _ _ _ _ EP393 _ _ _ _ EP417 _ _ _ _ EP443 _ _ _ _ EP456 _ _ _ _ EP474 _ _ _ _ EP531 _ _ _ _ EP566a _ _ _ _ EP566b _ _ _ _ EP595a _ _ _ _ EP595b _ _ _ _ EP596 _ _ _ _ EP622 _ _ _ _ EP635 _ _ _ _ EP643 _ _ _ _ EP646 _ _ _ _ EP682 _ _ _ _ EP707 _ _ _ _ EP714 _ _ _ _ EP787 _ _ _ _ EP816 _ _ _ _ EP851 _ _ _ _ EP873 _ _ _ _ EP912 _ _ _ _ EP924 _ _ _ _ EP935 _ _ _ _ EP950 _ _ _ _ EP988 _ _ _ _ EP995 _ _ _ _ Eph protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; signal transduction; GO:0007165 | inferred from sequence similarity _ Eph receptor tyrosine kinase _ Ephrin _ _ _ _ EPIL6 _ _ _ _ eppy _ _ epilated periorbitally _ Eps-15 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle endocytosis; GO:0008099 | traceable author statement _ _ _ epsin-2 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle endocytosis; GO:0008099 | non-traceable author statement _ _ _ eq _ _ equational _ eql _ _ equatorial-less "Somatic mosaic clones in the eye demonstrate eql is not uniquely, required in any single, pair or set of photoreceptor cell, rather it, seems eql is needed for photoreceptor survival. eql is expressed, in all photoreceptor cells and possibly in other eye precursor cells, as well." er _ _ erupt _ ER2-1 _ _ _ _ ER2-3 _ _ _ _ ER2-4 _ _ _ _ ER2-7A _ _ _ _ ER2-7B _ _ _ _ ER2-8A _ _ _ _ ER3-2 _ _ _ _ ER3-3 _ _ _ _ ER3-4 _ _ _ _ ER3-5 _ _ _ _ Ercc1 nucleotide-excision repair; GO:0006289 | non-traceable author statement _ _ _ eRF1 translational termination; GO:0006415 | inferred from sequence similarity _ _ _ Eric _ _ Ecdysone receptor interacting co-repressor _ Erk-B response to heat shock; GO:0006951 | inferred from direct assay _ _ "Tyrosine phosphorylation of rl and Erk-B increases during heat, shock. MAP kinase activation is an immediate early response to heat, shock and the increased activity is maintained throughout heat shock, treatment." Ero1L _ _ _ _ ERp60 _ _ _ _ ERR _ _ estrogen-related receptor _ err _ _ erratic _ ES1-1 _ _ Enhancer of GMR-sina 1-1 _ Es2 _ _ _ _ ES2-1 _ _ Enhancer of GMR-sina 2-1 _ ES3-1 _ _ Enhancer of GMR-sina 3-1 _ esc gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:ph-p; FB:FBgn0004861; negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | inferred from physical interaction with FLYBASE:E(z); FB:FBgn0000629 _ extra sexcombs _ esg _ _ escargot _ Esm _ _ Enhancer of split mimic _ esn _ _ espinas _ Esp sulfate transport; GO:0008272 | non-traceable author statement _ Epidermal stripes and patches _ esp _ _ extra sensory photoreceptor cells _ Est-10 _ _ Esterase 10 _ Est-17 _ _ _ "Encodes the EST17 isozyme, a subclass II carboxyl esterase whose preferred, naphthyl ester substrate in vitro is alpha naphthyl proprionate. The, in vivo function of Est-17 is unknown but it is largely confined, to late larvae." Est-20 _ _ Esterase 20 "Est-20 can be visualized on a native polyacrylamide gel using, an in vitro esterase substrate, naphthyl acetate." Est-6 sexual reproduction; GO:0019953 | non-traceable author statement _ Esterase 6 _ Est-9 _ _ Esterase 9 "The apparent structural gene of an esterase whose, detection depends on the presence of, 1-leucyl-beta-naphthylamide in addition to, alpha-naphthyl acetate as substrate." Est-A _ _ Esterase A _ Est-B _ _ _ _ Est-C _ _ Esterase C _ Est-E _ _ _ _ Est-F _ _ _ _ Est-P _ _ Esterase P "Chromosome homologies of Muller's element D (J chromosome in the Paleartic, species and XR chromosome arm in Nearctic species) and of element E, (O chromosome in the Paleartic species and 2 chromosome in Nearctic, species) have been confirmed by single copy probes in the species of, the obscura group and in D.melanogaster." alpha-Est1 _ _ alpha-Esterase-1 _ alpha-Est10 _ _ alpha-Esterase-10 _ alpha-Est2 _ _ alpha-Esterase-2 _ alpha-Est3 _ _ alpha-Esterase-3 _ alpha-Est4 _ _ alpha-Esterase-4 _ alpha-Est5 _ _ alpha-Esterase-5 _ alpha-Est6 _ _ alpha-Esterase-6 _ alpha-Est7 _ _ alpha-Esterase-7 "Encodes the EST23 isozyme, a subclass I carboxyl esterase whose preferred, naphthyl ester substrate in vitro is alpha naphthyl acetate. The in, vivo function of alpha-Est7 is unknown but the enzyme shows very close, biochemical similarity with the E3 enzyme of the Australian sheep blowfly, L.cuprina." alpha-Est8 _ _ alpha-Esterase-8 _ alpha-Est9 _ _ alpha-Esterase-9 _ ESTS:100B6T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:100F7T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:103E9T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., The sequence shows a match to the Sry-alpha gene. The match, at the nucleic acid sequence level is not perfect, and this may indicate, the existence of a Sry-alpha related gene." ESTS:105D2S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:110D4S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., The nucleic acid sequence also shows a match with that of sca." ESTS:110D6T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:110E6T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:110H6T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:111C3T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:114B9T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., The sequence shows a match to the alphaTry sequence (SWP:P04814), and the zetaTry sequence (SWP:P42280) at the protein, but not nucleic acid, sequence level." ESTS:115A8S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:11G9S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:12E3T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., The sequence shows a match to the Ser99Da and Ser99Db proteins, (SwissProt P17205) at the protein, but not nucleic acid, sequence level." ESTS:12E9T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:131B10T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:136D12S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:138F12T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:139F11T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:143C1T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:143G7T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:145A2S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:145E2S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:149G7T seryl-tRNA aminoacylation; GO:0006434 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:153H6S mRNA splicing; GO:0006371 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:155F7S mRNA splicing; GO:0006371 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:156G4T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:159E11S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., The sequence shows a match to the Sry-alpha gene. The match, at the nucleic acid sequence level is not perfect, and this may indicate, the existence of a Sry-alpha related gene." ESTS:15A8S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:164G3S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., The translation shows a match to zfh1 (SWP:P28166) and, several other Zn-finger domain proteins. There is no significant match to, zfh1 at the nucleic acid sequence level." ESTS:166H10T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:167B11S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:169A12T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:16A7S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:170H11T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:172F5T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:174E4S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:175H3T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:176C7T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:176C8S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:176G11T protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:17F2S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:185H6T heme biosynthesis; GO:0006783 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:186F2T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:18G3S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:192G1S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:193C11T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:19F12S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:1H4T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:200D12S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:200F9S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:22G12T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:24D8T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:25C7S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:25H1T protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:26A8S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:29G11T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:30B8S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:33A10T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., Also matches kel at the protein, but not nucleic acid sequence, level." ESTS:34F4T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:34H9S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:36C2T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:38C6T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:38H5T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:39C10S pyridoxine biosynthesis; GO:0008615 | inferred from sequence similarity; serine biosynthesis; GO:0006564 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:39C11S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:3H2T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:42D3T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:43C6S protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:44A3S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:47C4T phenylalanyl-tRNA aminoacylation; GO:0006432 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:47H9T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:49G2T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:49G4S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:49G4T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:50C11S anti-apoptosis; GO:0006916 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:53B6T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:56E7T isoleucyl-tRNA aminoacylation; GO:0006428 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:63D12S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:64B3S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:68G6S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:68G9S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:69B8T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:70F3T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:71C4S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:78F12T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:78H7T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:79A11T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:7B3S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:83C11T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:83E10S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:84H4T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:85A5T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., The translation shows a match with N (SWP:P07207)." ESTS:85C3T methionyl-tRNA aminoacylation; GO:0006431 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:86G11T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:90E6T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:90G3T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid., The sequence shows a match to the Su(var)205 gene." ESTS:92F9T protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:96E3T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:98C9S _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:98D7T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:99C2T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." ESTS:99D3T _ _ _ "The existence of this gene is tentative, and is based on a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." Etd _ _ Eye tissue determiner _ ETH ecdysis (sensu Insecta); GO:0018990 | inferred from mutant phenotype _ Ecdysis triggering hormone ETH is required ecdysis. Eth _ _ Ether-resistant _ Eth-AR205 _ _ _ _ Eth-AR206 _ _ _ _ Eth-AR209 _ _ _ _ Eth-AR217 _ _ _ _ Eth-AR308 _ _ _ _ Eth-AR310 _ _ _ _ Eth-AR315 _ _ _ _ eth-aS307 _ _ _ _ eth-as312 _ _ _ _ eth-as313 _ _ _ _ eth-as314 _ _ _ _ Etr1 _ _ ETR-1-like Isolated by screening a cDNA expression libary with vas protein. Ets21C _ _ Ets at 21C _ Ets65A _ _ Ets at 65A _ Ets96B _ _ _ _ Ets97D _ _ Ets at 97D "Ets97D function is required for the correct, localization of the posterior determinants in the oocyte. It is also, required for dorsoventral polarity in the follicle cells." Ets98B _ _ Ets at 98B _ eve neurogenesis; GO:0007399 | non-traceable author statement; periodic partitioning by pair rule gene; GO:0007366 | non-traceable author statement _ even skipped _ ewg central nervous system development; GO:0007417 | inferred from mutant phenotype; muscle development; GO:0007517 | inferred from mutant phenotype; muscle development; GO:0007517 | inferred from mutant phenotype _ erect wing _ ex negative regulation of imaginal disc growth; GO:0045571 | traceable author statement _ expanded _ exb _ _ extreme bar _ exd brain development; GO:0007420 | inferred from mutant phenotype; salivary gland determination; GO:0007432 | traceable author statement _ extradenticle _ exex central nervous system development; GO:0007417 | inferred from mutant phenotype; central nervous system development; GO:0007417 | inferred from mutant phenotype _ extra-extra _ Exh _ _ Epoxide hydrolase _ exi _ _ exigous _ exl _ _ exu-like "Identified in a screen for proteins that bind BLE1, a bcd mRNA, localization element." exo70 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ Cloned by ability to arrest the cell cycle when expressed in the fission yeast S.pombe. exo84 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ exr _ _ extra venation _ Ext _ _ Extras _ Ext2 _ _ _ _ extra-bases neuronal lineage restriction; GO:0042055 | inferred from mutant phenotype _ extra bases "extra-bases is required for lineage specification in the nervous, system." exu regulation of pole plasm bicoid mRNA localization; GO:0008359 | non-traceable author statement _ exuperantia _ ey eye-antennal disc metamorphosis; GO:0007455 | traceable author statement; glia cell migration; GO:0008347 | inferred from mutant phenotype _ eyeless _ ey-2 _ _ eyeless 2 _ EY2-5 _ _ _ _ EY2-6 _ _ _ _ EY2-8 _ _ _ _ EY3-2 _ _ _ _ EY3-3 _ _ _ _ EY3-4 _ _ _ _ EY3-5 _ _ _ _ eya eye-antennal disc metamorphosis; GO:0007455 | traceable author statement; transcription; GO:0006350 | traceable author statement _ eyes absent _ eyc photoreceptor morphogenesis; GO:0008594 | non-traceable author statement; rhabdomere development; GO:0042052 | inferred from mutant phenotype _ eyes closed _ eyeful _ _ eyeful _ eyg salivary gland morphogenesis; GO:0007435 | traceable author statement _ eyegone eyg is required for embryonic salivary duct development. eyh _ _ eyelisch _ Eyl _ _ Eyeluf _ eym _ _ eye missing _ eZ6 _ _ _ _ f _ _ forked _ f36 _ _ _ _ f4 _ _ _ _ f7 _ _ _ _ F72 _ _ _ _ F8 _ _ _ _ Faa _ _ Fumarylacetoacetase _ fad axis determination; GO:0007309 | inferred from mutant phenotype; dorsal/ventral axis determination; GO:0007310 | inferred from mutant phenotype _ fat-head _ Fad2 _ _ _ _ Faf _ _ Fas-associated factor _ faf deubiquitination; GO:0006514 | inferred from direct assay; ubiquitin cycle; GO:0006512 | inferred from genetic interaction with FLYBASE:eff; FB:FBgn0011217; ubiquitin-dependent protein catabolism; GO:0006511 | inferred from genetic interaction with FLYBASE:Pros26; FB:FBgn0002284 _ fat facets _ fai _ _ faint _ Fak56D cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity; integrin-mediated signaling pathway; GO:0007229 | inferred from sequence similarity _ Focal adhesion kinase-like _ fal gastrulation; GO:0007369 | non-traceable author statement _ falten "fal is required for correct morphogenetic movements during, gastrulation." fan _ _ farinelli fan is required for male fertility. Fancd2 _ _ _ _ fap _ _ female abdomen pattern _ far _ _ fat rhabdomeres _ Fas _ _ Fatty acid synthase _ fas maintenance of polarity of embryonic epithelium; GO:0042250 | traceable author statement; salivary gland morphogenesis; GO:0007435 | traceable author statement _ faint sausage _ Fas1 axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Abl; FB:FBgn0000017; neuronal cell adhesion; GO:0007158 | inferred from sequence similarity with SWISS-PROT:P10675; neuronal cell recognition; GO:0008038 | inferred from direct assay _ Fasciclin 1 _ Fas2 homophilic cell adhesion; GO:0007156 | inferred from direct assay; neuromuscular junction development; GO:0007528 | inferred from direct assay; neuronal cell recognition; GO:0008038 | inferred from direct assay _ Fasciclin 2 _ Fas3 axon guidance; GO:0007411 | inferred from expression pattern; synaptic target recognition; GO:0008039 | inferred from direct assay _ Fasciclin 3 _ fat-spondin _ _ _ _ fat2 calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity; calcium-dependent cell-cell adhesion; GO:0016339 | inferred from sequence similarity; homophilic cell adhesion; GO:0007156 | inferred from sequence similarity _ _ _ Fatp _ _ Fatty acid (long chain) transport protein _ fau _ _ _ _ fax _ _ failed axon connections _ fbl chromosome segregation; GO:0007059 | inferred from mutant phenotype; cytokinesis; GO:0016288 | inferred from mutant phenotype; meiosis; GO:0007126 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype _ fumble fbl is required for proper mitosis and meiosis. fbp _ _ "fructose-1,6-bisphosphatase" _ Fbp1 storage protein uptake; GO:0015032 | inferred from physical interaction with FLYBASE:Lsp1alpha; FB:FBgn0002562; storage protein uptake; GO:0015032 | inferred from sequence similarity with EMBL:D29741; protein_id:BAA06161.1; storage protein uptake; GO:0015032 | inferred from sequence similarity with PIR:S46948 _ Fat body protein 1 "The Fbp1 enhancer functions as a complex ecdysone response unit integrating, spatial and temporal cues in a specific response to the hormonal signal." Fbp2 _ _ Fat body protein 2 "The Dpse\Fbp2 gene has been cloned and sequenced,, and compared with the Fbp2 gene of D.melanogaster." fbr _ _ fine bristles _ fcG _ _ _ _ fch _ _ fragile chorion _ fcl _ _ foreclosed _ Fcp26Aa _ _ Follicle cell protein 26Aa _ Fcp26Ac _ _ Follicle cell protein 26Ac _ Fcp3C _ _ Follicle cell protein 3C _ fd _ _ furled _ fd3F _ _ forkhead domain 3F _ fd59A embryonic morphogenesis; GO:0009795 | non-traceable author statement _ forkhead domain 59A _ fd64A embryonic morphogenesis; GO:0009795 | non-traceable author statement _ forkhead domain 64A _ fd96Ca embryonic morphogenesis; GO:0009795 | non-traceable author statement _ forkhead domain 96Ca _ fd96Cb embryonic morphogenesis; GO:0009795 | non-traceable author statement _ forkhead domain 96Cb _ fdg _ _ fibrillar dysgenesis _ Fdh _ _ Formaldehyde dehydrogenase _ fdl brain development; GO:0007420 | inferred from mutant phenotype _ fused lobes _ Fdxh _ _ Ferredoxin _ febA _ _ feeding behavior A _ febB _ _ feeding behavior B _ FebpN _ _ ftz enhancer binding protein N "Identified as a 53kD protein that binds to the BS6 binding site of, the ftz proximal enhancer." Femcoat insect chorion formation; GO:0007306 | inferred from mutant phenotype _ Femcoat Femcoat is necessary for proper formation of endochorion structures. Fen1 _ _ Flap endonuclease 1 _ feng _ _ feng _ Fer1 _ _ 48 related 1 _ Fer1HCH iron homeostasis; GO:0006879 | inferred from direct assay; iron homeostasis; GO:0006879 | inferred from sequence similarity _ Ferritin 1 heavy chain homologue _ Fer2 _ _ 48 related 2 _ Fer2LCH iron homeostasis; GO:0006879 | inferred from direct assay _ Ferritin 2 light chain homologue _ Fer3 _ _ 48 related 3 _ ferm _ _ _ _ ferrochelatase protoporphyrinogen IX biosynthesis; GO:0006782 | non-traceable author statement _ ferrochelatase _ fez _ _ freeze _ ff _ _ fluff _ ff3 _ _ _ _ ff6 _ _ _ _ fh iron homeostasis; GO:0006879 | inferred from sequence similarity with EMBL:U95736; iron homeostasis; GO:0006879 | non-traceable author statement _ frataxin-like _ Fib 35S primary transcript processing; GO:0006365 | inferred from sequence similarity with SGD:NOP1; SGDID:S0002172 _ Fibrillarin _ Fibp _ _ _ _ fidipidine _ _ fidipidine _ Filamin _ _ _ _ Fim female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Fimbrin _ Fip2 _ _ Ftz-interacting protein 2 "Identified in a screen for proteins that interact with the ftz, proximal enhancer." fir _ _ fireworks _ fits _ _ fades in the stretch Recovered from a screen for modifiers of eve expression in neurons. fj cell-cell signaling; GO:0007267 | inferred from direct assay _ four-jointed _ FK506-bp1 protein folding; GO:0006457 | inferred from sequence similarity with SWISS-PROT:Q26486; protein folding; GO:0006457 | non-traceable author statement _ FK506-binding protein 1 _ FK506-bp2 protein folding; GO:0006457 | inferred from sequence similarity with SWISS-PROT:Q62658; protein folding; GO:0006457 | non-traceable author statement _ FK506-binding protein 2 _ Fkbp13 _ _ _ _ FKBP59 _ _ FK506-binding protein FKBP59 _ fkh salivary gland morphogenesis; GO:0007435 | inferred from mutant phenotype _ fork head _ fl _ _ fluted _ fl(1)302 _ _ female lethal 302 _ fl(1)35 _ _ female lethal (1) 35 _ fl(2)d "primary sex determination, soma; GO:0007539 | non-traceable author statement" _ female lethal d _ fl338 _ _ _ _ fla _ _ flat eye _ flam _ _ flamenco _ flc _ _ fleece _ fldA _ _ flight defective A _ fldB _ _ flight defective B _ fle _ _ femaleless _ flex _ _ female-specific lethal on X "flex is a sex-specific regulator of Sxl functioning in both the, soma and the germ-line acting post-splicing to regulate the translation, or stability of the Sxl protein." flexin _ _ _ _ fli-385 _ _ flightless 385 _ fliB _ _ flightless B _ fliC _ _ flightless C _ fliD _ _ flightless D _ fliE _ _ flightless E _ fliF _ _ flightless F _ fliG _ _ flightless G _ fliH _ _ flightless H _ fliI _ _ flightless I _ fliK _ _ flightless K _ flik _ _ _ "flik functions upstream of wts in a signaling pathway which, negatively regulates cell proliferation during development." fliN _ _ flightless N _ flk _ _ flanker _ fln _ _ flightin _ Flo _ _ flotillin _ flo _ _ fiber loop _ Flo-2 _ _ flotillin 2 _ flp _ _ flipper _ flr _ _ flare _ flrd393 _ _ flight reduced 393 _ flrd397 _ _ flight reduced 397 _ flrdA _ _ flight reduced A _ flrdB _ _ flight reduced B _ flrdC _ _ flight reduced C _ flrdD _ _ flight reduced D _ flrdE _ _ flight reduced E _ flrdF _ _ flight reduced F _ flrdG _ _ flight reduced G _ flrdH _ _ flight reduced H _ flrdJ _ _ flight reduced J _ flrdL _ _ flight reduced L _ flrdM _ _ flight reduced M _ flrdN _ _ flight reduced N _ flrdO _ _ flight reduced O _ flrdP _ _ flight reduced P _ flrdQ _ _ flight reduced Q _ flrdR _ _ flight reduced R _ fltA _ _ flight defective A _ fltB _ _ flight defective B _ fltC _ _ flight defective C _ fltD _ _ flight defective D _ fltE _ _ flight defective E _ fltF _ _ flight defective F _ fltG _ _ flight defective G _ fltH _ _ flight defective H _ fltI _ _ flight defective I _ fltJ _ _ flight defective J _ fltK _ _ flight defective K _ fltL _ _ flight defective L _ fltM _ _ flight defective M _ fltN _ _ flight defective N _ Flu _ _ Flutter _ flw protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ flap wing _ flx _ _ female lethal on X _ flz _ _ filzig _ fmf _ _ factor for male fertility _ Fmo-1 _ _ _ _ Fmo-2 _ _ _ _ Fmr1 negative regulation of translation; GO:0016478 | inferred from direct assay _ _ _ Fmrf neuropeptide signaling pathway; GO:0007218 | non-traceable author statement _ FMRFamide-related _ fms(445B) _ _ _ _ fne _ _ _ _ fng "dorsal/ventral pattern formation, imaginal disc; GO:0007450 | inferred from direct assay; eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from direct assay; leg disc metamorphosis; GO:0007478 | inferred from direct assay; wing morphogenesis; GO:0007476 | inferred from direct assay" _ fringe _ Fo _ _ Forkoid _ fo _ _ folded _ fod _ _ friend of diaphanous _ fof _ _ failure to fuse _ fog posterior midgut invagination; GO:0007374 | inferred from direct assay; ventral furrow formation; GO:0007370 | inferred from direct assay _ folded gastrulation "cad acts in hindgut development through fog, fkh and wg, but, does not play a role in activating tll, hkb, byn and bowl which, are also required for proper hindgut development." foi _ _ fear-of-intimacy _ fok _ _ fledgling of Klp38B _ fol _ _ folded wings _ fop _ _ _ _ for protein amino acid phosphorylation; GO:0006468 | inferred from direct assay _ foraging _ fos500 _ _ fos-related 500bp fragment _ fos84E _ _ fos-related gene at 84E _ fos93F _ _ fos-related gene at 93F A sequence isolated with mammalian c-fos specific primers. four-play _ _ four-play _ fout _ _ fade out _ foxo _ _ _ _ fph _ _ fast phase _ Fpps _ _ Farnesyl pyrophosphate synthase _ Fps85D photoreceptor morphogenesis; GO:0008594 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Fps oncogene analog "The 92kD and 45kD Fps85D protein isoforms, can transform avian and rodent cells when expressed from retroviral, vectors." fr _ _ fringed _ fra motor axon guidance; GO:0008045 | inferred from mutant phenotype _ frazzled _ fray embryonic cuticle biosynthesis (sensu Insecta); GO:0008362 | inferred from mutant phenotype; establishment of blood/nerve barrier; GO:0008065 | inferred from mutant phenotype; fasciculation of neuron; GO:0007413 | inferred from mutant phenotype; nerve ensheathment; GO:0008366 | inferred from mutant phenotype; nerve ensheathment; GO:0008366 | inferred from mutant phenotype _ frayed _ frc N receptor processing; GO:0007220 | non-traceable author statement; pyrimidine nucleotide sugar transport; GO:0015781 | non-traceable author statement _ fringe connection _ Frd _ _ Freckled _ Frda _ _ _ _ fred _ _ friend of echinoid _ freshair _ _ freshair _ fret _ _ free thinker _ frh _ _ fruh _ Frq neurotransmitter secretion; GO:0007269 | inferred from mutant phenotype _ Frequenin _ frs _ _ fruhstart "frs is required for the ventral inhibition of mitosis that acts during, gastrulation to counteract stg specifically in the cells that invaginate, to form the mesoderm." frtz establishment and/or maintenance of cell polarity; GO:0007163 | inferred from mutant phenotype _ fritz A tissue polarity gene. fru "male courtship behavior (sensu Drosophila); GO:0016542 | inferred from mutant phenotype; male courtship behavior (sensu Drosophila), wing vibration; GO:0016545 | inferred from mutant phenotype; male courtship behavior; GO:0008049 | inferred from mutant phenotype" _ fruitless _ fry _ _ furry "Identified in an adult mosaic screen as a mutation resulting in multiple, wing hairs." Fs _ _ _ _ fs(?)BL54 _ _ _ _ fs(?)BP73 _ _ _ _ fs(1)gammaa5 _ _ _ _ fs(1)gammaa6 _ _ female sterile (1) gammaa6 _ fs(1)gammaa7 _ _ female sterile (1) gammaa7 _ fs(1)gammaa8 _ _ female sterile (1) gammaa8 _ fs(1)gammab3 _ _ female sterile (1) gammab3 _ fs(1)gammab4 _ _ female sterile (1) gammab4 _ fs(1)100 _ _ female sterile (1) 100 _ Fs(1)10A _ _ Female sterile (1) 10A _ fs(1)124 _ _ female sterile (1) 124 _ fs(1)127 _ _ female sterile (1) 127 _ fs(1)137a _ _ female sterile (1) 137a _ fs(1)140 _ _ female sterile (1) 140 _ fs(1)162 _ _ female sterile (1) 162 _ fs(1)164 _ _ female sterile (1) 164 _ fs(1)186 _ _ female sterile (1) 186 _ fs(1)1867 _ _ female sterile (1) 1867 _ fs(1)18Da _ _ _ _ fs(1)192 _ _ female sterile (1) 192 _ fs(1)201 _ _ female sterile (1) 201 _ fs(1)217 _ _ female sterile (1) 217 _ fs(1)221a _ _ female sterile (1) 221a _ fs(1)234 _ _ female sterile (1) 234 _ fs(1)242 _ _ female sterile (1) 242 _ fs(1)2448 _ _ female sterile (1) 2448 _ fs(1)250 _ _ female sterile (1) 250 _ fs(1)259 _ _ female sterile (1) 259 _ fs(1)260 _ _ female sterile (1) 260 _ fs(1)261EL _ _ female sterile (1) 261EL _ fs(1)288 _ _ female sterile (1) 288 _ fs(1)2Ca _ _ _ _ fs(1)3 _ _ female sterile (1) 3 _ fs(1)38 _ _ female sterile (1) 38 _ fs(1)3B _ _ _ _ fs(1)513 _ _ _ _ fs(1)56 _ _ female sterile (1) 56 _ fs(1)5Da _ _ _ _ fs(1)60 _ _ female sterile (1) 60 _ fs(1)A1001 _ _ female sterile (1) A1001 _ fs(1)A1010 _ _ female sterile (1) A1010 _ fs(1)A1024 _ _ female sterile (1) A1024 _ fs(1)A1042 _ _ female sterile (1) A1042 _ fs(1)A1059 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) A1059 _ fs(1)A1074 _ _ female sterile (1) A1074 _ fs(1)A1103 _ _ female sterile (1) A1103 _ fs(1)A1140 _ _ female sterile (1) A1140 _ fs(1)A1187 _ _ female sterile (1) A1187 _ fs(1)A120 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) A120 _ fs(1)A1242 _ _ female sterile (1) A1242 _ fs(1)A1245 _ _ female sterile (1) A1245 _ fs(1)A125 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) A125 _ fs(1)A1304 _ _ female sterile (1) A1304 _ fs(1)A1371 _ _ female sterile (1) A1371 _ fs(1)A1459 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) A1459 _ fs(1)A147 oogenesis; GO:0007292 | non-traceable author statement _ female sterile (1) A147 _ fs(1)A1509 _ _ female sterile (1) A1509 _ fs(1)A1561 _ _ female sterile (1) A1561 _ fs(1)A180 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) A180 _ fs(1)A214 _ _ female sterile (1) A214 _ fs(1)A273 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) A273 _ fs(1)A383 _ _ female sterile (1) A383 _ fs(1)A426 _ _ female sterile (1) A426 _ fs(1)A436 _ _ female sterile (1) A436 _ fs(1)A456 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) A456 _ fs(1)A457 _ _ female sterile (1) A457 _ fs(1)A462 _ _ female sterile (1) A462 _ fs(1)A473 _ _ female sterile (1) A473 _ fs(1)A475 _ _ female sterile (1) A475 _ fs(1)A5 _ _ female sterile (1) A5 _ fs(1)A508 _ _ female sterile (1) A508 _ fs(1)A572 _ _ female sterile (1) A572 _ fs(1)A59 _ _ female sterile (1) A59 _ fs(1)A97 _ _ female sterile (1) A97 _ fs(1)A99 _ _ female sterile (1) A99 _ fs(1)B4 _ _ female sterile (1) B4 _ fs(1)BP _ _ female sterile (1) BP _ fs(1)C3 _ _ female sterile (1) C3 _ fs(1)C4 _ _ female sterile (1) C4 _ fs(1)C5 _ _ female sterile (1) C5 _ fs(1)C6 _ _ female sterile (1) C6 _ fs(1)de1 _ _ female sterile (1) defective eggs 1 _ fs(1)de11 _ _ female sterile (1) defective eggs 11 _ fs(1)h regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement _ female sterile (1) homoeotic _ fs(1)K10 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (1) K10 "capu and spir are not required for the synthesis or nuclear localization, of fs(1)K10 protein and they mediate dorsoventral patterning independently, of fs(1)K10 mRNA localization." fs(1)K1563 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) K1563 _ fs(1)K254 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) K254 _ fs(1)K4 _ _ female sterile (1) K4 _ fs(1)K741 oogenesis; GO:0007292 | traceable author statement _ female sterile (1) K741 _ fs(1)K79 _ _ female sterile (1) K79 _ fs(1)K93 _ _ female sterile (1) K93 _ fs(1)M11 _ _ female sterile (1) M11 _ fs(1)M111 _ _ female sterile (1) M111 _ fs(1)M112 _ _ female sterile (1) M112 _ fs(1)M116 _ _ female sterile (1) M116 _ fs(1)M122 _ _ female sterile (1) M122 _ fs(1)M13 _ _ female sterile (1) M13 _ fs(1)M14 _ _ female sterile (1) M14 _ fs(1)M20 _ _ female sterile (1) M20 _ fs(1)M26 _ _ female sterile (1) M26 _ fs(1)M28 _ _ female sterile (1) M28 _ fs(1)M29 _ _ female sterile (1) M29 _ fs(1)M3 eggshell formation; GO:0007304 | non-traceable author statement _ female sterile (1) M3 "fs(1)N and fs(1)M3 are necessary for extracellular accumulation, of tsl." fs(1)M30 _ _ female sterile (1) M30 _ fs(1)M32 _ _ female sterile (1) M32 _ fs(1)M41 _ _ female sterile (1) M41 _ fs(1)M43 _ _ female sterile (1) M43 _ fs(1)M48 _ _ female sterile (1) M48 _ fs(1)M49 _ _ female sterile (1) M49 _ fs(1)M52 _ _ female sterile (1) M52 _ fs(1)M56 _ _ female sterile (1) M56 _ fs(1)M57 _ _ female sterile (1) M57 _ fs(1)M58 _ _ female sterile (1) M58 _ fs(1)M62 _ _ female sterile (1) M62 _ fs(1)M73 _ _ female sterile (1) M73 _ fs(1)M79 _ _ female sterile (1) M79 _ fs(1)M93 _ _ female sterile (1) M93 _ fs(1)M94 _ _ female sterile (1) M94 _ fs(1)MY18 _ _ female sterile (1) MY18 _ fs(1)N insect chorion formation; GO:0007306 | non-traceable author statement; oogenesis; GO:0007292 | traceable author statement _ female sterile (1) Nasrat "fs(1)N and fs(1)M3 are necessary for extracellular accumulation, of tsl." fs(1)ne1 _ _ female sterile (1) no eggs 1 _ fs(1)ne3 _ _ female sterile (1) no eggs 3 _ fs(1)ne4 _ _ female sterile (1) no eggs 4 _ fs(1)ne8 _ _ female sterile (1) no eggs 8 _ fs(1)ne9 _ _ female sterile (1) no eggs 9 _ fs(1)pyr _ _ _ _ fs(1)se _ _ female sterile (1) small eggs _ fs(1)Ya chromatin assembly/disassembly; GO:0006333 | inferred from mutant phenotype; chromosome condensation; GO:0030261 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype; pronuclear fusion; GO:0007344 | inferred from mutant phenotype _ female sterile (1) Young arrest _ fs(1)Yb germ-cell development; GO:0007281 | inferred from mutant phenotype _ female sterile (1) Yb _ fs(2)04443 _ _ _ _ Fs(2)1 _ _ _ _ fs(2)261404 _ _ female sterile(2)261404 _ fs(2)261505 _ _ female sterile(2)261505 _ fs(2)35Ec _ _ _ _ fs(2)35Ed _ _ _ _ fs(2)38ABa _ _ _ _ fs(2)43Ei _ _ female sterile (2) 43Ei _ fs(2)51Fb _ _ female sterile (2) 51Fb _ fs(2)80 _ _ _ _ fs(2)A11 _ _ female sterile (2) A11 _ fs(2)A17 _ _ female sterile (2) A17 _ fs(2)A5 _ _ female sterile (2) A5 _ fs(2)AB00 _ _ _ _ fs(2)abc _ _ female sterile abnormal chromatin _ fs(2)al _ _ female sterile (2) al "Identified during a screen for, maternal effect embryonic lethal genes within Df(2L)al." fs(2)AL289 _ _ _ _ fs(2)B _ _ female sterile (2) Bridges _ fs(2)BA37 _ _ _ _ Fs(2)Bar _ _ Female sterile (2) Barsa _ fs(2)BG07 _ _ _ _ Fs(2)Bil _ _ Female sterile (2) Billa _ fs(2)BP76 _ _ _ _ fs(2)C10 _ _ _ _ Fs(2)D10 _ _ Female sterile D10 _ fs(2)E1 _ _ female sterile (2) E1 _ fs(2)eo1 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) eo1 _ fs(2)eo3 _ _ female sterile (2) eo3 _ fs(2)eo4 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) eo4 _ fs(2)eo5 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) eo5 _ fs(2)eo7 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) eo7 _ Fs(2)Etr _ _ Female sterile (2) Etre _ Fs(2)G _ _ Female sterile of Grell _ fs(2)H47 _ _ _ _ Fs(2)Him _ _ Female sterile (2) Himca _ fs(2)k09833 _ _ _ _ Fs(2)Ket "NLS-bearing substrate-nucleus import; GO:0006607 | inferred from direct assay; protein-nucleus import; GO:0006606 | inferred from direct assay; protein-nucleus import; GO:0006606 | inferred from genetic interaction with FLYBASE:Pen; FB:FBgn0011823; protein-nucleus import; GO:0006606 | inferred from sequence similarity with EMBL:L38951; protein-nucleus import, docking; GO:0000059 | inferred from direct assay" _ Female sterile (2) Ketel "Fs(2)Ket gene product is maternally provided and is required during, both embryogenesis and larval life. The gene product is involved in, nuclear protein import." Fs(2)Kom _ _ Female sterile (2) Kompolt _ fs(2)LJ25 _ _ _ _ fs(2)lto1 eggshell formation; GO:0007304 | inferred from mutant phenotype _ female sterile (2) lto1 _ fs(2)lto3 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) lto3 _ fs(2)lto4 nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype _ female sterile (2) lto4 _ fs(2)ltoAHE1 eggshell formation; GO:0007304 | inferred from mutant phenotype _ female sterile (2) ltoAHE1 _ fs(2)ltoAHK35 nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype _ female sterile (2) ltoAHK35 _ fs(2)ltoAPV63 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) ltoAPV63 _ fs(2)ltoDC37 nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype _ female sterile (2) ltoDC37 _ fs(2)ltoDG25 nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype _ female sterile (2) ltoDG25 _ fs(2)ltoHC44 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) ltoHC44 _ fs(2)ltoHE41 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) ltoHE41 _ fs(2)ltoHL22 eggshell formation; GO:0007304 | inferred from mutant phenotype _ female sterile (2) ltoHL22 _ fs(2)ltoHM11 eggshell formation; GO:0007304 | inferred from mutant phenotype _ female sterile (2) ltoHM11 _ fs(2)ltoPI23 _ _ female sterile (2) ltoPI23 _ fs(2)ltoPP43 eggshell formation; GO:0007304 | inferred from mutant phenotype _ female sterile (2) ltoPP43 _ fs(2)ltoQE45 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) ltoQE45 _ fs(2)ltoQZ47 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) ltoQZ47 _ fs(2)ltoRG3 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) ltoRG3 _ fs(2)ltoRM7 nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype _ female sterile (2) ltoRM7 _ fs(2)ltoRN73 eggshell formation; GO:0007304 | inferred from mutant phenotype _ female sterile (2) ltoRN73 _ fs(2)ltoRU26 eggshell formation; GO:0007304 | inferred from mutant phenotype _ female sterile (2) ltoRU26 _ fs(2)ltoRV64 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) ltoRV64 _ fs(2)ltoWi42 oogenesis; GO:0007292 | inferred from mutant phenotype _ female sterile (2) ltoWi42 _ Fs(2)M _ _ Female sterile of Meyer _ fs(2)mel1 _ _ female sterile (2) maternal effect lethal 1 _ fs(2)mel2 _ _ female sterile (2) maternal effect lethal 2 _ fs(2)mel3 _ _ female sterile (2) maternal effect lethal 3 _ fs(2)mel4 _ _ female sterile (2) maternal effect lethal 4 _ fs(2)mel5 _ _ female sterile (2) maternal effect lethal 5 _ fs(2)mel6 _ _ female sterile (2) maternal effect lethal 6 _ fs(2)mel7 _ _ female sterile (2) maternal effect lethal 7 _ fs(2)neo11 _ _ _ _ fs(2)neo12 _ _ _ _ fs(2)neo4 _ _ _ _ fs(2)neo5 _ _ _ _ fs(2)neo8 _ _ _ _ fs(2)neo9 _ _ _ _ fs(2)PC4-U _ _ _ _ fs(2)R _ _ female sterile (2) Ruplekha _ fs(2)R2.503 _ _ _ _ fs(2)ry11 _ _ _ _ fs(2)ry12 _ _ _ _ fs(2)ry6 _ _ _ _ fs(2)sun _ _ female sterile (2) supernova _ Fs(2)Tar _ _ Female sterile (2) Tarhos _ Fs(2)Tek _ _ Female sterile (2) Tekele _ Fs(2)Tld _ _ Female sterile (2) Told _ Fs(2)Ugr _ _ Female sterile (2) Ugra "Pole cell transplantations reveal Fs(2)Ugr is required in the follicle, cells and not in the germ line." Fs(2)Vaj _ _ Female sterile (2) Vaja _ Fs(2)X10 _ _ Female sterile (2) X10 _ Fs(2)Y12 _ _ Female sterile (2) Y12 _ fs(3)100C _ _ _ _ fs(3)160 _ _ _ _ fs(3)167 _ _ _ _ fs(3)272-9 _ _ female sterile (3) 272-9 _ fs(3)2755 _ _ _ _ fs(3)2877 _ _ _ _ fs(3)302 _ _ _ _ fs(3)6284 _ _ _ _ fs(3)66EFa _ _ _ _ fs(3)66EFb _ _ _ _ fs(3)820 _ _ _ _ fs(3)82CDa _ _ _ _ fs(3)82CDb _ _ _ _ fs(3)82EFa _ _ _ _ fs(3)82EFb _ _ _ _ fs(3)82EFc _ _ _ _ fs(3)82EFd _ _ _ _ fs(3)82EFe _ _ _ _ fs(3)83Ba _ _ _ _ fs(3)85Aa _ _ _ _ fs(3)93Ca _ _ _ _ fs(3)96A-96B _ _ _ _ fs(3)A1 _ _ female sterile (3) A1 _ fs(3)A107 _ _ _ _ Fs(3)Apc _ _ Female sterile (3) Apc "Pole cell transplantations reveal Fs(3)Apc is required in the follicle, cells and not in the germ line." Fs(3)Ava _ _ Female sterile (3) Avar _ fs(3)BA32 _ _ _ _ Fs(3)Bak _ _ Female sterile (3) Baksa _ Fs(3)Ber _ _ Female sterile (3) Bercel _ Fs(3)Boj _ _ Female sterile (3) Bojla _ Fs(3)Bot _ _ Female sterile (3) Botond _ fs(3)BQ16 _ _ _ _ Fs(3)Dam _ _ Female sterile (3) Damasa _ Fs(3)Far _ _ Farkas _ fs(3)G2 _ _ female sterile (3) G2 _ Fs(3)Ger _ _ Female sterile (3) Gerec _ Fs(3)Hod _ _ Female sterile (3) Hodos _ Fs(3)Hor _ _ Female sterile (3) Horka _ Fs(3)Hub _ _ Female sterile (3) Huba _ Fs(3)Jut _ _ Female sterile (3) Jutas _ Fs(3)Kar _ _ Female sterile (3) Kartal _ Fs(3)Kav _ _ Female sterile (3) Kavar _ Fs(3)Kel _ _ Female sterile (3) Keled _ Fs(3)Kev _ _ Female sterile (3) Keve _ Fs(3)Kun _ _ Female sterile (3) Kun _ Fs(3)Lev _ _ Female sterile (3) Levente _ fs(3)neo27 _ _ _ _ fs(3)neo71 _ _ _ _ Fs(3)Pal _ _ Female sterile (3) Palat _ Fs(3)Pil _ _ Female sterile (3) Pilis _ Fs(3)Pud _ _ Female sterile (3) Pudur _ Fs(3)Ros _ _ Female sterile (3) Rosd _ Fs(3)Tev _ _ Female sterile (3) Tevel _ Fs(3)Ton _ _ Female sterile (3) Tonuz _ Fs(3)Var _ _ Female sterile (3) Varas _ Fs(3)Ven _ _ Female sterile (3) Vencellin _ Fs(3)Zer _ _ Female sterile (3) Zerind _ Fs(3)Zol _ _ Female sterile (3) Zolta _ Fs(3)Zom _ _ Female sterile (3) Zombor _ Fs1 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Female-specific 1 _ fsco _ _ four score _ fsf _ _ fruitless stimulation factor _ Fsh G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ Fsh-Tsh-like receptor _ fsl male meiosis chromosome segregation; GO:0007060 | inferred from mutant phenotype _ fusolo _ Fst response to cold; GO:0009409 | inferred from expression pattern; response to cold; GO:0009409 | non-traceable author statement _ Frost _ ft establishment of ommatidial polarity (sensu Drosophila); GO:0042067 | inferred from genetic interaction with FLYBASE:fz; FB:FBgn0001085 _ fat _ FTasealpha _ _ Farnesyltransferase alpha subunit _ ftl2 _ _ flightless-2nd _ ftz periodic partitioning by pair rule gene; GO:0007366 | non-traceable author statement _ fushi tarazu _ ftz-f1 "regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement" _ ftz transcription factor 1 _ fu segment polarity determination; GO:0007367 | inferred from mutant phenotype; smoothened receptor signaling pathway; GO:0007224 | inferred from mutant phenotype _ fused _ fu12 _ _ _ _ fu2 _ _ _ _ Fuc _ _ alpha Fucosidase _ FucTA protein amino acid glycosylation; GO:0006486 | inferred from direct assay; protein amino acid glycosylation; GO:0006486 | non-traceable author statement _ _ _ FucTB protein amino acid glycosylation; GO:0006486 | non-traceable author statement _ _ _ FucTC protein amino acid glycosylation; GO:0006486 | non-traceable author statement _ _ _ Fum _ _ Fumarase _ fum _ _ fused mushroom bodies _ fun _ _ _ _ fur _ _ fused rhabdomeres _ Fur1 proteolysis and peptidolysis; GO:0006508 | non-traceable author statement; proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ Furin 1 _ Fur2 proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ Furin 2 _ furrow _ _ furrow _ fus EGF receptor signaling pathway; GO:0007173 | inferred from genetic interaction with FLYBASE:Egfr; FB:FBgn0003731; EGF receptor signaling pathway; GO:0007173 | inferred from genetic interaction with FLYBASE:cact; FB:FBgn0000250 _ fusilli "fus is required for full activity of the Egfr pathway in follicle, cells." futsch axonogenesis; GO:0007409 | inferred from mutant phenotype; dendrite morphogenesis; GO:0016358 | inferred from mutant phenotype; microtubule cytoskeleton organization and biogenesis; GO:0000226 | inferred from mutant phenotype; regulation of synaptic growth at neuromuscular junction; GO:0008582 | inferred from mutant phenotype _ futsch _ fuzzy-cellularization _ _ fuzzy cellularization _ fw cell adhesion; GO:0007155 | inferred from sequence similarity with MGD:Sele; MGI:MGI:98278 _ furrowed _ fwd male meiosis cytokinesis; GO:0007112 | inferred from mutant phenotype; phosphorylation; GO:0016310 | non-traceable author statement _ four wheel drive "fwd is required for intercellular bridge formation during cytokinesis, in male meiosis." fws _ _ four way stop _ fy establishment and/or maintenance of cell polarity; GO:0007163 | inferred from mutant phenotype _ fuzzy "Functions downstream of fz for planar polarity in the wing., in and fy are needed in cells receiving and responding to a fz, dependent intercellular signal., Genetic analysis is not consistent with fz-like class of genes fz,, pk, Vang, stan and dsh acting simply as positive or negative, regulators of in and fy." fz determination of sensory organ precursor cell fate; GO:0016360 | inferred from mutant phenotype; establishment and/or maintenance of cell polarity; GO:0007163 | inferred from mutant phenotype; establishment of cell polarity; GO:0030010 | inferred from mutant phenotype; establishment of ommatidial polarity (sensu Drosophila); GO:0042067 | inferred from mutant phenotype; establishment of ommatidial polarity (sensu Drosophila); GO:0042067 | inferred from mutant phenotype; ommatidial rotation; GO:0016318 | inferred from mutant phenotype _ frizzled _ fz2 Wnt receptor signaling pathway; GO:0016055 | inferred from direct assay; frizzled-2 receptor signaling pathway; GO:0007223 | inferred from direct assay _ frizzled 2 _ fz3 establishment and/or maintenance of cell polarity; GO:0007163 | inferred from mutant phenotype _ frizzled 3 fz3 may serve as an attenuator of wg signaling. fz4 signal transduction; GO:0007165 | inferred from sequence similarity with FLYBASE:fz; FB:FBgn0001085 _ frizzled 4 _ fzo Nebenkern formation; GO:0007287 | inferred from mutant phenotype; mitochondrial fusion; GO:0008053 | inferred from mutant phenotype; mitochondrion organization and biogenesis; GO:0007005 | inferred from mutant phenotype _ fuzzy onions "fzo has been cloned and characterized. fzo encodes a predicted, transmembrane GTPase that is required for mitochondrial fusion during, spermatogenesis." fzy cyclin catabolism; GO:0008054 | inferred from direct assay _ fizzy "fzy is required for timely disengagement of mother and daughter centrioles, in embryos." g eye pigment biosynthesis; GO:0006726 | inferred from direct assay; ocellus pigment biosynthesis; GO:0008055 | inferred from direct assay _ garnet _ Galpha49B phospholipase C activation; GO:0007202 | inferred from genetic interaction with FLYBASE:norpA; FB:FBgn0004625; phospholipase C activation; GO:0007202 | inferred from genetic interaction with FLYBASE:rdgB; FB:FBgn0003218; phospholipase C activation; GO:0007202 | inferred from physical interaction with FLYBASE:norpA; FB:FBgn0004625 _ G protein alpha49B _ Galpha73B G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with EMBL:M21142 _ G protein alpha 73B _ Gbeta13F G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with SWISS-PROT:O45040; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ G protein beta-subunit 13F _ Gbeta5 G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ Gbeta76C deactivation of rhodopsin mediated signaling; GO:0016059 | inferred from mutant phenotype; phospholipase C activation; GO:0007202 | inferred from mutant phenotype; phototransduction; GO:0007602 | inferred from mutant phenotype; rhodopsin mediated signaling; GO:0016056 | inferred from mutant phenotype _ G protein beta-subunit 76C _ Ggamma1 G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ G protein gamma 1 _ Ggamma30A phototransduction; GO:0007602 | inferred from physical interaction with FLYBASE:Gbeta76C; FB:FBgn0004623 _ G protein gamma30A _ G-ialpha65A G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with SWISS-PROT:P41776; G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ G protein alphai subunit 65A _ G-oalpha47A G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with MGD:Gnao; MGI:MGI:95775; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with SWISS-PROT:P38404 _ G protein oalpha 47A _ G-salpha60A G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with SWISS-PROT:O16118 _ G protein salpha 60A "Genetic studies indicate that the G-salpha60A pathway mediates its, primary effects by a novel pathway in differentiating wing epithelial, cells." g11 _ _ _ _ G192 EGF receptor signaling pathway; GO:0007173 | inferred from mutant phenotype _ _ _ g5 _ _ _ _ GABA-B-R1 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ metabotropic GABA-B receptor subtype 1 _ GABA-B-R2 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ metabotropic GABA-B receptor subtype 2 _ GABA-B-R3 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ metabotropic GABA-B receptor subtype 3 _ Gad1 larval locomotory behavior; GO:0008345 | inferred from mutant phenotype; neuromuscular junction development; GO:0007528 | inferred from mutant phenotype _ Glutamic acid decarboxylase 1 Gad1 has a role in glutamatergic synaptogenesis. Gal _ _ beta galactosidase "Histochemical staining with X-gal at pH 7.2 and pH 6.0 shows that some, organs possess histochemically detectable beta-galactosidase activity even, at the higher pH. This paper includes a comparison of the distribution of, histochemically detectable enzyme at both pH 6.0 and pH 7.2 in third instar, larvae, pupae and adults." galectin _ _ _ _ galere response to bacteria; GO:0009617 | inferred from mutant phenotype _ galere galere regulates the antibacterial response. GalNAc-T1 _ _ _ _ Gandalf _ _ _ _ gang-of-three _ _ gang of three _ Gap1 RAS protein signal transduction; GO:0007265 | inferred from mutant phenotype; female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype; sister chromatid cohesion; GO:0007062 | inferred from mutant phenotype _ GTPase-activating protein 1 "Ras85D is a positive modifier of pb activity, while the Ras85D-antagonist, Gap1 has an opposite effect." Gap69C _ _ GTPase-activating protein 69C _ Gapdh1 glycolysis; GO:0006096 | inferred from expression pattern; glycolysis; GO:0006096 | non-traceable author statement _ Glyceraldehyde 3 phosphate dehydrogenase 1 _ Gapdh2 glycolysis; GO:0006096 | inferred from expression pattern; glycolysis; GO:0006096 | non-traceable author statement _ Glyceraldehyde 3 phosphate dehydrogenase 2 _ gar _ _ gargantua Negative regulator of growth and proliferation. garz ER to Golgi transport; GO:0006888 | inferred from sequence similarity with SGD:GEA1; SGDID:S0003792; intra-Golgi transport; GO:0006891 | inferred from sequence similarity with SGD:GEA1; SGDID:S0003792 _ gartenzwerg Involved in endocytosis/membrane trafficking. Gas8 _ _ Growth arrest specific protein 8 _ Gase1 _ _ Gastric serine protease 1 _ Gase2 _ _ Gastric serine protease 2 _ Gase3 _ _ Gastric serine protease 3 _ Gase4 _ _ Gastric serine protease 4 _ Gasp _ _ _ _ gat eclosion rhythm; GO:0008062 | inferred from mutant phenotype _ gate _ gatA _ _ _ _ GATAd _ _ _ _ GATAe _ _ _ _ gau eggshell formation; GO:0007304 | inferred from mutant phenotype _ gauze _ gav _ _ _ _ gbb TGFbeta receptor signaling pathway; GO:0007179 | inferred from sequence similarity with MGD:Bmp7; MGI:MGI:103302 _ glass bottom boat _ Gbp _ _ GTP-binding-protein _ GC _ _ gamma-glutamyl carboxylase _ gcd _ _ giant cell defect _ gce _ _ germ cell-expressed bHLH-PAS _ gcl pole cell determination; GO:0007278 | inferred from direct assay _ germ cell-less "gcl activity is required only for the establishment of the germ cell, lineage: proper pole bud formation, pole cell formation and pole cell, survival." Gclc _ _ Glutamate-cysteine ligase catalytic subunit _ Gclm _ _ Glutamate-cysteine ligase modifier subunit _ gcm determination of glial fate; GO:0007403 | inferred from mutant phenotype; determination of glial fate; GO:0007403 | inferred from mutant phenotype; determination of glial fate; GO:0007403 | inferred from mutant phenotype _ glial cells missing _ gcm2 _ _ _ _ Gcn2 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ GCR(ich) _ _ _ _ Gd _ _ Gulloid _ gd Tl receptor signaling pathway; GO:0008063 | inferred from genetic interaction with FLYBASE:Tl; FB:FBgn0003717; Tl receptor signaling pathway; GO:0008063 | inferred from genetic interaction with FLYBASE:pip; FB:FBgn0003089 _ gastrulation-defective _ Gdh _ _ Glutamate dehydrogenase _ Gdi neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle fusion; GO:0016083 | non-traceable author statement _ GDP dissociation inhibitor _ gdl oogenesis; GO:0007292 | non-traceable author statement; spermatogenesis; GO:0007283 | non-traceable author statement _ gonadal _ gdl-ORF39 spermatogenesis; GO:0007283 | non-traceable author statement _ _ _ ge _ _ genitalless _ Gebf-I _ _ glue enhancer binding factor-I _ Gef26 _ _ _ _ Gef64C axon guidance; GO:0007411 | inferred from mutant phenotype _ Guanine nucleotide exchange factor GEF64C _ gek actin polymerization and/or depolymerization; GO:0008154 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ genghis khan "The gek multidomain protein kinase is an effector for Cdc42's, regulation of actin polymerization." Gel _ _ Gelsolin _ gel _ _ gelded _ Gelatinase _ _ Gelatinase _ geminin negative regulation of DNA replication; GO:0008156 | non-traceable author statement; regulation of cell cycle; GO:0000074 | inferred from sequence similarity _ _ "geminin has roles in limiting DNA replication, in anaphase and in, neural differentiation." gfA _ _ giant fiber A _ Gfat1 _ _ Glutamine:fructose-6-phosphate aminotransferase 1 _ Gfat2 _ _ Glutamine:fructose-6-phosphate aminotransferase 2 _ gft _ _ guftagu _ gg oogenesis; GO:0007292 | traceable author statement _ goggle _ betaggt-I RAS protein signal transduction; GO:0007265 | inferred from sequence similarity with SWISS-PROT:P53610 _ beta subunit of type I geranylgeranyl transferase _ betaggt-II _ _ beta subunit of type II geranylgeranyl transferase _ ggy _ _ groggy _ gho _ _ ghost _ GI _ _ _ _ gig regulation of cell cycle; GO:0000074 | traceable author statement; regulation of cell growth; GO:0001558 | traceable author statement _ gigas _ GIIIA _ _ _ _ GIIIB _ _ _ _ GIIIC _ _ _ _ GIIID _ _ _ _ GIIIE _ _ _ _ Gip _ _ GIP-like _ gish glia cell migration; GO:0008347 | inferred from mutant phenotype; glia cell migration; GO:0008347 | inferred from mutant phenotype; spermatogenesis; GO:0007283 | inferred from mutant phenotype _ gilgamesh _ gk _ _ geko _ Gl microtubule-based movement; GO:0007018 | inferred from sequence similarity; retrograde axon cargo transport; GO:0008090 | non-traceable author statement _ Glued _ gl eye photoreceptor development (sensu Drosophila); GO:0042051 | non-traceable author statement; photoreceptor commitment; GO:0007459 | inferred from mutant phenotype _ glass "hh acts upstream of gl, sca, h and dpp in the developing eye." GLaz _ _ Glial Lazarillo _ Gld cuticle biosynthesis; GO:0042335 | non-traceable author statement _ Glucose dehydrogenase "The promoter region and expression pattern of Gld in seven species, of the melanogaster subgroup has been compared." glec _ _ Gliolectin _ Gli establishment of blood/nerve barrier; GO:0008065 | inferred from mutant phenotype; female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Gliotactin _ gli _ _ glide _ Glo1 _ _ Glyoxalase 1 _ glob1 _ _ globin 1 _ Glt _ _ Glutactin _ Glu _ _ beta glucuronidase _ glu mitotic chromosome condensation; GO:0007076 | inferred from sequence similarity with SGD:SMC4; SGDID:S0004076; mitotic chromosome segregation; GO:0000070 | inferred from sequence similarity with SGD:SMC4; SGDID:S0004076 _ gluon "glu is critically important for the resolution of sister chromatids, during mitosis prior to anaphase onset." alpha-Glu-2 _ _ alpha-Glucosidase-2 _ alpha-Glu-3 _ _ alpha-Glucosidase-3 _ alpha-Glu-4 _ _ alpha-Glucosidase-4 _ Glu-RA metabotropic glutamate receptor signaling pathway; GO:0007216 | inferred from sequence similarity _ Metabotropic glutamate receptor _ Glu-RB _ _ _ _ Glu-RI _ _ Glutamate receptor I _ Glu-RIB _ _ Glutamate receptor IB _ Glu-RIIA _ _ Glutamate receptor IIA _ Glu-RIIB _ _ Glutamate receptor IIB _ Glu-RIIC _ _ Glutamate receptor IIC _ GluClalpha _ _ _ _ Glut1 _ _ Glucose transporter 1 _ Glut3 glucose transport; GO:0015758 | non-traceable author statement _ Glucose transporter type 3 _ beta-glycoprotein-hormone-related-polypeptide _ _ _ _ GlyP carbohydrate metabolism; GO:0005975 | non-traceable author statement _ Glycogen phosphorylase _ GlyS _ _ Glycogen synthase _ gm _ _ gleam _ GM130 Golgi organization and biogenesis; GO:0007030 | inferred from genetic interaction with FLYBASE:ecd; FB:FBgn0000543 _ _ _ Gmd "GPD-L-fucose biosynthesis, de novo pathway; GO:0042351 | inferred from sequence similarity with HUGO:GMDS; OMIM:602884" _ "GDP-mannose 4,6-dehydratase" _ Gmer "GPD-L-fucose biosynthesis, de novo pathway; GO:0042351 | inferred from sequence similarity with HUGO:TSTA3; OMIM:137020" _ "GDP-4-keto-6-deoxy-D-mannose 3,5-epimerase/4-reductase" _ gn _ _ glisten _ gnar tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ gnarled _ GNBP1 immune response; GO:0006955 | inferred from expression pattern _ Gram-negative bacteria binding protein 1 _ GNBP2 defense response; GO:0006952 | non-traceable author statement _ Gram-negative bacteria binding protein 2 _ GNBP3 defense response; GO:0006952 | non-traceable author statement _ Gram-negative bacteria binding protein 3 _ gnd _ _ grounded _ Gnf1 DNA replication; GO:0006260 | non-traceable author statement _ Germ line transcription factor 1 _ gnu _ _ giant nuclei _ Go _ _ Gold tip _ God _ _ Godzilla _ gol "mesoderm development; GO:0007498 | non-traceable author statement; regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement" _ goliath _ Golgin84 _ _ _ _ gom _ _ gomdanji _ gor _ _ gorp _ Gos28 ER to Golgi transport; GO:0006888 | inferred from sequence similarity; intra-Golgi transport; GO:0006891 | inferred from sequence similarity; vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Got1 glutamate biosynthesis; GO:0006537 | traceable author statement _ Glutamate oxaloacetate transaminase 1 _ Got2 glutamate biosynthesis; GO:0006537 | traceable author statement _ Glutamate oxaloacetate transaminase 2 _ gou oogenesis; GO:0007292 | inferred from mutant phenotype _ gourd _ goul _ _ goulash _ gp _ _ gap _ Gp14B _ _ Glycoprotein 14B _ Gp150 transmembrane receptor protein tyrosine phosphatase signaling pathway; GO:0007185 | inferred from direct assay _ _ _ Gp188 _ _ _ "Similar to its putative mammalian homolog the Gp188 protein is located, to nuclear pore complexes, as shown by both immunofluorescence and, immunoelectron microscopy. The Gp188 protein is abundant in a non-nuclear, form during early embryogenesis., Isolation and characterization of Gp188." gp210 _ _ _ _ Gp90 _ _ _ "A secreted glycoprotein with apparent molecular mass of 90kD produced, by cultured embryonic cells is isolated and partially characterized., Characteristics suggest the glycoprotein is a representative of the, invertebrate mucin-type glycoprotein." Gp93 _ _ Glycoprotein 93 _ Gp99 _ _ _ "Gp99 encodes a novel peptide showing homology to a single shared, domain in sequences reported in C.elegans, S.pombe and, S.cerevisiae." Gpal _ _ _ _ Gpdh glycerophosphate shuttle; GO:0006127 | non-traceable author statement _ Glycerol 3 phosphate dehydrogenase _ GpHLH _ _ Glial precursor HLH protein _ Gpi1 glycosylphosphatidylinositol biosynthesis; GO:0015998 | non-traceable author statement _ _ _ Gpo glycerophosphate shuttle; GO:0006127 | inferred from mutant phenotype _ Glycerophosphate oxidase _ Gpr5B _ _ G protein-coupled receptor 5B _ Gprk1 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity; signal transduction; GO:0007165 | inferred from sequence similarity _ G protein-coupled receptor kinase 1 _ Gprk2 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity; signal transduction; GO:0007165 | inferred from sequence similarity _ G protein-coupled receptor kinase 2 "Gprk2 has been cloned and sequenced, and its expression pattern has, been analyzed." gprs _ _ _ _ Gpt _ _ Glutamate pyruvate transaminase _ Gr10a taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 10a _ Gr10b taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 10b _ GR1F.1 taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 1F.1 _ Gr21a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 21a _ Gr22a taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 22a _ Gr22c _ _ Gustatory receptor 22c _ Gr22e taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 22e _ Gr22f taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 22f _ Gr23a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 23a _ Gr28a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 28a _ Gr28b taste; GO:0007607 | inferred from sequence similarity; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 28b _ Gr2a taste; GO:0007607 | non-traceable author statement; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 2a _ Gr32a taste; GO:0007607 | inferred from sequence similarity; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 32a _ Gr33a taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 33a _ Gr36a taste; GO:0007607 | inferred from sequence similarity; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 36a _ Gr36b _ _ Gustatory receptor 36b _ Gr36c _ _ Gustatory receptor 36c _ Gr36d _ _ Gustatory receptor 36d _ Gr39a taste; GO:0007607 | inferred from sequence similarity; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 39a _ Gr39b taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 39b _ Gr43a taste; GO:0007607 | inferred from sequence similarity; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 43a _ Gr43b taste; GO:0007607 | inferred from sequence similarity; taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 43b _ Gr47a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 47a _ Gr47b taste; GO:0007607 | inferred from sequence similarity; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 47b _ Gr57a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 57a _ Gr58a taste; GO:0007607 | inferred from sequence similarity; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 58a _ Gr58b taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 58b _ Gr58c taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 58c _ Gr59a _ _ Gustatory receptor 59a _ Gr59b _ _ Gustatory receptor 59b _ Gr59c taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 59c _ Gr59d taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 59d _ Gr59e taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 59e _ Gr59f taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 59f _ Gr61a _ _ Gustatory receptor 61a _ Gr63a taste; GO:0007607 | non-traceable author statement; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 63a _ Gr64a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 64a _ Gr64b taste; GO:0007607 | non-traceable author statement; taste; GO:0007607 | non-traceable author statement; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 64b _ Gr64c taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 64c _ Gr64d taste; GO:0007607 | non-traceable author statement; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 64d _ Gr64e taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 64e _ Gr64f taste; GO:0007607 | non-traceable author statement; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 64f _ Gr65a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 65a _ Gr66a taste; GO:0007607 | non-traceable author statement; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 66a _ Gr68a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 68a _ Gr77a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 77a _ Gr85a _ _ Gustatory receptor 85a _ Gr8a taste; GO:0007607 | non-traceable author statement; taste; GO:0007607 | non-traceable author statement _ Gustatory receptor 8a _ Gr92a _ _ Gustatory receptor 92a _ Gr93a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 93a _ Gr93b taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 93b _ Gr93c taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 93c _ Gr93d taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 93d _ Gr94a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 94a _ Gr97a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 97a _ Gr98a taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 98a _ Gr98b taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 98b _ Gr98c taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 98c _ Gr98d taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor 98d _ gra _ _ gravel _ Graf _ _ _ _ Granulophilin synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Granulophilin _ grap _ _ grape _ grape _ _ Grape _ grappa _ _ grappa _ grau _ _ grauzone _ grb _ _ gorbun _ Grd _ _ Glycine receptor _ grdf _ _ grooming defective _ grg _ _ giant ring gland _ grh regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement _ grainy head "Variation of a microsatellite within the grh locus has been studied, in North American populations of D.melanogaster." GRHR G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ Gonadotropin-releasing hormone receptor _ GRHRII G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:GRHR; FB:FBgn0025595 _ _ _ grim induction of apoptosis; GO:0006917 | inferred from genetic interaction with FLYBASE:Dcp-1; FB:FBgn0010501; induction of apoptosis; GO:0006917 | inferred from genetic interaction with FLYBASE:th; FB:FBgn0003691 _ grim _ Grip128 _ _ _ _ Grip163 _ _ _ _ Grip75 microtubule nucleation; GO:0007020 | non-traceable author statement _ _ _ Grip84 microtubule nucleation; GO:0007020 | inferred from direct assay; microtubule-based process; GO:0007017 | inferred from sequence similarity _ gamma-tubulin ring protein 84 _ grk "eggshell pattern formation; GO:0030381 | inferred from mutant phenotype; maternal determination of dorsal/ventral axis, follicular epithelium, germ-line encoded; GO:0008070 | inferred from mutant phenotype" _ gurken "Posterior localization of grk mRNA in the early oocyte is essential, for proper A/P axis formation." GRLU.4 taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor LU.4 _ GRLU.5 taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor LU.5 _ GRLU.6 taste; GO:0007607 | inferred from sequence similarity _ Gustatory receptor LU.6 _ grn histogenesis; GO:0009888 | inferred from mutant phenotype; organogenesis; GO:0009887 | inferred from mutant phenotype _ grain grn affects organ shape by locally controlling cell rearrangement. gro "negative regulation of transcription from Pol II promoter; GO:0000122 | traceable author statement; sex determination, primary response to X:A ratio; GO:0007541 | traceable author statement" _ groucho _ grp DNA damage checkpoint; GO:0000077 | inferred from sequence similarity with SGD:CHK1; SGDID:S0000478; cell cycle checkpoint; GO:0000075 | inferred from sequence similarity with HUGO:CHEK1; OMIM:603078; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity with HUGO:CHEK1; OMIM:603078 _ grapes _ grr _ _ grater _ Grt _ _ Glucose repressible transcripts _ grt _ _ grotle _ gru _ _ gruyere _ grunt _ _ grunt _ Grx-1 _ _ _ _ gs _ _ grandchildless _ gs(1)N26 _ _ grandchildless N26 _ gs(1)N41 _ _ grandchildless N41 _ gs(2)M _ _ grandchildless M _ Gs1 _ _ Glutamine synthetase 1 "Gs1 and Gs2 have been isolated and sequenced. Evolutionary analysis, is in agreement with the hypothesis that the two genes are derived, from a duplication event that occurred near the time of divergence, between Insecta and Vertebrata. Both isoforms catalyse all reactions, catalysed by other glutamine synthetases, but the different kinetic, parameters and the different cellular compartmentalization suggests, strong functional specialization., Gs1 and Gs2 gene products are essential for the early stages of, embryonic development. Preliminary results show strikingly distinct, spatial and temporal patterns of expression of the two isoforms at, later stages of development." Gs1l _ _ GS1-like _ Gs2 _ _ Glutamine synthetase 2 "Gs1 and Gs2 have been isolated and sequenced. Evolutionary analysis, is in agreement with the hypothesis that the two genes are derived, from a duplication event that occurred near the time of divergence, between Insecta and Vertebrata. Both isoforms catalyse all reactions, catalysed by other glutamine synthetases, but the different kinetic, parameters and the different cellular compartmentalization suggests, strong functional specialization., Gs1 and Gs2 gene products are essential for the early stages of, embryonic development. Preliminary results show strikingly distinct, spatial and temporal patterns of expression of the two isoforms at, later stages of development." gsb segment polarity determination; GO:0007367 | non-traceable author statement _ gooseberry _ gsb-n segment polarity determination; GO:0007367 | non-traceable author statement _ gooseberry-neuro _ Gsc _ _ Goosecoid "Gsc protein behaves as a transcriptional repressor, acting through, specific palindromic homeodomain sites (P3K sites). Gsc protein, is a passive repressor"" of activator homeoproteins binding to the" " same sites and an ""active repressor"" of activators binding to distinct" sites. Gsc protein is also able to strongly repress transcription activated by Paired-class homeoproteins through P3K sites via specific " protein-protein interactions. This ""interactive repression"" requires" " the conserved GEH/eh-1 domain.""" Gsg71A _ _ Gastrula-specific transcript 71A _ Gsk3b protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ gskt protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ gasket _ Gst3-1 detoxification response; GO:0009636 | non-traceable author statement _ _ _ Gst3-2 _ _ _ _ GstD1 glutathione conjugation reaction; GO:0006803 | non-traceable author statement _ Glutathione S transferase D1 "mRNA levels for GST do not increase at adult day 5 in strain showing, extended longevity phenotype (ELP)." GstD10 _ _ Glutathione S transferase D10 _ GstD2 glutathione conjugation reaction; GO:0006803 | non-traceable author statement _ Glutathione S transferase D2 _ GstD3 glutathione conjugation reaction; GO:0006803 | non-traceable author statement _ Glutathione S transferase D3 _ GstD4 glutathione conjugation reaction; GO:0006803 | non-traceable author statement _ Glutathione S transferase D4 _ GstD5 glutathione conjugation reaction; GO:0006803 | non-traceable author statement _ Glutathione S transferase D5 _ GstD6 glutathione conjugation reaction; GO:0006803 | non-traceable author statement _ Glutathione S transferase D6 _ GstD7 glutathione conjugation reaction; GO:0006803 | non-traceable author statement _ Glutathione S transferase D7 _ GstD8 _ _ Glutathione S transferase D8 _ GstD9 _ _ Glutathione S transferase D9 _ GstE1 _ _ Glutathione S transferase E1 _ GstE10 _ _ Glutathione S transferase E10 _ GstE2 _ _ Glutathione S transferase E2 _ GstE3 _ _ Glutathione S transferase E3 _ GstE4 _ _ Glutathione S transferase E4 _ GstE5 _ _ Glutathione S transferase E5 _ GstE6 _ _ Glutathione S transferase E6 _ GstE7 _ _ Glutathione S transferase E7 _ GstE8 _ _ Glutathione S transferase E8 _ GstE9 _ _ Glutathione S transferase E9 _ GstO1 _ _ Glutathione S transferase O1 _ GstS1 glutathione conjugation reaction; GO:0006803 | inferred from direct assay; glutathione conjugation reaction; GO:0006803 | non-traceable author statement _ Glutathione S transferase S1 _ GstT1 _ _ Glutathione S transferase T1 _ GstZ1 _ _ Glutathione S transferase Z1 _ gt negative regulation of transcription from Pol II promoter; GO:0000122 | non-traceable author statement; salivary gland development; GO:0007431 | traceable author statement _ giant _ gt-4 _ _ giant 4 _ GT49-2-4 _ _ _ _ GT7-45 _ _ _ _ Gtd _ _ Glucose tasting-defective _ GTD1-1.1 _ _ _ _ GTD74-1 _ _ _ _ GTD74-135-2 _ _ _ _ GTD74-198 _ _ _ _ GTD74-236 _ _ _ _ GTD74-295-1 _ _ _ _ GTD74-61-3 _ _ _ _ GTD74-77.3 _ _ _ _ Gtp-bp _ _ GTP-binding protein _ gtw _ _ _ _ gua1 _ _ guanosine 1 _ guf cell differentiation; GO:0030154 | non-traceable author statement _ gut feeling "guf encodes an antizyme that is apparently regulated by translational, frameshifting." Gug leg morphogenesis; GO:0007480 | inferred from mutant phenotype _ Grunge _ gui _ _ guillotined _ gukh _ _ GUK-holder _ gus _ _ gustavus _ gusA _ _ gustatory A _ gusC _ _ gustatory C _ gusD _ _ gustatory D _ gusE _ _ gustatory E _ gustA _ _ gustatory-defective A _ Gustav _ _ _ _ gustB _ _ gustatory-defective B _ gustC _ _ gustatory-defective C _ gustD _ _ gustatory-defective D _ gustE _ _ gustatory-defective E _ gustF _ _ gustatory-defective F _ gustM _ _ gustatory-defective M _ GustR _ _ Gustatory R _ GustS _ _ Gustatory S _ gut-X _ _ _ _ gv _ _ grooved _ GV1 _ _ _ _ gvl _ _ grooveless _ gwl mitosis; GO:0007067 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ greatwall _ GXIVsPLA2 _ _ _ _ gy _ _ gouty legs _ Gycalpha99B optokinetic behavior; GO:0007634 | inferred from mutant phenotype; rhodopsin mediated phototransduction; GO:0009586 | inferred from mutant phenotype _ Guanyl cyclase alpha-subunit at 99B "The function of Gycalpha99B in the phototactic response is developmental,, rather than physiological." Gycbeta100B _ _ Guanyl cyclase beta-subunit at 100B _ Gyc32E signal transduction; GO:0007165 | inferred from sequence similarity with MGD:Npr1; MGI:MGI:97371 _ Guanyl cyclase at 32E _ Gyc76C signal transduction; GO:0007165 | inferred from sequence similarity with MGD:Npr1; MGI:MGI:97371 _ Guanyl cyclase at 76C _ Gyc89A signal transduction; GO:0007165 | inferred from direct assay _ Guanyl cyclase at 89A _ Gyk _ _ Glycerol kinase _ gyn-2 _ _ _ "One of the two genic components responsible for the parthenogenetic, phenotype of the 'gyn-F9' strain." gyn-3 _ _ _ "One of the two genic components responsible for the parthenogenetic, phenotype of the 'gyn-F9' strain." H sensory organ determination; GO:0008052 | inferred from mutant phenotype _ Hairless _ h bristle morphogenesis; GO:0008407 | non-traceable author statement; negative regulation of transcription from Pol II promoter; GO:0000122 | non-traceable author statement; periodic partitioning by pair rule gene; GO:0007366 | non-traceable author statement; restriction of R8 fate; GO:0007461 | non-traceable author statement _ hairy _ H-39 _ _ _ _ h-NC13 _ _ _ _ H15 _ _ _ H15 may have a role in heart formation. H2 _ _ haemolymph protein 2 _ H2.0 _ _ Homeodomain protein 2.0 _ H217 _ _ _ H217 encodes a candidate br target gene. H23-14 _ _ _ _ hab _ _ habanero _ Had _ _ beta Hydroxy acid dehydrogenase _ hal oogenesis; GO:0007292 | inferred from mutant phenotype _ halted _ hall _ _ halley _ halo _ _ halo _ hamlet _ _ hamlet _ Hand _ _ _ _ hap _ _ hapless _ har56 _ _ _ _ Har63 _ _ _ _ Haspin _ _ Haspin _ hat _ _ half out _ HatB _ _ Histone acetyltransferase B HatB preferentially acetylates His4 on Lys12 in vitro. hau _ _ haunted _ hay transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:ERCC3; OMIM:133510; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:SSL2; SGDID:S0001405 _ haywire "mRNA levels do not increase at adult day 5 in strain showing extended, longevity phenotype (ELP)." hb neuroblast determination; GO:0007400 | inferred from mutant phenotype; neuroblast determination; GO:0007400 | inferred from mutant phenotype _ hunchback _ hbn _ _ homeobrain An incompletely characterized homeodomain sequence. hbs regulation of myogenesis; GO:0016202 | inferred from genetic interaction with FLYBASE:sns; FB:FBgn0024189 _ hibris _ HBS1 translational termination; GO:0006415 | inferred from sequence similarity with SGD:SUP35; SGDID:S0002579 _ _ _ Hcf _ _ Host cell factor _ Hci _ _ _ _ HDAC3 _ _ _ _ HDAC4 _ _ _ _ HDAC6 _ _ _ _ Hdc eye photoreceptor development (sensu Drosophila); GO:0042051 | non-traceable author statement _ Histidine decarboxylase _ hdc cell differentiation; GO:0030154 | non-traceable author statement; tracheal system development (sensu Insecta); GO:0007424 | non-traceable author statement _ headcase "hdc is a branching inhibitor produced by specialized tracheal cells, to prevent neighboring cells from branching." Hdl _ _ "Haplo-, diplo-lethal" _ hdp-b _ _ heldup b _ He _ _ Hemese _ head-peptide _ _ head peptide _ hedera _ _ _ _ heix _ _ heixuedian _ Hel25E mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004631 _ Helicase at 25E "Hel25E encodes a putative RNA helicase that, contains an unusual variant (DECD) of the DEAD motif common to these, proteins." Hel89B _ _ Helicase 89B "Cloning and characterization of Hel89B suggests the protein may be a, global transcriptional regulator of many target genes that functions, throughout development." Hel93F _ _ Helicase at 93F _ HelI _ _ Helicase I "HelI protein, a DNA helicase, has been purified from Drosophila embryos, and characterized. HelI protein requires ATP hydrolysis and divalent, cations for displacement activity, and moves 5' to 3' on the DNA strand, to which it is bound." HelII _ _ Helicase II _ HelIII _ _ _ _ Hem axonogenesis; GO:0007409 | inferred from mutant phenotype; cytoskeleton organization and biogenesis; GO:0007010 | inferred from mutant phenotype _ HEM-protein "Hem is required for the normal projection of the VUM axons. Hem, affects the organization of the cytoskeleton." Hemagglutinin _ _ _ _ hep eggshell pattern formation; GO:0030381 | inferred from mutant phenotype; spreading of leading edge cells; GO:0007395 | inferred from mutant phenotype _ hemipterous _ heph mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:002810 _ hephaestus _ Her _ _ HES-related _ her sex determination; GO:0007530 | inferred from mutant phenotype _ hermaphrodite "Genetic characterization demonstrates her is expressed sex non-specifically, and independently of other known sex determination genes and acts together, with the last genes in the determination hierarchy, dsx and ix,, to control female sexual differentiation." HERC2 _ _ _ _ Hex-A _ _ Hexokinase A _ Hex-C _ _ Hexokinase C _ Hex-t1 glycolysis; GO:0006096 | non-traceable author statement _ _ _ Hex-t2 glycolysis; GO:0006096 | non-traceable author statement _ _ _ Hex1 _ _ Hexokinase 1 _ Hex2 _ _ Hexokinase 2 _ hexe _ _ _ _ Hexo1 _ _ Hexosaminidase 1 _ Hexo2 _ _ Hexosaminidase 2 _ Hey _ _ Hairy/E(spl)-related with YRPW motif _ hfw _ _ halfway _ Hg _ _ Hang glider _ hgo phenylalanine catabolism; GO:0006559 | non-traceable author statement; tyrosine catabolism; GO:0006572 | non-traceable author statement _ "homogentisate 1,2-dioxygenase" _ HGTX _ _ _ _ hh progression of morphogenetic furrow (sensu Drosophila); GO:0007458 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490; progression of morphogenetic furrow (sensu Drosophila); GO:0007458 | inferred from genetic interaction with FLYBASE:h; FB:FBgn0001168; progression of morphogenetic furrow (sensu Drosophila); GO:0007458 | inferred from genetic interaction with FLYBASE:sca; FB:FBgn0003326; protein autoprocessing; GO:0016540 | inferred from direct assay; smoothened receptor signaling pathway; GO:0007224 | inferred from genetic interaction with FLYBASE:smo; FB:FBgn0003444 _ hedgehog _ Hi _ _ Hirsute _ Hia _ _ Hiatus _ HIF _ _ Hypoxia Inducible Factor "Nuclear extracts from SL2 cells contain a hypoxically inducible complex, capable of binding to hypoxia response elements from mammalian genes." hig cell adhesion; GO:0007155 | inferred from sequence similarity with EMBL:U39446 _ hikaru genki _ hip11 _ _ hb-interacting protein 11 _ hip34 _ _ hb-interacting protein 34 _ hip57 _ _ hb-interacting protein 57 _ hip66 _ _ hb-interacting protein 66 _ hip7 _ _ hb-interacting protein 7 _ Hira _ _ _ _ HIS-C _ _ Histone complex _ His1 chromatin assembly/disassembly; GO:0006333 | non-traceable author statement _ Histone H1 _ His2A chromatin assembly/disassembly; GO:0006333 | non-traceable author statement _ Histone H2A "The ATPase activity of Iswi is completely, inhibited by each of the four histone tails (His2A, His2B, His3, and His4), results indicate a novel role for the flexible histone, tails in chromatin remodeling by Iswi." His2Av chromatin assembly/disassembly; GO:0006333 | non-traceable author statement _ Histone H2A variant _ His2B chromatin assembly/disassembly; GO:0006333 | non-traceable author statement _ Histone H2B "The ATPase activity of Iswi is completely, inhibited by each of the four histone tails (His2A, His2B, His3, and His4), results indicate a novel role for the flexible histone, tails in chromatin remodeling by Iswi." His3 chromatin assembly/disassembly; GO:0006333 | non-traceable author statement _ Histone H3 _ His3.3A chromatin assembly/disassembly; GO:0006333 | inferred from sequence similarity with NCBI_gi:484530 _ Histone H3.3A "The histone H3.3 replacement variant is encoded, by two genes, His3.3A and His3.3B, in D.melanogaster., These genes encode exactly the same protein but are widely divergent, in their untranslated regions." His3.3B chromatin assembly/disassembly; GO:0006333 | inferred from sequence similarity with NCBI_gi:484530 _ Histone H3.3B "The histone H3.3 replacement variant is encoded, by two genes, His3.3A and His3.3B, in D.melanogaster., These genes encode exactly the same protein but are widely divergent, in their untranslated regions." His4 chromatin assembly/disassembly; GO:0006333 | non-traceable author statement; female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Histone H4 _ His4r chromatin assembly/disassembly; GO:0006333 | non-traceable author statement _ Histone H4 replacement _ HisCl1 _ _ Histamine-gated chloride channel subunit 1 _ Hiv _ _ Haploinviable _ hiw regulation of synaptic growth at neuromuscular junction; GO:0008582 | inferred from mutant phenotype _ highwire _ Hk potassium transport; GO:0006813 | inferred from sequence similarity _ Hyperkinetic _ hk endocytosis; GO:0006897 | inferred from expression pattern; endocytosis; GO:0006897 | inferred from mutant phenotype _ hook _ hkb salivary gland morphogenesis; GO:0007435 | traceable author statement _ huckebein _ Hlc _ _ Helicase _ HLH106 _ _ Helix loop helix protein 106 _ HLH3B _ _ Helix loop helix protein 3B _ HLH44A _ _ _ _ HLH4C _ _ Helix loop helix protein 4C _ HLH54F _ _ _ _ HLHmbeta N receptor signaling pathway; GO:0007219 | non-traceable author statement; negative regulation of transcription; GO:0016481 | non-traceable author statement; neurogenesis; GO:0007399 | non-traceable author statement _ E(spl) region transcript mbeta _ HLHmdelta N receptor signaling pathway; GO:0007219 | non-traceable author statement; negative regulation of transcription; GO:0016481 | non-traceable author statement; neurogenesis; GO:0007399 | non-traceable author statement _ E(spl) region transcript mdelta "N-inducible expression of HLHmdelta and HLHmgamma both in cultured, cells and in vivo is dependent on functional Su(H) protein." HLHmgamma N receptor signaling pathway; GO:0007219 | non-traceable author statement; negative regulation of transcription; GO:0016481 | non-traceable author statement; neurogenesis; GO:0007399 | non-traceable author statement _ E(spl) region transcript mgamma "N-inducible expression of HLHmdelta and HLHmgamma both in cultured, cells and in vivo is dependent on functional Su(H) protein." HLHm3 N receptor signaling pathway; GO:0007219 | non-traceable author statement; negative regulation of transcription from Pol II promoter; GO:0000122 | non-traceable author statement _ E(spl) region transcript m3 _ HLHm5 cell fate commitment; GO:0045165 | non-traceable author statement; negative regulation of transcription; GO:0016481 | non-traceable author statement; neurogenesis; GO:0007399 | non-traceable author statement _ E(spl) region transcript m5 _ HLHm7 _ _ E(spl) region transcript m7 _ hlm _ _ helmsman _ Hmg1 _ _ High mobility group protein 1 _ Hmg14B _ _ _ _ Hmgcr germ-cell migration; GO:0008354 | inferred from mutant phenotype; isoprenoid biosynthesis; GO:0008299 | non-traceable author statement _ HMG Coenzyme A reductase "The Hmgcr gene product has a critical developmental function in providing, spatial information to guide migrating primordial germ cells." HmgD establishment and/or maintenance of chromatin architecture; GO:0006325 | inferred from direct assay _ High mobility group protein D _ Hmgs _ _ HMG Coenzyme A synthase _ HmgZ _ _ HMG protein Z HmgZ has been cloned and sequenced. Hml defense response; GO:0006952 | non-traceable author statement _ Hemolectin _ HmpII _ _ _ _ Hmr _ _ Hybrid male rescue _ Hmu _ _ Hemomucin _ Hmx _ _ H6-like-homeobox "Identified as a PCR fragment amplified using primers for the mammalian, H6 homeobox gene family." Hn eye pigment biosynthesis; GO:0006726 | inferred from direct assay; phenylalanine catabolism; GO:0006559 | non-traceable author statement _ Henna Hn is involved in the Trp metabolism and pteridine synthesis. hnc13 _ _ _ "hnc13 encodes a novel ring finger protein that interacts with both the, h and CtBP proteins in a directed yeast two-hybrid assay." Hnf4 endoderm development; GO:0007492 | non-traceable author statement; mesoderm development; GO:0007498 | non-traceable author statement _ Hepatocyte nuclear factor 4 _ hni _ _ he's not interested _ HnRNP-K _ _ Heterogeneous nuclear ribonucleoprotein K _ HnRNP-S5 _ _ Heterogeneous nuclear ribonucleoprotein S5 "HnRNP-S5 encodes a 70kD protein associated with hnRNA in tissue culture, cells (FBrf0039005)." Ho _ _ Heme oxygenase _ hocher _ _ _ _ hoe _ _ hoepel _ hoip mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004999; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:010888 _ hoi-polloi _ homer adult behavior; GO:0030534 | inferred from mutant phenotype; regulation of locomotion; GO:0040012 | inferred from mutant phenotype _ _ _ Hop _ _ Hsp70/Hsp90 organizing protein homolog _ hop JAK-STAT cascade; GO:0007259 | inferred from genetic interaction; blastoderm segmentation; GO:0007350 | inferred from mutant phenotype; cell proliferation; GO:0008283 | inferred from mutant phenotype; primary sex determination; GO:0007538 | inferred from mutant phenotype; stem cell maintenance; GO:0019827 | inferred from mutant phenotype _ hopscotch _ hopR-90E _ _ hop-responsive-90E _ how _ _ held out wings how appears to regulate some aspects of integrin functioning. Hox11-D125 _ _ _ _ hp _ _ humped _ HP1b _ _ _ _ HP1c _ _ _ _ HP2 _ _ Heterochromatin protein 2 _ Hpb _ _ Hydroxyphenyl buten 1 _ Hph _ _ HIF prolyl hydroxylase _ Hr38 epidermal differentiation; GO:0008544 | non-traceable author statement _ Hormone receptor-like in 38 Hr38 plays an important role in late stages of epidermal morphogenesis. Hr39 "female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement" _ Hormone receptor-like in 39 _ Hr4 _ _ _ _ Hr46 _ _ Hormone receptor-like in 46 _ Hr78 _ _ Hormone-receptor-like in 78 _ Hr96 _ _ Hormone receptor-like in 96 _ Hrb27C mRNA processing; GO:0006397 | inferred from sequence similarity with SGD:HRP1; SGDID:S0005483 _ Heterogeneous nuclear ribonucleoprotein at 27C Hrb27C plays a functional role in P\T IVS3 splicing inhibition. Hrb3 _ _ _ _ Hrb87F _ _ Heterogeneous nuclear ribonucleoprotein at 87F _ Hrb98DE _ _ Heterogeneous nuclear ribonucleoprotein at 98DE "Transcription unit defined during molecular analysis of the fkh gene, region." hrg mRNA polyadenylation; GO:0006378 | inferred from sequence similarity with SGD:PAP1; SGDID:S0001710 _ hiiragi "hrg is involved in the Ser system, rather that the Dl system." hrp _ _ hyperpolarizing receptor potential _ Hrp39 _ _ _ _ Hrp44 _ _ _ _ Hrp54 _ _ _ _ Hrp62 _ _ _ _ Hrp70 _ _ _ _ Hrp75 _ _ _ _ Hrs endosome to lysosome transport; GO:0008333 | traceable author statement; synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Hepatocyte growth factor regulated tyrosine kinase substrate "Hrs appears to regulate inward budding of endosome membrane and multivesicular, body (MVB) formation." Hs2st _ _ _ _ Hs6st _ _ Heparan sulfate 6-O-sulfotransferase _ Hsc70-1 response to heat shock; GO:0006951 | inferred from sequence similarity with MGD:Hsc70; MGI:MGI:105384; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein cognate 1 _ Hsc70-2 response to heat shock; GO:0006951 | inferred from sequence similarity with MGD:Hsc70; MGI:MGI:105384; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein cognate 2 _ Hsc70-3 response to heat shock; GO:0006951 | inferred from sequence similarity with MGD:Grp78; MGI:MGI:95835; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein cognate 3 _ Hsc70-4 neurotransmitter secretion; GO:0007269 | inferred from genetic interaction with FLYBASE:Csp; FB:FBgn0004179; neurotransmitter secretion; GO:0007269 | inferred from physical interaction with FLYBASE:Csp; FB:FBgn0004179; response to heat shock; GO:0006951 | inferred from sequence similarity with MGD:Hsc70; MGI:MGI:105384; synaptic vesicle transport; GO:0016181 | inferred from electronic annotation _ Heat shock protein cognate 4 _ Hsc70-5 response to heat shock; GO:0006951 | inferred from sequence similarity with SGD:SSC1; SGDID:S0003806; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein cognate 5 _ Hsc70-6 response to heat shock; GO:0006951 | inferred from sequence similarity with SGD:SSE1; SGDID:S0006027 _ Heat shock protein cognate 6 _ Hsc70Cb protein folding; GO:0006457 | inferred from sequence similarity with SGD:SSE1; SGDID:S0006027 _ _ _ Hsf response to heat shock; GO:0006951 | inferred from direct assay; response to heat shock; GO:0006951 | traceable author statement _ Heat shock factor _ hsk _ _ helter-skelter Identified by interaction with asp and mgr. Hsp22 response to heat shock; GO:0006951 | inferred from sequence similarity with EMBL:U96099; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein 22 _ Hsp23 response to heat shock; GO:0006951 | inferred from sequence similarity with EMBL:U03561; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein 23 _ Hsp26 response to heat shock; GO:0006951 | inferred from sequence similarity with EMBL:U96099; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein 26 _ Hsp27 response to heat shock; GO:0006951 | inferred from sequence similarity with EMBL:U96099; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein 27 _ Hsp40 _ _ _ _ Hsp60 protein folding; GO:0006457 | inferred from sequence similarity with SWISS-PROT:P50140; response to heat shock; GO:0006951 | inferred from sequence similarity with SWISS-PROT:P50140 _ Heat shock protein 60 _ Hsp60B protein folding; GO:0006457 | inferred from sequence similarity with MGD:Hsp60; MGI:MGI:96242; response to heat shock; GO:0006951 | inferred from sequence similarity with MGD:Hsp60; MGI:MGI:96242 _ Heat shock protein 60 related _ Hsp64 _ _ Heat shock protein 64 _ Hsp67Ba response to heat shock; GO:0006951 | inferred from sequence similarity with EMBL:U96099; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock gene 67Ba _ Hsp67Bb response to heat shock; GO:0006951 | non-traceable author statement; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock gene 67Bb _ Hsp67Bc response to heat shock; GO:0006951 | inferred from sequence similarity with EMBL:U96099; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock gene 67Bc _ Hsp68 response to heat shock; GO:0006951 | inferred from sequence similarity with MGD:Hsp70-1; MGI:MGI:99517; response to heat shock; GO:0006951 | non-traceable author statement _ Heat shock protein 68 "Nascent chain nuclear run-on assays in KC161 cells reveal different, responses to heat shock for different genes. Transcription of His1, is severely inhibited under mild heat shocks, of Act5C decreases, proportionally with increasing temperature while tha" Hsp70Aa response to heat shock; GO:0006951 | inferred from sequence similarity with MGD:Hsp70-1; MGI:MGI:99517; response to heat shock; GO:0006951 | non-traceable author statement _ Heat-shock-protein-70Aa _ Hsp70Ab response to heat shock; GO:0006951 | non-traceable author statement; response to heat shock; GO:0006951 | non-traceable author statement _ Heat-shock-protein-70Ab _ Hsp70Ba response to heat shock; GO:0006951 | non-traceable author statement; response to heat shock; GO:0006951 | non-traceable author statement _ Heat-shock-protein-70Ba _ Hsp70Bb response to heat shock; GO:0006951 | non-traceable author statement; response to heat shock; GO:0006951 | non-traceable author statement _ Heat-shock-protein-70Bb _ Hsp70Bc response to heat shock; GO:0006951 | non-traceable author statement; response to heat shock; GO:0006951 | non-traceable author statement _ Heat-shock-protein-70Bc _ Hsp83 protein folding; GO:0006457 | inferred from sequence similarity with EMBL:J04988; response to heat shock; GO:0006951 | inferred from sequence similarity with EMBL:J04988 _ Heat shock protein 83 _ hth brain development; GO:0007420 | inferred from mutant phenotype; eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ homothorax _ htl mesoderm cell fate commitment; GO:0001710 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490 _ heartless _ hts "fusome organization and biogenesis; GO:0045478 | traceable author statement; ring canal formation, actin assembly; GO:0008302 | inferred from mutant phenotype" _ hu li tai shao _ hty _ _ hypersprouty _ Huc-29DE _ _ HU- and caffeine-dependent 29D-E _ Huc-95DE _ _ HU- and caffeine-dependent 95D-E _ hug _ _ hugin _ hum _ _ humilis _ huntingtin _ _ _ _ Hup _ _ Humeral patch _ hup _ _ hold up "hup is required for the establishment of oocyte positioning, follicle, cell fate and egg polarity during oogenesis." Hus1-like _ _ _ _ hv _ _ heavy vein _ Hx _ _ Hexaptera _ hy _ _ humpy _ hyd ubiquitin cycle; GO:0006512 | inferred from physical interaction with FLYBASE:ben; FB:FBgn0000173 _ hyperplastic discs _ hyl _ _ _ _ Hypnos-1 _ _ "Hypoxia, anoxia, sensitive 1" _ hypnos-2 _ _ "hypoxia, anoxia, sensitive 2" _ hypnos-3 _ _ "hypoxia, anoxia, sensitive 3" _ hypnos-P _ _ _ _ hypoA _ _ hypoactive A _ hypoC _ _ hypoactive C _ hypoE _ _ hypoactive E _ hypoG _ _ hypoactive G _ I-2 _ _ Inhibitor-2 _ I-55 _ _ screen I - clone 55 "Isolated from a cDNA expression library by a yeast interaction trap as, interacting with the prd protein." I-t _ _ inhibitor-t _ ia2 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ ial cytokinesis; GO:0016288 | inferred from mutant phenotype; establishment and/or maintenance of chromatin architecture; GO:0006325 | inferred from mutant phenotype; histone phosphorylation; GO:0016572 | inferred from mutant phenotype; mitotic chromosome condensation; GO:0007076 | inferred from mutant phenotype; mitotic chromosome segregation; GO:0000070 | inferred from mutant phenotype _ IplI-aurora-like kinase _ Iap2 anti-apoptosis; GO:0006916 | inferred from direct assay; anti-apoptosis; GO:0006916 | inferred from sequence similarity with SWISS-PROT:Q13490 _ Inhibitor of apoptosis 2 _ iav _ _ inactive _ ibx female courtship behavior; GO:0008050 | inferred from mutant phenotype _ icebox _ Ice apoptosis; GO:0006915 | non-traceable author statement _ Ice _ icln _ _ _ _ ida _ _ imaginal discs arrested _ Ide proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ Insulin degrading metalloproteinase _ Idgf1 _ _ Imaginal Disc Growth Factor 1 "Encodes a soluble growth factor that works in combination with, insulin to stimulate cell proliferation, cell polarization and, movement." Idgf2 _ _ Imaginal Disc Growth Factor 2 "Encodes a soluble growth factor that works in combination with, insulin to stimulate cell proliferation, cell polarization and, movement." Idgf3 _ _ Imaginal Disc Growth Factor 3 "Encodes a soluble growth factor that works in combination with, insulin to stimulate cell proliferation, cell polarization and, movement." Idgf4 _ _ Imaginal Disc Growth Factor 4 _ Idh _ _ Isocitrate dehydrogenase "Idh enzyme activity has been measured in D.melanogaster lines in, which spontaneous mutations have accumulated over approximately 300, mutations." idr _ _ indora _ if maintenance of protein localization; GO:0045185 | inferred from mutant phenotype; muscle attachment; GO:0016203 | inferred from mutant phenotype; myofibril assembly; GO:0030239 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype _ inflated _ IFa _ _ _ _ ifa _ _ irregular facet _ ifc _ _ infertile crescent "ifc encodes a protein that may act as part of an anchoring mechanism, that links membrane-bounded cellular compartments to components of, the cytoskeleton." Ifm(2)11 _ _ Indirect flight muscle (2) 11 _ Ifm(2)RU1 _ _ Indirect flight muscle (2) RU1 _ ifm(2)RU2 _ _ indirect flight muscle (2) RU2 _ ifm(2)RU3 _ _ indirect flight muscle (2) RU3 _ ifm(2)RU4 _ _ indirect flight muscle (2) RU4 _ ifm(2)RU486 _ _ indirect flight muscle (2) RU486 _ ifm(2)RU5 _ _ indirect flight muscle (2) RU5 _ ifm(2)RU536 _ _ indirect flight muscle (2) RU536 _ ifm(2)RU6 _ _ indirect flight muscle (2) RU6 _ ifm(2)RU664 _ _ indirect flight muscle (2) RU664 _ ifm(2)RU7 _ _ indirect flight muscle (2) RU7 _ ifm(2)RU8 _ _ indirect flight muscle (2) RU8 _ ifx _ _ iron felix _ igl _ _ igloo _ Ih _ _ _ _ ik2 defense response; GO:0006952 | non-traceable author statement; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement; signal transduction; GO:0007165 | non-traceable author statement _ _ _ Ilk integrin-mediated signaling pathway; GO:0007229 | inferred from sequence similarity with EMBL:U94479 _ Integrin linked kinase _ Ilp1 _ _ _ _ Ilp3 _ _ insulin-like peptide 3 _ Ilp4 _ _ insulin-like peptide 4 _ Ilp5 _ _ insulin-like peptide 5 _ Ilp6 _ _ _ _ Ilp7 _ _ _ _ im(1)179 immune response; GO:0006955 | inferred from mutant phenotype _ _ _ im(1)457 immune response; GO:0006955 | inferred from mutant phenotype _ _ _ IM1 defense response; GO:0006952 | inferred from direct assay _ Immune induced protein 1 _ IM137 _ _ _ _ IM2 defense response; GO:0006952 | inferred from direct assay _ Immune induced protein 2 _ IM4 defense response; GO:0006952 | inferred from direct assay _ Immune induced protein 4 _ imd antimicrobial humoral response (sensu Invertebrata); GO:0006960 | inferred from genetic interaction with FLYBASE:Tl; FB:FBgn0003717 _ immune deficiency imd regulates the antibacterial response. Imp _ _ IGF-II mRNA-binding protein _ ImpE1 _ _ Ecdysone-inducible gene E1 _ ImpE2 _ _ Ecdysone-inducible gene E2 _ ImpE3 _ _ Ecdysone-inducible gene E3 _ ImpL1 _ _ Ecdysone-inducible gene L1 _ ImpL2 _ _ Ecdysone-inducible gene L2 _ ImpL3 glycolysis; GO:0006096 | non-traceable author statement _ Ecdysone-inducible gene L3 ImpL3 encodes lactate dehydrogenase. in establishment and/or maintenance of cell polarity; GO:0007163 | inferred from mutant phenotype _ inturned "in is not required for the domineering nonautonomy caused by fz, clones., in and fy are needed in cells receiving and responding to a fz, dependent intercellular signal., in and fy are needed for cells to respond to pk and stan., Genetic analysis is consistent with fz-like class of genes fz,, pk, Vang, stan and dsh acting as positive regulators of in, and fy." inaA _ _ inactivation no afterpotential A _ inaB _ _ inactivation no afterpotential B _ inaC phototransduction; GO:0007602 | inferred from genetic interaction with FLYBASE:rdgB; FB:FBgn0003218 _ inactivation no afterpotential C "The second PDZ domain of inaD protein interacts with the last three, residues in the carboxyl-terminal tail of inaC protein. The in vivo, activity of inaC protein depends on its association with inaD protein." inaD phototransduction; GO:0007602 | inferred from physical interaction with FLYBASE:trp; FB:FBgn0003861 _ inactivation no afterpotential D _ inaE _ _ inactivation no afterpotential E _ inaF maintenance of rhodopsin mediated signaling; GO:0016058 | inferred from mutant phenotype; rhodopsin mediated signaling; GO:0016056 | inferred from mutant phenotype _ _ _ Incenp _ _ Inner centromere protein _ ind ventral cord development; GO:0007419 | non-traceable author statement _ intermediate neuroblasts defective "ind is essential for the development of the intermediate column of, neuroblasts in the embryonic central nervous system." Indf _ _ Indifferent _ Indnc _ _ In dunce _ Indy determination of adult life span; GO:0008340 | inferred from mutant phenotype _ I'm not dead yet _ Indy-2 _ _ I'm not dead yet 2 _ ine _ _ inebriated _ Inos _ _ _ _ InR insulin receptor signaling pathway; GO:0008286 | inferred from direct assay; insulin receptor signaling pathway; GO:0008286 | inferred from sequence similarity with MGD:Insr; MGI:MGI:96575 _ Insulin-like receptor _ Inr-A _ _ Inverse-regulator-Adh _ Inr-a _ _ Inverse regulator a _ Inr-b _ _ Inverse regulator b _ ins _ _ inseparabile _ insc apical protein localization; GO:0045176 | inferred from physical interaction with FLYBASE:corn; FB:FBgn0011674 _ inscuteable _ betaInt-nu cell-matrix adhesion; GO:0007160 | traceable author statement; heterophilic cell adhesion; GO:0007157 | traceable author statement _ beta[nu] integrin _ Int6 translational initiation; GO:0006413 | inferred from sequence similarity; translational initiation; GO:0006413 | inferred from sequence similarity with EMBL:AL035216; protein_id:CAA22813 _ Int6 homologue _ intro _ _ introverted _ inv "compartment specification; GO:0007386 | inferred from sequence similarity with FLYBASE:en; FB:FBgn0000577; neuroblast determination; GO:0007400 | inferred from genetic interaction with FLYBASE:en; FB:FBgn0000577, FLYBASE:gsb; FB:FBgn0001148; neuroblast determination; GO:0007400 | inferred from genetic interaction with FLYBASE:en; FB:FBgn0000577, FLYBASE:gsb; FB:FBgn0001148, FLYBASE:ptc; FB:FBgn0003892" _ invected _ inx2 _ _ _ _ inx3 _ _ innexin 3 _ inx4 _ _ _ _ inx5 _ _ _ _ inx6 _ _ _ _ inx7 _ _ _ _ inxs _ _ in excess _ Ip259 _ _ Intronic Protein 259 _ Ipp _ _ Inositol polyphosphate 1-phosphatase _ Ir _ _ Inwardly rectifying potassium channel _ Irbp _ _ Inverted repeat-binding protein _ ird1 antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype _ immune response deficient 1 _ ird10 antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype _ immune response deficient 10 _ ird16 immune response; GO:0006955 | inferred from mutant phenotype _ immune response deficient 16 _ ird21 _ _ immune response deficient 21 _ ird24 _ _ immune response deficient 24 _ ird25 _ _ immune response deficient 25 _ ird26 _ _ immune response deficient 26 _ ird27 _ _ immune response deficient 27 _ ird5 antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from mutant phenotype; antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype; antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype _ immune response deficient 5 _ ird6 antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype _ immune response deficient 6 _ ird8 antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype _ immune response deficient 8 "Rel is required for the signal-dependent localization of Dif, and has a less important or indirect role in nuclear localization of, dl." ird9 antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype _ immune response deficient 9 _ Ire response to unfolded protein; GO:0006986 | inferred from sequence similarity _ _ _ ire eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ irregular eye _ ire-1 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ Irk2 _ _ Inwardly rectifying potassium channel 2 _ Irk3 _ _ Inwardly rectifying potassium channel 3 _ IRP growth; GO:0040007 | traceable author statement; insulin receptor signaling pathway; GO:0008286 | traceable author statement; positive regulation of body size; GO:0040018 | traceable author statement _ Insulin-related peptide _ Irp regulation of translational initiation by iron; GO:0006447 | inferred from direct assay _ Iron regulatory protein _ Irp-1A regulation of translational initiation by iron; GO:0006447 | inferred from sequence similarity with MGD:Aco1; MGI:MGI:87879; regulation of translational initiation by iron; GO:0006447 | non-traceable author statement _ Iron regulatory protein 1A _ Irp-1B regulation of translational initiation by iron; GO:0006447 | non-traceable author statement _ Iron regulatory protein 1B _ irreA _ _ irregular optic chiasma A _ irreB _ _ irregular optic chiasma B _ irreD _ _ irregular optic chiasma D _ Is _ _ Isis _ ISO-Q _ _ _ _ isopeptidase-T-3 _ _ _ _ Iswi chromatin modeling; GO:0006338 | non-traceable author statement; chromatin modeling; GO:0006338 | traceable author statement _ Imitation SWI _ Itp-r83A molting cycle (sensu Insecta); GO:0007591 | inferred from genetic interaction with FLYBASE:rut; FB:FBgn0003301 _ "Inositol 1,4,5,-tris-phosphate receptor" "Both Itp-r83A and rut signaling pathways are involved in regulating, larval molting. Regulation of 20-hydroxyecdysone peaks during larval, molting may operate through a feedback loop requiring Pka-C1 and, the Itp-r83A receptor." ix somatic sex determination; GO:0018993 | non-traceable author statement _ intersex _ J _ _ Jammed _ j _ _ jaunty _ J3220 pattern specification; GO:0007389 | inferred from mutant phenotype _ _ "J3220 encodes a signal or regulates activity of a signal required to, shape the pattern of wg expression in the eye/antennal imaginal disc." Jafrac1 _ _ thioredoxin peroxidase 1 _ Jafrac2 _ _ thioredoxin peroxidase 2 _ Jag _ _ Jagged _ jal _ _ jalapeno _ janA _ _ janus A _ janB _ _ janus B _ jar _ _ jaguar _ jay _ _ jaywalker _ jbug _ _ jitterbug _ jdp _ _ _ _ je _ _ jelly _ jeb mesoderm migration; GO:0007509 | non-traceable author statement; visceral muscle development; GO:0007522 | inferred from mutant phenotype _ jelly belly jeb is required for visceral mesoderm migration and differentiation. jew _ _ jewel _ Jhbp-30 _ _ Juvenile hormone binding protein - 30kD _ Jhbp-63 _ _ Juvenile hormone binding protein - 63kD _ Jhbp-80 _ _ Juvenile hormone binding protein - 80kD _ Jhe juvenile hormone catabolism; GO:0006719 | inferred from direct assay _ Juvenile hormone esterase _ Jheh1 juvenile hormone catabolism; GO:0006719 | inferred from direct assay; juvenile hormone catabolism; GO:0006719 | non-traceable author statement _ Juvenile hormone epoxide hydrolase 1 _ Jheh2 juvenile hormone catabolism; GO:0006719 | non-traceable author statement _ Juvenile hormone epoxide hydrolase 2 _ Jheh3 juvenile hormone catabolism; GO:0006719 | non-traceable author statement _ Juvenile hormone epoxide hydrolase 3 _ JhI-1 _ _ Juvenile hormone-inducible protein 1 _ JhI-21 _ _ _ _ JhI-26 _ _ Juvenile hormone-inducible protein 26 _ JhI-4 _ _ _ _ JIL-1 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ _ jim _ _ _ Isolated as an enhancer-trap expressed in ovarian follicles at stage 10. jing border cell migration; GO:0007298 | inferred from mutant phenotype _ _ _ JmA _ _ Ju myoA _ JmE _ _ Ju myoE _ JmX _ _ Ju myoX _ JmY _ _ Ju-myoY _ jnh _ _ jekyll and hyde _ jok _ _ just odd knobs _ Jon25B _ _ Jonah 25B _ Jon43E _ _ Jonah 43E _ Jon65A _ _ Jonah 65A _ Jon66C _ _ Jonah 66C _ Jon74E _ _ Jonah 74E _ Jon99C _ _ Jonah 99C _ Jon99F _ _ Jonah 99F _ jp _ _ junctophilin _ Jra JNK cascade; GO:0007254 | inferred from genetic interaction with FLYBASE:Rac1; FB:FBgn0010333; JNK cascade; GO:0007254 | inferred from genetic interaction with FLYBASE:bsk; FB:FBgn0000229; JNK cascade; GO:0007254 | inferred from genetic interaction with FLYBASE:hep; FB:FBgn0010303 _ Jun-related antigen _ JTBR _ _ _ _ ju _ _ jumper _ jumu transcription; GO:0006350 | inferred from sequence similarity with WB:lin-31 _ jumeau _ juv _ _ juvenile _ jv _ _ javelin _ jvl _ _ javelinlike _ jyx _ _ jauntex _ k _ _ kidney _ K13sc _ _ K13sc "A candidate molecule for mediating signal transduction processes leading, to learning and memory." K230 _ _ K230 _ K27 _ _ _ _ KA16-II _ _ _ _ Kai-RIA _ _ _ _ kal-1 _ _ _ _ Kap microtubule-based movement; GO:0007018 | inferred from sequence similarity with NCBI_gi:861365 _ Kinesin II accessory protein Kap may function independently of Klp64D during oogenesis. Kap-alpha1 protein-nucleus import; GO:0006606 | inferred from sequence similarity with MGD:Kpna6; MGI:MGI:1100836; protein-nucleus import; GO:0006606 | non-traceable author statement _ karyopherin alpha1 _ Kap-alpha3 protein-nucleus import; GO:0006606 | inferred from sequence similarity with MGD:Kpna3; MGI:MGI:1100863 _ karyopherin alpha3 _ Kap3 _ _ Kinesin associated protein 3 _ kar _ _ karmoisin _ Karl _ _ _ _ Karybeta3 protein-nucleus import; GO:0006606 | inferred from sequence similarity _ Karyopherin beta 3 _ kas _ _ kastchen _ kasa _ _ _ _ kat80 microtubule-based process; GO:0007017 | inferred from sequence similarity _ katanin 80 _ katanin-60 microtubule-based process; GO:0007017 | inferred from sequence similarity _ katanin 60 _ kay follicle cell migration; GO:0007297 | inferred from mutant phenotype; response to wounding; GO:0009611 | inferred from mutant phenotype _ kayak _ Kaz1 _ _ _ _ KCNQ _ _ KCNQ potassium channel _ KdelR retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity; retrograde (Golgi to ER) transport; GO:0006890 | inferred from sequence similarity with SWISS-PROT:P33946 _ KDEL receptor _ kdn _ _ knockdown _ kdu _ _ kudu _ ke _ _ kidney eye _ kek1 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ kekkon-1 _ kek2 _ _ kekkon-2 _ kek3 _ _ kekkon-3 _ kel oogenesis; GO:0007292 | inferred from mutant phenotype; ring canal formation; GO:0007301 | inferred from direct assay _ kelch "The amino-terminal region of the kel protein, regulates the timing of kel protein localization to the ring canals., The amino-terminal half of the kel protein including the BTB domain, mediates dimerization. The kelch repeat domain is necessary and sufficient, for ring canal localization." ken _ _ ken and barbie _ Keren _ _ Keren _ key antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype _ kenny "key is required for the activation of the antibacterial immune response, genes." Kf1 _ _ Kynurenine formamidase 1 _ Kf2 _ _ Kynurenine formamidase 2 _ Kg _ _ Kugel _ KH2-9 _ _ KH domain cDNA KH2-9 _ KH4-2 _ _ KH domain cDNA KH4-2 _ Khc microtubule-based movement; GO:0007018 | inferred from sequence similarity with EMBL:AF067180; regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype _ Kinesin heavy chain _ Khc-73 microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif1a; MGI:MGI:108391 _ Kinesin-73 _ KHD-11 _ _ KH domain cDNA KHD-11 _ KHD-5 _ _ KH domain cDNA KHD-5 _ Ki _ _ Kinked _ Kif19A microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ Kif3C microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ kin17 _ _ _ _ king-tubby _ _ king tubby "This gene was first recognized by a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." kirre regulation of myogenesis; GO:0016202 | inferred from genetic interaction with FLYBASE:rst; FB:FBgn0003285 _ kin of irre _ kis _ _ kismet _ kisir larval behavior (sensu Insecta); GO:0007627 | inferred from mutant phenotype; larval locomotory behavior; GO:0008345 | inferred from mutant phenotype; spermatogenesis; GO:0007283 | inferred from mutant phenotype _ Kisir _ kiwi _ _ kiwi _ kkv _ _ krotzkopf verkehrt _ kl-1 _ _ male fertility factor kl1 _ kl-2 cytoskeleton organization and biogenesis; GO:0007010 | inferred from electronic annotation _ male fertility factor kl2 _ kl-3 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ male fertility factor kl3 _ kl-5 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ male fertility factor kl5 _ kl3lp1 _ _ kl-3 loop protein-1 "Isolated by screening a testis-specific cDNA expression library with, polyclonal serum T53-1, which decorates the kl-3 Y-chromosome loop." klar microtubule-based movement; GO:0007018 | inferred from sequence similarity _ klarsicht _ Klc microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with EMBL:AF055665 _ Kinesin light chain _ klg _ _ klingon _ klo _ _ klotzchen _ Klp10A microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif2; MGI:MGI:108390 _ _ _ Klp31E microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif4; MGI:MGI:108389 _ _ _ Klp3A microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif4; MGI:MGI:108389 _ Kinesin-like protein at 3A _ Klp54D microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif4; MGI:MGI:108389 _ Kinesin-like protein at 54D _ Klp59C microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with EMBL:Y15894; protein_id:CAA75815 _ _ _ Klp61F centrosome separation; GO:0007100 | inferred from genetic interaction with FLYBASE:ncd; FB:FBgn0002924; microtubule-based movement; GO:0007018 | inferred from sequence similarity with SGD:KIP1; SGDID:S0000159 _ Kinesin-like protein at 61F _ Klp64D microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif3a; MGI:MGI:107689 _ Kinesin-like protein at 64D _ Klp65D _ _ Kinesin-like protein at 65D _ Klp67A microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif3a; MGI:MGI:107689 _ Kinesin-like protein at 67A _ Klp68D microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif3a; MGI:MGI:107689with _ Kinesin-like protein at 68D _ Klp7 _ _ Kinesin-like protein 7 _ Klp8 _ _ Kinesin-like protein 8 _ Klp9 _ _ Kinesin-like protein 9 _ Klp98A microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with MGD:Kif1a; MGI:MGI:108391 _ Kinesin-like protein at 98A _ klu _ _ klumpfuss _ kn _ _ knot _ knax _ _ knobby axons _ kni regulation of mitosis; GO:0007088 | inferred from mutant phenotype _ knirps _ knk _ _ knickkopf _ knrl regulation of mitosis; GO:0007088 | inferred from mutant phenotype _ knirps-like _ ko _ _ knockout "Kr activity is required to maintain ko expression in specific muscles,, and ko activity is required for the proper innervation of a subset, of muscles in the embryo." KP78a protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ KP78b protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ Kr axon guidance; GO:0007411 | inferred from mutant phenotype; eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype; neuroblast determination; GO:0007400 | inferred from mutant phenotype _ Kruppel _ Kr-h1 metamorphosis; GO:0007552 | non-traceable author statement _ Kruppel homolog 1 "A 4.5kb transcript of Kr-h1 is indispensable for normal progression, of metamorphosis." Kr-h2 _ _ Kruppel homolog 2 _ kraken _ _ kraken _ KrT95D protein-Golgi targeting; GO:0000042 | inferred from sequence similarity with SWISS-PROT:O88588 _ Krueppel target at 95D _ krz _ _ kurtz _ ks-1 _ _ male fertility factor ks1 _ ks-2 _ _ male fertility factor ks2 _ ksh-15 _ _ _ _ ksh-16 _ _ _ _ ksh-17 _ _ _ _ ksh-18 _ _ _ _ ksh-19 _ _ _ _ ksr RAS protein signal transduction; GO:0007265 | inferred from genetic interaction; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ kinase suppressor of ras "Mutant phenotype indicates both aop and ttk are involved in the, Ras/MAPK pathway." kst plasma membrane organization and biogenesis; GO:0007009 | traceable author statement _ karst "kst is essential for normal epithelium morphogenesis of the follicle, cell epithelium during oogenesis." kto transcription from Pol II promoter; GO:0006366 | non-traceable author statement _ kohtalo "pap and kto seem to act together to promote specific cell fate, decisions, transmitting either a novel signal or a combination of signals." Ku80 _ _ _ _ Kua _ _ _ _ kub _ _ kubel _ kug _ _ kugelei _ kugi _ _ kugi _ Kum _ _ Kumbhakarna _ kus _ _ karusell _ kuz N receptor processing; GO:0007220 | inferred from genetic interaction with FLYBASE:H; FB:FBgn0001169; N receptor processing; GO:0007220 | inferred from genetic interaction with FLYBASE:N; FB:FBgn0004647; N receptor processing; GO:0007220 | inferred from genetic interaction with FLYBASE:Ser; FB:FBgn0004197 _ kuzbanian _ kz _ _ kurz _ L _ _ Lobe _ l(?)A135 _ _ _ _ l(?)AP17 _ _ _ _ l(?)AR111 _ _ _ _ l(?)H81 _ _ _ _ l(?)rI165 _ _ _ _ l(?)rI327 _ _ _ _ l(?)rK270 _ _ _ _ l(?)rO127 _ _ _ _ l(1)01 _ _ lethal (1) 01 _ l(1)02 _ _ lethal (1) 02 _ l(1)04 _ _ lethal (1) 04 _ l(1)05 _ _ lethal (1) 05 _ l(1)06 _ _ lethal (1) 06 _ l(1)07 _ _ lethal (1) 07 _ l(1)08 _ _ lethal (1) 08 _ l(1)10 _ _ lethal (1) 10 _ l(1)100 _ _ lethal (1) 100 _ l(1)1070 _ _ _ _ l(1)10Ad _ _ lethal (1) 10Ad _ l(1)10Ae _ _ lethal (1) 10Ae _ l(1)10Af _ _ lethal (1) 10Af _ l(1)10Ah _ _ lethal (1) 10Ah _ l(1)10Ai _ _ lethal (1) 10Ai _ l(1)10Aj _ _ lethal (1) 10Aj _ l(1)10Ak _ _ _ _ l(1)10Al _ _ _ _ l(1)10Ba _ _ lethal (1) 10Ba _ l(1)10Bb _ _ lethal (1) 10Bb _ l(1)10Bc _ _ lethal (1) 10Bc _ l(1)10Bg _ _ lethal (1) 10Bg _ l(1)10Bh _ _ lethal (1) 10Bh _ l(1)10Bi _ _ lethal (1) 10Bi _ l(1)10Bj _ _ lethal (1) 10Bj _ l(1)10Bk _ _ lethal (1) 10Bk _ l(1)10Bl _ _ lethal (1) 10Bl _ l(1)10Bm _ _ lethal (1) 10Bm _ l(1)10Bn _ _ lethal (1) 10Bn _ l(1)10Bo _ _ lethal (1) 10Bo _ l(1)10Bp _ _ _ _ l(1)10Bq _ _ lethal (1) 10Bq _ l(1)10Br _ _ lethal (1) 10Br _ l(1)10Bs _ _ lethal (1) 10Bs _ l(1)10Bt _ _ lethal (1) 10Bt _ l(1)10Cc _ _ lethal (1) 10Cc _ l(1)10Cd _ _ lethal (1) 10Cd _ l(1)10Ce _ _ lethal (1) 10Ce _ l(1)10Cg _ _ lethal (1) 10Cg _ l(1)10Ch _ _ lethal (1) 10Ch _ l(1)10Da _ _ lethal (1) 10Da _ l(1)10Db _ _ lethal (1) 10Db _ l(1)10Dc _ _ lethal (1) 10Dc _ l(1)10Dd _ _ lethal (1) 10Dd _ l(1)10Ea _ _ lethal (1) 10Ea _ l(1)10Eb _ _ lethal (1) 10Eb _ l(1)10Fa _ _ lethal (1) 10Fa _ l(1)10Fb _ _ lethal (1) 10Fb _ l(1)10Fc _ _ lethal (1) 10Fc _ l(1)10Fd _ _ lethal (1) 10Fd _ l(1)10Fe _ _ lethal (1) 10Fe _ l(1)10Ff _ _ lethal (1) 10Ff _ l(1)10Fg _ _ lethal (1) 10Fg _ l(1)10Fh _ _ lethal (1) 10Fh _ l(1)10Fi _ _ lethal (1) 10Fi _ l(1)10Fj _ _ lethal (1) 10Fj _ l(1)10Fk _ _ lethal (1) 10Fk _ l(1)11 _ _ lethal (1) 11 _ l(1)11Ac _ _ lethal (1) 11Ac _ l(1)11Ad _ _ lethal (1) 11Ad _ l(1)11Ae _ _ lethal (1) 11Ae _ l(1)11Ag _ _ lethal (1) 11Ag _ l(1)11Ah _ _ lethal (1) 11Ah _ l(1)11Ai _ _ lethal (1) 11Ai _ l(1)11Ba _ _ _ _ l(1)11BEa _ _ _ _ l(1)11Da _ _ lethal (1) 11Da _ l(1)11Db _ _ lethal (1) 11Db _ l(1)11Dc _ _ lethal (1) 11Dc _ l(1)11Eb _ _ lethal (1) 11Eb _ l(1)11Ec _ _ lethal (1) 11Ec _ l(1)11Ed _ _ lethal (1) 11Ed _ l(1)11Ee _ _ lethal (1) 11Ee _ l(1)11Ef _ _ lethal (1) 11Ef _ l(1)11Fa _ _ lethal (1) 11Fa _ l(1)11Fb _ _ lethal (1) 11Fb _ l(1)11Fc _ _ _ _ l(1)12 _ _ lethal (1) 12 _ l(1)12Ba _ _ _ _ l(1)12Bb _ _ _ _ l(1)12Bc _ _ _ _ l(1)12Ca _ _ _ _ l(1)12Da _ _ _ _ l(1)12P2 _ _ _ _ l(1)12P3 _ _ _ _ l(1)13Fa _ _ _ _ l(1)13Fc _ _ _ _ l(1)13Fd _ _ _ _ l(1)14 _ _ lethal (1) 14 _ l(1)14Aa _ _ lethal (1) 14Aa _ l(1)14Ab _ _ lethal (1) 14Ab _ l(1)14ABa _ _ _ _ l(1)14ABb _ _ _ _ l(1)14Ac _ _ _ _ l(1)14Ad _ _ _ _ l(1)14Ae _ _ _ _ l(1)14Af _ _ _ _ l(1)14Ag _ _ _ _ l(1)14Ah _ _ _ _ l(1)14Ai _ _ _ _ l(1)14Ba _ _ lethal (1) 14Ba _ l(1)14Bb _ _ lethal (1) 14Bb _ l(1)14Bc _ _ _ _ l(1)14BCa _ _ _ _ l(1)14Ca _ _ lethal (1) 14Ca _ l(1)14Cb _ _ lethal (1) 14Cb _ l(1)14Cc _ _ _ _ l(1)14Cd _ _ _ _ l(1)14Ce _ _ _ _ l(1)14Db _ _ _ _ l(1)14DEa _ _ lethal (1) 14DEa _ l(1)14DEb _ _ lethal (1) 14DEb _ l(1)14DEc _ _ lethal (1) 14DEc _ l(1)14Ea _ _ lethal (1) 14Ea _ l(1)14Fa _ _ lethal (1) 14Fa _ l(1)15 _ _ lethal (1) 15 _ l(1)15Aa _ _ lethal (1) 15Aa _ l(1)15Ab _ _ lethal (1) 15Ab _ l(1)15ACa _ _ _ _ l(1)15Ba _ _ lethal (1) 15Ba _ l(1)15Bb _ _ _ _ l(1)15Bc _ _ _ _ l(1)15Da _ _ _ _ l(1)15Db _ _ _ _ l(1)15Dc _ _ _ _ l(1)15Dd _ _ _ _ l(1)15De _ _ _ _ l(1)15DFa _ _ _ _ l(1)15DFb _ _ _ _ l(1)15Eb _ _ _ _ l(1)15Fa _ _ _ _ l(1)16 _ _ lethal (1) 16 _ l(1)16ACa _ _ _ _ l(1)16ACb _ _ _ _ l(1)16Ca _ _ _ _ l(1)16Cb _ _ _ _ l(1)16Fa _ _ _ _ l(1)16Fb _ _ _ _ l(1)16Fc _ _ _ _ l(1)16Fe _ _ _ _ l(1)16Ff _ _ _ _ l(1)16Fh _ _ _ _ l(1)16Fi _ _ _ _ l(1)16Fk _ _ _ _ l(1)16Fl _ _ _ _ l(1)16Fm _ _ _ _ l(1)16Fn _ _ _ _ l(1)16Fo _ _ _ _ l(1)16Fp _ _ _ _ l(1)16Fq _ _ _ _ l(1)17 _ _ lethal (1) 17 _ l(1)17Aa _ _ _ _ l(1)17Ab _ _ lethal (1) 17Ab _ l(1)17Ae _ _ lethal (1) 17Ae _ l(1)17Ca _ _ lethal (1) 17Ca _ l(1)17Cb _ _ lethal (1) 17Cb _ l(1)17Cc _ _ _ _ l(1)18 _ _ lethal (1) 18 _ l(1)18DEa _ _ _ _ l(1)18DEb _ _ _ _ l(1)18DEc _ _ _ _ l(1)18Fa _ _ lethal (1) 18Fa _ l(1)19Aa _ _ lethal (1) 19Aa _ l(1)19Ac _ _ lethal (1) 19Ac _ l(1)19Ad _ _ lethal (1) 19Ad _ l(1)19Ba _ _ lethal (1) 19Ba _ l(1)19Ca _ _ lethal (1) 19Ca _ l(1)19Cb _ _ lethal (1) 19Cb _ l(1)19Cc _ _ lethal (1) 19Cc _ l(1)19Cd _ _ _ _ l(1)19Da _ _ lethal (1) 19Da _ l(1)19Ec _ _ lethal (1) 19Ec _ l(1)19Ed _ _ lethal (1) 19Ed _ l(1)19Eg _ _ _ _ l(1)19Fb _ _ lethal (1) 19Fb _ l(1)19Fc _ _ lethal (1) 19Fc _ l(1)19Fe _ _ lethal (1) 19Fe _ l(1)19Fh _ _ _ _ l(1)1Ab _ _ _ _ l(1)1Ac _ _ lethal (1) 1Ac _ l(1)1Ad _ _ lethal (1) 1Ad _ l(1)1Af _ _ lethal (1) 1Af _ l(1)1Ai _ _ lethal (1) 1Ai _ l(1)1Aj _ _ _ _ l(1)1Bb _ _ lethal (1) 1Bb _ l(1)1Bc _ _ lethal (1) 1Bc _ l(1)1Bg _ _ lethal (1) 1Bg _ l(1)1Bh _ _ lethal (1) 1Bh _ l(1)1Bi _ _ lethal (1) 1Bi _ l(1)1Bk _ _ lethal (1) 1Bk _ l(1)1Bl _ _ _ _ l(1)1Bm _ _ _ _ l(1)1Ca _ _ lethal (1) 1Ca _ l(1)1CDa _ _ _ _ l(1)1CDb _ _ _ _ l(1)1CDc _ _ _ _ l(1)1Da _ _ lethal (1) 1Da _ l(1)1Dc _ _ lethal (1) 1Dc _ l(1)1Ea _ _ lethal (1) 1Ea _ l(1)1Eb _ _ lethal (1) 1Eb _ l(1)1Ec _ _ lethal (1) 1Ec _ l(1)1Ed _ _ lethal (1) 1Ed _ l(1)1Ee _ _ lethal (1) 1Ee _ l(1)1Ef _ _ lethal (1) 1Ef _ l(1)1EFa _ _ lethal (1) 1EFa _ l(1)1EFb _ _ lethal (1) 1EFb _ l(1)1EFc _ _ lethal (1) 1EFc _ l(1)1EFd _ _ lethal (1) 1EFd _ l(1)1EFe _ _ lethal (1) 1EFe _ l(1)1EFf _ _ lethal (1) 1EFf _ l(1)1EFg _ _ lethal (1) 1EFg _ l(1)1EFh _ _ lethal (1) 1EFh _ l(1)1EFi _ _ lethal (1) 1EFi _ l(1)1EFj _ _ lethal (1) 1EFj _ l(1)1Eg _ _ _ _ l(1)1Fa _ _ lethal (1) 1Fa _ l(1)1Fb _ _ lethal (1) 1Fb _ l(1)1Fc _ _ lethal (1) 1Fc _ l(1)1Fd _ _ lethal (1) 1Fd _ l(1)1Fe _ _ lethal (1) 1Fe _ l(1)1Ff _ _ lethal (1) 1Ff _ l(1)1Fg _ _ _ _ l(1)1Fh _ _ _ _ l(1)1P2 _ _ _ _ l(1)1P3 _ _ _ _ l(1)1PP18 _ _ _ _ l(1)20 _ _ lethal (1) 20 _ l(1)20Ad _ _ lethal (1) 20Ad _ l(1)20Ag _ _ _ _ l(1)20Ah _ _ _ _ l(1)20Ai _ _ _ _ l(1)20Aj _ _ _ _ l(1)20BC _ _ _ _ l(1)20Bd _ _ _ _ l(1)20BFa _ _ _ _ l(1)20Ca _ _ lethal (1) 20Ca _ l(1)20Cb _ _ lethal (1) 20Cb _ l(1)20Cc _ _ _ _ l(1)218 _ _ lethal (1) 218 _ l(1)22 _ _ lethal (1) 22 _ l(1)2269 _ _ lethal (1) 2269 _ l(1)24 _ _ lethal (1) 24 _ l(1)27 _ _ lethal (1) 27 _ l(1)29 _ _ lethal (1) 29 _ l(1)2Ac _ _ lethal (1) 2Ac _ l(1)2Ad _ _ lethal (1) 2Ad _ l(1)2Ae _ _ lethal (1) 2Ae _ l(1)2BCa _ _ _ _ l(1)2BCb _ _ _ _ l(1)2Bh _ _ lethal (1) 2Bh _ l(1)2Bj _ _ lethal (1) 2Bj _ l(1)2Bk _ _ lethal (1) 2Bk _ l(1)2Bl _ _ lethal (1) 2Bl _ l(1)2Bm _ _ lethal (1) 2Bm _ l(1)2Bn _ _ lethal (1) 2Bn _ l(1)2Bo _ _ lethal (1) 2Bo _ l(1)2Bp _ _ lethal (1) 2Bp _ l(1)2Bq _ _ lethal (1) 2Bq _ l(1)2Br _ _ lethal (1) 2Br _ l(1)2Bs _ _ lethal (1) 2Bs _ l(1)2Bt _ _ lethal (1) 2Bt _ l(1)2Bu _ _ lethal (1) 2Bu _ l(1)2Ca _ _ lethal (1) 2Ca _ l(1)2Cc _ _ lethal (1) 2Cc _ l(1)2Cd _ _ lethal (1) 2Cd _ l(1)2Ce _ _ lethal (1) 2Ce _ l(1)2Cg _ _ _ _ l(1)2Da _ _ lethal (1) 2Da _ l(1)2Db _ _ _ _ l(1)2Dc _ _ _ _ l(1)2Dg _ _ lethal (1) 2Dg _ l(1)2Dh _ _ lethal (1) 2Dh _ l(1)2Di _ _ lethal (1) 2Di _ l(1)2Dj _ _ _ _ l(1)2Dk _ _ _ _ l(1)2Dl _ _ _ _ l(1)2Dm _ _ _ _ l(1)2Ea _ _ lethal (1) 2Ea _ l(1)2Ec _ _ _ _ l(1)2Ed _ _ _ _ l(1)2Fb _ _ lethal (1) 2Fb _ l(1)2Fc _ _ lethal (1) 2Fc _ l(1)2Fd _ _ lethal (1) 2Fd _ l(1)2Ff _ _ _ _ l(1)2Fg _ _ _ _ l(1)3-64 _ _ _ _ l(1)30 _ _ lethal (1) 30 _ l(1)31 _ _ lethal (1) 31 _ l(1)318 _ _ lethal (1) 318 _ l(1)32 _ _ lethal (1) 32 _ l(1)36 _ _ lethal (1) 36 _ l(1)37 _ _ lethal (1) 37 _ l(1)38 _ _ _ _ l(1)3ABa _ _ _ _ l(1)3ABb _ _ _ _ l(1)3Ad _ _ lethal (1) 3Ad _ l(1)3Ag _ _ lethal (1) 3Ag _ l(1)3Ah _ _ lethal (1) 3Ah _ l(1)3Ai _ _ _ _ l(1)3Aj _ _ _ _ l(1)3Ak _ _ _ _ l(1)3Al _ _ _ _ l(1)3Am _ _ _ _ l(1)3An _ _ _ _ l(1)3Ao _ _ _ _ l(1)3Ap _ _ _ _ l(1)3Aq _ _ _ _ l(1)3Ar _ _ _ _ l(1)3As _ _ _ _ l(1)3At _ _ _ _ l(1)3Bb _ _ lethal (1) 3Bb _ l(1)3Bc _ _ lethal (1) 3Bc _ l(1)3Bd _ _ lethal (1) 3Bd _ l(1)3Bf _ _ lethal (1) 3Bf _ l(1)3Bg _ _ _ _ l(1)3C3 _ _ lethal (1) 3C3 _ l(1)3Da _ _ lethal (1) 3Da _ l(1)3Db _ _ _ "l(1)3Db is required for the production of the es identity even when, the precursors are unable to divide." l(1)3Eb _ _ lethal (1) 3Eb _ l(1)3Ec _ _ lethal (1) 3Ec _ l(1)3Ed _ _ lethal (1) 3Ed _ l(1)3Ee _ _ lethal (1) 3Ee _ l(1)3P5 _ _ _ _ l(1)3PP4 _ _ _ _ l(1)43 _ _ lethal (1) 43 _ l(1)44 _ _ lethal (1) 44 _ l(1)47 _ _ _ _ l(1)48B _ _ _ _ l(1)4ACa _ _ _ _ l(1)4Ca _ _ _ _ l(1)4Da _ _ _ _ l(1)4Ea _ _ lethal (1) 4Ea _ l(1)4Fa _ _ lethal (1) 4Fa _ l(1)4Fb _ _ _ _ l(1)5-39-1 _ _ _ _ l(1)54B1 _ _ _ _ l(1)54B2 _ _ _ _ l(1)55 _ _ lethal (1) 55 _ l(1)55a _ _ lethal (1) 55a _ l(1)5Aa _ _ _ _ l(1)5ABa _ _ _ _ l(1)5ACa _ _ _ _ l(1)5ACb _ _ _ _ l(1)5AEa _ _ _ _ l(1)5CDa _ _ lethal (1) 5CDa _ l(1)5Da _ _ _ _ l(1)5DEa _ _ _ _ l(1)5g11 _ _ lethal (1) 5g11 _ l(1)5PP10 _ _ _ _ l(1)63 _ _ lethal (1) 63 _ l(1)64 _ _ _ _ l(1)6C-157 _ _ _ _ l(1)6C-166 _ _ _ _ l(1)6c-21 _ _ lethal (1) 6c-21 _ l(1)6Dc _ _ lethal (1) 6Dc _ l(1)6Dd _ _ lethal (1) 6Dd _ l(1)6DEa _ _ _ _ l(1)6Df _ _ lethal (1) 6Df _ l(1)6Dg _ _ lethal (1) 6Dg _ l(1)6Ea _ _ lethal (1) 6Ea _ l(1)6Eb _ _ lethal (1) 6Eb _ l(1)6Ed _ _ lethal (1) 6Ed _ l(1)6Ef _ _ _ _ l(1)6Fb _ _ lethal (1) 6Fb _ l(1)6Fc _ _ lethal (1) 6Fc _ l(1)6Fd _ _ _ _ l(1)6PP19 _ _ _ _ l(1)6PP7 _ _ _ _ l(1)7-103 _ _ lethal (1) 7-103 _ l(1)75B2 _ _ _ _ l(1)75B5 _ _ _ _ l(1)7Aa _ _ lethal (1) 7Aa _ l(1)7Ab _ _ lethal (1) 7Ab _ l(1)7Ad _ _ lethal (1) 7Ad _ l(1)7Bc _ _ lethal (1) 7Bc _ l(1)7Bd _ _ lethal (1) 7Bd _ l(1)7Be _ _ lethal (1) 7Be _ l(1)7Bf _ _ lethal (1) 7Bf _ l(1)7Bg _ _ _ _ l(1)7Cb _ _ lethal (1) 7Cb _ l(1)7Cc _ _ lethal (1) 7Cc _ l(1)7Cd _ _ lethal (1) 7Cd _ l(1)7Ce _ _ lethal (1) 7Ce _ l(1)7Cf _ _ lethal (1) 7Cf _ l(1)7Cg _ _ lethal (1) 7Cg _ l(1)7Ch _ _ lethal (1) 7Ch _ l(1)7Ci _ _ _ _ l(1)7Da _ _ _ _ l(1)7Dc _ _ lethal (1) 7Dc _ l(1)7Dd _ _ lethal (1) 7Dd _ l(1)7De _ _ lethal (1) 7De _ l(1)7DEa _ _ _ _ l(1)7Df _ _ lethal (1) 7Df _ l(1)7Dg _ _ lethal (1) 7Dg _ l(1)7Dh _ _ lethal (1) 7Dh _ l(1)7Di _ _ lethal (1) 7Di _ l(1)7Dj _ _ lethal (1) 7Dj _ l(1)7Dk _ _ lethal (1) 7Dk _ l(1)7Dl _ _ lethal (1) 7Dl _ l(1)7Dm _ _ lethal (1) 7Dm _ l(1)7Do _ _ _ _ l(1)7Dp _ _ _ _ l(1)7Eb _ _ lethal (1) 7Eb _ l(1)7Ec _ _ lethal (1) 7Ec _ l(1)7Ed _ _ lethal (1) 7Ed _ l(1)7Ee _ _ lethal (1) 7Ee _ l(1)7Fc _ _ lethal (1) 7Fc _ l(1)7Fd _ _ lethal (1) 7Fd _ l(1)7Fg _ _ _ _ l(1)7Fh _ _ _ _ l(1)7Fi _ _ _ _ l(1)8 _ _ lethal (1) 8 _ l(1)815-12 _ _ lethal (1) 815-12 _ l(1)815-22 _ _ lethal (1) 815-22 _ l(1)815-23 _ _ lethal (1) 815-23 _ l(1)815-3 _ _ lethal (1) 815-3 _ l(1)815-5 _ _ lethal (1) 815-5 _ l(1)815-9 _ _ lethal (1) 815-9 _ l(1)827 _ _ lethal (1) 827 _ l(1)83A _ _ _ _ l(1)83B _ _ _ _ l(1)89B _ _ _ _ l(1)8Aa _ _ lethal (1) 8Aa _ l(1)8Ab _ _ lethal (1) 8Ab _ l(1)8Ad _ _ lethal (1) 8Ad _ l(1)8Ae _ _ _ _ l(1)8e3-43 _ _ lethal (1) 8e3-43 _ l(1)8PP9 _ _ _ _ l(1)9-38-1 _ _ _ _ l(1)90 _ _ _ _ l(1)9BDa _ _ _ _ l(1)9e3-21 _ _ lethal (1) 9e3-21 _ l(1)9Ea _ _ lethal (1) 9Ea _ l(1)9Ec _ _ lethal (1) 9Ec _ l(1)9Ee _ _ lethal (1) 9Ee _ l(1)9Fb _ _ lethal (1) 9Fb _ l(1)9Fe _ _ lethal (1) 9Fe _ l(1)9Ff _ _ lethal (1) 9Ff _ l(1)9Fg _ _ lethal (1) 9Fg _ l(1)9Fh _ _ lethal (1) 9Fh _ l(1)9Fi _ _ _ _ l(1)9Fj _ _ _ _ l(1)9Fk _ _ _ _ l(1)9Fl _ _ _ _ l(1)A10 _ _ lethal (1) A10 _ l(1)A106.1F1 _ _ _ _ l(1)A13 _ _ lethal (1) A13 _ l(1)A13.3 _ _ _ _ l(1)A14 _ _ lethal (1) A14 _ l(1)A17 _ _ lethal (1) A17 _ l(1)A27.2 _ _ _ _ l(1)A33.3 _ _ _ _ l(1)A36.3 _ _ _ _ l(1)adl1 _ _ lethal (1) adl1 _ l(1)adl11 _ _ lethal (1) adl11 _ l(1)adl13 _ _ lethal (1) adl13 _ l(1)adl14 _ _ lethal (1) adl14 _ l(1)adl16 _ _ lethal (1) adl16 _ l(1)adl3 _ _ lethal (1) adl3 _ l(1)air1 _ _ lethal aberrant immune response 1 _ l(1)air10 _ _ lethal aberrant immune response 10 _ l(1)air11 _ _ lethal aberrant immune response 11 _ l(1)air12 _ _ lethal aberrant immune response 12 _ l(1)air13 _ _ lethal aberrant immune response 13 _ l(1)air14 _ _ lethal aberrant immune response 14 _ l(1)air15 _ _ lethal aberrant immune response 15 _ l(1)air16 _ _ lethal aberrant immune response 16 _ l(1)air2 _ _ lethal aberrant immune response 2 _ l(1)air3 _ _ lethal aberrant immune response 3 _ l(1)air4 _ _ lethal aberrant immune response 4 _ l(1)air5 _ _ lethal aberrant immune response 5 _ l(1)air6 _ _ lethal aberrant immune response 6 _ l(1)air7 _ _ lethal aberrant immune response 7 _ l(1)air9 _ _ lethal aberrant immune response 9 _ l(1)B10.2 _ _ _ _ l(1)B22.5 _ _ _ _ l(1)B23.2 _ _ _ _ l(1)B6.1 _ _ _ _ l(1)B64.2 _ _ _ _ l(1)B74.4 _ _ _ _ l(1)B8.5 _ _ _ _ l(1)BP _ _ l(1)Brand and Perrimon _ l(1)C _ _ lethal (1) C _ l(1)C31 _ _ _ _ l(1)carot12 _ _ lethal (1) carot12 _ l(1)carot2 _ _ lethal (1) carot2 _ l(1)carot3 _ _ lethal (1) carot3 _ l(1)CL _ _ lethal (1) Cell Lethal _ l(1)D10.2 _ _ _ _ l(1)D36.5 _ _ _ _ l(1)D39.5 _ _ _ _ l(1)D47.6 _ _ _ _ l(1)DC1112 _ _ lethal (1) DC1112 _ l(1)DC371 _ _ lethal (1) DC371 _ l(1)DC711 _ _ _ _ l(1)dd10 _ _ lethal (1) discs degenerate 10 _ l(1)dd11 _ _ lethal (1) discs degenerate 11 _ l(1)dd2 _ _ lethal (1) discs degenerate 2 _ l(1)dd3 _ _ lethal (1) discs degenerate 3 _ l(1)dd4 microtubule nucleation; GO:0007020 | inferred from direct assay; microtubule-based process; GO:0007017 | inferred from sequence similarity _ lethal (1) discs degenerate 4 l(1)dd4 is essential for progression through mitosis. l(1)dd9 _ _ lethal (1) discs degenerate 9 _ l(1)devl _ _ lethal decreased volume optic lobes _ l(1)E7 _ _ lethal (1) E7 _ l(1)EA61 _ _ lethal (1) EA61 _ l(1)EA65 _ _ lethal (1) EA65 _ l(1)EH275a _ _ _ _ l(1)em1 _ _ _ _ l(1)em2 _ _ _ _ l(1)em3 _ _ _ _ l(1)em4 _ _ _ _ l(1)em5 _ _ _ _ l(1)EN1 _ _ lethal (1) from Eugene Nonautonomous 1 _ l(1)EN10a _ _ lethal (1) from Eugene Nonautonomous 10a _ l(1)EN11 _ _ lethal (1) from Eugene Nonautonomous 11 _ l(1)EN12 _ _ lethal (1) from Eugene Nonautonomous 12 _ l(1)EN13 _ _ lethal (1) from Eugene Nonautonomous 13 _ l(1)EN14 _ _ lethal (1) from Eugene Nonautonomous 14 _ l(1)EN15 _ _ lethal (1) from Eugene Nonautonomous 15 _ l(1)EN16 _ _ lethal (1) from Eugene Nonautonomous 16 _ l(1)EN2 _ _ lethal (1) from Eugene Nonautonomous 2 _ l(1)EN4 _ _ lethal (1) from Eugene Nonautonomous 4 _ l(1)EN5 _ _ lethal (1) from Eugene Nonautonomous 5 _ l(1)EN6 _ _ lethal (1) from Eugene Nonautonomous 6 _ l(1)EN7 _ _ lethal (1) from Eugene Nonautonomous 7 _ l(1)EN8 _ _ lethal (1) from Eugene Nonautonomous 8 _ l(1)ESHS1 _ _ lethal (1) ESHS1 _ l(1)ESHS10 _ _ lethal (1) ESHS10 _ l(1)ESHS11 _ _ lethal (1) ESHS11 _ l(1)ESHS12 _ _ lethal (1) ESHS12 _ l(1)ESHS13 _ _ lethal (1) ESHS13 _ l(1)ESHS14 _ _ lethal (1) ESHS14 _ l(1)ESHS15 _ _ lethal (1) ESHS15 _ l(1)ESHS16 _ _ lethal (1) ESHS16 _ l(1)ESHS17 _ _ lethal (1) ESHS17 _ l(1)ESHS18 _ _ lethal (1) ESHS18 _ l(1)ESHS19 _ _ lethal (1) ESHS19 _ l(1)ESHS20 _ _ lethal (1) ESHS20 _ l(1)ESHS21 _ _ lethal (1) ESHS21 _ l(1)ESHS22 _ _ lethal (1) ESHS22 _ l(1)ESHS23 _ _ lethal (1) ESHS23 _ l(1)ESHS24 _ _ lethal (1) ESHS24 _ l(1)ESHS25 _ _ lethal (1) ESHS25 _ l(1)ESHS26 _ _ lethal (1) ESHS26 _ l(1)ESHS27 _ _ lethal (1) ESHS27 _ l(1)ESHS28 _ _ lethal (1) ESHS28 _ l(1)ESHS29 _ _ lethal (1) ESHS29 _ l(1)ESHS3 _ _ lethal (1) ESHS3 _ l(1)ESHS30 _ _ lethal (1) ESHS30 _ l(1)ESHS31 _ _ lethal (1) ESHS31 _ l(1)ESHS32 _ _ lethal (1) ESHS32 _ l(1)ESHS33 _ _ lethal (1) ESHS33 _ l(1)ESHS34 _ _ lethal (1) ESHS34 _ l(1)ESHS35 _ _ lethal (1) ESHS35 _ l(1)ESHS36 _ _ lethal (1) ESHS36 _ l(1)ESHS37 _ _ lethal (1) ESHS37 _ l(1)ESHS38 _ _ lethal (1) ESHS38 _ l(1)ESHS39 _ _ lethal (1) ESHS39 _ l(1)ESHS4 _ _ lethal (1) ESHS4 _ l(1)ESHS40 _ _ lethal (1) ESHS40 _ l(1)ESHS41 _ _ lethal (1) ESHS41 _ l(1)ESHS42 _ _ lethal (1) ESHS42 _ l(1)ESHS43 _ _ lethal (1) ESHS43 _ l(1)ESHS44 _ _ lethal (1) ESHS44 _ l(1)ESHS45 _ _ lethal (1) ESHS45 _ l(1)ESHS46 _ _ lethal (1) ESHS46 _ l(1)ESHS47 _ _ lethal (1) ESHS47 _ l(1)ESHS49 _ _ lethal (1) ESHS49 _ l(1)ESHS50 _ _ lethal (1) ESHS50 _ l(1)ESHS51 _ _ lethal (1) ESHS51 _ l(1)ESHS6 _ _ lethal (1) ESHS6 _ l(1)ESHS7 _ _ lethal (1) ESHS7 _ l(1)ESHS8 _ _ lethal (1) ESHS8 _ l(1)ESHS9 _ _ lethal (1) ESHS9 _ l(1)FMa _ _ lethal (1) FMa _ l(1)G0002 _ _ _ _ l(1)G0003 _ _ _ _ l(1)G0004 _ _ _ _ l(1)G0006 _ _ _ _ l(1)G0007 _ _ _ _ l(1)G0010 _ _ _ _ l(1)G0011 _ _ _ _ l(1)G0012 _ _ _ _ l(1)G0013 _ _ _ _ l(1)G0014 _ _ _ _ l(1)G0018 _ _ _ _ l(1)G0020 _ _ _ _ l(1)G0022 _ _ _ _ l(1)G0023 _ _ _ _ l(1)G0024 _ _ _ _ l(1)G0025 _ _ _ _ l(1)G0027 _ _ _ _ l(1)G0028 _ _ _ _ l(1)G0030 _ _ _ _ l(1)G0032 _ _ _ _ l(1)G0033 _ _ _ _ l(1)G0035 _ _ _ _ l(1)G0036 _ _ _ _ l(1)G0037 _ _ _ _ l(1)G0039 _ _ _ _ l(1)G0040 _ _ _ _ l(1)G0041 _ _ _ _ l(1)G0042 _ _ _ _ l(1)G0043 _ _ _ _ l(1)G0044 _ _ _ _ l(1)G0045 _ _ _ _ l(1)G0046 _ _ _ _ l(1)G0048 _ _ _ _ l(1)G0050 _ _ _ _ l(1)G0052 _ _ _ _ l(1)G0054 _ _ _ _ l(1)G0055 _ _ _ _ l(1)G0056 _ _ _ _ l(1)G0057 _ _ _ _ l(1)G0058 _ _ _ _ l(1)G0059 _ _ _ _ l(1)G0060 _ _ _ _ l(1)G0061 _ _ _ _ l(1)G0062 _ _ _ _ l(1)G0063 _ _ _ _ l(1)G0065 _ _ _ _ l(1)G0066 _ _ _ _ l(1)G0067 _ _ _ _ l(1)G0070 _ _ _ _ l(1)G0071 _ _ _ _ l(1)G0072 _ _ _ _ l(1)G0074 _ _ _ _ l(1)G0075 _ _ _ _ l(1)G0076 _ _ _ _ l(1)G0078 _ _ _ _ l(1)G0079 _ _ _ _ l(1)G0081 _ _ _ _ l(1)G0083 _ _ _ _ l(1)G0084 _ _ _ _ l(1)G0086 _ _ _ _ l(1)G0087 _ _ _ _ l(1)G0090 _ _ _ _ l(1)G0092 _ _ _ _ l(1)G0093 _ _ _ _ l(1)G0094 _ _ _ _ l(1)G0095 _ _ _ _ l(1)G0097 _ _ _ _ l(1)G0098 _ _ _ _ l(1)G0099 _ _ _ _ l(1)G0102 _ _ _ _ l(1)G0103 _ _ _ _ l(1)G0104 _ _ _ _ l(1)G0105 _ _ _ _ l(1)G0106 _ _ _ _ l(1)G0107 _ _ _ _ l(1)G0108 _ _ _ _ l(1)G0109 _ _ _ _ l(1)G0111 _ _ _ _ l(1)G0112 _ _ _ _ l(1)G0113 _ _ _ _ l(1)G0114 _ _ _ _ l(1)G0115 _ _ _ _ l(1)G0116 _ _ _ _ l(1)G0117 _ _ _ _ l(1)G0118 _ _ _ _ l(1)G0119 _ _ _ _ l(1)G0120 _ _ _ _ l(1)G0121 _ _ _ _ l(1)G0122 _ _ _ _ l(1)G0123 _ _ _ _ l(1)G0124 _ _ _ _ l(1)G0125 _ _ _ _ l(1)G0126 _ _ _ _ l(1)G0127 _ _ _ _ l(1)G0128 _ _ _ _ l(1)G0129 _ _ _ _ l(1)G0130 _ _ _ _ l(1)G0132 _ _ _ _ l(1)G0134 _ _ _ _ l(1)G0136 _ _ _ _ l(1)G0137 _ _ _ _ l(1)G0139 _ _ _ _ l(1)G0140 _ _ _ _ l(1)G0141 _ _ _ _ l(1)G0143 _ _ _ _ l(1)G0144 _ _ _ _ l(1)G0145 _ _ _ _ l(1)G0146 _ _ _ _ l(1)G0147 _ _ _ _ l(1)G0148 _ _ _ _ l(1)G0149 _ _ _ _ l(1)G0150 _ _ _ _ l(1)G0151 _ _ _ _ l(1)G0152 _ _ _ _ l(1)G0153 _ _ _ _ l(1)G0155 _ _ _ _ l(1)G0156 _ _ _ _ l(1)G0157 _ _ _ _ l(1)G0159 _ _ _ _ l(1)G0160 _ _ _ _ l(1)G0161 _ _ _ _ l(1)G0164 _ _ _ _ l(1)G0165 _ _ _ _ l(1)G0166 _ _ _ _ l(1)G0167 _ _ _ _ l(1)G0168 _ _ _ _ l(1)G0172 _ _ _ _ l(1)G0173 _ _ _ _ l(1)G0174 _ _ _ _ l(1)G0175 _ _ _ _ l(1)G0176 _ _ _ _ l(1)G0177 _ _ _ _ l(1)G0178 _ _ _ _ l(1)G0179 _ _ _ _ l(1)G0181 _ _ _ _ l(1)G0182 _ _ _ _ l(1)G0183 _ _ _ _ l(1)G0184 _ _ _ _ l(1)G0185 _ _ _ _ l(1)G0186 _ _ _ _ l(1)G0190 _ _ _ _ l(1)G0191 _ _ _ _ l(1)G0193 _ _ _ _ l(1)G0196 _ _ _ _ l(1)G0197 _ _ _ _ l(1)G0198 _ _ _ _ l(1)G0199 _ _ _ _ l(1)G0200 _ _ _ _ l(1)G0201 _ _ _ _ l(1)G0202 _ _ _ _ l(1)G0203 _ _ _ _ l(1)G0204 _ _ _ _ l(1)G0205 _ _ _ _ l(1)G0207 _ _ _ _ l(1)G0208 _ _ _ _ l(1)G0209 _ _ _ _ l(1)G0211 _ _ _ _ l(1)G0212 _ _ _ _ l(1)G0213 _ _ _ _ l(1)G0214 _ _ _ _ l(1)G0216 _ _ _ _ l(1)G0219 _ _ _ _ l(1)G0220 _ _ _ _ l(1)G0221 _ _ _ _ l(1)G0222 _ _ _ _ l(1)G0223 _ _ _ _ l(1)G0225 _ _ _ _ l(1)G0226 _ _ _ _ l(1)G0227 _ _ _ _ l(1)G0228 _ _ _ _ l(1)G0229 _ _ _ _ l(1)G0230 _ _ _ _ l(1)G0231 _ _ _ _ l(1)G0232 _ _ _ _ l(1)G0233 _ _ _ _ l(1)G0236 _ _ _ _ l(1)G0237 _ _ _ _ l(1)G0238 _ _ _ _ l(1)G0239 _ _ _ _ l(1)G0241 _ _ _ _ l(1)G0242 _ _ _ _ l(1)G0244 _ _ _ _ l(1)G0245 _ _ _ _ l(1)G0247 _ _ _ _ l(1)G0248 _ _ _ _ l(1)G0249 _ _ _ _ l(1)G0250 _ _ _ _ l(1)G0251 _ _ _ _ l(1)G0252 _ _ _ _ l(1)G0254 _ _ _ _ l(1)G0255 _ _ _ _ l(1)G0257 _ _ _ _ l(1)G0259 _ _ _ _ l(1)G0260 _ _ _ _ l(1)G0262 _ _ _ _ l(1)G0263 _ _ _ _ l(1)G0266 _ _ _ _ l(1)G0267 _ _ _ _ l(1)G0268 _ _ _ _ l(1)G0269 _ _ _ _ l(1)G0270 _ _ _ _ l(1)G0271 _ _ _ _ l(1)G0272 _ _ _ _ l(1)G0273 _ _ _ _ l(1)G0276 _ _ _ _ l(1)G0277 _ _ _ _ l(1)G0278 _ _ _ _ l(1)G0279 _ _ _ _ l(1)G0280 _ _ _ _ l(1)G0281 _ _ _ _ l(1)G0283 _ _ _ _ l(1)G0284a _ _ _ _ l(1)G0284b _ _ _ _ l(1)G0285 _ _ _ _ l(1)G0286 _ _ _ _ l(1)G0287 _ _ _ _ l(1)G0289 _ _ _ _ l(1)G0290 _ _ _ _ l(1)G0292 _ _ _ _ l(1)G0293 _ _ _ _ l(1)G0295 _ _ _ _ l(1)G0296 _ _ _ _ l(1)G0297 _ _ _ _ l(1)G0298 _ _ _ _ l(1)G0299 _ _ _ _ l(1)G0301 _ _ _ _ l(1)G0302 _ _ _ _ l(1)G0303 _ _ _ _ l(1)G0306 _ _ _ _ l(1)G0307 _ _ _ _ l(1)G0308 _ _ _ _ l(1)G0309 _ _ _ _ l(1)G0310 _ _ _ _ l(1)G0311 _ _ _ _ l(1)G0312 _ _ _ _ l(1)G0315 _ _ _ _ l(1)G0316 _ _ _ _ l(1)G0317 _ _ _ _ l(1)G0318 _ _ _ _ l(1)G0320 _ _ _ _ l(1)G0323 _ _ _ _ l(1)G0324 _ _ _ _ l(1)G0326 _ _ _ _ l(1)G0327 _ _ _ _ l(1)G0329 _ _ _ _ l(1)G0330 _ _ _ _ l(1)G0332 _ _ _ _ l(1)G0333 _ _ _ _ l(1)G0334 _ _ _ _ l(1)G0335 _ _ _ _ l(1)G0336 _ _ _ _ l(1)G0337 _ _ _ _ l(1)G0338 _ _ _ _ l(1)G0341 _ _ _ _ l(1)G0342 _ _ _ _ l(1)G0343 _ _ _ _ l(1)G0344 _ _ _ _ l(1)G0345 _ _ _ _ l(1)G0346 _ _ _ _ l(1)G0347 _ _ _ _ l(1)G0348 _ _ _ _ l(1)G0350 _ _ _ _ l(1)G0351 _ _ _ _ l(1)G0353 _ _ _ _ l(1)G0354 _ _ _ _ l(1)G0355 _ _ _ _ l(1)G0356 _ _ _ _ l(1)G0358 _ _ _ _ l(1)G0359 _ _ _ _ l(1)G0360 _ _ _ _ l(1)G0361 _ _ _ _ l(1)G0362 _ _ _ _ l(1)G0363 _ _ _ _ l(1)G0364 _ _ _ _ l(1)G0365 _ _ _ _ l(1)G0366 _ _ _ _ l(1)G0369 _ _ _ _ l(1)G0371 _ _ _ _ l(1)G0372 _ _ _ _ l(1)G0373 _ _ _ _ l(1)G0374 _ _ _ _ l(1)G0375 _ _ _ _ l(1)G0376 _ _ _ _ l(1)G0377 _ _ _ _ l(1)G0378 _ _ _ _ l(1)G0380 _ _ _ _ l(1)G0381 _ _ _ _ l(1)G0382 _ _ _ _ l(1)G0384 _ _ _ _ l(1)G0386 _ _ _ _ l(1)G0387 _ _ _ _ l(1)G0388 _ _ _ _ l(1)G0389 _ _ _ _ l(1)G0391 _ _ _ _ l(1)G0392 _ _ _ _ l(1)G0393 _ _ _ _ l(1)G0394 _ _ _ _ l(1)G0395 _ _ _ _ l(1)G0397 _ _ _ _ l(1)G0398 _ _ _ _ l(1)G0399 _ _ _ _ l(1)G0400 _ _ _ _ l(1)G0401 _ _ _ _ l(1)G0404 _ _ _ _ l(1)G0406 _ _ _ _ l(1)G0407 _ _ _ _ l(1)G0409 _ _ _ _ l(1)G0410 _ _ _ _ l(1)G0411 _ _ _ _ l(1)G0412 _ _ _ _ l(1)G0413 _ _ _ _ l(1)G0414 _ _ _ _ l(1)G0415 _ _ _ _ l(1)G0416 _ _ _ _ l(1)G0417 _ _ _ _ l(1)G0418 _ _ _ _ l(1)G0419 _ _ _ _ l(1)G0420 _ _ _ _ l(1)G0422 _ _ _ _ l(1)G0423 _ _ _ _ l(1)G0424 _ _ _ _ l(1)G0425 _ _ _ _ l(1)G0427 _ _ _ _ l(1)G0428 _ _ _ _ l(1)G0429 _ _ _ _ l(1)G0430 _ _ _ _ l(1)G0431 _ _ _ _ l(1)G0432 _ _ _ _ l(1)G0433 _ _ _ _ l(1)G0434 _ _ _ _ l(1)G0435 _ _ _ _ l(1)G0436 _ _ _ _ l(1)G0437 _ _ _ _ l(1)G0438 _ _ _ _ l(1)G0442 _ _ _ _ l(1)G0443 _ _ _ _ l(1)G0444 _ _ _ _ l(1)G0445 _ _ _ _ l(1)G0447 _ _ _ _ l(1)G0448 _ _ _ _ l(1)G0449 _ _ _ _ l(1)G0450 _ _ _ _ l(1)G0451 _ _ _ _ l(1)G0452 _ _ _ _ l(1)G0453 _ _ _ _ l(1)G0455 _ _ _ _ l(1)G0456 _ _ _ _ l(1)G0458 _ _ _ _ l(1)G0459 _ _ _ _ l(1)G0461 _ _ _ _ l(1)G0462 _ _ _ _ l(1)G0464 _ _ _ _ l(1)G0466 _ _ _ _ l(1)G0467 _ _ _ _ l(1)G0469 _ _ _ _ l(1)G0470 _ _ _ _ l(1)G0471 _ _ _ _ l(1)G0472 _ _ _ _ l(1)G0473 _ _ _ _ l(1)G0475 _ _ _ _ l(1)G0476 _ _ _ _ l(1)G0478 _ _ _ _ l(1)G0479 _ _ _ _ l(1)G0482 _ _ _ _ l(1)G0483 _ _ _ _ l(1)G0484 _ _ _ _ l(1)G0486 _ _ _ _ l(1)G0487 _ _ _ _ l(1)G0488 _ _ _ _ l(1)G0489 _ _ _ _ l(1)G0490 _ _ _ _ l(1)G0491 _ _ _ _ l(1)G0492 _ _ _ _ l(1)G0493 _ _ _ _ l(1)G0495 _ _ _ _ l(1)G0498 _ _ _ _ l(1)G0500 _ _ _ _ l(1)G0501 _ _ _ _ l(1)H22.1 _ _ _ _ l(1)H30.1 _ _ _ _ l(1)HA6 _ _ _ _ l(1)HF326 _ _ _ _ l(1)HM20 _ _ lethal (1) HM20 _ l(1)HM3 _ _ lethal (1) HM3 _ l(1)HM32 _ _ lethal (1) HM32 _ l(1)HM409 _ _ lethal (1) HM409 _ l(1)HM442 _ _ lethal (1) HM442 _ l(1)HM452 _ _ lethal (1) HM452 _ l(1)J30.4 _ _ _ _ l(1)J413 _ _ lethal (1) J413 _ l(1)J67.3 _ _ _ _ l(1)K1 _ _ _ _ l(1)K3 _ _ _ _ l(1)K4 _ _ _ _ l(1)K5 _ _ _ _ l(1)K6 _ _ _ _ l(1)K7 _ _ _ _ l(1)K8 _ _ _ _ l(1)K84.3 _ _ _ _ l(1)K87.2 _ _ _ _ l(1)K9 _ _ _ _ l(1)L1 _ _ _ _ l(1)L10 _ _ _ _ l(1)L11 _ _ _ _ l(1)L12 _ _ _ _ l(1)L13 _ _ _ _ l(1)L15 _ _ _ _ l(1)L17 _ _ _ _ l(1)L18 _ _ _ _ l(1)L19 _ _ _ _ l(1)L19.1 _ _ _ _ l(1)L2 _ _ _ _ l(1)L25.7 _ _ _ _ l(1)L35.1 _ _ _ _ l(1)L4 _ _ _ _ l(1)L48.3 _ _ _ _ l(1)L55.6 _ _ _ _ l(1)L6 _ _ _ _ l(1)L60.6 _ _ _ _ l(1)L62.4 _ _ _ _ l(1)L7 _ _ _ _ l(1)L8 _ _ _ _ l(1)L9.8 _ _ _ _ l(1)LB5 _ _ _ _ l(1)LefEM1 _ _ _ _ l(1)LefEM2 _ _ _ _ l(1)LefEM20 _ _ _ _ l(1)LefEM26 _ _ _ _ l(1)LefEM27 _ _ _ _ l(1)LefEM3 _ _ _ _ l(1)LefEM7 _ _ _ _ l(1)m _ _ lethal (1) malignant _ l(1)m-C _ _ lethal (1) m-Caggese _ l(1)M120.1 _ _ _ _ l(1)M123.2 _ _ _ _ l(1)M37.2 _ _ _ _ l(1)M52.3 _ _ _ _ l(1)M76.3 _ _ _ _ l(1)M86.4 _ _ _ _ l(1)M95.1 _ _ _ _ l(1)Mc1 _ _ lethal (1) Mc1 _ l(1)ml _ _ lethal (1) melanomalike _ l(1)MZ1 _ _ _ _ l(1)MZ10 _ _ _ _ l(1)MZ11 _ _ _ _ l(1)MZ12 _ _ _ _ l(1)MZ13 _ _ _ _ l(1)MZ14 _ _ _ _ l(1)MZ15 _ _ _ _ l(1)MZ16 _ _ _ _ l(1)MZ17 _ _ _ _ l(1)MZ18 _ _ _ _ l(1)MZ19 _ _ _ _ l(1)MZ20 _ _ _ _ l(1)MZ21 _ _ _ _ l(1)MZ3 _ _ _ _ l(1)MZ4 _ _ _ _ l(1)MZ5 _ _ _ _ l(1)MZ6 _ _ _ _ l(1)MZ8 _ _ _ _ l(1)MZ9 _ _ _ _ l(1)N1 _ _ _ _ l(1)N15 _ _ _ _ l(1)N17 _ _ _ _ l(1)N19 _ _ _ _ l(1)N23 _ _ _ _ l(1)N26 _ _ _ _ l(1)N27 _ _ _ _ l(1)N29 _ _ _ _ l(1)N30 _ _ _ _ l(1)N31 _ _ _ _ l(1)N32 _ _ _ _ l(1)N33 _ _ _ _ l(1)N34 _ _ _ _ l(1)N35 _ _ _ _ l(1)N36 _ _ _ _ l(1)N37 _ _ _ _ l(1)N4 _ _ _ _ l(1)N5 _ _ _ _ l(1)N6 _ _ _ _ l(1)N8 _ _ _ _ l(1)N9 _ _ _ _ l(1)P1 _ _ lethal (1) P1 _ l(1)PB18 _ _ _ _ l(1)PB8P _ _ _ _ l(1)rp1 _ _ lethal (1) rp1 _ l(1)rp2 _ _ lethal (1) rp2 _ l(1)rp3 _ _ lethal (1) rp3 _ l(1)sc myoblast determination; GO:0007518 | traceable author statement _ lethal of scute _ l(1)te _ _ lethal (1) tracheae enlarged _ l(1)TK101 _ _ _ _ l(1)TK102 _ _ _ _ l(1)TK103 _ _ _ _ l(1)TK104 _ _ _ _ l(1)TK105 _ _ _ _ l(1)TK106 _ _ _ _ l(1)TK107 _ _ _ _ l(1)TK108 _ _ _ _ l(1)TK109 _ _ _ _ l(1)TK110 _ _ _ _ l(1)TK111 _ _ _ _ l(1)TK112 _ _ _ _ l(1)TK113 _ _ _ _ l(1)TK114 _ _ _ _ l(1)TK115 _ _ _ _ l(1)TK116 _ _ _ _ l(1)TK117 _ _ _ _ l(1)TK119 _ _ _ _ l(1)TK121 _ _ _ _ l(1)TK123 _ _ _ _ l(1)TK125 _ _ _ _ l(1)TK127 _ _ _ _ l(1)TK128 _ _ _ _ l(1)TK129 _ _ _ _ l(1)TK131 _ _ _ _ l(1)TK132 _ _ _ _ l(1)TK134 _ _ _ _ l(1)TK135 _ _ _ _ l(1)TK136 _ _ _ _ l(1)TK202 _ _ _ _ l(1)TK203 _ _ _ _ l(1)TK205 _ _ _ _ l(1)TK206 _ _ _ _ l(1)TK207 _ _ _ _ l(1)TK214 _ _ _ _ l(1)TK218 _ _ _ _ l(1)TK219 _ _ _ _ l(1)TK222 _ _ _ _ l(1)TK223 _ _ _ _ l(1)TK226 _ _ _ _ l(1)TK228 _ _ _ _ l(1)TK229 _ _ _ _ l(1)TK232 _ _ _ _ l(1)TK233 _ _ _ _ l(1)TK234 _ _ _ _ l(1)TK235 _ _ _ _ l(1)TK236 _ _ _ _ l(1)TK237 _ _ _ _ l(1)TK238 _ _ _ _ l(1)TK239 _ _ _ _ l(1)TK243 _ _ _ _ l(1)TK302 _ _ _ _ l(1)TK303 _ _ _ _ l(1)TK305 _ _ _ _ l(1)TK307 _ _ _ _ l(1)TK308 _ _ _ _ l(1)TK309 _ _ _ _ l(1)TK310 _ _ _ _ l(1)TK313 _ _ _ _ l(1)TK401 _ _ _ _ l(1)TK402 _ _ _ _ l(1)TK403 _ _ _ _ l(1)TK404 _ _ _ _ l(1)TK407 _ _ _ _ l(1)TK409 _ _ _ _ l(1)TK410 _ _ _ _ l(1)TK411 _ _ _ _ l(1)TK412 _ _ _ _ l(1)tl _ _ lethal (1) tracheae lacking _ l(1)tr _ _ lethal (1) tracheae ramified _ l(1)trs _ _ lethal (1) tracheae stretched _ l(1)ts1 _ _ lethal (1) ts1 _ l(1)ts66 _ _ lethal (1) ts66 _ l(1)TW1 _ _ lethal (1) TW1 _ l(1)TW24 _ _ _ _ l(1)TW3 _ _ lethal (1) TW3 _ l(1)U10 _ _ _ _ l(1)U3 _ _ _ _ l(1)U93 _ _ _ _ l(1)VA335 _ _ lethal (1) VA335 _ l(1)VE807 _ _ lethal (1) VE807 _ l(1)w _ _ lethal (1) w _ l(1)x _ _ _ _ l(1)XR49 _ _ lethal (1) XR49 _ l(1)XWJ _ _ _ _ l(1)XWL _ _ _ _ l(2)00064 _ _ _ _ l(2)00231 _ _ _ _ l(2)00248 _ _ _ _ l(2)00297 _ _ _ _ l(2)00329 _ _ _ _ l(2)00434a _ _ _ _ l(2)00455b _ _ _ _ l(2)00572 _ _ _ _ l(2)00629 _ _ _ _ l(2)01034 _ _ _ _ l(2)01289 _ _ _ _ l(2)01424 _ _ _ _ l(2)01433 _ _ _ _ l(2)01482 _ _ _ _ l(2)01528 _ _ _ _ l(2)01810 _ _ _ _ l(2)01848 _ _ _ _ l(2)01855 _ _ _ _ l(2)02045 regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with MGD:Rgs19; MGI:MGI:1926252 _ _ _ l(2)02074 _ _ _ _ l(2)02321 _ _ _ _ l(2)02353 _ _ _ _ l(2)02438 _ _ _ _ l(2)02836a _ _ _ _ l(2)03050 _ _ _ _ l(2)03055 _ _ _ _ l(2)03105 _ _ _ _ l(2)03497 _ _ _ _ l(2)03563 _ _ _ _ l(2)03605 _ _ _ _ l(2)03659 _ _ _ _ l(2)03709 _ _ _ _ l(2)03728 _ _ _ _ l(2)03788 _ _ _ _ l(2)03832a _ _ _ _ l(2)03845 _ _ _ _ l(2)03996 _ _ _ _ l(2)04008 _ _ _ _ l(2)04012a _ _ _ _ l(2)04111 _ _ _ _ l(2)04154 _ _ _ _ l(2)04207a _ _ _ _ l(2)04329 _ _ _ _ l(2)04518b _ _ _ _ l(2)04535b _ _ _ _ l(2)04548 _ _ _ _ l(2)04884 _ _ _ _ l(2)05006 _ _ _ _ l(2)05070 _ _ _ _ l(2)05095a _ _ _ _ l(2)05248 _ _ _ _ l(2)05271b _ _ _ _ l(2)05287 _ _ _ _ l(2)05315 _ _ _ _ l(2)05337 _ _ _ _ l(2)05510 _ _ _ _ l(2)05559b _ _ _ _ l(2)05714 _ _ _ _ l(2)06225 _ _ _ _ l(2)06250 _ _ _ _ l(2)06253 _ _ _ _ l(2)06270 _ _ _ _ l(2)06320 _ _ _ _ l(2)06424 _ _ _ _ l(2)06496 microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ l(2)06655 _ _ _ _ l(2)06708 _ _ _ _ l(2)06935 _ _ _ _ l(2)06949 _ _ _ _ l(2)07129 _ _ _ _ l(2)07206 _ _ _ _ l(2)07806 _ _ _ _ l(2)07837 _ _ _ _ l(2)08014 _ _ _ _ l(2)08307a _ _ _ _ l(2)08492 _ _ _ _ l(2)08685 _ _ _ _ l(2)08717 _ _ _ _ l(2)08770 _ _ _ _ l(2)09639 _ _ _ _ l(2)09851 _ _ _ _ l(2)10206 _ _ _ _ l(2)10333 _ _ _ _ l(2)10403 _ _ _ _ l(2)10425 _ _ _ _ l(2)10481 _ _ _ _ l(2)10491 _ _ _ _ l(2)10505 _ _ _ _ l(2)10521 _ _ _ _ l(2)10565a _ _ _ _ l(2)10610 _ _ _ _ l(2)10685 _ _ _ _ l(2)11B9 _ _ _ _ l(2)12A9 _ _ _ _ l(2)148 _ _ _ _ l(2)1542 _ _ lethal (2) 1542 _ l(2)17E1 _ _ _ _ l(2)17F1 _ _ _ _ l(2)18E4 _ _ _ _ l(2)2-L _ _ _ _ l(2)21Ba _ _ lethal (2) 21Ba _ l(2)21Ba1 _ _ lethal (2) 21Ba1 _ l(2)21Bb _ _ lethal (2) 21Bb _ l(2)21Bd _ _ lethal (2) 21Bd _ l(2)21Be _ _ lethal (2) 21Be _ l(2)21Bf _ _ _ _ l(2)21Ca _ _ _ _ l(2)21Da _ _ lethal (2) 21Da _ l(2)21Db _ _ lethal (2) 21Db _ l(2)21Dc _ _ lethal (2) 21Dc _ l(2)21Dd _ _ lethal (2) 21Dd _ l(2)21De _ _ lethal (2) 21De _ l(2)21Df _ _ lethal (2) 21Df _ l(2)21Dg _ _ lethal (2) 21Dg _ l(2)21Ea _ _ lethal (2) 21Ea _ l(2)21Fa _ _ lethal (2) 21Fa _ l(2)21Fb _ _ lethal (2) 21Fb _ l(2)21Fc _ _ lethal (2) 21Fc _ l(2)21Fd _ _ lethal (2) 21Fd _ l(2)21Fe _ _ lethal (2) 21Fe _ l(2)22Af _ _ _ _ l(2)22Ag _ _ _ _ l(2)22Ah _ _ _ _ l(2)22Ai _ _ _ _ l(2)22Aj _ _ _ _ l(2)22Ak _ _ _ _ l(2)22Fc _ _ lethal (2) 22Fc _ l(2)22Fd _ _ lethal (2) 22Fd _ l(2)23Ab _ _ lethal (2) 23Ab _ l(2)23AB2 _ _ _ _ l(2)23AB3 _ _ _ _ l(2)23AB4 _ _ _ _ l(2)23AB6 _ _ _ _ l(2)23AB7 _ _ _ _ l(2)23Ca _ _ _ _ l(2)23Cb _ _ _ _ l(2)23Cc _ _ _ _ l(2)23Cd _ _ _ _ l(2)23CDa _ _ _ _ l(2)23CDb _ _ _ _ l(2)23CDc _ _ _ _ l(2)23CDd _ _ _ _ l(2)23CDe _ _ _ _ l(2)23CDf _ _ _ _ l(2)23Ce _ _ _ _ l(2)23Da _ _ _ _ l(2)23Db _ _ _ _ l(2)23Ea _ _ _ _ l(2)24Aa _ _ _ _ l(2)24Ab _ _ _ _ l(2)24Ac _ _ _ _ l(2)24Ad _ _ _ _ l(2)24Ae _ _ _ _ l(2)24CDa _ _ _ _ l(2)24CDb _ _ _ _ l(2)24Dc _ _ lethal (2) 24Dc _ l(2)24Dd _ _ lethal (2) 24Dd _ l(2)24De _ _ lethal (2) 24De _ l(2)24Df _ _ lethal (2) 24Df _ l(2)24Ea _ _ lethal (2) 24Ea _ l(2)24EFa _ _ lethal (2) 24EFa _ l(2)24EFb _ _ lethal (2) 24EFb _ l(2)24EFc _ _ lethal (2) 24EFc _ l(2)24EFd _ _ lethal (2) 24EFd _ l(2)24EFe _ _ lethal (2) 24EFe _ l(2)24EFf _ _ lethal (2) 24EFf _ l(2)24EFg _ _ lethal (2) 24EFg _ l(2)24Fa _ _ lethal (2) 24Fa _ l(2)24Fc _ _ lethal (2) 24Fc _ l(2)254 _ _ _ _ l(2)25Ab _ _ lethal (2) 25Ab _ l(2)25Ba _ _ lethal (2) 25Ba _ l(2)25Bb _ _ lethal (2) 25Bb _ l(2)25Bc _ _ lethal (2) 25Bc _ l(2)25Bd _ _ lethal (2) 25Bd _ l(2)25Be _ _ lethal (2) 25Be _ l(2)25Bf _ _ lethal (2) 25Bf _ l(2)25Bg _ _ lethal (2) 25Bg _ l(2)25Ca _ _ lethal (2) 25Ca _ l(2)25Cc _ _ lethal (2) 25Cc _ l(2)25Cd _ _ lethal (2) 25Cd _ l(2)25Ce _ _ lethal (2) 25Ce _ l(2)25Cf _ _ lethal (2) 25Cf _ l(2)25Cg _ _ lethal (2) 25Cg _ l(2)25Ea _ _ lethal (2) 25Ea _ l(2)25Ed _ _ lethal (2) 25Ed _ l(2)25Ee _ _ lethal (2) 25Ee _ l(2)25Ef _ _ lethal (2) 25Ef _ l(2)25Eg _ _ lethal (2) 25Eg _ l(2)25Fa _ _ lethal (2) 25Fa _ l(2)25Fb _ _ lethal (2) 25Fb _ l(2)25Fc _ _ lethal (2) 25Fc _ l(2)25Fd _ _ lethal (2) 25Fd _ l(2)25Fe _ _ lethal (2) 25Fe _ l(2)26Aa _ _ lethal (2) 26Aa _ l(2)26Ad _ _ lethal (2) 26Ad _ l(2)26Ae _ _ lethal (2) 26Ae _ l(2)26Cf _ _ lethal (2) 26Cf _ l(2)27C1 _ _ _ _ l(2)27Ca _ _ lethal (2) 27Ca _ l(2)27Cb _ _ lethal (2) 27Cb _ l(2)27Cc _ _ lethal (2) 27Cc _ l(2)27Db _ _ lethal (2) 27Db _ l(2)27Dc _ _ lethal (2) 27Dc _ l(2)27Ea _ _ lethal (2) 27Ea _ l(2)28Aa _ _ lethal (2) 28Aa _ l(2)28Ab _ _ lethal (2) 28Ab _ l(2)28Ac _ _ lethal (2) 28Ac _ l(2)28Ba _ _ lethal (2) 28Ba _ l(2)28Bb _ _ lethal (2) 28Bb _ l(2)28Bc _ _ lethal (2) 28Bc _ l(2)2B _ _ _ _ l(2)2D8 _ _ _ _ l(2)30Ba _ _ _ _ l(2)30Ca _ _ _ _ l(2)30l _ _ _ _ l(2)31Aa _ _ _ _ l(2)31Ab _ _ _ _ l(2)31Ba _ _ _ _ l(2)31Bb _ _ _ _ l(2)31Bc _ _ _ _ l(2)31Ca _ _ _ _ l(2)31Cb _ _ _ _ l(2)31Da _ _ _ _ l(2)31Db _ _ _ _ l(2)31Eb _ _ _ _ l(2)31Ec _ _ _ _ l(2)31Ed _ _ _ _ l(2)31Ee _ _ _ _ l(2)31Ef _ _ _ _ l(2)31Eg _ _ _ _ l(2)31Ej _ _ _ _ l(2)31Em _ _ _ _ l(2)31En _ _ _ _ l(2)31Eo _ _ _ _ l(2)31Ep _ _ _ _ l(2)31Eq _ _ _ _ l(2)31Er _ _ _ _ l(2)31Es _ _ _ _ l(2)31Et _ _ _ _ l(2)31Eu _ _ _ _ l(2)31Fa _ _ _ _ l(2)32Aa _ _ _ _ l(2)32Ab _ _ _ _ l(2)32Ac _ _ _ _ l(2)32Ad _ _ _ _ l(2)32Ae _ _ _ _ l(2)32Af _ _ _ _ l(2)32BCa _ _ _ _ l(2)34Db _ _ lethal (2) 34Db _ l(2)34Ec _ _ _ _ l(2)34Fa _ _ lethal (2) 34Fa _ l(2)34Fc _ _ lethal (2) 34Fc _ l(2)34Fd _ _ lethal (2) 34Fd _ l(2)35Ab _ _ _ _ l(2)35Bb _ _ lethal (2) 35Bb _ l(2)35Bc _ _ lethal (2) 35Bc _ l(2)35Bd _ _ lethal (2) 35Bd _ l(2)35Be _ _ lethal (2) 35Be _ l(2)35Bf _ _ lethal (2) 35Bf _ l(2)35Bg _ _ lethal (2) 35Bg _ l(2)35Cc _ _ lethal (2) 35Cc _ l(2)35Cg _ _ _ _ l(2)35Ch _ _ _ _ l(2)35De _ _ lethal (2) 35De _ l(2)35Df _ _ lethal (2) 35Df _ l(2)35Di _ _ lethal (2) 35Di _ l(2)35Ea _ _ lethal (2) 35Ea _ l(2)35Fg _ _ _ _ l(2)36Aa _ _ lethal (2) 36Aa _ l(2)36Ab _ _ lethal (2) 36Ab _ l(2)36Ac _ _ lethal (2) 36Ac _ l(2)36Ad _ _ lethal (2) 36Ad _ l(2)36Ba _ _ lethal (2) 36Ba _ l(2)36Bb _ _ lethal (2) 36Bb _ l(2)36Bc _ _ lethal (2) 36Bc _ l(2)36Bd _ _ lethal (2) 36Bd _ l(2)36Ca _ _ lethal (2) 36Ca _ l(2)36Db _ _ lethal (2) 36Db _ l(2)36Fb _ _ lethal (2) 36Fb _ l(2)36Fc _ _ lethal (2) 36Fc _ l(2)36Fd _ _ lethal (2) 36Fd _ l(2)36Fe _ _ lethal (2) 36Fe _ l(2)36Ff _ _ lethal (2) 36Ff _ l(2)36Fg _ _ lethal (2) 36Fg _ l(2)36Fh _ _ lethal (2) 36Fh _ l(2)36Fi _ _ lethal (2) 36Fi _ l(2)37Ab _ _ lethal (2) 37Ab _ l(2)37Ac _ _ lethal (2) 37Ac _ l(2)37Ad _ _ _ _ l(2)37Ba _ _ lethal (2) 37Ba _ l(2)37Bb _ _ lethal (2) 37Bb _ l(2)37Be _ _ lethal (2) 37Be _ l(2)37Bi _ _ lethal (2) 37Bi _ l(2)37Bj _ _ lethal (2) 37Bj _ l(2)37Ca _ _ lethal (2) 37Ca _ l(2)37Cb _ _ lethal (2) 37Cb _ l(2)37Cc larval/pupal development (sensu Insecta); GO:0002165 | non-traceable author statement _ lethal (2) 37Cc _ l(2)37Cd _ _ lethal (2) 37Cd _ l(2)37CDa _ _ _ _ l(2)37CDb _ _ _ _ l(2)37CDc _ _ _ _ l(2)37CDd _ _ _ _ l(2)37CDe _ _ _ _ l(2)37CDf _ _ _ _ l(2)37Ce _ _ lethal (2) 37Ce _ l(2)37Cg _ _ lethal (2) 37Cg _ l(2)37Cn _ _ _ _ l(2)37Co _ _ _ _ l(2)37Da _ _ lethal (2) 37Da _ l(2)37Db _ _ lethal (2) 37Db _ l(2)37Dc _ _ lethal (2) 37Dc _ l(2)37Dd _ _ lethal (2) 37Dd _ l(2)37De _ _ lethal (2) 37De _ l(2)37Dg _ _ lethal (2) 37Dg _ l(2)37Dh _ _ lethal (2) 37Dh _ l(2)37Di _ _ lethal (2) 37Di _ l(2)37Dj _ _ lethal (2) 37Dj _ l(2)37Dk _ _ _ _ l(2)37Dl _ _ _ _ l(2)37Dm _ _ _ _ l(2)37Ea _ _ lethal (2) 37Ea _ l(2)37Fb _ _ lethal (2) 37Fb _ l(2)37Fc _ _ lethal (2) 37Fc _ l(2)37Fd _ _ lethal (2) 37Fd _ l(2)37Fe _ _ lethal (2) 37Fe _ l(2)37Fg _ _ lethal (2) 37Fg _ l(2)37Fh _ _ lethal (2) 37Fh _ l(2)38Aa _ _ lethal (2) 38Aa _ l(2)38Ab _ _ lethal (2) 38Ab _ l(2)38ABa _ _ _ _ l(2)38ABb _ _ _ _ l(2)38Ca _ _ _ _ l(2)38Da _ _ _ _ l(2)38Db _ _ _ _ l(2)38Dc _ _ _ _ l(2)38Dd _ _ _ _ l(2)38De _ _ _ _ l(2)38DEa _ _ _ _ l(2)38Ea _ _ _ _ l(2)38Eb _ _ _ _ l(2)38EFa _ _ _ _ l(2)38EFb _ _ _ _ l(2)38EFc _ _ _ _ l(2)38EFd _ _ _ _ l(2)38EFe _ _ _ _ l(2)38EFf _ _ _ _ l(2)39a _ _ lethal (2) 39a _ l(2)39Aa _ _ _ _ l(2)39Ad _ _ _ _ l(2)39ADa _ _ _ _ l(2)39ADb _ _ _ _ l(2)39ADc _ _ _ _ l(2)39ADd _ _ _ _ l(2)39ADe _ _ _ _ l(2)39Ah _ _ _ _ l(2)39CDa _ _ _ _ l(2)39DEa _ _ _ _ l(2)39DEb _ _ _ _ l(2)39DEc _ _ _ _ l(2)39DEd _ _ _ _ l(2)39DEe _ _ _ _ l(2)39DEf _ _ _ _ l(2)39DEg _ _ _ _ l(2)39DEh _ _ _ _ l(2)39DEi _ _ _ _ l(2)39DEj _ _ _ _ l(2)39DEk _ _ _ _ l(2)39DEl _ _ _ _ l(2)39DEm _ _ _ _ l(2)39DEn _ _ _ _ l(2)39DEo _ _ _ _ l(2)39DEp _ _ _ _ l(2)39Ea _ _ _ _ l(2)3A2 _ _ _ _ l(2)4-3A _ _ _ _ l(2)40Aa _ _ _ _ l(2)40Fa _ _ lethal (2) 40Fa _ l(2)40Fc _ _ lethal (2) 40Fc _ l(2)40Fd _ _ lethal (2) 40Fd _ l(2)40Fe _ _ lethal (2) 40Fe _ l(2)40Ff _ _ lethal (2) 40Ff _ l(2)40Fg _ _ lethal (2) 40Fg _ l(2)41Aa _ _ lethal (2) 41Aa _ l(2)41Ab _ _ lethal (2) 41Ab _ l(2)41Ae _ _ lethal (2) 41Ae The Nipped-group genes regulate ct and Ubx. l(2)41Af _ _ lethal (2) 41Af _ l(2)42Aa _ _ _ _ l(2)42Ab _ _ _ _ l(2)42Ba _ _ _ _ l(2)42Bb _ _ _ _ l(2)42Bc _ _ _ _ l(2)42Bd _ _ _ _ l(2)42Be _ _ _ _ l(2)42Bf _ _ _ _ l(2)42Bg _ _ _ _ l(2)42Bh _ _ _ _ l(2)42Bi _ _ _ _ l(2)42Ca _ _ _ _ l(2)42Cb _ _ _ _ l(2)42Cc _ _ _ _ l(2)42Cd _ _ _ _ l(2)42Da _ _ _ _ l(2)42Ea _ _ _ _ l(2)42Eb _ _ _ _ l(2)42Ec _ _ _ _ l(2)42Fa _ _ _ _ l(2)43Ba _ _ lethal (2) 43Ba _ l(2)43Bb _ _ lethal (2) 43Bb _ l(2)43Bd _ _ lethal (2) 43Bd _ l(2)43Cb _ _ lethal (2) 43Cb _ l(2)43Cc _ _ lethal (2) 43Cc _ l(2)43Da _ _ lethal (2) 43Da _ l(2)43Db _ _ lethal (2) 43Db _ l(2)43Ef _ _ lethal (2) 43Ef _ l(2)43Eg _ _ lethal (2) 43Eg _ l(2)43Eh _ _ lethal (2) 43Eh _ l(2)44A _ _ _ _ l(2)44CDa _ _ _ _ l(2)44Da _ _ _ _ l(2)44Db _ _ _ _ l(2)44Dc _ _ _ _ l(2)44Dd _ _ _ _ l(2)44DEa _ _ _ _ l(2)44Ea _ _ _ _ l(2)44Fa _ _ _ _ l(2)44Fb _ _ _ _ l(2)44Fc _ _ _ _ l(2)44Fe _ _ _ _ l(2)44Ff _ _ _ _ l(2)44Fg _ _ _ _ l(2)44Fh _ _ _ _ l(2)44Fi _ _ _ _ l(2)44Fj _ _ _ _ l(2)44Fk _ _ _ _ l(2)44Fl _ _ _ _ l(2)44Fm _ _ _ _ l(2)44Fn _ _ _ _ l(2)44Fo _ _ _ _ l(2)44Fp _ _ _ _ l(2)44Fq _ _ _ _ l(2)44Fr _ _ _ _ l(2)45Aa _ _ _ _ l(2)45Ab _ _ _ _ l(2)45ABa _ _ _ _ l(2)45ABb _ _ _ _ l(2)45Ac _ _ _ _ l(2)45Ad _ _ _ _ l(2)45Ae _ _ _ _ l(2)45Af _ _ _ _ l(2)45Ag _ _ _ _ l(2)45Ah _ _ _ _ l(2)45Ai _ _ _ _ l(2)45Aj _ _ _ _ l(2)45Ak _ _ _ _ l(2)45Al _ _ _ _ l(2)45Am _ _ _ _ l(2)45An _ _ _ _ l(2)45Ao _ _ _ _ l(2)45Ap _ _ _ _ l(2)45Aq _ _ _ _ l(2)45Ar _ _ _ _ l(2)45As _ _ _ _ l(2)45Ba _ _ _ _ l(2)45Bb _ _ _ _ l(2)45Bc _ _ _ _ l(2)45Bd _ _ _ _ l(2)45Be _ _ _ _ l(2)45Bf _ _ _ _ l(2)45Cb _ _ _ _ l(2)46Ca _ _ lethal (2) 46Ca _ l(2)46Cb _ _ lethal (2) 46Cb _ l(2)46Cc _ _ lethal (2) 46Cc _ l(2)46Cd _ _ lethal (2) 46Cd _ l(2)46Cf _ _ _ _ l(2)46CFa _ _ _ _ l(2)46CFb _ _ _ _ l(2)46CFc _ _ _ _ l(2)46CFd _ _ _ _ l(2)46CFe _ _ _ _ l(2)46CFf _ _ _ _ l(2)46CFg _ _ _ _ l(2)46CFh _ _ _ _ l(2)46CFi _ _ _ _ l(2)46CFj _ _ _ _ l(2)46CFk _ _ _ _ l(2)46CFl _ _ _ _ l(2)46CFm _ _ _ _ l(2)46CFn _ _ _ _ l(2)46CFo _ _ _ _ l(2)46CFp _ _ _ _ l(2)46CFq _ _ _ _ l(2)46CFr _ _ _ _ l(2)46CFs _ _ _ _ l(2)46CFt _ _ _ _ l(2)46CFu _ _ _ _ l(2)46CFv _ _ _ _ l(2)46CFw _ _ _ _ l(2)46Ch _ _ _ _ l(2)46Ci _ _ _ _ l(2)46Cj _ _ _ _ l(2)46Ck _ _ _ _ l(2)46Cl _ _ _ _ l(2)46Cm _ _ _ _ l(2)46Cn _ _ _ _ l(2)46Co _ _ lethal (2) 46Co _ l(2)46Cp _ _ lethal (2) 46Cp _ l(2)46Da _ _ lethal (2) 46Da _ l(2)46Db _ _ lethal (2) 46Db _ l(2)46Dc _ _ lethal (2) 46Dc _ l(2)46Dd _ _ lethal (2) 46Dd _ l(2)46De _ _ lethal (2) 46De _ l(2)46DEa _ _ lethal (2) 46DEa _ l(2)46DEb _ _ lethal (2) 46DEb _ l(2)46DEc _ _ lethal (2) 46DEc _ l(2)46DEd _ _ lethal (2) 46DEd _ l(2)46Df _ _ lethal (2) 46Df _ l(2)46Dg _ _ lethal (2) 46Dg _ l(2)46Ea _ _ _ _ l(2)46Eb _ _ _ _ l(2)46Ec _ _ _ _ l(2)46Ed _ _ _ _ l(2)46Ee _ _ _ _ l(2)46Ef _ _ _ _ l(2)46Eg _ _ _ _ l(2)46Eh _ _ _ _ l(2)46Ei _ _ _ _ l(2)46Ej _ _ _ _ l(2)46El _ _ _ _ l(2)46F4 _ _ _ _ l(2)47Aa _ _ _ _ l(2)49Dc _ _ lethal (2) 49Dc _ l(2)49Fa _ _ lethal (2) 49Fa _ l(2)49Fb _ _ lethal (2) 49Fb _ l(2)49Fc _ _ lethal (2) 49Fc _ l(2)49Ff _ _ lethal (2) 49Ff _ l(2)49Fg _ _ lethal (2) 49Fg _ l(2)49Fh _ _ lethal (2) 49Fh _ l(2)49Fi _ _ lethal (2) 49Fi _ l(2)49Fj _ _ lethal (2) 49Fj _ l(2)49Fl _ _ lethal (2) 49Fl _ l(2)49Fm _ _ lethal (2) 49Fm _ l(2)49Fo _ _ lethal (2) 49Fo _ l(2)49Fp _ _ _ _ l(2)50B _ _ _ _ l(2)50CDa _ _ _ _ l(2)50F7 _ _ _ _ l(2)51Da _ _ lethal (2) 51Da _ l(2)51Db _ _ lethal (2) 51Db _ l(2)51Dc _ _ lethal (2) 51Dc _ l(2)51Ea _ _ lethal (2) 51Ea _ l(2)51Eb _ _ lethal (2) 51Eb _ l(2)51F _ _ lethal (2) 51F _ l(2)51Fb _ _ _ _ l(2)52A _ _ _ _ l(2)52ACa _ _ lethal (2) 52ACa _ l(2)52ACb _ _ lethal (2) 52ACb _ l(2)52ACc _ _ lethal (2) 52ACc _ l(2)52ACd _ _ lethal (2) 52ACd _ l(2)52ACe _ _ lethal (2) 52ACe _ l(2)52ACf _ _ lethal (2) 52ACf _ l(2)52ACg _ _ lethal (2) 52ACg _ l(2)52ACh _ _ lethal (2) 52ACh _ l(2)52AD _ _ lethal (2) 52AD _ l(2)52Da _ _ lethal (2) 52Da _ l(2)52Db _ _ lethal (2) 52Db _ l(2)52Dc _ _ lethal (2) 52Dc _ l(2)52Ea _ _ lethal (2) 52Ea _ l(2)52Fb _ _ _ _ l(2)52Fc _ _ _ _ l(2)52Fd _ _ _ _ l(2)52Fe _ _ _ _ l(2)53Da _ _ _ _ l(2)54 _ _ lethal (2) 54 _ l(2)55BCa _ _ _ _ l(2)55Ca _ _ _ _ l(2)55Da _ _ _ _ l(2)55Db _ _ _ _ l(2)56CDa _ _ _ _ l(2)56Da _ _ _ _ l(2)56Fb _ _ lethal (2) 56Fb _ l(2)56Fd _ _ lethal (2) 56Fd _ l(2)56Fe _ _ lethal (2) 56Fe _ l(2)56Ff _ _ lethal (2) 56Ff _ l(2)56Fg _ _ lethal (2) 56Fg _ l(2)57Aa _ _ lethal (2) 57Aa _ l(2)57Ab _ _ lethal (2) 57Ab _ l(2)57Ac _ _ lethal (2) 57Ac _ l(2)57Ad _ _ lethal (2) 57Ad _ l(2)57Ae _ _ lethal (2) 57Ae _ l(2)57Af _ _ lethal (2) 57Af _ l(2)57Ag _ _ lethal (2) 57Ag _ l(2)57Ba _ _ lethal (2) 57Ba _ l(2)57Bb _ _ lethal (2) 57Bb _ l(2)57Bc _ _ lethal (2) 57Bc _ l(2)57Bd _ _ lethal (2) 57Bd _ l(2)57Cb _ _ lethal (2) 57Cb _ l(2)57Cc _ _ lethal (2) 57Cc _ l(2)57Cd _ _ lethal (2) 57Cd _ l(2)57Ce _ _ lethal (2) 57Ce _ l(2)57Da _ _ lethal (2) 57Da _ l(2)57Db _ _ lethal (2) 57Db _ l(2)57Dc _ _ lethal (2) 57Dc _ l(2)57Dd _ _ lethal (2) 57Dd _ l(2)57De _ _ lethal (2) 57De _ l(2)57Df _ _ lethal (2) 57Df _ l(2)57Eb _ _ lethal (2) 57Eb _ l(2)57Ec _ _ lethal (2) 57Ec _ l(2)59ABb _ _ _ _ l(2)59ABc _ _ _ _ l(2)59Ea _ _ _ _ l(2)60A-A _ _ _ _ l(2)60A-B _ _ _ _ l(2)60A-C _ _ _ _ l(2)60A-D _ _ _ _ l(2)60A-E _ _ _ _ l(2)60A-F _ _ _ _ l(2)60A-H _ _ _ _ l(2)60A-I _ _ _ _ l(2)60A-K _ _ _ _ l(2)60A-L _ _ _ _ l(2)60A-M _ _ _ _ l(2)60A-N _ _ _ _ l(2)60A-O _ _ _ _ l(2)60Aa _ _ _ _ l(2)60Ab _ _ _ _ l(2)60Ac _ _ _ _ l(2)60Ad _ _ _ _ l(2)60Ae _ _ _ _ l(2)60Af _ _ _ _ l(2)60Ag _ _ _ _ l(2)60Ah _ _ _ _ l(2)60Ai _ _ _ _ l(2)60Ca _ _ lethal (2) 60Ca _ l(2)60Cb _ _ lethal (2) 60Cb _ l(2)60Cc _ _ lethal (2) 60Cc _ l(2)60Cd _ _ lethal (2) 60Cd _ l(2)60Da _ _ lethal (2) 60Da _ l(2)60Db _ _ lethal (2) 60Db _ l(2)60Dc _ _ lethal (2) 60Dc _ l(2)60Dd _ _ lethal (2) 60Dd _ l(2)60De _ _ lethal (2) 60De _ l(2)60Df _ _ lethal (2) 60Df _ l(2)60Dg _ _ lethal (2) 60Dg _ l(2)61E5 _ _ _ _ l(2)65C2 _ _ _ _ l(2)7-1 _ _ _ _ l(2)74i _ _ lethal (2) 74i _ l(2)8bb _ _ _ _ l(2)94 _ _ _ _ l(2)a _ _ lethal (2) a _ l(2)A1-2-12 _ _ _ _ l(2)a4 _ _ _ _ l(2)AR-44 _ _ _ _ l(2)AR-49 _ _ _ _ l(2)ax _ _ lethal (2) ax _ l(2)ay _ _ lethal (2) ay _ l(2)B73 _ _ _ _ l(2)bw _ _ lethal (2) bw _ l(2)C103 _ _ _ _ l(2)C19 _ _ _ _ l(2)C43 _ _ _ _ l(2)C54 _ _ _ _ l(2)CA2 _ _ _ _ l(2)CA3 _ _ _ _ l(2)CA5 _ _ _ _ l(2)CA6 _ _ lethal (2) CA6 _ l(2)CA61 _ _ _ _ l(2)CA7 _ _ _ _ l(2)CA8 _ _ _ _ l(2)cg _ _ lethal (2) with comb gap _ l(2)ch _ _ _ _ l(2)CL-L _ _ lethal (2) Cell Lethal Left _ l(2)cl-L3 _ _ lethal (2) cell lethal L3 _ l(2)CL-R _ _ lethal (2) Cell Lethal Right _ l(2)cl-R11 _ _ lethal (2) cell lethal R11 _ l(2)Co _ _ lethal (2) Corato _ l(2)DA2 _ _ _ _ l(2)DB1 _ _ _ _ l(2)DB2 _ _ _ _ l(2)DB4 _ _ _ _ l(2)dC9 _ _ _ _ l(2)DL1 _ _ _ _ l(2)dtl _ _ lethal-(2)-denticleless _ l(2)DTS100 _ _ _ _ l(2)DTS18WF _ _ lethal (2) DTS18 Wright & Falke _ l(2)DTS19 _ _ lethal (2) DTS19 _ l(2)DTS4 _ _ _ _ l(2)DTS486 _ _ _ _ l(2)DTS513 _ _ _ _ l(2)DTS91 _ _ _ _ l(2)E105 _ _ _ _ l(2)E22 _ _ _ _ l(2)efl _ _ lethal (2) essential for life _ l(2)EL3 _ _ _ _ l(2)ESH1 _ _ _ _ l(2)F11 _ _ _ _ l(2)F2 _ _ _ _ l(2)F32 _ _ _ _ l(2)FE3 _ _ _ _ l(2)FZ13 _ _ _ _ l(2)G56 _ _ _ _ l(2)GA1019 _ _ _ _ l(2)GA339 _ _ _ _ l(2)gd1 _ _ lethal (2) giant discs 1 "Tumor suppressor genes act in combination to control cell proliferation., Tissue hyperplasia can be associated with ectopic expression of genes, involved in pattern formation., The enhancement of leg disc duplication in l(2)gd1 mutants by ft, is mediated by dpp." l(2)gl TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490; establishment and/or maintenance of polarity of follicular epithelium; GO:0016334 | inferred from genetic interaction with FLYBASE:dlg1; FB:FBgn0001624 _ lethal (2) giant larvae _ l(2)GPMG-14 _ _ _ _ l(2)GPMG-18 _ _ _ _ l(2)GPMG-6 _ _ _ _ l(2)H _ _ lethal (2) Humphrey _ l(2)Hr45-cII _ _ _ _ l(2)hs _ _ lethal heat-sensitive _ l(2)I16 _ _ _ _ l(2)I46 _ _ _ _ l(2)Ia _ _ _ _ l(2)IIa _ _ _ _ l(2)IR10 _ _ _ _ l(2)IR12 _ _ _ _ l(2)IR23 _ _ _ _ l(2)IR24 _ _ _ _ l(2)IR3 _ _ _ _ l(2)IR30 _ _ _ _ l(2)IR4 _ _ _ _ l(2)J27 _ _ _ _ l(2)J73 _ _ _ _ l(2)Jan344 _ _ _ _ l(2)k00107 _ _ _ _ l(2)k00213 _ _ _ _ l(2)k00224 _ _ _ _ l(2)k00301 _ _ _ _ l(2)k00302 _ _ _ _ l(2)k00312 _ _ _ _ l(2)k00313 _ _ _ _ l(2)k00503 _ _ _ _ l(2)k00605b _ _ _ _ l(2)k00607 _ _ _ _ l(2)k00609 _ _ _ _ l(2)k00611 _ _ _ _ l(2)k00619 _ _ _ _ l(2)k00705 _ _ _ _ l(2)k00803 _ _ _ _ l(2)k00808 _ _ _ _ l(2)k00909 _ _ _ _ l(2)k01006 _ _ _ _ l(2)k01015 _ _ _ _ l(2)k01103 _ _ _ _ l(2)k01105 _ _ _ _ l(2)k01206 _ _ _ _ l(2)k01301 _ _ _ _ l(2)k01302 _ _ _ _ l(2)k02107a _ _ _ _ l(2)k02113 _ _ _ _ l(2)k02205 _ _ _ _ l(2)k02206 _ _ _ _ l(2)k02405 _ _ _ _ l(2)k02501 _ _ _ _ l(2)k02503 _ _ _ _ l(2)k02505 _ _ _ _ l(2)k02520 _ _ _ _ l(2)k02605 _ _ _ _ l(2)k02615 _ _ _ _ l(2)k02705 _ _ _ _ l(2)k02802 _ _ _ _ l(2)k03002a _ _ _ _ l(2)k03003 _ _ _ _ l(2)k03105 _ _ _ _ l(2)k03107 _ _ _ _ l(2)k03110 _ _ _ _ l(2)k03111 _ _ _ _ l(2)k03117 _ _ _ _ l(2)k03201 _ _ _ _ l(2)k03203 _ _ _ _ l(2)k03204 _ _ _ _ l(2)k03205 _ _ _ _ l(2)k03303 _ _ _ _ l(2)k03501 _ _ _ _ l(2)k03609 _ _ _ _ l(2)k03610 _ _ _ _ l(2)k03704 _ _ _ _ l(2)k03706 _ _ _ _ l(2)k03901 _ _ _ _ l(2)k03905 _ _ _ _ l(2)k03906a _ _ _ _ l(2)k03906b _ _ _ _ l(2)k04003 _ _ _ _ l(2)k04102 _ _ _ _ l(2)k04206 _ _ _ _ l(2)k04207 _ _ _ _ l(2)k04222b _ _ _ _ l(2)k04301a _ _ _ _ l(2)k04301b _ _ _ _ l(2)k04308 _ _ _ _ l(2)k04512 _ _ _ _ l(2)k04809 _ _ _ _ l(2)k04810 _ _ _ _ l(2)k04909b _ _ _ _ l(2)k04917 _ _ _ _ l(2)k05001 _ _ _ _ l(2)k05103 _ _ _ _ l(2)k05104 _ _ _ _ l(2)k05106 _ _ _ _ l(2)k05113a _ _ _ _ l(2)k05125a _ _ _ _ l(2)k05201 _ _ _ _ l(2)k05204 _ _ _ _ l(2)k05404 _ _ _ _ l(2)k05416 _ _ _ _ l(2)k05419a _ _ _ _ l(2)k05420 _ _ _ _ l(2)k05421 _ _ _ _ l(2)k05422a _ _ _ _ l(2)k05424 _ _ _ _ l(2)k05448 _ _ _ _ l(2)k05510 _ _ _ _ l(2)k05614 _ _ _ _ l(2)k05627 _ _ _ _ l(2)k05636 _ _ _ _ l(2)k05713 _ _ _ _ l(2)k05722 _ _ _ _ l(2)k05812 _ _ _ _ l(2)k05816 _ _ _ _ l(2)k05819 _ _ _ _ l(2)k05911 _ _ _ _ l(2)k06003 _ _ _ _ l(2)k06006 _ _ _ _ l(2)k06019 _ _ _ _ l(2)k06020 _ _ _ _ l(2)k06021 _ _ _ _ l(2)k06106 _ _ _ _ l(2)k06107 _ _ _ _ l(2)k06113 _ _ _ _ l(2)k06131 _ _ _ _ l(2)k06204 _ _ _ _ l(2)k06205 _ _ _ _ l(2)k06324 _ _ _ _ l(2)k06327 _ _ _ _ l(2)k06402 _ _ _ _ l(2)k06407 _ _ _ _ l(2)k06408 _ _ _ _ l(2)k06409 _ _ _ _ l(2)k06416 _ _ _ _ l(2)k06501 _ _ _ _ l(2)k06502 _ _ _ _ l(2)k06506 _ _ _ _ l(2)k06608b _ _ _ _ l(2)k06612 _ _ _ _ l(2)k06617 _ _ _ _ l(2)k06712 _ _ _ _ l(2)k06904 _ _ _ _ l(2)k06917 _ _ _ _ l(2)k06918 _ _ _ _ l(2)k07001 _ _ _ _ l(2)k07005 _ _ _ _ l(2)k07015 _ _ _ _ l(2)k07020 _ _ _ _ l(2)k07109 _ _ _ _ l(2)k07110 photoreceptor differentiation; GO:0007467 | inferred from sequence similarity _ _ _ l(2)k07118 _ _ _ _ l(2)k07126 _ _ _ _ l(2)k07127 _ _ _ _ l(2)k07136 _ _ _ _ l(2)k07160 _ _ _ _ l(2)k07204 _ _ _ _ l(2)k07215 _ _ _ _ l(2)k07219 _ _ _ _ l(2)k07237 _ _ _ _ l(2)k07245 _ _ _ _ l(2)k07308 _ _ _ _ l(2)k07312b _ _ _ _ l(2)k07315 _ _ _ _ l(2)k07332 _ _ _ _ l(2)k07403 _ _ _ _ l(2)k07406 _ _ _ _ l(2)k07408 _ _ _ _ l(2)k07433 _ _ _ _ l(2)k07502b _ _ _ _ l(2)k07509 _ _ _ _ l(2)k07521 _ _ _ _ l(2)k07525 _ _ _ _ l(2)k07526 _ _ _ _ l(2)k07619 _ _ _ _ l(2)k07620 _ _ _ _ l(2)k077 _ _ _ _ l(2)k07713 _ _ _ _ l(2)k07803 _ _ _ _ l(2)k07813 _ _ _ _ l(2)k07822 _ _ _ _ l(2)k07824 _ _ _ _ l(2)k07914 _ _ _ _ l(2)k08002 _ _ _ _ l(2)k08011 _ _ _ _ l(2)k08015 _ _ _ _ l(2)k08046 _ _ _ _ l(2)k08110 _ _ _ _ l(2)k08136 _ _ _ _ l(2)k08138 _ _ _ _ l(2)k08139 _ _ _ _ l(2)k08201 _ _ _ _ l(2)k08222 _ _ _ _ l(2)k08225 _ _ _ _ l(2)k08255 _ _ _ _ l(2)k08306 _ _ _ _ l(2)k08307 _ _ _ _ l(2)k08317 _ _ _ _ l(2)k08320 _ _ _ _ l(2)k08401a _ _ _ _ l(2)k08407 _ _ _ _ l(2)k08504 _ _ _ _ l(2)k08601 _ _ _ _ l(2)k08611 _ _ _ _ l(2)k08612 _ _ _ _ l(2)k08625 _ _ _ _ l(2)k08634 _ _ _ _ l(2)k08707 _ _ _ _ l(2)k08708 _ _ _ _ l(2)k08807 _ _ _ _ l(2)k08816 _ _ _ _ l(2)k08901 _ _ _ _ l(2)k08914 _ _ _ _ l(2)k08915 _ _ _ _ l(2)k08931 _ _ _ _ l(2)k09005 _ _ _ _ l(2)k09015a _ _ _ _ l(2)k09017a _ _ _ _ l(2)k09021 _ _ _ _ l(2)k09022 _ _ _ _ l(2)k09033 _ _ _ _ l(2)k09035 _ _ _ _ l(2)k09104 _ _ _ _ l(2)k09107 _ _ _ _ l(2)k09116 _ _ _ _ l(2)k09201 _ _ _ _ l(2)k09202 _ _ _ _ l(2)k09208 _ _ _ _ l(2)k09216 _ _ _ _ l(2)k09217 _ _ _ _ l(2)k09221 _ _ _ _ l(2)k09238 _ _ _ _ l(2)k09303 _ _ _ _ l(2)k09310 _ _ _ _ l(2)k09314b _ _ _ _ l(2)k09315 _ _ _ _ l(2)k09316 _ _ _ _ l(2)k09318 _ _ _ _ l(2)k09328 _ _ _ _ l(2)k09501 _ _ _ _ l(2)k09502 _ _ _ _ l(2)k09601 _ _ _ _ l(2)k09610 _ _ _ _ l(2)k09613 _ _ _ _ l(2)k09617 _ _ _ _ l(2)k09619 _ _ _ _ l(2)k09624 _ _ _ _ l(2)k09801 _ _ _ _ l(2)k09810 _ _ _ _ l(2)k09834 _ _ _ _ l(2)k09837 _ _ _ _ l(2)k09848 _ _ _ _ l(2)k09854 _ _ _ _ l(2)k09903 _ _ _ _ l(2)k09905 _ _ _ _ l(2)k09913 _ _ _ _ l(2)k09920 _ _ _ _ l(2)k09923 _ _ _ _ l(2)k09924 _ _ _ _ l(2)k09927 _ _ _ _ l(2)k09931 _ _ _ _ l(2)k09932 _ _ _ _ l(2)k09935 _ _ _ _ l(2)k10001 _ _ _ _ l(2)k10003a _ _ _ _ l(2)k10004 _ _ _ _ l(2)k10012 _ _ _ _ l(2)k10103 _ _ _ _ l(2)k10105 _ _ _ _ l(2)k10111 _ _ _ _ l(2)k10113 _ _ _ _ l(2)k10127 _ _ _ _ l(2)k10201 _ _ _ _ l(2)k10209 _ _ _ _ l(2)k10210 _ _ _ _ l(2)k10213 _ _ _ _ l(2)k10217 _ _ _ _ l(2)k10237 _ _ _ _ l(2)k10239 _ _ _ _ l(2)k10317 _ _ _ _ l(2)k10411 _ _ _ _ l(2)k10502 _ _ _ _ l(2)k10609 _ _ _ _ l(2)k10613 _ _ _ _ l(2)k10809 _ _ _ _ l(2)k10814 _ _ _ _ l(2)k10815 _ _ _ _ l(2)k10816 _ _ _ _ l(2)k10825 _ _ _ _ l(2)k10914 _ _ _ _ l(2)k11002 _ _ _ _ l(2)k11006 _ _ _ _ l(2)k11009 _ _ _ _ l(2)k11021 _ _ _ _ l(2)k11038 _ _ _ _ l(2)k11101 _ _ _ _ l(2)k11118 _ _ _ _ l(2)k11120 _ _ _ _ l(2)k11201 _ _ _ _ l(2)k11206 _ _ _ _ l(2)k11209 _ _ _ _ l(2)k11226 _ _ _ _ l(2)k11241 _ _ _ _ l(2)k11301 _ _ _ _ l(2)k11303 _ _ _ _ l(2)k11311 _ _ _ _ l(2)k11324 _ _ _ _ l(2)k11325 _ _ _ _ l(2)k11326 _ _ _ _ l(2)k11328 _ _ _ _ l(2)k11404 _ _ _ _ l(2)k11405 _ _ _ _ l(2)k11502 _ _ _ _ l(2)k11505 _ _ _ _ l(2)k11512 _ _ _ _ l(2)k11537 _ _ _ _ l(2)k11560 _ _ _ _ l(2)k11702 _ _ _ _ l(2)k12004 _ _ _ _ l(2)k12402 _ _ _ _ l(2)k12408 _ _ _ _ l(2)k12502b _ _ _ _ l(2)k12602 _ _ _ _ l(2)k12701 _ _ _ _ l(2)k12702 _ _ _ _ l(2)k12914 _ _ _ _ l(2)k13116 _ _ _ _ l(2)k13211 _ _ _ _ l(2)k13214 _ _ _ _ l(2)k13215 _ _ _ _ l(2)k13217 _ _ _ _ l(2)k13219 _ _ _ _ l(2)k13305 _ _ _ _ l(2)k13312 _ _ _ _ l(2)k13315 _ _ _ _ l(2)k13403 _ _ _ _ l(2)k13412 _ _ _ _ l(2)k13506 _ _ _ _ l(2)k13525 _ _ _ _ l(2)k13531 _ _ _ _ l(2)k13604 _ _ _ _ l(2)k13617 _ _ _ _ l(2)k13704 _ _ _ _ l(2)k13805 _ _ _ _ l(2)k13825 _ _ _ _ l(2)k13905 _ _ _ _ l(2)k13910 _ _ _ _ l(2)k13914 _ _ _ _ l(2)k14039 _ _ _ _ l(2)k14204 _ _ _ _ l(2)k14206 _ _ _ _ l(2)k14209 _ _ _ _ l(2)k14308 _ _ _ _ l(2)k14316 _ _ _ _ l(2)k14403 _ _ _ _ l(2)k14505 _ _ _ _ l(2)k14517 _ _ _ _ l(2)k14601 _ _ _ _ l(2)k14602 _ _ _ _ l(2)k14603b _ _ _ _ l(2)k14614 _ _ _ _ l(2)k14708 _ _ _ _ l(2)k14710 _ _ _ _ l(2)k14805 _ _ _ _ l(2)k14810 _ _ _ _ l(2)k14816 _ _ _ _ l(2)k14817 _ _ _ _ l(2)k14902 _ _ _ _ l(2)k15102 _ _ _ _ l(2)K152 _ _ _ _ l(2)k15206 _ _ _ _ l(2)k15211 _ _ _ _ l(2)k15306 _ _ _ _ l(2)k15617 _ _ _ _ l(2)k15801 _ _ _ _ l(2)k15817 _ _ _ _ l(2)k15819 _ _ _ _ l(2)k15826 _ _ _ _ l(2)k15914 _ _ _ _ l(2)k16005 _ _ _ _ l(2)k16104 _ _ _ _ l(2)k16105 _ _ _ _ l(2)k16204 _ _ _ _ l(2)k16207 _ _ _ _ l(2)k16210 _ _ _ _ l(2)k16215 _ _ _ _ l(2)k16406 _ _ _ _ l(2)k16503 _ _ _ _ l(2)k16510 _ _ _ _ l(2)k16514 _ _ _ _ l(2)k16525 _ _ _ _ l(2)k16529 _ _ _ _ l(2)k16616 _ _ _ _ l(2)k16703 _ _ _ _ l(2)k16716 _ _ _ _ l(2)k16801 _ _ _ _ l(2)k16805 _ _ _ _ l(2)k16806 _ _ _ _ l(2)k16904 _ _ _ _ l(2)k16918 _ _ _ _ l(2)k16919 _ _ _ _ l(2)k17002 _ _ _ _ l(2)k17003 _ _ _ _ l(2)k17019a _ _ _ _ l(2)k17019b _ _ _ _ l(2)k17026 _ _ _ _ l(2)k17031 _ _ _ _ l(2)k17039 _ _ _ _ l(2)k17040 _ _ _ _ l(2)K2 _ _ _ _ l(2)k9 _ _ _ _ l(2)KC-A _ _ l(2)Karp and Cherbas A _ l(2)KC-B _ _ l(2)Karp and Cherbas B _ l(2)KC-C _ _ l(2)Karp and Cherbas C _ l(2)KC-D _ _ l(2)Karp and Cherbas D _ l(2)KC-E _ _ l(2)Karp and Cherbas E _ l(2)KE152 _ _ _ _ l(2)KE33 _ _ lethal (2) KE33 _ l(2)KE39 _ _ lethal (2) KE39 _ l(2)KN13 _ _ _ _ l(2)KX152 _ _ lethal (2) KX152 _ l(2)KX3 _ _ lethal (2) KX3 _ l(2)M _ _ lethal of Mohr _ l(2)M11 _ _ _ _ l(2)M167 _ _ _ _ l(2)M65 _ _ _ _ l(2)Mai179 _ _ _ _ l(2)mbn _ _ lethal (2) malignant blood neoplasm _ l(2)me _ _ lethal (2) meander _ l(2)mr _ _ lethal (2) with morula _ l(2)MZ1131 _ _ _ _ l(2)N113 _ _ _ _ l(2)N36 _ _ _ _ l(2)N7-6 _ _ _ _ l(2)N7-8 _ _ _ _ l(2)not _ _ lethal (2) neighbor of tid _ l(2)NS _ _ lethal (2) NS _ l(2)PC4-427 _ _ _ _ l(2)PC4-51 _ _ _ _ l(2)PC4-A _ _ _ _ l(2)PC4-B _ _ _ _ l(2)PC4-C _ _ _ _ l(2)PC4-D _ _ _ _ l(2)PC4-E _ _ _ _ l(2)PC4-F _ _ _ _ l(2)PC4-G _ _ _ _ l(2)PC4-H _ _ _ _ l(2)PC4-K _ _ _ _ l(2)PC4-M _ _ _ _ l(2)PC4-N _ _ _ _ l(2)PC4-P _ _ _ _ l(2)PC4-Q _ _ _ _ l(2)PC4-R _ _ _ _ l(2)PC4-S _ _ _ _ l(2)PGM-21 _ _ _ _ l(2)PGM-45 _ _ _ _ l(2)PJ20 _ _ _ _ l(2)PJ25 _ _ _ _ l(2)PN-11 _ _ _ _ l(2)PN-6 _ _ _ _ l(2)PW8 _ _ "Pullman, Washington 8" _ l(2)Q1 _ _ _ _ l(2)Q39 _ _ _ _ l(2)Q73 _ _ _ _ l(2)R _ _ lethal of Redfield _ l(2)R209 _ _ _ _ l(2)R89 _ _ _ _ l(2)R99 _ _ _ _ l(2)rAO135 _ _ _ _ l(2)rG232 _ _ _ _ l(2)rG270 _ _ _ _ l(2)rH280 _ _ _ _ l(2)rJ235 _ _ _ _ l(2)rK639 _ _ _ _ l(2)rL220 _ _ _ _ l(2)rot _ _ lethal (2) relative of tid _ l(2)rQ029 _ _ _ _ l(2)rQ313 _ _ _ _ l(2)ry28 _ _ _ _ l(2)ry36 _ _ _ _ l(2)ry41 _ _ _ _ l(2)ry50 _ _ _ _ l(2)ry51 _ _ _ _ l(2)ry53 _ _ _ _ l(2)s1864 _ _ _ _ l(2)s1866 _ _ _ _ l(2)s1878 _ _ _ _ l(2)s1976 _ _ _ _ l(2)s2978 _ _ _ _ l(2)S3 _ _ lethal of Seto 3 _ l(2)s3475 _ _ _ _ l(2)s3997 _ _ _ _ l(2)s4199 _ _ _ _ l(2)s4830 _ _ _ _ l(2)s4831 _ _ _ _ l(2)s4989 _ _ _ _ l(2)S51 _ _ lethal of Seto 51 _ l(2)s5211 _ _ _ _ l(2)s5379 _ _ _ _ l(2)S59 _ _ lethal of Seto 59 _ l(2)S61 _ _ lethal of Seto 61 _ l(2)s9998 _ _ _ _ l(2)SK1 _ _ _ _ l(2)Su(H) _ _ lethal (2) Su(H) _ l(2)Su(Sp) _ _ _ _ l(2)Ta _ _ lethal (2) with Thickened arista _ l(2)talc _ _ "lethal (2) tumorous antennal, labial, clypeo-labral imaginal discs" _ l(2)tid _ _ lethal (2) tumorous imaginal discs Molecular cloning and expression of l(2)tid are analyzed. l(2)vsp _ _ lethal (2) very small puparia _ l(2)W1 _ _ _ _ l(2)W10 _ _ _ _ l(2)W11 _ _ _ _ l(2)W13 _ _ _ _ l(2)W14 _ _ _ _ l(2)W15 _ _ _ _ l(2)W16 _ _ _ _ l(2)W17 _ _ _ _ l(2)W18 _ _ _ _ l(2)W19 _ _ _ _ l(2)W2 _ _ _ _ l(2)W3 _ _ _ _ l(2)W5 _ _ _ _ l(2)W6 _ _ _ _ l(2)W7 _ _ _ _ l(2)W9 _ _ _ _ l(2)X _ _ _ _ l(3)00073 _ _ _ _ l(3)00096 _ _ _ _ l(3)00281 _ _ _ _ l(3)00305 _ _ _ _ l(3)00421 _ _ _ _ l(3)00506 _ _ _ _ l(3)00534 _ _ _ _ l(3)00543 _ _ _ _ l(3)00643 _ _ _ _ l(3)00707 _ _ _ _ l(3)00714 _ _ _ _ l(3)00716 _ _ _ _ l(3)00720 _ _ _ _ l(3)00835 _ _ _ _ l(3)00836 _ _ _ _ l(3)00864 _ _ _ _ l(3)00945 _ _ _ _ l(3)01010 _ _ _ _ l(3)01029 _ _ _ _ l(3)01107 _ _ _ _ l(3)01239 'de novo' protein folding; GO:0006458 | inferred from sequence similarity _ _ _ l(3)01344 _ _ _ _ l(3)01374 _ _ _ _ l(3)01456 _ _ _ _ l(3)01470 _ _ _ _ l(3)01619 _ _ _ _ l(3)01629 _ _ _ _ l(3)01640 _ _ _ _ l(3)01728 _ _ _ _ l(3)01814 _ _ _ _ l(3)01859 _ _ _ _ l(3)01949 _ _ _ _ l(3)01969 _ _ _ _ l(3)02094 _ _ _ _ l(3)02104 _ _ _ _ l(3)02255 _ _ _ _ l(3)02331 _ _ _ _ l(3)02515 _ _ _ _ l(3)02521 _ _ _ _ l(3)02619 _ _ _ _ l(3)02624 _ _ _ _ l(3)02634 _ _ _ _ l(3)02640 _ _ _ _ l(3)02670 _ _ _ _ l(3)02693 _ _ _ _ l(3)02727a _ _ _ _ l(3)02732 _ _ _ _ l(3)02733 _ _ _ _ l(3)02946 _ _ _ _ l(3)03076 _ _ _ _ l(3)03077 _ _ _ _ l(3)03342 _ _ _ _ l(3)03346 _ _ _ _ l(3)03471 _ _ _ _ l(3)03608 _ _ _ _ l(3)03644 _ _ _ _ l(3)03647 _ _ _ _ l(3)03670 _ _ _ _ l(3)03675 _ _ _ _ l(3)03685 _ _ _ _ l(3)03691 _ _ _ _ l(3)03719 _ _ _ _ l(3)03773 _ _ _ _ l(3)03806 _ _ _ _ l(3)03847 _ _ _ _ l(3)03884 _ _ _ _ l(3)04026 _ _ _ _ l(3)04053 _ _ _ _ l(3)04063 _ _ _ _ l(3)04069b _ _ _ _ l(3)04220 _ _ _ _ l(3)04281 _ _ _ _ l(3)04449 _ _ _ _ l(3)04629 _ _ _ _ l(3)04679 _ _ _ _ l(3)04684 _ _ _ _ l(3)04696 _ _ _ _ l(3)04704a _ _ _ _ l(3)04704b _ _ _ _ l(3)04708 _ _ _ _ l(3)04713 _ _ _ _ l(3)04836 _ _ _ _ l(3)04837 _ _ _ _ l(3)05050 _ _ _ _ l(3)05057 _ _ _ _ l(3)05088 _ _ _ _ l(3)05137 _ _ _ _ l(3)05143 _ _ _ _ l(3)05203 _ _ _ _ l(3)05218 _ _ _ _ l(3)05241 _ _ _ _ l(3)05279 _ _ _ _ l(3)05408 _ _ _ _ l(3)05430 _ _ _ _ l(3)05471 _ _ _ _ l(3)05652 _ _ _ _ l(3)05697 _ _ _ _ l(3)05712 _ _ _ _ l(3)05820 _ _ _ _ l(3)05822 _ _ _ _ l(3)05842 _ _ _ _ l(3)05871 _ _ _ _ l(3)05967 _ _ _ _ l(3)06226 _ _ _ _ l(3)06240 _ _ _ _ l(3)06264 _ _ _ _ l(3)06265 _ _ _ _ l(3)06266 _ _ _ _ l(3)06404 _ _ _ _ l(3)06442 _ _ _ _ l(3)06465 _ _ _ _ l(3)06487 _ _ _ _ l(3)06490 _ _ _ _ l(3)06497 _ _ _ _ l(3)06536 _ _ _ _ l(3)06658 _ _ _ _ l(3)06664 _ _ _ _ l(3)06734 _ _ _ _ l(3)06743 _ _ _ _ l(3)06803 _ _ _ _ l(3)06811 _ _ _ _ l(3)06886 _ _ _ _ l(3)06906 _ _ _ _ l(3)06924 _ _ _ _ l(3)06948a _ _ _ _ l(3)06951 _ _ _ _ l(3)07013 _ _ _ _ l(3)07086 _ _ _ _ l(3)07207 _ _ _ _ l(3)07217 _ _ _ _ l(3)07615 _ _ _ _ l(3)07882 _ _ _ _ l(3)08034 _ _ _ _ l(3)08126 _ _ _ _ l(3)08724 _ _ _ _ l(3)09070 _ _ _ _ l(3)09143 _ _ _ _ l(3)09291 _ _ _ _ l(3)09402 _ _ _ _ l(3)09656 _ _ _ _ l(3)09904c _ _ _ _ l(3)10 _ _ _ _ l(3)100Ab _ _ _ _ l(3)100CDa _ _ _ _ l(3)10112 _ _ _ _ l(3)10418 _ _ _ _ l(3)10532 _ _ _ _ l(3)10585 _ _ _ _ l(3)10615 _ _ _ _ l(3)10621 _ _ _ _ l(3)113 _ _ _ _ l(3)1215 _ _ lethal (3) 1215 _ l(3)12E7 _ _ _ _ l(3)18304 "determination of anterior/posterior axis, embryo; GO:0008595 | inferred from mutant phenotype; negative regulation of oskar mRNA translation; GO:0007319 | inferred from mutant phenotype" _ _ "l(3)18304 plays a role in the localization-dependent translation, of osk RNA." l(3)1A1 _ _ _ _ l(3)2 _ _ _ _ l(3)2h _ _ _ _ l(3)31-1 _ _ _ _ l(3)319.4 _ _ _ _ l(3)3450-A _ _ _ _ l(3)3450-B _ _ _ _ l(3)3450-C _ _ _ _ l(3)3450-D _ _ _ _ l(3)3450-E _ _ _ _ l(3)3450-F _ _ _ _ l(3)3450-G _ _ _ _ l(3)3450-H _ _ _ _ l(3)3450-I _ _ _ _ l(3)3450-J _ _ _ _ l(3)3450-K _ _ _ _ l(3)3450-L _ _ _ _ l(3)3450-M _ _ _ _ l(3)3450-N _ _ _ _ l(3)3450-O _ _ _ _ l(3)3450-P _ _ _ _ l(3)36d10 _ _ lethal (3) 36d10 _ l(3)3a _ _ _ _ l(3)3h _ _ _ _ l(3)5G83 _ _ lethal (3) 5G83 _ l(3)61Da _ _ _ _ l(3)61Db _ _ _ _ l(3)62Bb _ _ lethal (3) 62Bb _ l(3)62Bc _ _ lethal (3) 62Bc _ l(3)62Be _ _ lethal (3) 62Be _ l(3)62Bh _ _ _ _ l(3)62Bi _ _ lethal (3) 62Bi _ l(3)62Bj _ _ _ _ l(3)62Cb _ _ lethal (3) 62Cb _ l(3)62Da _ _ lethal (3) 62Da _ l(3)63Aa _ _ lethal (3) 63Aa _ l(3)63Ab _ _ lethal (3) 63Ab _ l(3)63Ba _ _ lethal (3) 63Ba _ l(3)63Bb _ _ lethal (3) 63Bb _ l(3)63Bc _ _ lethal (3) 63Bc _ l(3)63Bd _ _ lethal (3) 63Bd _ l(3)63Be _ _ lethal (3) 63Be _ l(3)63Bh _ _ lethal (3) 63Bh _ l(3)63Bi _ _ lethal (3) 63Bi _ l(3)63Da _ _ lethal (3) 63Da _ l(3)63Db _ _ _ _ l(3)63Dc _ _ _ _ l(3)63Ec _ _ _ _ l(3)63Ed _ _ _ _ l(3)63Ee _ _ _ _ l(3)63Ef _ _ _ _ l(3)63Eg _ _ _ _ l(3)63Fa _ _ _ _ l(3)63Fd _ _ _ _ l(3)64Ab _ _ _ _ l(3)64Ac _ _ _ _ l(3)64Ad _ _ _ _ l(3)64Ae _ _ _ _ l(3)64Af _ _ _ _ l(3)64Ag _ _ _ _ l(3)64Aj _ _ _ _ l(3)64Am _ _ _ _ l(3)64Ao _ _ _ _ l(3)64Ba _ _ _ _ l(3)64Bb _ _ _ _ l(3)64Bc _ _ _ _ l(3)64Bd _ _ _ _ l(3)64Be _ _ _ _ l(3)64Bf _ _ _ _ l(3)64Bg _ _ _ _ l(3)64Bh _ _ _ _ l(3)64Bi _ _ _ _ l(3)64Bj _ _ _ _ l(3)64Cb _ _ _ _ l(3)64Cc _ _ _ _ l(3)64Cd _ _ _ _ l(3)64Ce _ _ _ _ l(3)64Cf _ _ _ _ l(3)64Cg _ _ _ _ l(3)64Ch _ _ _ _ l(3)64Da _ _ _ _ l(3)65ACa _ _ _ _ l(3)65ACb _ _ _ _ l(3)65ACc _ _ _ _ l(3)65ACd _ _ _ _ l(3)65ACe _ _ _ _ l(3)65ACf _ _ _ _ l(3)65AEa _ _ _ _ l(3)65CEa _ _ _ _ l(3)65CEb _ _ _ _ l(3)65CEc _ _ _ _ l(3)65CEf _ _ _ _ l(3)66Ea _ _ _ _ l(3)66EFa _ _ _ _ l(3)66EFb _ _ _ _ l(3)66EFc _ _ _ _ l(3)66EFd _ _ _ _ l(3)66EFe _ _ _ _ l(3)66EFf _ _ _ _ l(3)66EFg _ _ _ _ l(3)66EFh _ _ _ _ l(3)66EFi _ _ _ _ l(3)66EFj _ _ _ _ l(3)67Aa _ _ lethal (3) 67Aa _ l(3)67Ab _ _ lethal (3) 67Ab _ l(3)67Ac _ _ lethal (3) 67Ac _ l(3)67Ad _ _ lethal (3) 67Ad _ l(3)67Ae _ _ lethal (3) 67Ae _ l(3)67Af _ _ lethal (3) 67Af _ l(3)67BDa _ _ lethal (3) 67BDa _ l(3)67BDb _ _ lethal (3) 67BDb _ l(3)67BDc _ _ lethal (3) 67BDc _ l(3)67BDd _ _ lethal (3) 67BDd _ l(3)67BDe _ _ lethal (3) 67BDe _ l(3)67BDf _ _ lethal (3) 67BDf _ l(3)67BDg _ _ lethal (3) 67BDg _ l(3)67BDh _ _ lethal (3) 67BDh _ l(3)67BDi _ _ lethal (3) 67BDi _ l(3)67BDj _ _ lethal (3) 67BDj _ l(3)67BDk _ _ lethal (3) 67BDk _ l(3)67BDl _ _ lethal (3) 67BDl _ l(3)67BDm _ _ lethal (3) 67BDm _ l(3)67BDn _ _ lethal (3) 67BDn _ l(3)67BDp _ _ lethal (3) 67BDp _ l(3)67BDq _ _ lethal (3) 67BDq _ l(3)67BDr _ _ lethal (3) 67BDr _ l(3)68Aa _ _ lethal (3) 68Aa _ l(3)68Ab _ _ lethal (3) 68Ab _ l(3)68Ac _ _ lethal (3) 68Ac _ l(3)68Ad _ _ lethal (3) 68Ad _ l(3)68Ae _ _ lethal (3) 68Ae _ l(3)68Ag _ _ lethal (3) 68Ag _ l(3)68Ba _ _ lethal (3) 68Ba _ l(3)68Bb _ _ lethal (3) 68Bb _ l(3)68Bc _ _ lethal (3) 68Bc _ l(3)68Bd _ _ lethal (3) 68Bd _ l(3)68Be _ _ lethal (3) 68Be _ l(3)68Bf _ _ lethal (3) 68Bf _ l(3)68Bg _ _ lethal (3) 68Bg _ l(3)68Ca _ _ lethal (3) 68Ca _ l(3)68Cb _ _ lethal (3) 68Cb _ l(3)68Cc _ _ lethal (3) 68Cc _ l(3)68Cd _ _ lethal (3) 68Cd _ l(3)68Ce _ _ lethal (3) 68Ce _ l(3)68Cf _ _ lethal (3) 68Cf _ l(3)68Cg _ _ lethal (3) 68Cg _ l(3)68Ch _ _ lethal (3) 68Ch _ l(3)68Da _ _ lethal (3) 68Da _ l(3)68Db _ _ lethal (3) 68Db _ l(3)68Dc _ _ lethal (3) 68Dc _ l(3)68Eb _ _ lethal (3) 68Eb _ l(3)68Ec _ _ lethal (3) 68Ec _ l(3)68Ed _ _ lethal (3) 68Ed _ l(3)68Ee _ _ lethal (3) 68Ee _ l(3)68Ef _ _ lethal (3) 68Ef _ l(3)68Eg _ _ lethal (3) 68Eg _ l(3)68Fa _ _ lethal (3) 68Fa _ l(3)68Fb _ _ lethal (3) 68Fb _ l(3)68Fc _ _ lethal (3) 68Fc _ l(3)68Fd _ _ lethal (3) 68Fd _ l(3)68Fe _ _ lethal (3) 68Fe _ l(3)68Fg _ _ _ _ l(3)68Fh _ _ _ _ l(3)68Fi _ _ _ _ l(3)69Aa _ _ lethal (3) 69Aa _ l(3)69Ab _ _ lethal (3) 69Ab _ l(3)69ABa _ _ _ _ l(3)69Ac _ _ lethal (3) 69Ac _ l(3)69Ad _ _ lethal (3) 69Ad _ l(3)69Ae _ _ lethal (3) 69Ae _ l(3)69Af _ _ lethal (3) 69Af _ l(3)69Ag _ _ lethal (3) 69Ag _ l(3)69Ah _ _ _ _ l(3)69Ai _ _ _ _ l(3)69Ba _ _ lethal (3) 69Ba _ l(3)69Bb _ _ lethal (3) 69Bb _ l(3)69Bc _ _ lethal (3) 69Bc _ l(3)69Bd _ _ lethal (3) 69Bd _ l(3)7-19 _ _ _ _ l(3)7-8 _ _ _ _ l(3)70Aa _ _ lethal (3) 70Aa _ l(3)70Ab _ _ lethal (3) 70Ab _ l(3)70Ac _ _ lethal (3) 70Ac _ l(3)70Ae _ _ _ _ l(3)70Da peroxisome organization and biogenesis; GO:0007031 | inferred from sequence similarity with NCBI_gi:4505725 _ _ _ l(3)71CDa _ _ _ _ l(3)71CDb _ _ _ _ l(3)71CDc _ _ _ _ l(3)71DEa _ _ _ _ l(3)71DEb _ _ _ _ l(3)71DEc _ _ _ _ l(3)71DEd _ _ _ _ l(3)71EFa _ _ _ _ l(3)72Ab _ _ lethal (3) 72Ab _ l(3)72Ac _ _ lethal (3) 72Ac _ l(3)72Ad _ _ lethal (3) 72Ad _ l(3)72CDa _ _ lethal (3) 72CDa _ l(3)72CDb _ _ lethal (3) 72CDb _ l(3)72CDc _ _ lethal (3) 72CDc _ l(3)72CDd _ _ lethal (3) 72CDd _ l(3)72CDe _ _ lethal (3) 72CDe _ l(3)72Da _ _ lethal (3) 72Da _ l(3)72Db _ _ lethal (3) 72Db _ l(3)72De _ _ lethal (3) 72De _ l(3)72Df _ _ lethal (3) 72Df _ l(3)72Dg _ _ lethal (3) 72Dg _ l(3)72Dh _ _ lethal (3) 72Dh _ l(3)72Di _ _ lethal (3) 72Di _ l(3)72Dk _ _ lethal (3) 72Dk _ l(3)72Dl _ _ lethal (3) 72Dl _ l(3)72Dm _ _ lethal (3) 72Dm _ l(3)72Dn _ _ lethal (3) 72Dn _ l(3)72Do _ _ lethal (3) 72Do _ l(3)72Dp _ _ lethal (3) 72Dp _ l(3)72Dq _ _ _ _ l(3)72Fa _ _ _ _ l(3)72Fb _ _ _ _ l(3)72Fc _ _ _ _ l(3)73Aa _ _ lethal (3) 73Aa _ l(3)73Ab _ _ lethal (3) 73Ab _ l(3)73Ac _ _ lethal (3) 73Ac _ l(3)73Ad _ _ lethal (3) 73Ad _ l(3)73Ae _ _ lethal (3) 73Ae _ l(3)73Af _ _ lethal (3) 73Af _ l(3)73Ag _ _ lethal (3) 73Ag _ l(3)73Ah _ _ lethal (3) 73Ah _ l(3)73Ak _ _ _ _ l(3)73Al _ _ _ _ l(3)73Am _ _ _ _ l(3)73An _ _ _ _ l(3)73Ao _ _ _ _ l(3)73Bb _ _ lethal (3) 73Bb _ l(3)73Bc _ _ lethal (3) 73Bc _ l(3)73Bd _ _ lethal (3) 73Bd _ l(3)73Bf _ _ _ _ l(3)73Bg _ _ _ _ l(3)73Bh _ _ _ _ l(3)73Ca _ _ lethal (3) 73Ca _ l(3)73Cd _ _ lethal (3) 73Cd _ l(3)73CFa _ _ _ _ l(3)76BCa _ _ _ _ l(3)76BDd _ _ _ _ l(3)76BDg _ _ _ _ l(3)76BDs _ _ _ _ l(3)76BDt _ _ _ _ l(3)77ABa _ _ _ _ l(3)77ABc _ _ _ _ l(3)77ABd _ _ _ _ l(3)77ABf _ _ _ _ l(3)77ABg _ _ _ _ l(3)77ABh _ _ _ _ l(3)77ABi _ _ _ _ l(3)77ABj _ _ _ _ l(3)77CDa _ _ _ _ l(3)77CDd _ _ _ _ l(3)77CDe _ _ _ _ l(3)77CDf _ _ _ _ l(3)77CDg _ _ _ _ l(3)77CDh _ _ _ _ l(3)77CDi _ _ _ _ l(3)77CDj _ _ _ _ l(3)77CDk _ _ _ _ l(3)77CDl _ _ _ _ l(3)77CDm _ _ _ _ l(3)77Ea _ _ _ _ l(3)78Aa _ _ _ _ l(3)78Ab _ _ _ _ l(3)78Ac _ _ _ _ l(3)78Ad _ _ _ _ l(3)78Ae _ _ _ _ l(3)78Da _ _ _ _ l(3)79Ba _ _ _ _ l(3)7E103 _ _ lethal (3) 7E103 _ l(3)80Fa _ _ lethal (3) 80Fa _ l(3)80Fb _ _ lethal (3) 80Fb _ l(3)80Fc _ _ lethal (3) 80Fc _ l(3)80Fd _ _ lethal (3) 80Fd _ l(3)80Fe _ _ lethal (3) 80Fe _ l(3)80Ff _ _ lethal (3) 80Ff _ l(3)80Fg _ _ lethal (3) 80Fg _ l(3)80Fi _ _ lethal (3) 80Fi _ l(3)80Fj _ _ lethal (3) 80Fj _ l(3)81Fa _ _ lethal (3) 81Fa _ l(3)81Fb _ _ lethal (3) 81Fb _ l(3)82Ca _ _ _ _ l(3)82Cb _ _ _ _ l(3)82CDb _ _ _ _ l(3)82CDc _ _ _ _ l(3)82CDd _ _ _ _ l(3)82Da _ _ _ _ l(3)82Db _ _ _ _ l(3)82Ea _ _ _ _ l(3)82Eb _ _ _ _ l(3)82EFa _ _ _ _ l(3)82EFb _ _ _ _ l(3)82EFc _ _ _ _ l(3)82Fa _ _ _ _ l(3)82Fb _ _ _ _ l(3)82Fc _ _ _ _ l(3)82Fd _ _ _ _ l(3)82Fe _ _ _ _ l(3)82Ff _ _ _ _ l(3)82Fg _ _ _ _ l(3)82Fi _ _ _ _ l(3)82Fj _ _ _ _ l(3)82Fk _ _ _ _ l(3)843 _ _ _ _ l(3)84Bb _ _ lethal (3) 84Bb _ l(3)84Bc _ _ lethal (3) 84Bc _ l(3)84Cb _ _ lethal (3) 84Cb _ l(3)84Cc _ _ lethal (3) 84Cc _ l(3)84Ce _ _ lethal (3) 84Ce _ l(3)84Ch _ _ _ _ l(3)84Da _ _ lethal (3) 84Da _ l(3)84Db _ _ lethal (3) 84Db _ l(3)84Dc _ _ lethal (3) 84Dc _ l(3)84Dd _ _ lethal (3) 84Dd _ l(3)84Ea _ _ lethal (3) 84Ea _ l(3)84Eb _ _ lethal (3) 84Eb _ l(3)84Ec _ _ lethal (3) 84Ec _ l(3)84Ed _ _ lethal (3) 84Ed _ l(3)84Ee _ _ lethal (3) 84Ee _ l(3)84Ef _ _ lethal (3) 84Ef _ l(3)84Eg _ _ lethal (3) 84Eg _ l(3)84Ei _ _ lethal (3) 84Ei _ l(3)84Fb _ _ lethal (3) 84Fb _ l(3)84Fc _ _ lethal (3) 84Fc _ l(3)84Fd _ _ lethal (3) 84Fd _ l(3)84Fe _ _ lethal (3) 84Fe _ l(3)84Ff _ _ lethal (3) 84Ff _ l(3)84Fg _ _ lethal (3) 84Fg _ l(3)84Fh _ _ lethal (3) 84Fh _ l(3)84Fi _ _ lethal (3) 84Fi _ l(3)84Fj _ _ lethal (3) 84Fj _ l(3)84Fk _ _ lethal (3) 84Fk _ l(3)84Fl _ _ lethal (3) 84Fl _ l(3)84Fm _ _ lethal (3) 84Fm _ l(3)85Aa _ _ lethal (3) 85Aa _ l(3)85Ab _ _ lethal (3) 85Ab _ l(3)85Ad _ _ lethal (3) 85Ad _ l(3)85Ae _ _ lethal (3) 85Ae _ l(3)85Af _ _ lethal (3) 85Af _ l(3)85Ag _ _ lethal (3) 85Ag _ l(3)85Ai _ _ lethal (3) 85Ai _ l(3)85Aj _ _ lethal (3) 85Aj _ l(3)85Ak _ _ _ _ l(3)85Da _ _ lethal (3) 85Da _ l(3)85Da-2 _ _ _ _ l(3)85Db _ _ lethal (3) 85Db _ l(3)85Dc _ _ lethal (3) 85Dc _ l(3)85Dd _ _ lethal (3) 85Dd _ l(3)85De _ _ lethal (3) 85De _ l(3)85Df _ _ lethal (3) 85Df _ l(3)85Dg _ _ lethal (3) 85Dg _ l(3)85Dh _ _ lethal (3) 85Dh _ l(3)85Di _ _ lethal (3) 85Di _ l(3)85Dj _ _ lethal (3) 85Dj _ l(3)85Eb _ _ lethal (3) 85Eb _ l(3)85Ec _ _ lethal (3) 85Ec _ l(3)85Ed _ _ lethal (3) 85Ed _ l(3)85Ee _ _ lethal (3) 85Ee _ l(3)85Eh _ _ lethal (3) 85Eh _ l(3)85Ei _ _ lethal (3) 85Ei _ l(3)85Ej _ _ lethal (3) 85Ej _ l(3)85Fa _ _ lethal (3) 85Fa _ l(3)85Fb _ _ lethal (3) 85Fb _ l(3)85Fc _ _ lethal (3) 85Fc _ l(3)85Fd _ _ lethal (3) 85Fd _ l(3)85Fe _ _ lethal (3) 85Fe _ l(3)85Ff _ _ lethal (3) 85Ff _ l(3)85Fg _ _ lethal (3) 85Fg _ l(3)85Fh _ _ lethal (3) 85Fh _ l(3)86Fa _ _ lethal (3) 86Fa _ l(3)86Fb _ _ lethal (3) 86Fb _ l(3)86Fc _ _ lethal (3) 86Fc _ l(3)86Fd _ _ lethal (3) 86Fd _ l(3)86Fe _ _ lethal (3) 86Fe _ l(3)86Ff _ _ lethal (3) 86Ff _ l(3)86Fg _ _ lethal (3) 86Fg _ l(3)87Aa _ _ lethal (3) 87Aa _ l(3)87Ab _ _ lethal (3) 87Ab _ l(3)87ABa _ _ _ _ l(3)87Ad _ _ lethal (3) 87Ad _ l(3)87Ae _ _ lethal (3) 87Ae _ l(3)87Ba _ _ lethal (3) 87Ba _ l(3)87Bb _ _ lethal (3) 87Bb _ l(3)87Bc _ _ lethal (3) 87Bc _ l(3)87Be _ _ lethal (3) 87Be "l(3)87Be plays an important and perhaps vital, role in the management of both normal and applied oxygen-mediated damage." l(3)87Bf _ _ lethal (3) 87Bf _ l(3)87Bh _ _ lethal (3) 87Bh _ l(3)87Bi _ _ lethal (3) 87Bi _ l(3)87Bj _ _ lethal (3) 87Bj _ l(3)87Bk _ _ lethal (3) 87Bk _ l(3)87Bl _ _ lethal (3) 87Bl _ l(3)87Bm _ _ lethal (3) 87Bm _ l(3)87Cb _ _ lethal (3) 87Cb _ l(3)87Cc _ _ lethal (3) 87Cc _ l(3)87Cd _ _ lethal (3) 87Cd _ l(3)87Ce _ _ _ _ l(3)87Da _ _ lethal (3) 87Da _ l(3)87Db _ _ lethal (3) 87Db _ l(3)87Dc _ _ lethal (3) 87Dc _ l(3)87Dd _ _ lethal (3) 87Dd _ l(3)87Df _ _ lethal (3) 87Df _ l(3)87Di _ _ _ _ l(3)87Eb _ _ lethal (3) 87Eb _ l(3)87Ec _ _ lethal (3) 87Ec _ l(3)87Ee _ _ lethal (3) 87Ee _ l(3)87Ef _ _ lethal (3) 87Ef _ l(3)87Eg _ _ lethal (3) 87Eg _ l(3)87Eh _ _ lethal (3) 87Eh _ l(3)87Ei _ _ lethal (3) 87Ei _ l(3)87Ej _ _ lethal (3) 87Ej _ l(3)87Ek _ _ lethal (3) 87Ek _ l(3)87Em _ _ _ _ l(3)88Ac _ _ _ _ l(3)88Ad _ _ _ _ l(3)88Ae _ _ _ _ l(3)88Bb _ _ lethal (3) 88Bb _ l(3)88Bc _ _ lethal (3) 88Bc _ l(3)88Bd _ _ lethal (3) 88Bd _ l(3)88EFa _ _ _ _ l(3)88EFb _ _ _ _ l(3)88EFc _ _ _ _ l(3)88EFd _ _ _ _ l(3)88EFe _ _ _ _ l(3)88EFf _ _ _ _ l(3)88EFg _ _ _ _ l(3)88EFh _ _ _ _ l(3)88EFi _ _ _ _ l(3)89Aa _ _ lethal (3) 89Aa _ l(3)89Ab _ _ _ _ l(3)89ABa _ _ _ _ l(3)89Ac _ _ _ _ l(3)89Ad _ _ _ _ l(3)89Ba _ _ lethal (3) 89Ba _ l(3)89Bb _ _ lethal (3) 89Bb _ l(3)89Bc _ _ lethal (3) 89Bc _ l(3)89Bd _ _ lethal (3) 89Bd _ l(3)89Be _ _ lethal (3) 89Be _ l(3)89Bf _ _ lethal (3) 89Bf _ l(3)89Bg _ _ lethal (3) 89Bg _ l(3)89Bh _ _ lethal (3) 89Bh _ l(3)89Bi _ _ lethal (3) 89Bi _ l(3)89Bj _ _ lethal (3) 89Bj _ l(3)89Bk _ _ lethal (3) 89Bk _ l(3)89Bl _ _ lethal (3) 89Bl _ l(3)89Bm _ _ _ _ l(3)89Bn _ _ _ _ l(3)89Bo _ _ _ _ l(3)89Bp _ _ _ _ l(3)89Bq _ _ _ _ l(3)89Br _ _ _ _ l(3)89Bt _ _ _ _ l(3)89Bu _ _ _ _ l(3)89Ca _ _ lethal (3) 89Ca _ l(3)89Cb _ _ lethal (3) 89Cb _ l(3)89Cc _ _ lethal (3) 89Cc _ l(3)89Cd _ _ lethal (3) 89Cd _ l(3)89Ce _ _ _ _ l(3)89Cf _ _ _ _ l(3)89Cg _ _ _ _ l(3)89Ch _ _ _ _ l(3)89Ci _ _ _ _ l(3)89Da _ _ lethal (3) 89Da _ l(3)89Db _ _ lethal (3) 89Db _ l(3)89Dc _ _ lethal (3) 89Dc _ l(3)89Dd _ _ _ _ l(3)89De _ _ _ _ l(3)89Df _ _ _ _ l(3)89Ea _ _ lethal (3) 89Ea _ l(3)89Ee _ _ lethal (3) 89Ee _ l(3)89Ef _ _ lethal (3) 89Ef _ l(3)89Eg _ _ lethal (3) 89Eg _ l(3)89Eh _ _ lethal (3) 89Eh _ l(3)89Ei _ _ lethal (3) 89Ei _ l(3)89Ej _ _ lethal (3) 89Ej _ l(3)89Ek _ _ _ _ l(3)89El _ _ _ _ l(3)89Em _ _ _ _ l(3)89En _ _ _ _ l(3)90DEa _ _ _ _ l(3)90Ea _ _ _ _ l(3)91Ca _ _ lethal (3) 91Ca _ l(3)91Cb _ _ lethal (3) 91Cb _ l(3)91Cd _ _ lethal (3) 91Cd _ l(3)91Ce _ _ _ _ l(3)91Fa _ _ lethal (3) 91Fa _ l(3)91Fb _ _ lethal (3) 91Fb _ l(3)91Fc _ _ lethal (3) 91Fc _ l(3)91Fe _ _ lethal (3) 91Fe _ l(3)91Ff _ _ lethal (3) 91Ff _ l(3)92Aa _ _ lethal (3) 92Aa _ l(3)92Ea _ _ _ _ l(3)92Eb _ _ _ _ l(3)93Ba _ _ lethal (3) 93Ba _ l(3)93Bb _ _ lethal (3) 93Bb _ l(3)93Bc _ _ lethal (3) 93Bc _ l(3)93Bd _ _ lethal (3) 93Bd _ l(3)93Be _ _ lethal (3) 93Be _ l(3)93Bf _ _ lethal (3) 93Bf _ l(3)93Bg _ _ lethal (3) 93Bg _ l(3)93Bh _ _ lethal (3) 93Bh _ l(3)93Bj _ _ _ _ l(3)93Ca _ _ lethal (3) 93Ca _ l(3)93Cb _ _ lethal (3) 93Cb _ l(3)93Cc _ _ lethal (3) 93Cc _ l(3)93Cd _ _ lethal (3) 93Cd _ l(3)93Da _ _ lethal (3) 93Da _ l(3)93Db _ _ lethal (3) 93Db _ l(3)93Dc _ _ lethal (3) 93Dc _ l(3)93Dd _ _ lethal (3) 93Dd _ l(3)93Df _ _ lethal (3) 93Df _ l(3)93DFa _ _ _ _ l(3)93DFb _ _ _ _ l(3)93DFc _ _ _ _ l(3)93DFd _ _ _ _ l(3)93DFe _ _ _ _ l(3)93DFf _ _ _ _ l(3)93DFg _ _ _ _ l(3)93DFh _ _ _ _ l(3)93DFi _ _ _ _ l(3)93Dg _ _ lethal (3) 93Dg _ l(3)93Dh _ _ lethal (3) 93Dh _ l(3)93Di _ _ lethal (3) 93Di _ l(3)93Dk _ _ _ _ l(3)93Dl _ _ _ _ l(3)93Dm _ _ _ _ l(3)93Ea _ _ _ _ l(3)93Fa _ _ lethal (3) 93Fa _ l(3)93Fb _ _ lethal (3) 93Fb _ l(3)93Fc _ _ lethal (3) 93Fc _ l(3)94Ba _ _ _ _ l(3)94Fa _ _ _ _ l(3)95Aa _ _ _ _ l(3)95Ax _ _ _ _ l(3)95Ay _ _ _ _ l(3)95Az _ _ _ _ l(3)95Ba _ _ _ _ l(3)95BCa _ _ _ _ l(3)95BCb _ _ _ _ l(3)95BCc _ _ _ _ l(3)95BCd _ _ _ _ l(3)95Ca _ _ _ _ l(3)96Aa _ _ _ _ l(3)96Ab _ _ _ _ l(3)96Ac _ _ _ _ l(3)96Ad _ _ _ _ l(3)96Ba _ _ _ _ l(3)96Bb _ _ _ _ l(3)96Bc _ _ _ _ l(3)96Bd _ _ _ _ l(3)96Be _ _ _ _ l(3)96Bf _ _ _ _ l(3)96Bg _ _ _ _ l(3)96Fa _ _ lethal (3) 96Fa _ l(3)96Fb _ _ lethal (3) 96Fb _ l(3)96Fc _ _ lethal (3) 96Fc _ l(3)96Fe _ _ lethal (3) 96Fe _ l(3)96Ff _ _ lethal (3) 96Ff _ l(3)97Da _ _ _ _ l(3)97Db _ _ _ _ l(3)97Dc _ _ _ _ l(3)97De _ _ _ _ l(3)97Df _ _ _ _ l(3)98Da _ _ _ Defined during a mutagenesis of the Hrb98DE region. l(3)98Dc _ _ _ Defined during a mutagenesis of the Hrb98DE region. l(3)98Dd _ _ _ Defined during a mutagenesis of the Hrb98DE region. l(3)98Dh _ _ _ Defined during a mutagenesis of the Hrb98DE region. l(3)98Di _ _ _ Defined during a mutagenesis of the Hrb98DE region. l(3)98Dj _ _ _ Defined during a mutagenesis of the Hrb98DE region. l(3)98Dk _ _ _ Defined during a mutagenesis of the Hrb98DE region. l(3)98Dl _ _ _ "The existence of l(3)98Dl is inferred from the complementation analysis, of Df(3R)M37, Df(3R)M15, Df(3R)M312, Df(3R)CD2, l(3)98Dk[M31], and l(3)98Dm[M217]." l(3)98Dm _ _ _ Defined during a mutagenesis of the Hrb98DE region. l(3)98Fa _ _ _ _ l(3)99Ba _ _ _ _ l(3)99Da _ _ lethal (3) 99Da _ l(3)99Db _ _ lethal (3) 99Db _ l(3)99Dc _ _ lethal (3) 99Dc _ l(3)99Dd _ _ lethal (3) 99Dd _ l(3)99De _ _ lethal (3) 99De _ l(3)99Df _ _ lethal (3) 99Df _ l(3)99Dg _ _ lethal (3) 99Dg _ l(3)99Dh _ _ lethal (3) 99Dh _ l(3)99Di _ _ lethal (3) 99Di _ l(3)99Dj _ _ lethal (3) 99Dj _ l(3)99Ea _ _ lethal (3) 99Ea _ l(3)99Fa _ _ _ l(3)99Fa is involved in the control of cell division. l(3)9C3 _ _ _ _ l(3)9D4 _ _ _ _ l(3)a _ _ lethal (3) a _ l(3)A164.1M3 _ _ _ _ l(3)A215.1M3 _ _ _ _ l(3)A4-4L1 _ _ _ _ l(3)A4-4L5 _ _ _ _ l(3)A4-4L7 _ _ _ _ l(3)A519.1F3 _ _ _ _ l(3)A6-3-56 _ _ _ _ l(3)ac _ _ lethal (3) accessory _ l(3)AFA17 _ _ lethal (3) AFA17 _ l(3)AFA7 _ _ lethal (3) AFA7 _ l(3)AM1 _ _ lethal (3) AM1 _ l(3)Ax18 _ _ _ _ l(3)Ax27 _ _ _ _ l(3)Ax7 _ _ _ _ l(3)B12-3-31 _ _ _ _ l(3)B14.1M3 _ _ _ _ l(3)B3-3-21 _ _ _ _ l(3)B4-3-20 _ _ _ _ l(3)B5-1 _ _ _ _ l(3)B7-3-32 _ _ _ _ l(3)B9-3-53 _ _ _ _ l(3)blo-l _ _ lethal bloated larvae _ l(3)bt _ _ lethal brain tumor _ l(3)C101 _ _ _ _ l(3)C106 _ _ _ _ l(3)C109 _ _ _ _ l(3)C18 _ _ _ _ l(3)C416 _ _ _ _ l(3)C80 _ _ _ _ l(3)CB24 _ _ _ _ l(3)CG1 _ _ _ _ l(3)CG2 _ _ _ _ l(3)CG3 _ _ _ _ l(3)CG4 _ _ _ _ l(3)CL-L _ _ lethal (3) Cell Lethal Left _ l(3)cl-L5 _ _ lethal (3) cell lethal L5 _ l(3)CL-R _ _ lethal (3) Cell Lethal Right _ l(3)cl-R3 _ _ lethal (3) cell lethal R3 _ l(3)dco2 _ _ lethal (3) discs overgrown 2 _ l(3)DTS2 _ _ lethal (3) DTS2 _ l(3)DTS3 _ _ lethal (3) DTS3 _ l(3)DTS4 _ _ lethal (3) DTS4 _ l(3)DTS6 _ _ lethal (3) DTS6 _ l(3)DTS8 _ _ lethal (3) DTS8 _ l(3)e _ _ lethal on ebony _ l(3)E2 _ _ _ _ l(3)E22 _ _ _ _ l(3)E3 _ _ _ _ l(3)E7-3-58 _ _ _ _ l(3)E8-3-54 _ _ _ _ l(3)EGX13 _ _ _ _ l(3)EGX4 _ _ _ _ l(3)ESH2 _ _ _ _ l(3)EX-G13 _ _ _ _ l(3)F24 _ _ lethal (3) F24 _ l(3)F31 _ _ lethal (3) F31 _ l(3)F34 _ _ lethal (3) F34 _ l(3)ff29 _ _ _ _ l(3)gl _ _ lethal (3) giant larvae _ l(3)GPMG-30 _ _ _ _ l(3)h2 _ _ _ _ l(3)H94 _ _ _ _ l(3)HC1 _ _ _ _ l(3)hem _ _ lethal (3) hematopoiesis missing _ l(3)IIIb _ _ _ _ l(3)IX-14 _ _ _ _ l(3)j00015 _ _ _ _ l(3)j10B6 _ _ _ _ l(3)j10E8 _ _ _ _ l(3)j11B2 _ _ _ _ l(3)j11B7 _ _ _ _ l(3)j12B4 _ _ _ _ l(3)j13B3 _ _ _ _ l(3)j13C8 _ _ _ _ l(3)j13E7 _ _ _ _ l(3)j14E7 _ _ _ _ l(3)j15E7 _ _ _ _ l(3)j1A1 _ _ _ _ l(3)j1B10 _ _ _ _ l(3)j1B8 _ _ _ _ l(3)j1B9 _ _ _ _ l(3)j1D5 _ _ _ _ l(3)j1D8 _ _ _ _ l(3)j1E6 _ _ _ _ l(3)j1E7 _ _ _ _ l(3)j2A2 _ _ _ _ l(3)j2B1 _ _ _ _ l(3)j2B9 _ _ _ _ l(3)j2C3 _ _ _ _ l(3)j2C4 _ _ _ _ l(3)j2C5 _ _ _ _ l(3)j2D3 _ _ _ _ l(3)j2D5 _ _ _ _ l(3)j2E11 _ _ _ _ l(3)j4B4 _ _ _ _ l(3)j4B9 _ _ _ _ l(3)j4D1 _ _ _ _ l(3)j4E1 _ _ _ _ l(3)j4E6 _ _ _ _ l(3)j5A1 _ _ _ _ l(3)j5A6 _ _ _ _ l(3)j5B2 _ _ _ _ l(3)j5B6 _ _ _ _ l(3)j5C7 _ _ _ _ l(3)j5E7 _ _ _ _ l(3)j6A6 _ _ _ _ l(3)j6B4 _ _ _ _ l(3)j6B9 _ _ _ _ l(3)j6C3 _ _ _ _ l(3)j6E3 _ _ _ _ l(3)j7A6 _ _ _ _ l(3)j7C3 _ _ _ _ l(3)j8B6 _ _ _ _ l(3)j8B9 _ _ _ _ l(3)j8C8 _ _ _ _ l(3)j8E8 _ _ _ _ l(3)j9A5 _ _ _ _ l(3)j9B6 _ _ _ _ l(3)j9E7 _ _ _ _ l(3)KE142 _ _ lethal (3) KE142 _ l(3)KE90 _ _ lethal (3) KE90 _ l(3)KX209 _ _ lethal (3) KX209 _ l(3)KX305 _ _ lethal (3) KX305 _ l(3)L0021 _ _ _ _ l(3)L0090 _ _ _ _ l(3)L0139 _ _ _ _ l(3)L0499 _ _ _ _ l(3)L0539 _ _ _ _ l(3)L0580 _ _ _ _ l(3)L0839 _ _ _ _ l(3)L10 _ _ _ _ l(3)L1022 _ _ _ _ l(3)L1042 _ _ _ _ l(3)L1159 _ _ _ _ l(3)L1170 _ _ _ _ l(3)L1231 _ _ _ _ l(3)L1233 _ _ _ _ l(3)L1243 _ _ _ _ l(3)L1459 _ _ _ _ l(3)L1820 _ _ _ _ l(3)L1910 _ _ _ _ l(3)L2049 _ _ _ _ l(3)L2100 _ _ _ _ l(3)L2290 _ _ _ _ l(3)L3051 _ _ _ _ l(3)L3130 _ _ _ _ l(3)L3560 _ _ _ _ l(3)L3659 _ _ _ _ l(3)L3809 _ _ _ _ l(3)L3930 _ _ _ _ l(3)L3999 _ _ _ _ l(3)L4060 _ _ _ _ l(3)L4092 _ _ _ _ l(3)L4111 _ _ _ _ l(3)L4179 _ _ _ _ l(3)L4222a _ _ _ _ l(3)L4740 _ _ _ _ l(3)L5150 _ _ _ _ l(3)L5212 _ _ _ _ l(3)L5340 _ _ _ _ l(3)L5541 _ _ _ _ l(3)L6241 _ _ _ _ l(3)L6332 _ _ _ _ l(3)L6710 _ _ _ _ l(3)L6750 _ _ _ _ l(3)L7012 _ _ _ _ l(3)L7160a _ _ _ _ l(3)L7251 _ _ _ _ l(3)L7321 _ _ _ _ l(3)Lak _ _ lethal(3)Laker _ l(3)LG12 _ _ _ _ l(3)LVML _ _ lethal (3) LVML _ l(3)LVMR _ _ lethal (3) LVMR _ l(3)M256 _ _ _ _ l(3)mbn plasmatocyte differentiation; GO:0042387 | non-traceable author statement _ lethal (3) malignant blood neoplasm _ l(3)mbn2 _ _ lethal (3) malignant blood neoplasm 2 _ l(3)mbt _ _ lethal (3) malignant brain tumor _ l(3)neo1 _ _ _ _ l(3)neo10 _ _ _ _ l(3)neo11 _ _ _ _ l(3)neo12 _ _ _ _ l(3)neo13 _ _ _ _ l(3)neo14 _ _ _ _ l(3)neo15 _ _ _ _ l(3)neo16 _ _ _ _ l(3)neo18 _ _ _ _ l(3)neo19 _ _ _ _ l(3)neo2 _ _ _ _ l(3)neo20 _ _ _ _ l(3)neo23 _ _ _ _ l(3)neo27 _ _ _ _ l(3)neo29 _ _ _ _ l(3)neo3 _ _ _ _ l(3)neo35 _ _ _ _ l(3)neo38 _ _ _ _ l(3)neo39 _ _ _ _ l(3)neo4 _ _ _ _ l(3)neo40 _ _ _ _ l(3)neo41 _ _ _ _ l(3)neo42 _ _ _ _ l(3)neo43 _ _ _ _ l(3)neo44 _ _ _ _ l(3)neo46 _ _ _ _ l(3)neo47 _ _ _ _ l(3)neo48 _ _ _ _ l(3)neo49 _ _ _ _ l(3)neo5 _ _ _ _ l(3)neo50 _ _ _ _ l(3)neo51 _ _ _ _ l(3)neo53a _ _ _ _ l(3)neo53b _ _ _ _ l(3)neo54 _ _ _ _ l(3)neo55 _ _ _ _ l(3)neo58a _ _ _ _ l(3)neo58b _ _ _ _ l(3)neo59 _ _ _ _ l(3)neo6 _ _ _ _ l(3)neo8 _ _ _ _ l(3)neo9 _ _ _ _ l(3)R12 _ _ lethal (3) R12 _ l(3)rF149 _ _ _ _ l(3)rG166 _ _ _ _ l(3)rH304 _ _ _ _ l(3)rI075 _ _ _ _ l(3)rI809 _ _ _ _ l(3)rJ880 _ _ _ _ l(3)rK145 _ _ _ _ l(3)rK315 _ _ _ _ l(3)rK344 _ _ _ _ l(3)rL061 _ _ _ _ l(3)rL203 _ _ _ _ l(3)rM060 _ _ _ _ l(3)rM731 _ _ _ _ l(3)rN346 _ _ _ _ l(3)rO220 _ _ _ _ l(3)rP047 _ _ _ _ l(3)rQ178 _ _ _ _ l(3)rQ197 _ _ _ _ l(3)rQ303 _ _ _ _ l(3)ry102 _ _ _ _ l(3)ry103 _ _ _ _ l(3)ry105 _ _ _ _ l(3)ry107 _ _ _ _ l(3)ry111 _ _ _ _ l(3)ry114 _ _ _ _ l(3)ry116 _ _ _ _ l(3)ry119 _ _ _ _ l(3)ry122 _ _ _ _ l(3)ry125a _ _ _ _ l(3)ry125b _ _ _ _ l(3)ry127 _ _ _ _ l(3)ry133 _ _ _ _ l(3)ry141 _ _ _ _ l(3)ry146 _ _ _ _ l(3)ry15 _ _ _ _ l(3)ry151 _ _ _ _ l(3)ry16 _ _ _ _ l(3)ry160 _ _ _ _ l(3)ry3 _ _ _ _ l(3)ry50 _ _ _ _ l(3)ry59 _ _ _ _ l(3)ry6 _ _ _ _ l(3)ry60 _ _ _ _ l(3)ry69 _ _ _ _ l(3)ry73 _ _ _ _ l(3)ry74 _ _ _ _ l(3)ry78 _ _ _ _ l(3)ry82 _ _ _ _ l(3)ry84 _ _ _ _ l(3)ry85 _ _ _ _ l(3)ry87 _ _ _ _ l(3)ry93 _ _ _ _ l(3)ry98 _ _ _ _ l(3)ry99 _ _ _ _ l(3)S000101b _ _ _ _ l(3)S000107 _ _ _ _ l(3)S000108b _ _ _ _ l(3)S000122b _ _ _ _ l(3)S000306 _ _ _ _ l(3)S000417c _ _ _ _ l(3)S000616b _ _ _ _ l(3)S000616c _ _ _ _ l(3)S000624c _ _ _ _ l(3)S000625a _ _ _ _ l(3)S000625b _ _ _ _ l(3)S000627b _ _ _ _ l(3)S000627c _ _ _ _ l(3)S000721 _ _ _ _ l(3)S000903 _ _ _ _ l(3)S001012 _ _ _ _ l(3)S001405 _ _ _ _ l(3)S001407b _ _ _ _ l(3)S001620a _ _ _ _ l(3)S001620b _ _ _ _ l(3)S001717 _ _ _ _ l(3)S001901 _ _ _ _ l(3)S001917 _ _ _ _ l(3)S001925 _ _ _ _ l(3)S002001 _ _ _ _ l(3)S002302 _ _ _ _ l(3)S002309 _ _ _ _ l(3)S002401b _ _ _ _ l(3)S002501b _ _ _ _ l(3)S003003a _ _ _ _ l(3)S003006 _ _ _ _ l(3)S003108 _ _ _ _ l(3)S003220 _ _ _ _ l(3)S003302b _ _ _ _ l(3)S003405 _ _ _ _ l(3)S003405b _ _ _ _ l(3)S003601 _ _ _ _ l(3)S003606 _ _ _ _ l(3)S003704 _ _ _ _ l(3)S003831b _ _ _ _ l(3)S004019b _ _ _ _ l(3)S004021 _ _ _ _ l(3)S004209a _ _ _ _ l(3)S004209b _ _ _ _ l(3)S005005 _ _ _ _ l(3)S005028 _ _ _ _ l(3)S005029a _ _ _ _ l(3)S005042 _ _ _ _ l(3)S005115 _ _ _ _ l(3)S005302a _ _ _ _ l(3)S005302b _ _ _ _ l(3)S005310 _ _ _ _ l(3)S005331b _ _ _ _ l(3)S005343 _ _ _ _ l(3)S005515b _ _ _ _ l(3)S005818 _ _ _ _ l(3)S005912 _ _ _ _ l(3)S005916b _ _ _ 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l(3)S066905 _ _ _ _ l(3)S067006 _ _ _ _ l(3)S067109b _ _ _ _ l(3)S067111b _ _ _ _ l(3)S067205b _ _ _ _ l(3)S067206b _ _ _ _ l(3)S067210b _ _ _ _ l(3)S067304 _ _ _ _ l(3)S067309 _ _ _ _ l(3)S067501 _ _ _ _ l(3)S067712b _ _ _ _ l(3)S067915 _ _ _ _ l(3)S068002b _ _ _ _ l(3)S068016 _ _ _ _ l(3)S068111b _ _ _ _ l(3)S068212 _ _ _ _ l(3)S068502 _ _ _ _ l(3)S068601b _ _ _ _ l(3)S068609 _ _ _ _ l(3)S068609a _ _ _ _ l(3)S068802 _ _ _ _ l(3)S068911 _ _ _ _ l(3)S069007 _ _ _ _ l(3)S069206a _ _ _ _ l(3)S069605a _ _ _ _ l(3)S069605b _ _ _ _ l(3)S069617 _ _ _ _ l(3)S069805 _ _ _ _ l(3)S070005a _ _ _ _ l(3)S070006 _ _ _ _ l(3)S070103 _ _ _ _ l(3)S070106b _ _ _ _ l(3)S070116 _ _ _ _ l(3)S070204 _ _ _ _ l(3)S070209b _ _ _ _ l(3)S070310b _ _ _ _ l(3)S070316 _ _ _ _ l(3)S070503b _ _ _ _ l(3)S070717 _ _ _ _ l(3)S070806c _ _ _ _ l(3)S071411b _ _ _ _ l(3)S071501 _ _ _ _ l(3)S071502 _ _ _ _ l(3)S071615 _ _ _ _ l(3)S071705 _ _ _ _ l(3)S071710 _ _ _ _ l(3)S071802b _ _ _ _ l(3)S071806b _ _ _ _ l(3)S071814b _ _ _ _ l(3)S072114 _ _ _ _ l(3)S072517b _ _ _ _ l(3)S072611 _ _ _ _ l(3)S072613a _ _ _ _ l(3)S072703b _ _ _ _ l(3)S072912 _ _ _ _ l(3)S073002a _ _ _ _ l(3)S073006 _ _ _ _ l(3)S073015 _ _ _ _ l(3)S073214b _ _ _ _ l(3)S073403 _ _ _ _ l(3)S073414 _ _ _ _ l(3)S073615 _ _ _ _ l(3)S073704b _ _ _ _ l(3)S074103 _ _ _ _ l(3)S074205 _ _ _ _ l(3)S074309a _ _ _ _ l(3)S074510b _ _ _ _ l(3)S074606b _ _ _ _ l(3)S074706 _ _ _ _ l(3)S074913 _ _ _ _ l(3)S075101 _ _ _ _ l(3)S075110 _ _ _ _ l(3)S075515b _ _ _ _ l(3)S075901 _ _ _ _ l(3)S075902b _ _ _ _ l(3)S076201b _ _ _ _ l(3)S076304 _ _ _ _ l(3)S076415 _ _ _ _ l(3)S076903 _ _ _ _ l(3)S077009b _ _ _ _ l(3)S077213 _ _ _ _ l(3)S077301 _ _ _ _ l(3)S077513b _ _ _ _ l(3)S077515 _ _ _ _ l(3)S077801 _ _ _ _ l(3)S078514 _ _ _ _ l(3)S078708 _ _ _ _ l(3)S078709 _ _ _ _ l(3)S079101 _ _ _ _ l(3)S079304b _ _ _ _ l(3)S079311b _ _ _ _ l(3)S080301 _ _ _ _ l(3)S080409 _ _ _ _ l(3)S080503 _ _ _ _ l(3)S080707a _ _ _ _ l(3)S080906 _ _ _ _ l(3)S081003 _ _ _ _ l(3)S081607 _ _ _ _ l(3)S081610b _ _ _ _ l(3)S082106 _ _ _ _ l(3)S082414a _ _ _ _ l(3)S082609a _ _ _ _ l(3)S082609b _ _ _ _ l(3)S082807 _ _ _ _ l(3)S082808b _ _ _ _ l(3)S082901 _ _ _ _ l(3)S082908a _ _ _ _ l(3)S083005b _ _ _ _ l(3)S083207 _ _ _ _ l(3)S083311 _ _ _ _ l(3)S083407b _ _ _ _ l(3)S083502b _ _ _ _ l(3)S083603 _ _ _ _ l(3)S083606b _ _ _ _ l(3)S083705 _ _ _ _ l(3)S083805 _ _ _ _ l(3)S083902b _ _ _ _ l(3)S084013b _ _ _ _ l(3)S084014b _ _ _ _ l(3)S084015b _ _ _ _ l(3)S084101b _ _ _ _ l(3)S084204b _ _ _ _ l(3)S084210b _ _ _ _ l(3)S084305b _ _ _ _ l(3)S084307b _ _ _ _ l(3)S084308b _ _ _ _ l(3)S084402 _ _ _ _ l(3)S084507b _ _ _ _ l(3)S084512b _ _ _ _ l(3)S084805 _ _ _ _ l(3)S084910b _ _ _ _ l(3)S085005b _ _ _ _ l(3)S085009 _ _ _ _ l(3)S085203 _ _ _ _ l(3)S085208 _ _ _ _ l(3)S085212 _ _ _ _ l(3)S085301 _ _ _ _ l(3)S085505 _ _ _ _ l(3)S085706 _ _ _ _ l(3)S086102b _ _ _ _ l(3)S086112 _ _ _ _ l(3)S086405 _ _ _ _ l(3)S086802 _ _ _ _ l(3)S086909 _ _ _ _ l(3)S087106 _ _ _ _ l(3)S087113b _ _ _ _ l(3)S087217b _ _ _ _ l(3)S087602 _ _ _ _ l(3)S087607b _ _ _ _ l(3)S087902 _ _ _ _ l(3)S088113 _ _ _ _ l(3)S088205 _ _ _ _ l(3)S088501a _ _ _ _ l(3)S088501b _ _ _ _ l(3)S088513 _ _ _ _ l(3)S088712b _ _ _ _ l(3)S089013 _ _ _ _ l(3)S089303b _ _ _ _ l(3)S089707b _ _ _ _ l(3)S089814b _ _ _ _ l(3)S089904 _ _ _ _ l(3)S090001 _ _ _ _ l(3)S090101 _ _ _ _ l(3)S090214 _ _ _ _ l(3)S090302 _ _ _ _ l(3)S090303 _ _ _ _ l(3)S090308 _ _ _ _ l(3)S090314 _ _ _ _ l(3)S090405b _ _ _ _ l(3)S090411b _ _ _ _ l(3)S090417 _ _ _ _ l(3)S090605 _ _ _ _ l(3)S090609 _ _ _ _ l(3)S090613b _ _ _ _ l(3)S091009b _ _ _ _ l(3)S091014 _ _ _ _ l(3)S091104 _ _ _ _ l(3)S091306 _ _ _ _ l(3)S091603 _ _ _ _ l(3)S091709 _ _ _ _ l(3)S091801b _ _ _ _ l(3)S091904b _ _ _ _ l(3)S091905 _ _ _ _ l(3)S091912 _ _ _ _ l(3)S092006b _ _ _ _ l(3)S092012b _ _ _ _ l(3)S092016b _ _ _ _ l(3)S092302 _ _ _ _ l(3)S092405 _ _ _ _ l(3)S092415b _ _ _ _ l(3)S092416 _ _ _ _ l(3)S092708 _ _ _ _ l(3)S092902 _ _ _ _ l(3)S093008 _ _ _ _ l(3)S093108a _ _ _ _ l(3)S093411 _ _ _ _ l(3)S093501b _ _ _ _ l(3)S093614 _ _ _ _ l(3)S093705b _ _ _ _ l(3)S093806b _ _ _ _ l(3)S093902 _ _ _ _ l(3)S093909 _ _ _ _ l(3)S094003 _ _ _ _ l(3)S094105b _ _ _ _ l(3)S094204 _ _ _ _ l(3)S094310 _ _ _ _ l(3)S094405b _ _ _ _ l(3)S094503 _ _ _ _ l(3)S094603 _ _ _ _ l(3)S094615b _ _ _ _ l(3)S094713 _ _ _ _ l(3)S095108b _ _ _ _ l(3)S095109 _ _ _ _ l(3)S095203b _ _ _ _ l(3)S095204b _ _ _ _ l(3)S095209 _ _ _ _ l(3)S095304 _ _ _ _ l(3)S095414 _ _ _ _ l(3)S095708 _ _ _ _ l(3)S095714b _ _ _ _ l(3)S095808 _ _ _ _ l(3)S095812b _ _ _ _ l(3)S095814b _ _ _ _ l(3)S096003b _ _ _ _ l(3)S096101 _ _ _ _ l(3)S096108 _ _ _ _ l(3)S096207 _ _ _ _ l(3)S096404 _ _ _ _ l(3)S096507b _ _ _ _ l(3)S096511 _ _ _ _ l(3)S096512 _ _ _ _ l(3)S096515b _ _ _ _ l(3)S096516b _ _ _ _ l(3)S096611 _ _ _ _ l(3)S096703 _ _ _ _ l(3)S096713 _ _ _ _ l(3)S096805a _ _ _ _ l(3)S096901a _ _ _ _ l(3)S096901b _ _ _ _ l(3)S097001 _ _ _ _ l(3)S097201b _ _ _ _ l(3)S097301b _ _ _ _ l(3)S097405 _ _ _ _ l(3)S097406b _ _ _ _ l(3)S097408 _ _ _ _ l(3)S097416 _ _ _ _ l(3)S097613b _ _ _ _ l(3)S097907a _ _ _ _ l(3)S097907b _ _ _ _ l(3)S098105 _ _ _ _ l(3)S098202b _ _ _ _ l(3)S098502 _ _ _ _ l(3)S098513b _ _ _ _ l(3)S098516a _ _ _ _ l(3)S098614 _ _ _ _ l(3)S098905b _ _ _ _ l(3)S098911b _ _ _ _ l(3)S098916 _ _ _ _ l(3)S099006 _ _ _ _ l(3)S099013 _ _ _ _ l(3)S099102 _ _ _ _ l(3)S099312 _ _ _ _ l(3)S099504 _ _ _ _ l(3)S099801b _ _ _ _ l(3)S099908 _ _ _ _ l(3)S100108a _ _ _ _ l(3)S100201 _ _ _ _ l(3)S100209 _ _ _ _ l(3)S100305 _ _ _ _ l(3)S100309b _ _ _ _ l(3)S100403 _ _ _ _ l(3)S100409b _ _ _ _ l(3)S100502b _ _ _ _ l(3)S100513 _ _ _ _ l(3)S100604 _ _ _ _ l(3)S100806 _ _ _ _ l(3)S101003b _ _ _ _ l(3)S101206a _ _ _ _ l(3)S101206b _ _ _ _ l(3)S101310 _ _ _ _ l(3)S101413b _ _ _ _ l(3)S101504 _ _ _ _ l(3)S101710 _ _ _ _ l(3)S101712 _ _ _ _ l(3)S101715b _ _ _ _ l(3)S101801b _ _ _ _ l(3)S101804 _ _ _ _ l(3)S101902 _ _ _ _ l(3)S101904b _ _ _ _ l(3)S102012b _ _ _ _ l(3)S102211 _ _ _ _ l(3)S102303b _ _ _ _ l(3)S102312b _ _ _ _ l(3)S102315 _ _ _ _ l(3)S102409 _ _ _ _ l(3)S102611 _ _ _ _ l(3)S102702a _ _ _ _ l(3)S102908 _ _ _ _ l(3)S103012b _ _ _ _ l(3)S103114 _ _ _ _ l(3)S103408 _ _ _ _ l(3)S103414 _ _ _ _ l(3)S103505b _ _ _ _ l(3)S103603 _ _ _ _ l(3)S103616 _ _ _ _ l(3)S103705b _ _ _ _ l(3)S103707b _ _ _ _ l(3)S103710 _ _ _ _ l(3)S103807b _ _ _ _ l(3)S103909 _ _ _ _ l(3)S103914b _ _ _ _ l(3)S104011b _ _ _ _ l(3)S104018b _ _ _ _ l(3)S104101 _ _ _ _ l(3)S104103 _ _ _ _ l(3)S104104 _ _ _ _ l(3)S104115 _ _ _ _ l(3)S104207b _ _ _ _ l(3)S104210a _ _ _ _ l(3)S104315 _ _ _ _ l(3)S104416b _ _ _ _ l(3)S104509a _ _ _ _ l(3)S104903a _ _ _ _ l(3)S104913a _ _ _ _ l(3)S104913b _ _ _ _ l(3)S105307 _ _ _ _ l(3)S105407 _ _ _ _ l(3)S105605 _ _ _ _ l(3)S105611 _ _ _ _ l(3)S106503 _ _ _ _ l(3)S106605 _ _ _ _ l(3)S106710a _ _ _ _ l(3)S106713 _ _ _ _ l(3)S106810 _ _ _ _ l(3)S107701 _ _ _ _ l(3)S107705b _ _ _ _ l(3)S107707 _ _ _ _ l(3)S108116b _ _ _ _ l(3)S108310a _ _ _ _ l(3)S108406 _ _ _ _ l(3)S108408c _ _ _ _ l(3)S108709 _ _ _ _ l(3)S110006b _ _ _ _ l(3)S110008a _ _ _ _ l(3)S110013 _ _ _ _ l(3)S110303 _ _ _ _ l(3)S110305a _ _ _ _ l(3)S110408 _ _ _ _ l(3)S110416 _ _ _ _ l(3)S110501 _ _ _ _ l(3)S110610 _ _ _ _ l(3)S110709b _ _ _ _ l(3)S110812 _ _ _ _ l(3)S110815 _ _ _ _ l(3)S110915 _ _ _ _ l(3)S111001 _ _ _ _ l(3)S111105 _ _ _ _ l(3)S111116b _ _ _ _ l(3)S111505b _ _ _ _ l(3)S111515 _ _ _ _ l(3)S111703 _ _ _ _ l(3)S111802 _ _ _ _ l(3)S111816 _ _ _ _ l(3)S112014 _ _ _ _ l(3)S112110 _ _ _ _ l(3)S112202b _ _ _ _ l(3)S112411 _ _ _ _ l(3)S112803 _ _ _ _ l(3)S113003b _ _ _ _ l(3)S113105 _ _ _ _ l(3)S113204a _ _ _ _ l(3)S113208a _ _ _ _ l(3)S113403 _ _ _ _ l(3)S114414b _ _ _ _ l(3)S114602 _ _ _ _ l(3)S114709 _ _ _ _ l(3)S115415 _ _ _ _ l(3)S115415a _ _ _ _ l(3)S115510a _ _ _ _ l(3)S115510b _ _ _ _ l(3)S115909 _ _ _ _ l(3)S116415 _ _ _ _ l(3)S116512 _ _ _ _ l(3)S117708b _ _ _ _ l(3)S117902 _ _ _ _ l(3)S117913 _ _ _ _ l(3)S118502b _ _ _ _ l(3)S118602a _ _ _ _ l(3)S118602b _ _ _ _ l(3)S118608 _ _ _ _ l(3)S119005 _ _ _ _ l(3)S119016b _ _ _ _ l(3)S119307b _ _ _ _ l(3)S119601b _ _ _ _ l(3)S119607b _ _ _ _ l(3)S119608 _ _ _ _ l(3)S119715 _ _ _ _ l(3)S119908 _ _ _ _ l(3)S120307 _ _ _ _ l(3)S120710 _ _ _ _ l(3)S121612 _ _ _ _ l(3)S121910b _ _ _ _ l(3)S122211 _ _ _ _ l(3)S122404 _ _ _ _ l(3)S122407b _ _ _ _ l(3)S122413a _ _ _ _ l(3)S122612a _ _ _ _ l(3)S123206b _ _ _ _ l(3)S123208 _ _ _ _ l(3)S123304b _ _ _ _ l(3)S123713 _ _ _ _ l(3)S124310b _ _ _ _ l(3)S124802a _ _ _ _ l(3)S125006b _ _ _ _ l(3)S125011 _ _ _ _ l(3)S125012b _ _ _ _ l(3)S125015b _ _ _ _ l(3)S125104b _ _ _ _ l(3)S125310b _ _ _ _ l(3)S125414b _ _ _ _ l(3)S125801b _ _ _ _ l(3)S125815 _ _ _ _ l(3)S125816b _ _ _ _ l(3)S126014 _ _ _ _ l(3)S126104 _ _ _ _ l(3)S126107 _ _ _ _ l(3)S126110b _ _ _ _ l(3)S126201 _ _ _ _ l(3)S126615a _ _ _ _ l(3)S126705 _ _ _ _ l(3)S126711 _ _ _ _ l(3)S126801 _ _ _ _ l(3)S127416 _ _ _ _ l(3)S127508 _ _ _ _ l(3)S127704a _ _ _ _ l(3)S127816 _ _ _ _ l(3)S128010b _ _ _ _ l(3)S128306 _ _ _ _ l(3)S128711 _ _ _ _ l(3)S129114 _ _ _ _ l(3)S129217b _ _ _ _ l(3)S129310b _ _ _ _ l(3)S129515 _ _ _ _ l(3)S129615 _ _ _ _ l(3)S129717 _ _ _ _ l(3)S129803 _ _ _ _ l(3)S130008b _ _ _ _ l(3)S130204b _ _ _ _ l(3)S130313a _ _ _ _ l(3)S130509 _ _ _ _ l(3)S130510 _ _ _ _ l(3)S130608 _ _ _ _ l(3)S130610 _ _ _ _ l(3)S130901 _ _ _ _ l(3)S131010 _ _ _ _ l(3)S131103 _ _ _ _ l(3)S131216 _ _ _ _ l(3)S131404 _ _ _ _ l(3)S131909b _ _ _ _ l(3)S132107b _ _ _ _ l(3)S132209b _ _ _ _ l(3)S132214 _ _ _ _ l(3)S132301 _ _ _ _ l(3)S132312 _ _ _ _ l(3)S132413 _ _ _ _ l(3)S132703 _ _ _ _ l(3)S132802b _ _ _ _ l(3)S132907 _ _ _ _ l(3)S133501b _ _ _ _ l(3)S133610 _ _ _ _ l(3)S133801 _ _ _ _ l(3)S133804 _ _ _ _ l(3)S133807 _ _ _ _ l(3)S134012a _ _ _ _ l(3)S134303 _ _ _ _ l(3)S134304b _ _ _ _ l(3)S134306a _ _ _ _ l(3)S134311b _ _ _ _ l(3)S134408b _ _ _ _ l(3)S134415b _ _ _ _ l(3)S134505 _ _ _ _ l(3)S134601a _ _ _ _ l(3)S134612b _ _ _ _ l(3)S135107 _ _ _ _ l(3)S135111b _ _ _ _ l(3)S135305 _ _ _ _ l(3)S135409 _ _ _ _ l(3)S135707b _ _ _ _ l(3)S135710 _ _ _ _ l(3)S136414b _ _ _ _ l(3)S136613 _ _ _ _ l(3)S136708 _ _ _ _ l(3)S136802 _ _ _ _ l(3)S136808b _ _ _ _ l(3)S137212 _ _ _ _ l(3)S137304c _ _ _ _ l(3)S137908 _ _ _ _ l(3)S138006 _ _ _ _ l(3)S138102 _ _ _ _ l(3)S138107 _ _ _ _ l(3)S138111 _ _ _ _ l(3)S138112 _ _ _ _ l(3)S138307 _ _ _ _ l(3)S138415a _ _ _ _ l(3)S138613a _ _ _ _ l(3)S138815 _ _ _ _ l(3)S138901b _ _ _ _ l(3)S139101 _ _ _ _ l(3)S139213 _ _ _ _ l(3)S139308b _ _ _ _ l(3)S140009b _ _ _ _ l(3)S140207 _ _ _ _ l(3)S140410 _ _ _ _ l(3)S140612 _ _ _ _ l(3)S140713a _ _ _ _ l(3)S140901 _ _ _ _ l(3)S141110 _ _ _ _ l(3)S141309 _ _ _ _ l(3)S141710a _ _ _ _ l(3)S141908 _ _ _ _ l(3)S141914 _ _ _ _ l(3)S142206 _ _ _ _ l(3)S142214 _ _ _ _ l(3)S142215b _ _ _ _ l(3)S142603b _ _ _ _ l(3)S142814b _ _ _ _ l(3)S142909 _ _ _ _ l(3)S142916 _ _ _ _ l(3)S143206 _ _ _ _ l(3)S143301b _ _ _ _ l(3)S143517 _ _ _ _ l(3)S143609 _ _ _ _ l(3)S143814 _ _ _ _ l(3)S143907 _ _ _ _ l(3)S144002 _ _ _ _ l(3)S144201b _ _ _ _ l(3)S144301b _ _ _ _ l(3)S144405 _ _ _ _ l(3)S144507a _ _ _ _ l(3)S144606 _ _ _ _ l(3)S144607a _ _ _ _ l(3)S144607b _ _ _ _ l(3)S144608 _ _ _ _ l(3)S144812 _ _ _ _ l(3)S144912 _ _ _ _ l(3)S145110 _ _ _ _ l(3)S145511 _ _ _ _ l(3)S145609 _ _ _ _ l(3)S145613 _ _ _ _ l(3)S145701a _ _ _ _ l(3)S145709 _ _ _ _ l(3)S145710a _ _ _ _ l(3)S146004 _ _ _ _ l(3)S146006b _ _ _ _ l(3)S146315 _ _ _ _ l(3)S146411b _ _ _ _ l(3)S146508 _ _ _ _ l(3)S146604b _ _ _ _ l(3)S146606 _ _ _ _ l(3)S146607b _ _ _ _ l(3)S146705 _ _ _ _ l(3)S146901 _ _ _ _ l(3)S146912 _ _ _ _ l(3)S147006 _ _ _ _ l(3)S147114 _ _ _ _ l(3)S147313 _ _ _ _ l(3)S147402 _ _ _ _ l(3)S147406a _ _ _ _ l(3)S147410 _ _ _ _ l(3)S147506 _ _ _ _ l(3)S147506a _ _ _ _ l(3)S147703 _ _ _ _ l(3)S147804 _ _ _ _ l(3)S147910 _ _ _ _ l(3)S147912 _ _ _ _ l(3)S147913 _ _ _ _ l(3)S147915d _ _ _ _ l(3)S148011a _ _ _ _ l(3)S148016 _ _ _ _ l(3)S148213 _ _ _ _ l(3)S148214 _ _ _ _ l(3)S148307 _ _ _ _ l(3)S148316b _ _ _ _ l(3)S148801a _ _ _ _ l(3)S148907 _ _ _ _ l(3)s1629b _ _ _ _ l(3)s1696 _ _ _ _ l(3)s1754 _ _ _ _ l(3)s1760 _ _ _ _ l(3)s1921 _ _ _ _ l(3)s1922 _ _ _ _ l(3)S2 _ _ lethal (3) S2 _ l(3)s2017 _ _ _ _ l(3)s2172 _ _ _ _ l(3)s2214 _ _ _ _ l(3)s2253 _ _ _ _ l(3)s2383 _ _ _ _ l(3)s2500 _ _ _ _ l(3)s2521 _ _ _ _ l(3)s2564 _ _ _ _ l(3)s2681 _ _ _ _ l(3)s2714 _ _ _ _ l(3)s2784 _ _ _ _ l(3)s2976 _ _ _ _ l(3)s3123 _ _ _ _ l(3)s3246 _ _ _ _ l(3)s3635 _ _ _ _ l(3)s9999 _ _ _ _ l(3)SCEI-1 _ _ _ _ l(3)SCEI-2 _ _ _ _ l(3)SG1 _ _ lethal (3) SG1 _ l(3)SG10 _ _ lethal (3) SG10 _ l(3)SG11 _ _ lethal (3) SG11 _ l(3)SG12 _ _ lethal (3) SG12 _ l(3)SG13 _ _ lethal (3) SG13 _ l(3)SG25 _ _ lethal (3) SG25 _ l(3)SG26 _ _ lethal (3) SG26 _ l(3)SG28 _ _ lethal (3) SG28 _ l(3)SG30 _ _ lethal (3) SG30 _ l(3)SG31 _ _ lethal (3) SG31 _ l(3)SG43 _ _ lethal (3) SG43 _ l(3)SG45 _ _ lethal (3) SG45 _ l(3)SG54 _ _ lethal (3) SG54 _ l(3)SG58 _ _ lethal (3) SG58 _ l(3)SG61 _ _ lethal (3) SG61 _ l(3)SG62 _ _ lethal (3) SG62 _ l(3)SG66 _ _ lethal (3) SG66 _ l(3)SG68 _ _ lethal (3) SG68 _ l(3)SG86 _ _ lethal (3) SG86 _ l(3)SG91 _ _ lethal (3) SG91 _ l(3)SzB87Da _ _ _ _ l(3)tb _ _ lethal (3) tumorous brain _ l(3)tk11 _ _ _ _ l(3)tk12 _ _ _ _ l(3)tk21 _ _ _ _ l(3)tl _ _ lethal (3) tumorous larvae _ l(3)tr _ _ lethal (3) translucida _ l(3)W _ _ _ _ l(3)W33B _ _ _ _ l(3)X1 _ _ _ _ l(3)X12 _ _ _ _ l(3)X2 _ _ _ _ l(3)X27 _ _ _ _ l(3)X39 _ _ _ _ l(3)X4 _ _ _ _ l(3)XaR _ _ lethal (3) XaR _ l(4)102ABd _ _ lethal (4) 102ABd _ l(4)102ABe _ _ lethal (4) 102ABe _ l(4)102ABf _ _ lethal (4) 102ABf _ l(4)102ABg _ _ lethal (4) 102ABg _ l(4)102ABh _ _ lethal (4) 102ABh _ l(4)102ABi _ _ lethal (4) 102ABi _ l(4)102Ca _ _ _ _ l(4)102CDb _ _ lethal (4) 102CDb _ l(4)102CDc _ _ lethal (4) 102CDc _ l(4)102CDd _ _ lethal (4) 102CDd _ l(4)102CDe _ _ lethal (4) 102CDe _ l(4)102CDf _ _ lethal (4) 102CDf _ l(4)102CDg _ _ lethal (4) 102CDg _ l(4)102CDh _ _ _ _ l(4)102CDi _ _ lethal (4) 102CDi _ l(4)102CDj _ _ lethal (4) 102CDj _ l(4)102CDk _ _ lethal (4) 102CDk _ l(4)102CDl _ _ lethal (4) 102CDl _ l(4)102CDm _ _ lethal (4) 102CDm _ l(4)102CDn _ _ lethal (4) 102CDn _ l(4)102CDo _ _ lethal (4) 102CDo _ l(4)102CDp _ _ lethal (4) 102CDp _ l(4)102CDq _ _ lethal (4) 102CDq _ l(4)102CDt _ _ lethal (4) 102CDt _ l(4)102CDu _ _ lethal (4) 102CDu _ l(4)102CDv _ _ lethal (4) 102CDv _ l(4)102EFa _ _ lethal (4) 102EFa _ l(4)102EFb _ _ lethal (4) 102EFb _ l(4)102EFd _ _ lethal (4) 102EFd _ l(4)102EFf _ _ lethal (4) 102EFf _ l(4)102Fa _ _ _ _ l(4)102Fc _ _ _ _ l(4)102Fd _ _ _ _ l(4)102Fe _ _ _ _ l(4)K-2 _ _ _ _ l(4)ry1 _ _ _ _ l(4)ry16 _ _ _ _ L12 _ _ L12 _ La _ _ La autoantigen-like "La is an essential gene that functions at multiple stages of development., La functions at multiple stages of Drosophila development." lab regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement _ labial _ Lac axonogenesis; GO:0007409 | inferred from sequence similarity with SWISS-PROT:Q26474 _ Lachesin _ lac _ _ lacquered _ lace _ _ lace _ lack TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490 _ lethal with a checkpoint kinase _ lad _ _ ladybird _ laf _ _ labial associated factor _ Lag1 _ _ Longevity assurance gene 1 _ lali _ _ _ _ Lam nuclear envelope reassembly; GO:0007084 | inferred from direct assay; nuclear envelope reassembly; GO:0007084 | inferred from sequence similarity with EMBL:D50080; protein_id:BAA08784 _ Lamin _ lama _ _ lamina ancestor _ LamC nuclear envelope reassembly; GO:0007084 | inferred from sequence similarity with EMBL:D50080; protein_id:BAA08784 _ Lamin C _ LanA female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Laminin A _ LanB1 embryonic morphogenesis; GO:0009795 | non-traceable author statement; histogenesis; GO:0009888 | non-traceable author statement; organogenesis; GO:0009887 | non-traceable author statement _ Laminin B1 "The three Laminin genes (LanA, LanB1 and LanB2) encode the, three subunits of laminin, a substrate adhesion molecule shown to be a, potent promoter of neurite outgrowth." LanB2 embryonic morphogenesis; GO:0009795 | non-traceable author statement; histogenesis; GO:0009888 | non-traceable author statement; organogenesis; GO:0009887 | non-traceable author statement _ Laminin B2 "The three Laminin genes (LanA, LanB1 and LanB2) encode the, three subunits of laminin, a substrate adhesion molecule shown to be a, potent promoter of neurite outgrowth." lap synaptic vesicle coating; GO:0016183 | traceable author statement; synaptic vesicle endocytosis; GO:0008099 | inferred from mutant phenotype _ like-AP180 _ Lap-6 _ _ Leucine aminopeptidase 6 _ Lap-A _ _ Leucine aminopeptidase A _ Lap-D _ _ Leucine aminopeptidase D _ Lap1 _ _ _ _ laph _ _ larval phototaxis _ Lar protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay _ Leukocyte-antigen-related-like _ lar _ _ larvaphile _ lark circadian rhythm; GO:0007623 | inferred from mutant phenotype _ lark "The lark RNA-binding protein oscillates in abundance during the circadian, cycle." larp _ _ La related protein _ larval-opioid-receptor G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ Las lipoic acid biosynthesis; GO:0009105 | inferred from sequence similarity with SGD:LIP5; SGDID:S0005722 _ Lipoic acid synthase _ Lasp _ _ _ _ lat DNA replication initiation; GO:0006270 | inferred from direct assay; olfactory learning; GO:0008355 | traceable author statement _ latheo _ lawc _ _ leg arista wing complex _ lbe _ _ ladybird early _ lbl _ _ ladybird late _ lbm synaptogenesis; GO:0007416 | inferred from mutant phenotype; synaptogenesis; GO:0007416 | non-traceable author statement _ late bloomer _ Lcch2 _ _ Ligand-gated chloride channel homolog 2 _ Lcch3 _ _ Ligand-gated chloride channel homolog 3 "Although Rdl and Lcch3 can coassemble in heterologous expression, systems they may not be found in the same tissues in the nervous system." Lcp1 _ _ Larval cuticle protein 1 _ Lcp10 _ _ Larval cuticle protein 10 _ Lcp11 _ _ Larval cuticle protein 11 _ Lcp2 _ _ Larval cuticle protein 2 _ Lcp2a _ _ _ _ Lcp3 _ _ Larval cuticle protein 3 _ Lcp4 _ _ Larval cuticle protein 4 _ Lcp6 _ _ Larval cuticle protein 6 _ Lcp65Aa _ _ _ _ Lcp65Ab1 _ _ _ _ Lcp65Ab2 _ _ _ _ Lcp65Ac _ _ _ _ Lcp65Ad _ _ _ _ Lcp65Ae _ _ _ _ Lcp65Af _ _ _ _ Lcp65Ag1 _ _ _ _ Lcp65Ag2 _ _ _ _ Lcp65Ag3 _ _ Larval cuticle protein _ Lcp7 _ _ Larval cuticle protein 7 _ Lcp9 _ _ Larval cuticle protein 9 _ lcs _ _ la costa _ ld _ _ loboid _ ld14 _ _ _ _ ldlCp exocytosis; GO:0006887 | inferred from sequence similarity with SWISS-PROT:Q14746; intra-Golgi transport; GO:0006891 | inferred from sequence similarity with SWISS-PROT:Q14746 _ ldlCp-related protein _ Ldlr _ _ acetylated low density lipoprotein receptor _ lds transcription termination; GO:0006353 | inferred from direct assay; transcription termination from Pol II promoter; GO:0006369 | inferred from sequence similarity with NCBI_gi:4507717 _ lodestar _ lea axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:robo; FB:FBgn0005631 _ leak _ lectin-21Ca _ _ _ _ lectin-21Cb _ _ _ _ lectin-22C _ _ _ _ lectin-24A _ _ _ _ lectin-24Da _ _ _ _ lectin-24Db _ _ _ _ lectin-24Fa _ _ _ _ lectin-24Fb _ _ _ _ lectin-28C _ _ _ _ lectin-29Ca _ _ _ _ lectin-30A _ _ _ _ lectin-33A _ _ _ _ lectin-37Da _ _ _ _ lectin-37Db _ _ _ _ lectin-46Ca _ _ _ _ lectin-46Cb _ _ _ _ Lectin-galC1 defense response; GO:0006952 | non-traceable author statement _ Galactose-specific C-type lectin _ lem _ _ lemon _ len _ _ leopard _ Les _ _ Lesbian _ Leucine-aminopeptidase _ _ Leucine aminopeptidase _ Leucokinin calcium-mediated signaling; GO:0019722 | non-traceable author statement _ Leucokinin "The Leucokinin peptide raises both fluid secretion rates and intracellular, Ca[2+] concentration in Malpighian tubules in vitro." lf _ _ little fly _ lfb _ _ little faint ball _ lfl _ _ little fly-like _ lgm _ _ lightminded _ Lgr3 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ _ _ lgs segment polarity determination; GO:0007367 | inferred from mutant phenotype; signal transduction; GO:0007165 | inferred from mutant phenotype _ legless "pygo and lgs are required for wg signal transduction at the level, of nuclear arm." lh _ _ late hatching _ lic activation of MAPK; GO:0000187 | inferred from direct assay; oocyte axis determination; GO:0007309 | inferred from mutant phenotype _ licorne _ lid _ _ little imaginal discs _ lie _ _ long island expressway _ lig _ _ lingerer "Males behave normally until the end of copulation when they have, difficulty in disconnecting their genitalia after copulation." ligatin _ _ ligatin _ lilli eye photoreceptor development (sensu Drosophila); GO:0042051 | inferred from genetic interaction with FLYBASE:phl; FB:FBgn0003079; regulation of cell size; GO:0008361 | inferred from mutant phenotype _ lilliputian "Maternal contribution of the lilli gene is important for formation, of segmentation pattern during embryogenesis." lim _ _ legs incomplete and malformed lim is involved in the proximo-distal patterning of the legs. Lim1 leg disc proximal/distal pattern formation; GO:0007479 | inferred from mutant phenotype; leg morphogenesis; GO:0007480 | inferred from mutant phenotype _ _ _ Lim3 _ _ _ _ limber _ _ limber limber has a function in dendritic development. limbo _ _ limbo _ Limbr1 _ _ _ _ LIMK1 actin cytoskeleton organization and biogenesis; GO:0030036 | non-traceable author statement; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ LIM-kinase1 _ limo _ _ _ _ lin epidermal differentiation; GO:0008544 | inferred from mutant phenotype; hindgut morphogenesis; GO:0007442 | inferred from mutant phenotype _ lines _ lin-28 _ _ _ _ lin19 _ _ lin-19-like "Northern analysis reveals lin19 is expressed in all developmental, stages with maximal expression on 0-4 hour embryos. In situ, hybridization demonstrates elevated transcription during oogenesis, and early embryogenesis. Maternally derived protein is also detected, in eggs of virgin females." linha regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype _ linha linha is required for a novel step in the localization of osk mRNA. lio associative learning; GO:0008306 | non-traceable author statement; olfactory learning; GO:0008355 | traceable author statement _ linotte lio is involved with learning and memory. Lip _ _ Lighten up _ LIP1 _ _ LAR-interacting protein 1 _ Lip1 _ _ Lipase 1 _ Lip2 _ _ Lipase 2 _ Lip3 _ _ _ _ Lipocalin _ _ Lipocalin _ lipophorin lipid transport; GO:0006869 | inferred from direct assay _ _ _ Liprin-alpha photoreceptor morphogenesis; GO:0008594 | inferred from mutant phenotype; synaptogenesis; GO:0007416 | inferred from mutant phenotype _ _ _ Lis1 microtubule-based movement; GO:0007018 | inferred from sequence similarity; oocyte nucleus migration; GO:0007312 | inferred from mutant phenotype _ Lissencephaly-1 _ lix _ _ little isoxanthopterin _ Lk6 microtubule-based process; GO:0007017 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ ll _ _ lanceolate _ lm _ _ limited _ lmd muscle development; GO:0007517 | inferred from mutant phenotype; somatic muscle development; GO:0007525 | inferred from mutant phenotype; somatic muscle development; GO:0007525 | inferred from mutant phenotype; somatic muscle development; GO:0007525 | inferred from mutant phenotype _ lame duck _ lmg _ _ lemming _ Lmpt _ _ Limpet _ Lnk _ _ _ _ lnp _ _ larval nonphototactic _ loco regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with SWISS-PROT:P97492 _ locomotion defects _ logo _ _ longitudinal gone _ loj oviposition; GO:0018991 | inferred from mutant phenotype _ logjam _ lok cell cycle checkpoint; GO:0000075 | inferred from sequence similarity with HUGO:CHEK2; OMIM:604373; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity with HUGO:CHEK2; OMIM:604373 _ loki lok encodes a serine/threonine protein kinase. lola axon guidance; GO:0007411 | inferred from mutant phenotype; axon guidance; GO:0007411 | inferred from mutant phenotype; axonogenesis; GO:0007409 | inferred from mutant phenotype _ longitudinals lacking "lola is required for required for pathfinding and targeting of the, SNb motor nerve. lola is a dose dependant regulator of SNb development." lolal _ _ lola like _ lon _ _ longevity _ lop _ _ lobula plateless _ los _ _ lost in space _ lot _ _ lot _ Lot-1 _ _ Lot 1 _ Low _ _ Lightener of white _ lox _ _ lysyl oxidase-like _ lox2 _ _ lysyl oxidase-like 2 _ LPA-AT _ _ Lysophosphatidate Acyltransferase _ lphA _ _ larval photokinesis A _ lphB _ _ larval photokinesis B _ lqf neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle endocytosis; GO:0008099 | non-traceable author statement _ liquid facets "faf and lqf facilitate endocytosis and antagonize ubiquitination., They function in common cells to generate an inhibitory signal that, prevents ectopic photoreceptor cell determination." Lrr47 _ _ Leucine-rich repeat 47 _ Lrr70C _ _ Leucine-repeat-protein-70C _ Lsdp1 lipid storage; GO:0019915 | non-traceable author statement _ Lipid storage droplets surface binding protein _ Lsp1alpha _ _ Larval serum protein 1 alpha _ Lsp1beta _ _ Larval serum protein 1 beta _ Lsp1gamma _ _ Larval serum protein 1 gamma _ Lsp2 _ _ Larval serum protein 2 _ lsr male meiosis; GO:0007140 | inferred from mutant phenotype _ loser _ lt eye pigment biosynthesis; GO:0006726 | non-traceable author statement; vacuole organization and biogenesis; GO:0007033 | non-traceable author statement _ light _ ltd _ _ lightoid "It is likely that this gene is required for the normal transport of, eye-pigment precursors." ltwt _ _ lightweight _ luc _ _ luckenhaft _ lush olfaction; GO:0007608 | inferred from mutant phenotype; olfaction; GO:0007608 | non-traceable author statement _ lush "lush is required for a normal olfactory response to a small subset, of odorants, including ethanol." lva cellularization; GO:0007349 | inferred from mutant phenotype; cellularization; GO:0007349 | non-traceable author statement _ lava lamp lva is required for cellularization in embryos. LvpD glucose metabolism; GO:0006006 | non-traceable author statement _ Larval visceral protein D _ LvpH glucose metabolism; GO:0006006 | non-traceable author statement _ Larval visceral protein H _ LvpL glucose metabolism; GO:0006006 | non-traceable author statement _ Larval visceral protein L _ lwr protein-nucleus import; GO:0006606 | inferred from physical interaction with FLYBASE:dl; FB:FBgn0000462; zygotic determination of dorsal/ventral axis; GO:0007352 | inferred from genetic interaction with FLYBASE:cact; FB:FBgn0000250; zygotic determination of dorsal/ventral axis; GO:0007352 | inferred from genetic interaction with FLYBASE:dl; FB:FBgn0000462 _ lesswright _ lxd _ _ low xanthine dehydrogenase _ Ly photoreceptor morphogenesis; GO:0008594 | inferred from genetic interaction with FLYBASE:ro; FB:FBgn0003267 _ Lyra _ lys _ _ lysine _ LysA _ _ Lysozyme A _ LysB antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ Lysozyme B _ LysC antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ Lysozyme C _ LysD antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ Lysozyme D _ LysE antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ Lysozyme E _ LysP antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ Lysozyme P _ LysS antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ Lysozyme S _ LysX antimicrobial humoral response (sensu Invertebrata); GO:0006960 | non-traceable author statement _ Lysozyme X _ LYT106 _ _ _ _ lz oogenesis; GO:0007292 | traceable author statement _ lozenge _ lzl _ _ lozengelike _ m _ _ miniature _ malpha N receptor signaling pathway; GO:0007219 | non-traceable author statement _ E(spl) region transcript malpha "m4 and malpha are involved in N mediated lateral inhibition in, sensory organ precursor singularization." M(1)11F _ _ Minute (1) 11F _ M(1)13A _ _ Minute (1) 13A _ M(1)14C _ _ Minute (1) 14C _ M(1)14E _ _ _ _ M(1)15DEF _ _ Minute (1) 15DEF _ M(1)18C _ _ Minute (1) 18C _ M(1)3E _ _ Minute (1) 3E _ M(1)4BC _ _ Minute (1) 4BC _ M(1)5A _ _ Minute (1) 5A _ M(1)7BC _ _ Minute (1) 7BC _ M(1)7C _ _ Minute _ M(1)8F _ _ Minute (1) 8F _ M(1)k _ _ Minute (1) k _ M(2)201 _ _ _ _ M(2)21AB S-adenosylmethionine biosynthesis; GO:0006556 | non-traceable author statement; one-carbon compound metabolism; GO:0006730 | non-traceable author statement _ Minute (2) 21AB _ M(2)24D _ _ Minute (2) 24D _ M(2)24F _ _ Minute (2) 24F _ M(2)25C _ _ Minute (2) 25C _ M(2)31A _ _ Minute (2) 31A _ M(2)36F _ _ Minute (2) 36F _ M(2)39F _ _ Minute (2) 39F _ M(2)40c _ _ Minute (2) 40c _ M(2)41A _ _ Minute (2) 41A _ M(2)44C _ _ Minute (2) 44C _ M(2)53 _ _ Minute (2) 53 _ M(2)56CD _ _ Minute (2) 56CD _ M(2)56F _ _ Minute (2) 56F _ M(2)58F _ _ Minute (2) 58F _ M(2)OE227 _ _ _ _ M(2)p _ _ Minute (2) p _ M(3)100CF _ _ Minute (3) 100CF _ M(3)40l30 _ _ _ _ M(3)62A _ _ Minute (3) 62A _ M(3)63B _ _ Minute (3) 63B _ M(3)65F _ _ Minute (3) 65F _ M(3)69E _ _ Minute (3) 69E _ M(3)76A _ _ Minute (3) 76A _ M(3)80 _ _ Minute (3) 80 _ M(3)82BC _ _ Minute (3) 82BC _ M(3)85E _ _ Minute (3) 85E _ M(3)86D _ _ Minute (3) 86D _ M(3)96A _ _ Minute (3) 96A _ M(3)96C _ _ Minute (3) 96C _ M(3)96CF _ _ Minute (3) 96CF _ M(3)99B _ _ Minute (3) 99B _ M(3)99E _ _ Minute (3) 99E _ M(3)S32 _ _ Minute (3) S32 _ M(3)S35 _ _ Minute (3) S35 _ M(3)S36 _ _ Minute (3) 36 _ M(3)x _ _ Minute (3) x _ m(Est-6) _ _ modifier of Esterase 6 _ M(Sd) _ _ Modifier of Sd _ m1 _ _ E(spl) region transcript m1 _ M1-52 _ _ _ _ m11 _ _ E(spl) region transcript m11 _ m2 N receptor signaling pathway; GO:0007219 | non-traceable author statement _ E(spl) region transcript m2 _ M285 _ _ _ M285 plays a general role in N signaling. m4 N receptor signaling pathway; GO:0007219 | non-traceable author statement _ E(spl) region transcript m4 "m4 and malpha are involved in N mediated lateral inhibition in, sensory organ precursor singularization." M6 _ _ _ _ m6 _ _ E(spl) region transcript m6 _ M80-11 _ _ _ _ M80-39 _ _ _ _ M80-A32 _ _ _ _ M80-A33 _ _ _ _ M82-19 _ _ _ _ ma _ _ maroon _ mab _ _ malformed abdomen _ mab-2 _ _ _ _ Mab11B5 _ _ Monoclonal antibody 11B5 _ Mab13D2 _ _ Monoclonal antibody 13D2 _ Mab13G5 _ _ Monoclonal antibody 13G5 _ Mab3 _ _ Monoclonal antibody 3 _ Mab4A11 _ _ Monoclonal antibody 4A11 _ Mab66B2 _ _ Monoclonal antibody 66B2 _ Mab77H5 _ _ Monoclonal antibody 77H5 _ MabF7D6 protein amino acid phosphorylation; GO:0006468 | inferred from direct assay _ MabF7D6 _ Mabfb45 _ _ Monoclonal antibody fb45 _ Mabnc82 _ _ Monoclonal antibody nc82 _ mAcR-60C "acetyl choline receptor signaling, muscarinic pathway; GO:0007213 | inferred from sequence similarity" _ muscarinic Acetylcholine Receptor 60C "The pharmacological properties of the mAcR-60C protein, as measured, after expression in monkey COS-7 cells and Xenopus oocytes, is similar to, that of the mammalian M[[1]] and M[[3]] subtypes." Mad TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490; TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:tkv; FB:FBgn0003716; TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:wg; FB:FBgn0004009 _ Mothers against dpp _ Mad-3E _ _ _ _ Mads-1 _ _ _ _ Mads-2 _ _ _ _ Mads-3 _ _ _ _ Mads-4 _ _ _ _ mae _ _ modulator of the activity of Ets "mae encodes a signaling intermediate that directly links the MAPK, signaling pathway to its downstream transcription factor targets." mael oocyte nucleus migration; GO:0007312 | inferred from mutant phenotype _ maelstrom _ maf-S _ _ _ _ maf1 _ _ _ _ maf2 _ _ _ _ MAGE _ _ _ _ Magi _ _ _ "Magi protein could play a role in coupling activin-dependent, signaling to translational control and/or to the transport of RNAs." mago protein localization; GO:0008104 | inferred from physical interaction with FLYBASE:tsu; FB:FBgn0033378 _ mago nashi _ mah _ _ mahogany _ Mal _ _ Malformed _ mal Mo-molybdopterin cofactor biosynthesis; GO:0006777 | non-traceable author statement _ maroon-like _ mali _ _ _ _ mam N receptor signaling pathway; GO:0007219 | non-traceable author statement; mesoderm cell fate determination; GO:0007500 | inferred from mutant phenotype _ mastermind _ mama _ _ maternal metaphase arrest _ man _ _ mandarin _ alpha-Man-4 _ _ alpha Mannosidase 4 _ alpha-Man-I N-linked glycosylation; GO:0006487 | inferred from sequence similarity with MGD:Man1b; MGI:MGI:104676 _ alpha Mannosidase I "Structural gene encoding alpha-mannosidase I; The absence of an obvious, mutant phenotype suggests that the mannose trimming pathway of N-linked, glycoprotein processing is genetically and biochemically redundant." alpha-Man-II N-linked glycosylation; GO:0006487 | non-traceable author statement; protein amino acid glycosylation; GO:0006486 | inferred from sequence similarity with MGD:Man2a1; MGI:MGI:104669 _ alpha Mannosidase II _ alpha-Man-IIb _ _ _ _ Mao _ _ Monoamine oxidase _ Map205 microtubule-based process; GO:0007017 | inferred from sequence similarity; microtubule-based process; GO:0007017 | non-traceable author statement _ Microtubule-associated protein 205 "Map205 has been cloned and sequenced. Deletion analysis has identified, a 232 amino acid region within the Map205 protein (from amino acid 723 to, 955) which is necessary for full microtubule-binding activity. The activity, of the Map205 protein may be regulated by alternative splicing and, phosphorylation." Map60 microtubule-based process; GO:0007017 | inferred from sequence similarity _ Microtubule-associated protein 60 _ Map85 _ _ Microtubule-associated protein 85 "An 85kD MAP protein isolated from larvae that specifically binds beta2, tubulin (betaTub85D). Affinity purified MAP85 enhances microtubule, assembly in a concentration-dependent manner. Antibodies to mammalian, tau proteins recognize Map85 protein." mapA _ _ midgut amylase pattern AMG _ MAPk-Ak2 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ MAP kinase activated protein-kinase-2 _ Mapmodulin microtubule-based process; GO:0007017 | inferred from sequence similarity _ Mapmodulin _ mapP _ _ midgut amylase pattern PMG _ Mar _ _ Margin _ mar _ _ metaphase arrest _ Marf mitochondrion organization and biogenesis; GO:0007005 | non-traceable author statement _ Mitochondrial assembly regulatory factor _ mas _ _ masquerade _ Masc29a _ _ _ "Remarkably specific expression pattern of Masc29a suggests a role, in the perception by males of courtship-modulating pheromones." mask cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity with EMBL:Z26634; protein_id:CAB42644.1; cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity with PIR:A55575; transmembrane receptor protein tyrosine kinase signaling pathway; GO:0007169 | inferred from genetic interaction with FLYBASE:Ras85D; FB:FBgn0003205; transmembrane receptor protein tyrosine kinase signaling pathway; GO:0007169 | inferred from genetic interaction with FLYBASE:csw; FB:FBgn0000382; transmembrane receptor protein tyrosine kinase signaling pathway; GO:0007169 | inferred from genetic interaction with FLYBASE:sev; FB:FBgn0003366 _ multiple ankyrin repeats single KH domain _ mat(2)cell-B _ _ maternal effect cellularization defect B _ mat(2)cell-C _ _ maternal effect cellularization defect C _ mat(2)cell-D _ _ maternal effect cellularization defect D _ mat(2)cell-E _ _ maternal effect cellularization defect E _ mat(2)cell-F _ _ maternal effect cellularization defect F _ mat(2)cell-G _ _ maternal effect cellularization defect G _ mat(2)cell-I _ _ maternal effect cellularization defect I _ mat(2)cell-J _ _ maternal effect cellularization defect J _ mat(2)cell-K _ _ maternal effect cellularization defect K _ mat(2)cell-L _ _ maternal effect cellularization defect L _ mat(2)ea-A _ _ maternal effect early arrest A _ mat(2)ea-B _ _ maternal effect early arrest B _ mat(2)ea-C _ _ maternal effect early arrest C _ mat(2)ea-D _ _ maternal effect early arrest D _ mat(2)ea-F _ _ maternal effect early arrest F _ mat(2)ea-H _ _ maternal effect early arrest H _ mat(2)N _ _ maternal lethal (2) Notchlike _ mat(2)syn-B _ _ maternal effect syncytial blastoderm arrest B _ mat(2)syn-D _ _ maternal effect syncytial blastoderm arrest D _ mat(2)syn-E _ _ maternal effect syncytial blastoderm arrest E _ mat(2)syn-G _ _ maternal effect syncytial blastoderm arrest G _ mat(2)syn-H _ _ maternal effect syncytial blastoderm arrest H _ mat(2)syn-I _ _ maternal effect syncytial blastoderm arrest I _ mat(2)twg _ _ maternal effect twisted gastrulation _ mat(3)1 _ _ maternal lethal 1 _ mat(3)3 _ _ maternal lethal 3 "mat(3)3 function is essential only for oogenesis and not for any, other period of development." Mat1 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:MNAT1; OMIM:602659; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TFB3; SGDID:S0002868 _ _ _ Mat89Ba _ _ Maternal transcript 89Ba _ Mat89Bb _ _ Maternal transcript 89Bb _ mav TGFbeta receptor signaling pathway; GO:0007179 | inferred from sequence similarity with MGD:Bmp2; MGI:MGI:88177 _ maverick _ Max _ _ _ _ maz _ _ matzerath _ mbc larval visceral muscle development; GO:0007523 | inferred from mutant phenotype; myoblast fusion; GO:0007520 | inferred from mutant phenotype _ myoblast city _ mbd olfactory learning; GO:0008355 | traceable author statement _ mushroom body deranged _ MBD2-3 _ _ _ _ mbf1 _ _ multiprotein bridging factor 1 _ mbm olfactory learning; GO:0008355 | traceable author statement _ mushroom body miniature _ mbmB _ _ mushroom body miniature B _ mbmC _ _ mushroom body miniature C _ mbo antimicrobial humoral response (sensu Invertebrata); GO:0006960 | inferred from mutant phenotype; protein-nucleus import; GO:0006606 | inferred from mutant phenotype _ members only mbo has a suggested role in signal transduction. MBP1 _ _ MBT-binding protein 1 _ mbr _ _ mushroom bodies reduced _ Mbs dorsal closure; GO:0007391 | inferred from mutant phenotype; dorsal closure; GO:0007391 | inferred from mutant phenotype _ Myosin binding subunit _ mbt protein amino acid phosphorylation; GO:0006468 | non-traceable author statement; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ mushroom bodies tiny "mbt could be part of a general mechanism regulating cell number in, a variety of neuronal tissues." mc _ _ microchaetae _ mc-44A _ _ mc-44A _ Mcc _ _ _ _ mcd _ _ microdiscs _ mcd1 _ _ muscle cell death 1 _ mcd2 _ _ muscle cell death 2 _ Mcm10 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; pre-replicative complex formation and maintenance; GO:0006267 | non-traceable author statement _ Sensitized chromosome inheritance modifier 19 "Mcm10 interacts with members of the pre-RC and is required for proper, chromosome condensation." Mcm2 pre-replicative complex formation and maintenance; GO:0006267 | inferred from sequence similarity with SGD:MCM2; SGDID:S0000119 _ Minichromosome maintenance 2 _ Mcm3 pre-replicative complex formation and maintenance; GO:0006267 | inferred from sequence similarity with SGD:MCM3; SGDID:S0000758; pre-replicative complex formation and maintenance; GO:0006267 | non-traceable author statement _ Minichromosome maintenance 3 _ Mcm5 pre-replicative complex formation and maintenance; GO:0006267 | inferred from sequence similarity with MGD:Mcmd5; MGI:MGI:103197 _ Minichromosome maintenance 5 _ Mcm6 oogenesis; GO:0007292 | traceable author statement; pre-replicative complex formation and maintenance; GO:0006267 | inferred from sequence similarity with MGD:Mcmd6; MGI:MGI:1298227 _ Minichromosome maintenance 6 _ Mcm7 pre-replicative complex formation and maintenance; GO:0006267 | inferred from sequence similarity with MGD:Mcmd7; MGI:MGI:1298398; pre-replicative complex formation and maintenance; GO:0006267 | non-traceable author statement _ Minichromosome maintenance 7 _ Mcr _ _ Macroglobulin complement-related Transcription unit defined as part of a molecular analysis of Trf. Mct1 _ _ Monocarboxylate transporter 1 _ md _ _ melanotic lesions _ md1 _ _ muscle disorganized 1 _ Mdh _ _ _ _ Mdh1 _ _ Malate dehydrogenase 1 "Mdh1 enzyme activity has been measured in D.melanogaster lines in, which spontaneous mutations have accumulated over approximately 300, mutations." Mdh2 _ _ Malate dehydrogenase 2 _ mdl _ _ male diplolethal _ mdm _ _ many discs missing _ Mdp-1 _ _ Macrophage derived proteoglycan-1 "Mdp-1 encodes a large proteoglycan molecule which is secreted exclusively, by migratory embryonic hemocytes/macrophages." Mdr49 _ _ Multi drug resistance 49 _ Mdr50 _ _ Multi drug resistance 50 _ Mdr65 _ _ Multiple drug resistance 65 _ mdy aspartyl-tRNA aminoacylation; GO:0006422 | inferred from sequence similarity with SGD:MSD1; SGDID:S0006025 _ midway _ Me _ _ Moire _ me31B _ _ maternal expression at 31B _ mecA mechanosensory perception; GO:0007609 | inferred from mutant phenotype _ mechanosensory A _ mecB mechanosensory perception; GO:0007609 | inferred from mutant phenotype _ mechanosensory B _ mecC mechanosensory perception; GO:0007609 | inferred from mutant phenotype _ mechanosensory C _ mecD mechanosensory perception; GO:0007609 | inferred from mutant phenotype _ mechanosensory D _ mecE mechanosensory perception; GO:0007609 | inferred from mutant phenotype _ mechanosensory E _ Med TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490; TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:tkv; FB:FBgn0003716; TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:zen; FB:FBgn0004053; TGFbeta receptor signaling pathway; GO:0007179 | inferred from sequence similarity with HUGO:MADH4; OMIM:600993 _ Medea _ Med10 _ _ _ _ Med20 _ _ _ _ Med21 _ _ _ _ Med23 _ _ _ _ Med24 _ _ _ _ Med6 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with EMBL:AF074723 _ _ _ Med7 transcription from Pol II promoter; GO:0006366 | non-traceable author statement _ _ _ medo _ _ medo medo interacts genetically with genes of the DJNK/DJUN pathway. Mef2 mesoderm development; GO:0007498 | inferred from mutant phenotype; regulation of myogenesis; GO:0016202 | traceable author statement _ Myocyte enhancing factor 2 _ Meg _ _ _ _ mei(1)g13 _ _ _ _ mei-1 _ _ meiotic 1 _ mei-1029 _ _ meiotic 1029 _ mei-1223 _ _ _ _ mei-160 _ _ _ _ mei-1725 _ _ _ _ mei-1916 _ _ _ _ mei-1946 _ _ meiotic 1946 _ mei-1966 _ _ meiotic 1966 _ mei-217 meiotic recombination; GO:0007131 | inferred from mutant phenotype _ _ "mei-217 is a typical meiotic recombination precondition"" gene.""" mei-218 meiotic recombination; GO:0007131 | traceable author statement _ meiotic 218 _ mei-2185 _ _ meiotic 2185 _ mei-2199 _ _ meiotic 2199 _ mei-2220 _ _ meiotic 2220 _ mei-2245 _ _ meiotic 2245 _ mei-2439 _ _ meiotic 2439 _ mei-251 _ _ meiotic 251 _ mei-2593 _ _ meiotic 2593 _ mei-2606 _ _ meiotic 2606 _ mei-269 _ _ _ _ mei-352 _ _ meiotic 352 "The mei-352[+] gene product is required both during meiosis and, mitosis." mei-38 _ _ _ _ mei-41 regulation of mitosis; GO:0007088 | inferred from genetic interaction with FLYBASE:dup; FB:FBgn0000996 _ meiotic 41 _ mei-9 chromosome segregation; GO:0007059 | inferred from mutant phenotype; meiotic recombination; GO:0007131 | inferred from mutant phenotype; mismatch repair; GO:0006298 | inferred from mutant phenotype; nucleotide-excision repair; GO:0006289 | inferred from mutant phenotype _ meiotic 9 _ mei-99 _ _ _ _ mei-B _ _ meiotic B _ mei-G17 _ _ meiotic G17 _ mei-G87 _ _ meiotic G87 _ mei-I1 _ _ meiotic I1 _ mei-I3 _ _ meiotic I3 _ mei-O81 _ _ meiotic O81 _ mei-P14 _ _ _ _ mei-P15 _ _ _ _ mei-P19 _ _ meiotic P19 _ mei-P22 _ _ meiotic P22 _ mei-P23 _ _ _ _ mei-P26 _ _ _ _ mei-P37 _ _ _ _ mei-P38 _ _ _ _ mei-P44 _ _ _ _ mei-P8 _ _ _ _ mei-S282 _ _ meiotic S282 "The mei-S282[+] gene product is required both during meiosis and, mitosis." mei-S332 sister chromatid cohesion; GO:0007062 | inferred from mutant phenotype _ meiotic S332 _ mei-S51 _ _ meiotic S51 _ mei-S8 _ _ meiotic S8 _ mei-S82 _ _ _ _ mei-T3 _ _ _ _ mei-W68 meiotic recombination; GO:0007131 | traceable author statement _ meiotic W68 _ mei-yh92 _ _ _ _ Mei66F _ _ Meiotic 66F-67A _ Meics male meiosis; GO:0007140 | inferred from expression pattern; spermatogenesis; GO:0007283 | inferred from expression pattern _ Meiotic central spindle _ Mekk1 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement; protein amino acid phosphorylation; GO:0006468 | traceable author statement _ _ _ mel _ _ melanized _ mell _ _ melanized-like _ melt _ _ melted _ Meltrin-alpha _ _ _ _ membrin vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ membrin _ Men _ _ Malic enzyme _ Menl-1 _ _ _ _ Menl-2 _ _ _ _ Mer axis determination; GO:0007309 | inferred from mutant phenotype; negative regulation of imaginal disc growth; GO:0045571 | traceable author statement _ Merlin _ mer _ _ merlin _ meringue _ _ _ _ Mes-4 _ _ _ _ mesA _ _ messy A _ mesB _ _ messy B _ MESK1 _ _ Misexpression Suppressor of KDN 1 _ MESK2 _ _ Misexpression suppressor of KSR 2 _ MESK3 _ _ Misexpression Suppressor of KDN 3 _ MESK4 _ _ Misexpression suppressor of KSR 4 _ meso1 _ _ _ _ meso17A _ _ mesoderm specific 17A _ meso18E _ _ _ _ meso2 _ _ _ _ meso3 _ _ _ _ meso4 _ _ _ _ meso60A _ _ mesoderm specific 60A _ MESR3 _ _ Misexpression suppressor of ras 3 _ MESR4 _ _ Misexpression suppressor of ras 4 _ MESR6 _ _ Misexpression suppressor of ras 6 _ Met _ _ Metatarsi irregular _ Met75Ca _ _ _ _ Met75Cb _ _ _ _ metastasis-associated-1-like-protein _ _ _ _ methyl-CpG-binding-domain-like-protein _ _ _ _ Methyl-transferase-like _ _ Methyl transferase like _ metl _ _ methyltransferase-like _ mew wing morphogenesis; GO:0007476 | inferred from mutant phenotype _ multiple edematous wings _ mex _ _ Malic enzyme modifier _ mex1 embryonic morphogenesis; GO:0009795 | non-traceable author statement; midgut development; GO:0007494 | non-traceable author statement _ midgut expression 1 _ mfas axonogenesis; GO:0007409 | inferred from mutant phenotype _ midline fasciclin _ Mfcp _ _ Myofibrillar contractile protein _ mfd _ _ myofibrillar defect _ mfs(2)1 _ _ _ _ mfs(2)ry10 _ _ _ _ mfs(3)1 _ _ _ _ mfs(3)73A _ _ male female sterile 73A _ mfs(3)8 _ _ _ _ mfs(3)D4 _ _ _ _ mfs(3)D83 _ _ _ _ Mgat1 _ _ "UDP-GlcNAc:a-3-D-mannoside-beta-1,2-N-acetylglucosaminyltransferase I" _ Mgat2 terminal N-glycosylation; GO:0006496 | non-traceable author statement _ _ _ mge _ _ maggie _ mgr _ _ merry-go-round _ Mgstl _ _ Microsomal glutathione S-transferase-like _ mh mitosis; GO:0007067 | inferred from mutant phenotype _ maternal haploid _ Mhc striated muscle contraction; GO:0006941 | traceable author statement _ Myosin heavy chain _ MHC95F-associated-protein _ _ MHC95F-associated protein Encodes a protein that is found associated with the jar product. Mhcl _ _ Myosin heavy chain-like _ mi nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype _ minus _ Mi-2 _ _ _ "It is proposed that Mi-2 defines a novel family of chromatin remodelling, complex that is mechanistically distinct from both Iswi and SWI/SNF." MI02 _ _ _ _ mia _ _ meiosis I arrest _ MICAL axon guidance; GO:0007411 | inferred from mutant phenotype _ _ _ mid _ _ midline _ mie _ _ michelangelo _ milo _ _ _ _ milou _ _ _ _ milton axon transport of mitochondrion; GO:0019896 | non-traceable author statement _ milton _ min _ _ mini _ mini-dumpy _ _ _ _ Mio _ _ Mlx interactor _ mio maintenance of oocyte identity; GO:0016350 | inferred from mutant phenotype _ missing oocyte _ MIP _ _ _ _ miple _ _ _ _ miple2 _ _ _ _ Mipp1 _ _ Multiple inositol polyphosphate phosphatase 1 _ Mipp2 _ _ Multiple inositol polyphosphate phosphatase 2 _ mira asymmetric protein localization; GO:0008105 | inferred from genetic interaction with FLYBASE:pros; FB:FBgn0004595; asymmetric protein localization; GO:0008105 | inferred from physical interaction with FLYBASE:pros; FB:FBgn0004595 _ miranda _ mirr _ _ mirror _ mis _ _ misproportioned _ mis-b _ _ _ _ miscue _ _ miscue Encodes a novel protein of 355 amino acids expressed mainly in the LPC region. misn _ _ missensed _ misp _ _ misstep _ Mistr _ _ Mist 1-related _ mit _ _ mitotic loss inducer _ mit(1)10 _ _ mitotic 10 _ mit(1)11 _ _ mitotic 11 _ mit(1)13 _ _ mitotic 13 _ mit(1)14 _ _ mitotic 14 _ mit(1)15 chromosome segregation; GO:0007059 | non-traceable author statement; mitotic chromosome segregation; GO:0000070 | inferred from mutant phenotype _ mitotic 15 _ mit(1)17 _ _ mitotic 17 _ mit(1)18 _ _ mitotic 18 _ mit(1)2 _ _ mitotic 2 _ mit(1)20 _ _ mitotic 20 _ mit(1)21 _ _ mitotic 21 _ mit(1)3 _ _ mitotic 3 _ mit(1)4 _ _ mitotic 4 _ mit(1)6 _ _ mitotic 6 _ mit(1)7 _ _ mitotic 7 _ mk oogenesis; GO:0007292 | traceable author statement _ murky _ mkf _ _ mokkaife _ Mkk3 TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction _ _ _ Mkk4 activation of JUN kinase; GO:0007257 | inferred from direct assay _ MAP kinase kinase 4 _ Mkp protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ MAP kinase-specific phosphatase "A MAP kinase-specific phosphatase activity was found to be activated by, heat-shock to Schneider 2 cells. The gene was identified using a H.sapiens, 'PAC1' probe." Mkp3 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Mitogen-activated protein kinase phosphatase 3 _ Mkrn1 _ _ Makorin 1 _ ml _ _ minute-like _ Mlc-c _ _ Myosin light chain cytoplasmic _ Mlc1 _ _ Myosin alkali light chain 1 "Variation of a microsatellite within the Mlc1 locus has been studied, in North American populations of D.melanogaster." Mlc2 _ _ Myosin light chain 2 _ mle dosage compensation; GO:0007549 | inferred from mutant phenotype _ maleless _ Mlf _ _ Myelodysplasia/myeloid leukemia factor _ Mlh1 mismatch repair; GO:0006298 | inferred from sequence similarity; mismatch repair; GO:0006298 | inferred from sequence similarity with EMBL:U80054 _ _ _ mln eggshell formation; GO:0007304 | inferred from mutant phenotype _ muslin _ Mlp60A regulation of myogenesis; GO:0016202 | non-traceable author statement _ Muscle LIM protein at 60A _ Mlp84B cell differentiation; GO:0030154 | non-traceable author statement; myogenesis; GO:0007519 | non-traceable author statement _ Muscle LIM protein at 84B _ mlt _ _ mulet _ mm embryonic morphogenesis; GO:0009795 | inferred from mutant phenotype; muscle development; GO:0007517 | inferred from mutant phenotype; photoreceptor differentiation; GO:0007467 | inferred from mutant phenotype _ mindmelt _ mmd _ _ mind-meld _ mmei-1 _ _ _ _ Mmp1 tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ Matrix metalloproteinase 1 _ Mmp2 oogenesis; GO:0007292 | inferred from mutant phenotype _ Matrix metalloproteinase 2 _ MMS-1 _ _ _ _ MMS-2 _ _ _ _ MMS-3 _ _ _ _ MMS-4 _ _ _ _ MMS-6 _ _ _ _ Mms19 DNA repair; GO:0006281 | non-traceable author statement _ _ _ mmy _ _ mummy _ mn _ _ manikin _ mnb circadian rhythm; GO:0007623 | inferred from genetic interaction with FLYBASE:so; FB:FBgn0003460 _ minibrain _ mnd _ _ minidiscs "The fat body may respond to amino acid uptake by the mnd transporter, by secreting a factor that is required for imaginal disc maturation, and proliferation." mng _ _ mango _ Mnn1 _ _ Menin 1 _ Mnt _ _ _ _ Mo15 _ _ _ _ Mo25 _ _ Mo25 _ moa _ _ moa _ Mob _ _ Modifier of B1-12 _ moch _ _ mochtegern _ Mocs1 Mo-molybdopterin cofactor biosynthesis; GO:0006777 | non-traceable author statement _ Molybdenum cofactor synthesis-step 1 protein A _ mod _ _ modulo _ mod(mdg4) germ-cell migration; GO:0008354 | inferred from genetic interaction with FLYBASE:wun2; FB:FBgn0041087 _ modifier of mdg4 "mod(mdg4) protein induces rapid apoptosis in insect cells. The carboxy, terminal encoded by the 3' exon is responsible for the induction of, apoptosis and the engagement of IAPs." mod(r) _ _ modifier of rudimentary _ mod(r)1 _ _ modulator of rudimentary 1 _ mod(r)2 _ _ modulator of rudimentary 2 _ Mod(rst)B42 _ _ _ _ Mod(rst)D252 _ _ _ _ Mod(rst)D264 _ _ _ _ Mod(rst)E188 _ _ _ _ Mod(rst)K35 _ _ _ _ Mod(rst)K46 _ _ _ _ Mod(rst)K58 _ _ _ _ Mod(var)1025 _ _ _ _ Mod(var)1038 _ _ _ _ Mod(var)1044 _ _ _ _ Mod(var)1094 _ _ _ _ Mod(var)1116 _ _ _ _ Mod(var)1126 _ _ _ _ Mod(var)1128 _ _ _ _ Mod(var)1144 _ _ _ _ Mod(var)1173 _ _ _ _ Mod(var)1181 _ _ _ _ Mod(var)1200 _ _ _ _ Mod(var)1205 _ _ _ _ Mod(var)1227 _ _ _ _ Mod(var)1250 _ _ _ _ Mod(var)1259 _ _ _ _ Mod(var)1260 _ _ _ _ Mod(var)1294 _ _ _ _ Mod(var)1309 _ _ _ _ Mod(var)1310 _ _ _ _ Mod(var)1317 _ _ _ _ Mod(var)1322 _ _ _ _ Mod(var)1328 _ _ _ _ Mod(var)1356 _ _ _ _ Mod(var)1367 _ _ _ _ Mod(var)1420 _ _ _ _ Mod(var)1429 _ _ _ _ Mod(var)1444 _ _ _ _ Mod(var)1447 _ _ _ _ Mod(var)1453 _ _ _ _ Mod(var)1457 _ _ _ _ Mod(var)1474 _ _ _ _ Mod(var)1485 _ _ _ _ Mod(var)1515 _ _ _ _ Mod(var)1535 _ _ _ _ Mod(var)1539 _ _ _ _ Mod(var)1540 _ _ _ _ Mod(var)1551 _ _ _ _ Mod(var)1552 _ _ _ _ Mod(var)1557 _ _ _ _ Mod(var)1602 _ _ _ _ Mod(var)1641 _ _ _ _ Mod(var)1650 _ _ _ _ Mod(var)1657 _ _ _ _ Mod(var)1658 _ _ _ _ Mod(var)1683 _ _ _ _ Mod(var)177 _ _ _ _ Mod(var)224 _ _ _ _ Mod(var)234 _ _ _ _ Mod(var)242 _ _ _ _ Mod(var)26 _ _ _ _ Mod(var)600 _ _ _ _ Mod(var)E1047 _ _ _ _ Mod(var)E1060 _ _ _ _ Mod(var)E113 _ _ _ _ Mod(var)E1178 _ _ _ _ Mod(var)E1261 _ _ _ _ Mod(var)E1275 _ _ _ _ Mod(var)E1350 _ _ _ _ Mod(var)E1377 _ _ _ _ Mod(var)E1451 _ _ _ _ Mod(var)E1672 _ _ _ _ Mod(var)E226 _ _ _ _ Mod(var)E646 _ _ _ _ Mod(var)E69 _ _ _ _ mod86 _ _ _ _ Moe _ _ Moesin-like Transcript induced by MMS treatment of S1CII cells. mof dosage compensation; GO:0007549 | inferred from genetic interaction with FLYBASE:msl-2; FB:FBgn0005616; dosage compensation; GO:0007549 | inferred from mutant phenotype _ males absent on the first _ mog _ _ mogura _ moi _ _ modigliani _ mor chromatin modeling; GO:0006338 | non-traceable author statement; chromatin modeling; GO:0006338 | non-traceable author statement _ moira "mor is required for the function of multiple homeotic genes of the, ANTC and BXC in most imaginal tissues." morgue apoptosis; GO:0006915 | inferred from mutant phenotype; apoptosis; GO:0006915 | non-traceable author statement _ morgue _ Mos _ _ _ _ mot-32l _ _ mottled 32l _ mot-36e _ _ mottled 36e _ Mot-K _ _ Mottled K _ Motor-protein _ _ Motor protein _ mousse _ _ _ _ Mov34 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD7; OMIM:157970; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN8; SGDID:S0005787 _ Mov34 _ Mow _ _ Modifier of white _ mow _ _ mosaic wings _ moz _ _ mozzarella _ Mp _ _ Membrane protein _ Mp20 _ _ Muscle protein 20 "Variation of a microsatellite within the Mp20 locus has been studied, in North American populations of D.melanogaster." Mpcp phosphate transport; GO:0006817 | inferred from sequence similarity; phosphate transport; GO:0006817 | inferred from sequence similarity with SWISS-PROT:P16036 _ Mitochondrial phosphate carrier protein _ Mpe _ _ Monoplane _ Mpi _ _ Mannose phosphate isomerase _ Mpk2 immune response; GO:0006955 | inferred from direct assay; osmotic response; GO:0006970 | inferred from direct assay; stress response; GO:0006950 | inferred from direct assay _ _ _ Mpk2B protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ "An MAPK protein, it is very unusual in that it lacks a MAPKK, phosphorylation site." mpl-1 _ _ male prothoracic leg 1 "Selected by a subtractive sreen for genes expressed in the male, prothoracic leg." mpl-2 _ _ male prothoracic leg 2 "Selected by a subtractive sreen for genes expressed in the male, prothoracic leg." Mpp6 _ _ M-phase phosphoprotein 6 _ mpt-1 _ _ _ _ MR _ _ Male recombination factor "In Eurasian populations collected in 1977-1992 between 18 and 40% of, second chromosomes show MR activity." mr _ _ morula "mr is required to maintain the absence of mitosis during the endo, cycle, and is also necessary for dividing cells to exit mitosis." mre11 double-strand break repair; GO:0006302 | inferred from sequence similarity with SGD:MRE11; SGDID:S0004837; nucleotide-excision repair; GO:0006289 | non-traceable author statement _ meiotic recombination 11 _ MRG15 _ _ _ _ mrn _ _ marionnette _ mRNA-capping-enzyme mRNA capping; GO:0006370 | inferred from sequence similarity with EMBL:AF034568; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ Mrp _ _ Myosin rod protein _ Mrp53 _ _ _ _ mRpL-CI-B8 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI075733 _ mitochondrial ribosomal protein L-CI-B8 _ mRpL1 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049632 _ mitochondrial ribosomal protein L1 _ mRpL10 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AW249086 _ mitochondrial ribosomal protein L10 _ mRpL11 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049638; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P36250 _ mitochondrial ribosomal protein L11 _ mRpL13 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049640; protein biosynthesis; GO:0006412 | non-traceable author statement _ mitochondrial ribosomal protein L13 _ mRpL14 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AA642134 _ mitochondrial ribosomal protein L14 _ mRpL15 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AA128556; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:MRPL10; SGDID:S0005228 _ mitochondrial ribosomal protein L15 _ mRpL16 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049642; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:Z35663 _ mitochondrial ribosomal protein L16 _ mRpL17 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI141700 _ mitochondrial ribosomal protein L17 _ mRpL18 _ _ mitochondrial ribosomal protein L18 _ mRpL19 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P49406 _ mitochondrial ribosomal protein L19 _ mRpL2 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI313184; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P38510 _ mitochondrial ribosomal protein L2 _ mRpL20 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049644 _ mitochondrial ribosomal protein L20 _ mRpL21 _ _ mitochondrial ribosomal protein L21 _ mRpL22 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AA772054 _ mitochondrial ribosomal protein L22 _ mRpL22-24 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI760300 _ mitochondrial ribosomal protein L22/24 _ mRpL23 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049646; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:U62635 _ mitochondrial ribosomal protein L23 _ mRpL24 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ mitochondrial ribosomal protein L24 _ mRpL28 _ _ mitochondrial ribosomal protein L28 _ mRpL2a protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AW960439 _ mitochondrial ribosomal protein L2a _ mRpL3 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049633; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P09001 _ mitochondrial ribosomal protein L3 _ mRpL30 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AA772463 _ mitochondrial ribosomal protein L30 _ mRpL32 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049649 _ mitochondrial ribosomal protein L32 _ mRpL33 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049651 _ mitochondrial ribosomal protein L33 _ mRpL35 _ _ mitochondrial ribosomal protein L35 _ mRpL3a protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI074410 _ mitochondrial ribosomal protein L3a _ mRpL4 protein biosynthesis; GO:0006412 | inferred from sequence similarity; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049635 _ mitochondrial ribosomal protein L4 _ mRpL44 _ _ mitochondrial ribosomal protein L44 _ mRpL45 _ _ mitochondrial ribosomal protein L45 _ mRpL46 _ _ mitochondrial ribosomal protein L46 _ mRpL48 _ _ mitochondrial ribosomal protein L48 _ mRpL49 _ _ mitochondrial ribosomal protein L49 _ mRpL5 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AL353983; threonyl-tRNA aminoacylation; GO:0006435 | inferred from sequence similarity with NCBI_gi:4507367 _ mitochondrial ribosomal protein L5 _ mRpL50 _ _ mitochondrial ribosomal protein L50 _ mRpL51 _ _ mitochondrial ribosomal protein L51 _ mRpL52 _ _ mitochondrial ribosomal protein L52 _ mRpL54 _ _ mitochondrial ribosomal protein L54 _ mRpL55 _ _ mitochondrial ribosomal protein L55 _ mRpL7-L12 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P52815; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P53163 _ mitochondrial ribosomal protein L7/L12 _ mRpL9 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AB049636 _ mitochondrial ribosomal protein L9 _ mRpS10 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_NM:018141; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P10129; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82664 _ mitochondrial ribosomal protein S10 _ mRpS11 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P26870; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82912 _ mitochondrial ribosomal protein S11 _ mRpS14 protein biosynthesis; GO:0006412 | inferred from sequence similarity with protein_id:CAB16601 _ mitochondrial ribosomal protein S14 _ mRpS16 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y3D3 _ mitochondrial ribosomal protein S16 _ mRpS17 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y2R5 _ mitochondrial ribosomal protein S17 _ mRpS18a protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y3D5 _ mitochondrial ribosomal protein S18a _ mRpS18b protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y676 _ mitochondrial ribosomal protein S18b _ mRpS18c protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9NVS2 _ mitochondrial ribosomal protein S18c _ mRpS2 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:MRP4; SGDID:S0000996; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y399 _ mitochondrial ribosomal protein S2 _ mRpS21 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82921 _ mitochondrial ribosomal protein S21 _ mRpS22 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AA313665; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AA463594; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI004657; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:W74092; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y3D9 _ mitochondrial ribosomal protein S22 _ mRpS24 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI086409; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI870515; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AW022634; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:W46469; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82650 _ mitochondrial ribosomal protein S24 _ mRpS25 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AI243774; protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AW249185; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82663 _ mitochondrial ribosomal protein S25 _ mRpS26 protein biosynthesis; GO:0006412 | inferred from sequence similarity with protein_id:CAC20860 _ mitochondrial ribosomal protein S26 _ mRpS28 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82673 _ mitochondrial ribosomal protein S28 _ mRpS29 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P51398 _ mitochondrial ribosomal protein S29 _ mRpS30 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9NP92 _ mitochondrial ribosomal protein S30 _ mRpS31 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q92665 _ mitochondrial ribosomal protein S31 _ mRpS32 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:N46796; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y6G3 _ mitochondrial ribosomal protein S32 _ mRpS33 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y291 _ mitochondrial ribosomal protein S33 _ mRpS34 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82930 _ mitochondrial ribosomal protein S34 _ mRpS35 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:Q9Y2Q9 _ mitochondrial ribosomal protein S35 _ mRpS5 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82675 _ mitochondrial ribosomal protein S5 _ mRpS6 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82932; protein biosynthesis; GO:0006412 | non-traceable author statement _ mitochondrial ribosomal protein S6 _ mRpS7 protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:AF077042; protein_id:AAD27775.1; protein biosynthesis; GO:0006412 | inferred from sequence similarity with PIR:JC7165 _ mitochondrial ribosomal protein S7 _ mRpS9 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P82933 _ mitochondrial ribosomal protein S9 _ mrr _ _ myosin rod-related _ ms(1)10 _ _ male sterile (1) 10 _ ms(1)10A _ _ male sterile (1) 10A _ ms(1)12 _ _ male sterile (1) 12 _ ms(1)19E _ _ male sterile (1) 19E _ ms(1)19Fa _ _ male sterile (1) 19Fa _ ms(1)19Fb _ _ male sterile (1) 19Fb _ ms(1)19Fc _ _ male sterile (1) 19Fc _ ms(1)19Fd _ _ male sterile (1) 19Fd _ ms(1)202 _ _ male sterile (1) 202 _ ms(1)20Aa _ _ male sterile (1) 20Aa _ ms(1)20Ab _ _ male sterile (1) 20Ab _ ms(1)244 _ _ male sterile (1) 244 _ ms(1)4 _ _ male sterile (1) 4 _ ms(1)401 _ _ male sterile (1) 401 _ ms(1)413 _ _ male sterile (1) 413 _ ms(1)516 _ _ male sterile (1) 516 _ ms(1)6S _ _ male sterile (1) 6S _ ms(1)7 _ _ male sterile (1) 7 _ ms(1)RA40 _ _ male sterile (1) RA40 _ ms(1)RD15 _ _ male sterile (1) RD15 _ ms(1)RD7 _ _ male sterile (1) RD7 _ ms(1)S21 _ _ _ _ ms(1)V1 _ _ male sterile (1) V1 _ ms(1)V7 _ _ male sterile (1) V7 _ ms(1)V73 _ _ male sterile (1) V73 _ ms(2)10R _ _ male sterile (2) 10R _ ms(2)1336A _ _ _ _ ms(2)1400 _ _ _ _ ms(2)2 _ _ male sterile (2) 2 _ ms(2)29F _ _ male sterile (2) 29F _ ms(2)30C _ _ male sterile (2) 30C _ ms(2)34Fe _ _ male sterile (2) 34Fe _ ms(2)35Bi _ _ _ _ ms(2)35Ci _ _ _ _ ms(2)35Eb _ _ male sterile (2) 35Eb _ ms(2)38ABa _ _ _ _ ms(2)38C _ _ male sterile (2) 38C _ ms(2)38DEa _ _ _ _ ms(2)3R _ _ male sterile (2) 3R _ ms(2)42D _ _ male sterile (2) 42D _ ms(2)43C _ _ male sterile (2)43C _ ms(2)50Ca _ _ _ _ ms(2)916 _ _ male sterile (2) 916 _ ms(2)985 _ _ _ _ ms(2)C32 _ _ _ _ ms(2)HA30 _ _ _ _ ms(2)HB108 _ _ male sterile (2) HB108 _ ms(2)HB123 _ _ _ _ ms(2)HB194 _ _ _ _ ms(2)HB223 _ _ male sterile (2) HB223 _ ms(2)HB30 _ _ male sterile (2) HB30 _ ms(2)HB40 _ _ _ _ ms(2)HB441 _ _ _ _ ms(2)HB54 _ _ _ _ ms(2)LY1 _ _ _ _ Ms(2)M _ _ Male sterile (2) of Meyer _ ms(2)neo4 _ _ _ _ ms(2)RK2 _ _ _ _ ms(2)ry1 _ _ _ _ ms(2)ry2 _ _ _ _ ms(2)ry5 _ _ _ _ ms(2)ry6 _ _ _ _ ms(2)ry7 _ _ _ _ ms(2)ry8 _ _ _ _ ms(3)04202 _ _ _ _ ms(3)08724 _ _ _ _ ms(3)10R _ _ male sterile (3) 10R _ ms(3)1100A _ _ male sterile (3) 1100A Characterization of ms(3)1100A. ms(3)1104C _ _ _ _ ms(3)1199A _ _ _ _ ms(3)1342A _ _ _ _ ms(3)2033 _ _ _ _ ms(3)25 _ _ _ _ ms(3)303 _ _ _ _ ms(3)72D _ _ male sterile (3) 72D _ ms(3)73D _ _ male sterile (3) 73D _ ms(3)76A _ _ _ _ ms(3)80 _ _ male sterile (3) 80 _ ms(3)85D _ _ male sterile (3) 85D _ ms(3)85E _ _ male sterile (3) 85E _ ms(3)90E _ _ male sterile (3) 90E _ ms(3)98B _ _ male sterile (3) 98B _ ms(3)A81 _ _ _ _ ms(3)C131 _ _ _ _ ms(3)CB27 _ _ _ _ ms(3)D120 _ _ _ _ ms(3)D185 _ _ _ _ ms(3)HB156 _ _ _ _ ms(3)HB223 _ _ _ _ ms(3)HB267 _ _ male sterile (3) HB267 _ ms(3)HB366 _ _ _ _ ms(3)HB665 _ _ _ _ ms(3)HB737 _ _ _ _ ms(3)HB74 _ _ _ _ ms(3)HO5A _ _ male sterile (3) HO5A _ ms(3)K81 _ _ male sterile (3) K81 _ ms(3)mntr _ _ male sterile minotaurus _ ms(3)nc14 _ _ male sterile (3) noncomplementer 14 _ ms(3)nc3 _ _ male sterile (3) nc3 _ ms(3)neo4 _ _ _ _ ms(3)neo5 _ _ _ _ ms(3)neo6 _ _ _ _ ms(3)neo79 _ _ _ _ ms(3)neo94 _ _ _ _ ms(3)ods _ _ male sterile (3) only diploid stages _ ms(3)P115 _ _ _ _ ms(3)P122 _ _ _ _ ms(3)P50 _ _ _ _ Ms(3)R24 _ _ _ _ ms(3)ry5 _ _ _ _ ms(3)S125011b _ _ _ _ MS:DS00314 _ _ _ _ MS:DS00762 _ _ _ _ MS:DS01001 _ _ _ _ MS101a _ _ _ _ ms28E _ _ _ _ ms59I-26A _ _ _ "Gene product may function to help anchor the contractile ring to the, cleavage furrow during cytokinesis." msb1l _ _ _ _ msd(gl) _ _ modifier of sexual dimorphism of glass _ Mse9.4 _ _ Modifier of split & Enhancer of split 9.4 _ msf _ _ misformed _ msg _ _ missing _ Msi spermatogenesis; GO:0007283 | inferred from genetic interaction with FLYBASE:aly; FB:FBgn0004372; spermatogenesis; GO:0007283 | inferred from genetic interaction with FLYBASE:mia; FB:FBgn0014342; spermatogenesis; GO:0007283 | inferred from genetic interaction with FLYBASE:sa; FB:FBgn0002842 _ Male-specific insect derived growth factor _ msi mRNA processing; GO:0006397 | inferred from sequence similarity with SGD:HRP1; SGDID:S0005483; negative regulation of translation; GO:0016478 | inferred from mutant phenotype _ musashi "msi and sina function redundantly in R1 and R6 to down-regulate, ttk in the developing photoreceptor cells." msk EGF receptor signaling pathway; GO:0007173 | inferred from genetic interaction with FLYBASE:rl; FB:FBgn0003256; protein-nucleus import; GO:0006606 | inferred from direct assay; transmembrane receptor protein tyrosine kinase signaling pathway; GO:0007169 | inferred from physical interaction with FLYBASE:csw; FB:FBgn0000382; transmembrane receptor protein tyrosine kinase signaling pathway; GO:0007169 | inferred from physical interaction with FLYBASE:rl; FB:FBgn0003256 _ moleskin "msk encodes a phosphoprotein that interacts with both the csw, and drk proteins." msl-1 dosage compensation; GO:0007549 | inferred from mutant phenotype _ male-specific lethal 1 _ msl-2 dosage compensation; GO:0007549 | inferred from mutant phenotype _ male-specific lethal 2 _ msl-3 dosage compensation; GO:0007549 | inferred from mutant phenotype _ male-specific lethal 3 _ msn activation of MAP/ERK kinase kinase; GO:0007255 | inferred from mutant phenotype; dorsal closure; GO:0007391 | inferred from mutant phenotype _ misshapen _ msopa _ _ male-specific opa containing gene _ Msp _ _ Muscle-specific protein _ Msp-300 _ _ Muscle-specific protein 300 _ Msp1 _ _ Mitochondrial sorting protein 1 _ mspo _ _ M-spondin "Cloning and characterization of a secretory protein localized at the, MASs, encoded by the mspo gene." msps microtubule-based process; GO:0007017 | inferred from sequence similarity with NCBI_gi:2136282 _ mini spindles msps is required for the integrity of the mitotic spindle. Msr-110 _ _ _ _ mst _ _ misato _ Mst23Ea _ _ Male-specific transcript 23Ea _ Mst25F _ _ Male-specific RNA 25F _ Mst302 _ _ Male-specific transcript 302 _ Mst317 _ _ Male-specific transcript 317 _ Mst33A _ _ _ _ Mst35Ba _ _ Male-specific-transcript-35Ba "Mst35Ba is probably not a vital gene, but may be required for male, fertility." Mst35Bb _ _ Male-specific-transcript-35Bb "Mst35Bb is probably not a vital gene, but may be required for male, fertility." Mst36Fa _ _ Male-specific transcript 36Fa _ Mst36Fb _ _ Male-specific transcript 36Fb _ Mst40 _ _ Male-specific RNA 40 "Mst40 has been cloned and sequenced, and its expression pattern has, been analyzed. Mst40 sequences are organized as a tandemly arrayed, 1.4kb repeat unit." Mst47A _ _ Male-specific RNA 47A _ Mst51F _ _ Male-specific RNA 51F _ Mst57Ca _ _ Male-specific transcript 57C _ Mst57Da _ _ Male-specific RNA 57Da _ Mst57Db _ _ Male-specific RNA 57Db _ Mst57Dc _ _ Male-specific RNA 57Dc _ Mst58.1 _ _ Male-specific transcript 58.1 _ Mst59Da _ _ Male-specific transcript 59Da _ Mst59Db _ _ Male-specific transcript 59Db _ Mst59Dc _ _ Male-specific transcript 59Dc _ Mst66D _ _ Male-specific RNA 66D _ Mst75Ca _ _ Male-specific RNA 75Ca _ Mst75Cb _ _ Male-specific RNA 75Cb _ Mst77F _ _ Male-specific transcript 77F _ Mst78D _ _ _ _ Mst84Da _ _ Male-specific RNA 84Da _ Mst84Db _ _ Male-specific RNA 84Db _ Mst84Dc _ _ Male-specific RNA 84Dc _ Mst84Dd _ _ Male-specific RNA 84Dd _ Mst85C _ _ _ _ Mst87F _ _ Male-specific RNA 87F _ Mst89B _ _ _ _ Mst95EF _ _ Male-specific RNA 95EF _ Mst98Ca _ _ Male-specific RNA 98Ca _ Mst98Cb _ _ Male-specific RNA 98Cb _ msta _ _ _ _ MstProx defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | inferred from sequence similarity _ _ Encodes an interleukin-1 receptor-type protein. Mt2 _ _ Methyltransferase 2 _ mtacp1 _ _ mitochondrial acyl carrier protein 1 "mtacp1 is essential for viability and is required for both male and, female gametogenesis." Mtch _ _ Mitochondrial carrier homolog 1 _ MTF-1 transcription; GO:0006350 | non-traceable author statement _ _ _ mtg _ _ mind the gap _ mth G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ methuselah _ Mth-like-11 G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ Mth-like-12 G-protein coupled receptor protein signaling pathway; GO:0007186 | non-traceable author statement _ _ _ Mtk antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from expression pattern; antifungal humoral response (sensu Invertebrata); GO:0006966 | inferred from expression pattern _ Metchnikowin "Induction of Mtk gene expression can be mediated by the Tl pathway, or by imd." Mtl _ _ Mig-2-like _ MtnA _ _ Metallothionein A _ MtnB metal ion homeostasis; GO:0006875 | non-traceable author statement _ Metallothionein B _ Mtr1 _ _ Methyltransferase-related protein 1 _ mts R7 cell fate commitment; GO:0007465 | inferred from genetic interaction with FLYBASE:Ras85D; FB:FBgn0003205 _ microtubule star _ mtSSB mitochondrial genome maintenance; GO:0000002 | inferred from mutant phenotype; mitochondrial genome maintenance; GO:0000002 | non-traceable author statement _ mitochondrial single stranded DNA-binding protein mtSSB is required for MT:DNA replication. mu _ _ mussed _ Mu(f[3N]) _ _ Mutator of forked-3N _ mu1 _ _ mutator 1 _ mu2 _ _ mutator 2 _ mub _ _ mushroom-body expressed _ muc _ _ midline uncoordinated _ Mud _ _ Muddled _ mud mushroom body development; GO:0016319 | traceable author statement _ mushroom body defect _ mudl _ _ mudlike _ mul _ _ multiple _ mun _ _ munin _ mus101 mitosis; GO:0007067 | traceable author statement; oogenesis; GO:0007292 | traceable author statement _ mutagen-sensitive 101 _ mus102 _ _ mutagen-sensitive 102 _ mus105 _ _ mutagen-sensitive 105 _ mus106 _ _ mutagen-sensitive 106 _ mus108 _ _ mutagen-sensitive 108 _ mus109 _ _ mutagen-sensitive 109 _ mus111 _ _ mutagen-sensitive 111 _ mus112 _ _ mutagen-sensitive 112 _ mus113 _ _ _ _ mus114 _ _ _ _ mus115 _ _ _ _ mus201 base-excision repair; GO:0006284 | inferred from sequence similarity with SGD:RAD2; SGDID:S0003490; nucleotide-excision repair; GO:0006289 | non-traceable author statement _ mutagen-sensitive 201 _ mus202 _ _ mutagen-sensitive 202 _ mus204 _ _ mutagen-sensitive 204 _ mus205 DNA replication; GO:0006260 | non-traceable author statement; bypass DNA synthesis; GO:0019985 | non-traceable author statement _ mutagen-sensitive 205 _ mus206 _ _ mutagen-sensitive 206 _ mus207 _ _ mutagen-sensitive 207 _ mus208 _ _ mutagen-sensitive 208 _ mus209 DNA dependent DNA replication; GO:0006261 | traceable author statement; mismatch repair; GO:0006298 | traceable author statement; nucleotide-excision repair; GO:0006289 | traceable author statement _ mutagen-sensitive 209 _ mus210 nucleotide-excision repair; GO:0006289 | inferred from sequence similarity; nucleotide-excision repair; GO:0006289 | inferred from sequence similarity with SGD:RAD4; SGDID:S0000964 _ mutagen-sensitive 210 "The Drosophila homolog of the human XPC gene is cloned and the C-terminal, 346 amino acids of the predicted polypeptide share significant homology, with similar regions of both the translated human XPC and yeast RAD4, genes." mus211 _ _ mutagen-sensitive 211 _ mus301 _ _ mutagen-sensitive 301 _ mus302 _ _ mutagen-sensitive 302 _ mus304 DNA damage checkpoint; GO:0000077 | inferred from mutant phenotype; DNA repair; GO:0006281 | inferred from mutant phenotype; female meiosis; GO:0007143 | inferred from mutant phenotype; female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; meiotic recombination; GO:0007131 | inferred from mutant phenotype; regulation of syncytial blastoderm mitotic cell cycle; GO:0007348 | inferred from mutant phenotype _ mutagen-sensitive 304 "mus304 is required for a functional DNA damage checkpoint in the, developing eye." mus305 _ _ mutagen-sensitive 305 _ mus306 _ _ mutagen-sensitive 306 _ mus307 _ _ mutagen-sensitive 307 _ mus308 DNA repair; GO:0006281 | non-traceable author statement; DNA repair; GO:0006281 | traceable author statement _ mutagen-sensitive 308 "mus308 is required to process ethyl nitrosourea (ENU) induced lesions,, and may play a role in post replication bypass of O-alkylpyrimidines,, probably mediated by recombination, which serves to increase the time, available for error-free repair of these lesions." mus309 double-strand break repair; GO:0006302 | inferred from mutant phenotype _ mutagen-sensitive 309 _ mus310 _ _ mutagen-sensitive 310 _ mus311 _ _ mutagen-sensitive 311 _ mus312 _ _ mutagen-sensitive 312 _ musculin _ _ _ _ Mut181 _ _ Mutant-181 _ mv _ _ mauve _ Mvl _ _ Malvolio _ mw _ _ mottler of white _ mwh _ _ multiple wing hairs Functions downstream of fz for planar polarity in the wing. mwi _ _ misheld wings _ mwr _ _ more wright _ mX _ _ E(spl) region transcript mX _ mxc _ _ multi sex combs _ Myb cell proliferation; GO:0008283 | inferred from mutant phenotype; centrosome cycle; GO:0007098 | inferred from mutant phenotype _ Myb oncogene-like _ Myd88 anti-Gram-positive bacterial polypeptide induction; GO:0006965 | non-traceable author statement; antifungal humoral response (sensu Invertebrata); GO:0006966 | non-traceable author statement; defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | non-traceable author statement _ _ _ Myo10A _ _ unconventional myosin class XV _ Myo28B1 _ _ _ _ Myo31DF _ _ Myosin 31DF _ Myo61F _ _ Myosin 61F _ Myo95E _ _ _ _ myoblast-specific _ _ myoblast specific _ myoglianin _ _ myoglianin _ myotubularin protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ myotubularin _ mys central nervous system development; GO:0007417 | inferred from mutant phenotype; muscle development; GO:0007517 | inferred from mutant phenotype _ myospheroid _ Mys45A _ _ Mystery 45A _ Myt1 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ N determination of glial fate; GO:0007403 | inferred from mutant phenotype; determination of glial fate; GO:0007403 | inferred from mutant phenotype; egg chamber formation; GO:0007293 | inferred from mutant phenotype; myogenesis; GO:0007519 | inferred from mutant phenotype; peripheral nervous system development; GO:0007422 | inferred from mutant phenotype; sensory organ development; GO:0007423 | inferred from mutant phenotype _ Notch _ N-b _ _ Notch b _ n-judah _ _ n-judah _ n-syb synaptic vesicle docking; GO:0016081 | inferred from sequence similarity; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity _ n-synaptobrevin _ N14 pole cell development; GO:0007277 | inferred from mutant phenotype _ _ _ N52 _ _ _ _ na circadian rhythm; GO:0007623 | inferred from mutant phenotype _ narrow abdomen "Mosaic analysis suggests that the entire head is the focus for the, anesthesia and behavioral phenotypes of na mutant alleles." nac _ _ neuronally altered carbohydrate _ Nacalpha _ _ Nascent polypeptide associated complex protein alpha subunit _ Nach _ _ _ _ NaCP37B _ _ Na channel protein 37B _ NaCP60E sodium transport; GO:0006814 | non-traceable author statement _ Na channel protein 60E _ nAcRalpha-18C _ _ _ _ nAcRalpha-30D _ _ nicotinic Acetylcholine Receptor Dalpha6 _ nAcRalpha-34E _ _ nicotinic Acetylcholine Receptor Dalpha5 _ nAcRalpha-4 _ _ nicotinic Acetylcholine Receptor alpha 4 _ nAcRalpha-7E _ _ nicotinic Acetylcholine Receptor alpha 7E _ nAcRalpha-80B _ _ nicotinic Acetylcholine Receptor alpha 80B _ nAcRalpha-96Aa _ _ nicotinic Acetylcholine Receptor alpha 96Aa _ nAcRalpha-96Ab _ _ nicotinic Acetylcholine Receptor alpha 96Ab _ nAcRbeta-21C _ _ nicotinic acetylcholine receptor beta 21C _ nAcRbeta-64B _ _ nicotinic Acetylcholine Receptor beta 64B _ nAcRbeta-96A _ _ nicotinic Acetylcholine Receptor beta 96A _ nAcR-61 _ _ Acetylcholine Receptor 61kD _ nAcR-66 _ _ Acetylcholine Receptor 66kD _ nAcR-69 _ _ Acetylcholine Receptor 69kD _ nad1 _ _ nurse cell apoptosis defective-1 _ NaDg cuticle chitin catabolism; GO:0006036 | inferred from direct assay _ beta N-acetyl D-glucosaminidase _ NaDh cuticle chitin catabolism; GO:0006036 | inferred from direct assay _ beta N-acetyl D-hexosaminidase _ nahoda _ _ nahoda _ Nak asymmetric cytokinesis; GO:0008356 | inferred from mutant phenotype; asymmetric cytokinesis; GO:0008356 | inferred from physical interaction _ Numb-associated kinase _ Nap1 nucleosome assembly; GO:0006334 | non-traceable author statement _ Nucleosome assembly protein 1 _ NaPi-T _ _ Na[+]-dependent inorganic phosphate cotransporter _ nate _ _ not enough anterior extension _ nau regulation of myogenesis; GO:0016202 | traceable author statement _ nautilus _ Nbp70 protein-nucleus import; GO:0006606 | traceable author statement _ Nuclear localization sequence-binding protein 70 "Nbp70 protein specifically binds nuclear localization, sequences." nbs _ _ _ _ Nc apoptosis; GO:0006915 | inferred from genetic interaction with FLYBASE:th; FB:FBgn0003691; apoptosis; GO:0006915 | inferred from physical interaction with FLYBASE:th; FB:FBgn0003691; apoptotic program; GO:0008632 | inferred from physical interaction with FLYBASE:Ice; FB:FBgn0019972 _ Nedd2-like caspase _ Nc18A _ _ Neural conserved at 18A _ NC2alpha negative regulation of transcriptional pre-initiation complex formation; GO:0017055 | non-traceable author statement _ _ _ NC2beta negative regulation of transcriptional pre-initiation complex formation; GO:0017055 | non-traceable author statement _ _ _ Nc34CD _ _ Neural conserved at 34CD _ Nc73EF _ _ Neural conserved at 73EF _ Nc94B _ _ Neural conserved at 94B _ Nc98F _ _ Neural conserved at 98F _ Nca negative regulation of phosphorylation; GO:0042326 | non-traceable author statement _ Neurocalcin _ ncd centrosome separation; GO:0007100 | inferred from genetic interaction with FLYBASE:Klp61F; FB:FBgn0004378; centrosome separation; GO:0007100 | inferred from mutant phenotype _ non-claret disjunctional _ Nckx30C _ _ _ _ ncn _ _ nurse cell number _ nct N receptor processing; GO:0007220 | inferred from genetic interaction with FLYBASE:N; FB:FBgn0004647 _ nicastrin _ ND23 _ _ NADH:ubiquinone reductase 23kD subunit precursor _ ND42 electron transport; GO:0006118 | non-traceable author statement _ NADH:ubiquinone reductase 42kD subunit precursor _ ND75 complex I (NADH to ubiquinone); GO:0006120 | non-traceable author statement _ NADH:ubiquinone reductase 75kD subunit precursor _ Ndae1 _ _ Na[+]-driven anion exchanger 1 _ Ndg _ _ Nidogen/entactin _ ndl _ _ nudel _ Ndw _ _ Nicked wing _ Ne _ _ Nelson's mutant _ neb microtubule-based movement; GO:0007018 | inferred from sequence similarity _ nebbish _ nec antifungal humoral response (sensu Invertebrata); GO:0006966 | inferred from genetic interaction with FLYBASE:spz; FB:FBgn0003495; antifungal humoral response (sensu Invertebrata); GO:0006966 | traceable author statement _ necrotic nec has a role in Tl mediated antifungal defense. ned _ _ no endurance ned is involved in synaptic vesicle trafficking. Nedd4 _ _ _ _ Nedd8 _ _ _ "Nedd8 interacts with members of the Cullin family and is essential, for SCF activities in Drosophila." nej synaptic vesicle transport; GO:0016181 | inferred from electronic annotation _ nejire _ Nek2 mitosis; GO:0007067 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ nemy _ _ _ _ Neos _ _ Neosin _ Nep1 _ _ Neprilysin 1 _ Nep2 _ _ Neprilysin 2 _ Nep3 _ _ Neprilysin 3 _ NepYr G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; tachykinin signaling pathway; GO:0007217 | inferred from sequence similarity _ Neuropeptide Y receptor-like _ ner _ _ nervig _ nerd _ _ _ Isolated in a screen for abnormal male hydrocarbon phenotypes. nerfin-1 neuronal lineage restriction; GO:0042055 | inferred from direct assay _ nervous fingers 1 _ nerfin-2 _ _ nervous fingers 2 _ nertoo _ _ nertoo _ nes _ _ nessy _ NEST:bs01a02 _ _ _ _ NEST:bs01b08 _ _ _ _ NEST:bs01c01 _ _ _ _ NEST:bs01d08 _ _ _ _ NEST:bs01d10 _ _ _ _ NEST:bs01f03 _ _ _ _ NEST:bs01f06 _ _ _ _ NEST:bs01f07 _ _ _ _ NEST:bs01g03 _ _ _ _ NEST:bs01g04 _ _ _ _ NEST:bs01g11 _ _ _ _ NEST:bs01h05 _ _ _ _ NEST:bs02a03 _ _ _ _ NEST:bs02a12 _ _ _ _ NEST:bs02b04 _ _ _ _ NEST:bs02c01 _ _ _ _ NEST:bs02c02 _ _ _ _ NEST:bs02e02 _ _ _ _ NEST:bs02f06 _ _ _ _ NEST:bs02f09 _ _ _ _ NEST:bs02f11 _ _ _ _ NEST:bs02g04 _ _ _ _ NEST:bs02h06 _ _ _ _ NEST:bs02h07 _ _ _ _ NEST:bs03a05 _ _ _ _ NEST:bs03c10 _ _ _ _ NEST:bs03d04 _ _ _ _ NEST:bs03d11 _ _ _ _ NEST:bs03e05 _ _ _ _ NEST:bs03f05 _ _ _ _ NEST:bs03f06 _ _ _ _ NEST:bs03f11 _ _ _ _ NEST:bs03g01 _ _ _ _ NEST:bs03g02 _ _ _ _ NEST:bs03g08 _ _ _ _ NEST:bs03h03 _ _ _ _ NEST:bs04a11 _ _ _ _ NEST:bs04b07 _ _ _ _ NEST:bs04c08 _ _ _ _ NEST:bs04d03 _ _ _ _ NEST:bs04d07 _ _ _ _ NEST:bs04d12 _ _ _ _ NEST:bs04e06 _ _ _ _ NEST:bs04e10 _ _ _ _ NEST:bs04f07 _ _ _ _ NEST:bs04f09 _ _ _ _ NEST:bs04g11 _ _ _ _ NEST:bs05b05 _ _ _ _ NEST:bs05c05 _ _ _ _ NEST:bs05c10 _ _ _ _ NEST:bs05e01 _ _ _ _ NEST:bs05e12 _ _ _ _ NEST:bs05f10 _ _ _ _ NEST:bs05g04 _ _ _ _ NEST:bs05g06 _ _ _ _ NEST:bs05g10 _ _ _ _ NEST:bs05h08 _ _ _ _ NEST:bs05h09 _ _ _ _ NEST:bs05h11 _ _ _ _ NEST:bs06a07 _ _ _ _ NEST:bs06a08 _ _ _ _ NEST:bs06a12 _ _ _ _ NEST:bs06b03 _ _ _ _ NEST:bs06b11 _ _ _ _ NEST:bs06c11 _ _ _ _ NEST:bs06d09 _ _ _ _ NEST:bs06e10 _ _ _ _ NEST:bs06f02 _ _ _ _ NEST:bs06f08 _ _ _ _ NEST:bs06g03 _ _ _ _ NEST:bs06g09 _ _ _ _ NEST:bs06h01 _ _ _ _ NEST:bs06h05 _ _ _ _ NEST:bs06h09 _ _ _ _ NEST:bs06h11 _ _ _ _ NEST:bs07a01 _ _ _ _ NEST:bs07a07 _ _ _ _ NEST:bs07b01 _ _ _ _ NEST:bs07b06 _ _ _ _ NEST:bs07b11 _ _ _ _ NEST:bs07c08 _ _ _ _ NEST:bs07c11 _ _ _ _ NEST:bs07d05 _ _ _ _ NEST:bs07d08 _ _ _ _ NEST:bs07e08 _ _ _ _ NEST:bs07e10 _ _ _ _ NEST:bs07f06 _ _ _ _ NEST:bs07f08 _ _ _ _ NEST:bs07g05 _ _ _ _ NEST:bs07g10 _ _ _ _ NEST:bs07h03 _ _ _ _ NEST:bs07h07 _ _ _ _ NEST:bs08c03 _ _ _ _ NEST:bs08c04 _ _ _ _ NEST:bs08c11 _ _ _ _ NEST:bs08d04 _ _ _ _ NEST:bs08d07 _ _ _ _ NEST:bs08e03 _ _ _ _ NEST:bs08e04 _ _ _ _ NEST:bs08e11 _ _ _ _ NEST:bs08f12 _ _ _ _ NEST:bs08g03 _ _ _ _ NEST:bs08g04 _ _ _ _ NEST:bs08g12 _ _ _ _ NEST:bs08h10 _ _ _ _ NEST:bs08h12 _ _ _ _ NEST:bs09a09 _ _ _ _ NEST:bs09a11 _ _ _ _ NEST:bs09a12 _ _ _ _ NEST:bs09b12 _ _ _ _ NEST:bs09c12 _ _ _ _ NEST:bs09d07 _ _ _ _ NEST:bs09e02 _ _ _ _ NEST:bs09e03 _ _ _ _ NEST:bs09e07 _ _ _ _ NEST:bs09e08 _ _ _ _ NEST:bs09e09 _ _ _ _ NEST:bs09f06 _ _ _ _ NEST:bs09g01 _ _ _ _ NEST:bs09g05 _ _ _ _ NEST:bs09g08 _ _ _ _ NEST:bs09h01 _ _ _ _ NEST:bs10a03 _ _ _ _ NEST:bs10b08 _ _ _ _ NEST:bs10b10 _ _ _ _ NEST:bs10c09 _ _ _ _ NEST:bs10d03 _ _ _ _ NEST:bs10d08 _ _ _ _ NEST:bs10d12 _ _ _ _ NEST:bs10e11 _ _ _ _ NEST:bs10e12 _ _ _ _ NEST:bs10g05 _ _ _ _ NEST:bs10g06 _ _ _ _ NEST:bs10g08 _ _ _ _ NEST:bs10h07 _ _ _ _ NEST:bs10h12 _ _ _ _ NEST:bs11a05 _ _ _ _ NEST:bs11a06 _ _ _ _ NEST:bs11b10 _ _ _ _ NEST:bs11b11 _ _ _ _ NEST:bs11c05 _ _ _ _ NEST:bs11d03 _ _ _ _ NEST:bs11e07 _ _ _ _ NEST:bs11e10 _ _ _ _ NEST:bs11f04 _ _ _ _ NEST:bs11f11 _ _ _ _ NEST:bs11h12 _ _ _ _ NEST:bs12a12 _ _ _ _ NEST:bs12b09 _ _ _ _ NEST:bs12c04 _ _ _ _ NEST:bs12c06 _ _ _ _ NEST:bs12c10 _ _ _ _ NEST:bs12e11 _ _ _ _ NEST:bs12f07 _ _ _ _ NEST:bs12g08 _ _ _ _ NEST:bs12h04 _ _ _ _ NEST:bs13a06 _ _ _ _ NEST:bs13c02 _ _ _ _ NEST:bs13c08 _ _ _ _ NEST:bs13c10 _ _ _ _ NEST:bs13e02 _ _ _ _ NEST:bs13e06 _ _ _ _ NEST:bs13e09 _ _ _ _ NEST:bs13e10 _ _ _ _ NEST:bs13f10 _ _ _ _ NEST:bs13g04 _ _ _ _ NEST:bs13g05 _ _ _ _ NEST:bs13g06 _ _ _ _ NEST:bs13g09 _ _ _ _ NEST:bs13h04 _ _ _ _ NEST:bs13h12 _ _ _ _ NEST:bs14a07 _ _ _ _ NEST:bs14b01 _ _ _ _ NEST:bs14b02 _ _ _ _ NEST:bs14b05 _ _ _ _ NEST:bs14c05 _ _ _ _ NEST:bs14c07 _ _ _ _ NEST:bs14c08 _ _ _ _ NEST:bs14d08 _ _ _ _ NEST:bs14d11 _ _ _ _ NEST:bs14e02 _ _ _ _ NEST:bs14e09 _ _ _ _ NEST:bs14f06 _ _ _ _ NEST:bs14g06 _ _ _ _ NEST:bs14h07 _ _ _ _ NEST:bs14h12 _ _ _ _ NEST:bs15a03 _ _ _ _ NEST:bs15a04 _ _ _ _ NEST:bs15a07 _ _ _ _ NEST:bs15a08 _ _ _ _ NEST:bs15a10 _ _ _ _ NEST:bs15a11 _ _ _ _ NEST:bs15a12 _ _ _ _ NEST:bs15c01 _ _ _ _ NEST:bs15c08 _ _ _ _ NEST:bs15d07 _ _ _ _ NEST:bs15d11 _ _ _ _ NEST:bs15e07 _ _ _ _ NEST:bs15e10 _ _ _ _ NEST:bs15e12 _ _ _ _ NEST:bs15f05 _ _ _ _ NEST:bs15f11 _ _ _ _ NEST:bs15g06 _ _ _ _ NEST:bs15g08 _ _ _ _ NEST:bs15h09 _ _ _ _ NEST:bs16a02 _ _ _ _ NEST:bs16a07 _ _ _ _ NEST:bs16a12 _ _ _ _ NEST:bs16b04 _ _ _ _ NEST:bs16b05 _ _ _ _ NEST:bs16c09 _ _ _ _ NEST:bs16c12 _ _ _ _ NEST:bs16e05 _ _ _ _ NEST:bs16e09 _ _ _ _ NEST:bs16f03 _ _ _ _ NEST:bs16f04 _ _ _ _ NEST:bs16f12 _ _ _ _ NEST:bs16g08 _ _ _ _ NEST:bs16h02 _ _ _ _ NEST:bs16h04 _ _ _ _ NEST:bs16h07 _ _ _ _ NEST:bs17b11 _ _ _ _ NEST:bs17c06 _ _ _ _ NEST:bs17c12 _ _ _ _ NEST:bs17d02 _ _ _ _ NEST:bs17d05 _ _ _ _ NEST:bs17d10 _ _ _ _ NEST:bs17f06 _ _ _ _ NEST:bs17f10 _ _ _ _ NEST:bs17g03 _ _ _ _ NEST:bs17g05 _ _ _ _ NEST:bs17g08 _ _ _ _ NEST:bs17g11 _ _ _ _ NEST:bs17h08 _ _ _ _ NEST:bs17h12 _ _ _ _ NEST:bs18a02 _ _ _ _ NEST:bs18a07 _ _ _ _ NEST:bs18a12 _ _ _ _ NEST:bs18b09 _ _ _ _ NEST:bs18b12 _ _ _ _ NEST:bs18c05 _ _ _ _ NEST:bs18d08 _ _ _ _ NEST:bs18d12 _ _ _ _ NEST:bs18e02 _ _ _ _ NEST:bs18e03 _ _ _ _ NEST:bs18f03 _ _ _ _ NEST:bs18f05 _ _ _ _ NEST:bs18f10 _ _ _ _ NEST:bs18g03 _ _ _ _ NEST:bs18g05 _ _ _ _ NEST:bs18g10 _ _ _ _ NEST:bs18h01 _ _ _ _ NEST:bs18h08 _ _ _ _ NEST:bs19a05 _ _ _ _ NEST:bs19a07 _ _ _ _ NEST:bs19a11 _ _ _ _ NEST:bs19b03 _ _ _ _ NEST:bs19b07 _ _ _ _ NEST:bs19c08 _ _ _ _ NEST:bs19c11 _ _ _ _ NEST:bs19d08 _ _ _ _ NEST:bs19d10 _ _ _ _ NEST:bs19e08 _ _ _ _ NEST:bs19e10 _ _ _ _ NEST:bs19e11 _ _ _ _ NEST:bs19f04 _ _ _ _ NEST:bs19f07 _ _ _ _ NEST:bs19g07 _ _ _ _ NEST:bs19g08 _ _ _ _ NEST:bs20a05 _ _ _ _ NEST:bs20a06 _ _ _ _ NEST:bs20b10 _ _ _ _ NEST:bs20b11 _ _ _ _ NEST:bs20d04 _ _ _ _ NEST:bs20d06 _ _ _ _ NEST:bs20d07 _ _ _ _ NEST:bs20d08 _ _ _ _ NEST:bs20d09 _ _ _ _ NEST:bs20e01 _ _ _ _ NEST:bs20e03 _ _ _ _ NEST:bs20e06 _ _ _ _ NEST:bs20f05 _ _ _ _ NEST:bs20g02 _ _ _ _ NEST:bs20g04 _ _ _ _ NEST:bs20g05 _ _ _ _ NEST:bs20g09 _ _ _ _ NEST:bs21a03 _ _ _ _ NEST:bs21a09 _ _ _ _ NEST:bs21b05 _ _ _ _ NEST:bs21b09 _ _ _ _ NEST:bs21b12 _ _ _ _ NEST:bs21c02 _ _ _ _ NEST:bs21c04 _ _ _ _ NEST:bs21e01 _ _ _ _ NEST:bs21e09 _ _ _ _ NEST:bs21e12 _ _ _ _ NEST:bs21f02 _ _ _ _ NEST:bs21f09 _ _ _ _ NEST:bs21g07 _ _ _ _ NEST:bs21g08 _ _ _ _ NEST:bs22a08 _ _ _ _ NEST:bs22a11 _ _ _ _ NEST:bs22b03 _ _ _ _ NEST:bs22b09 _ _ _ _ NEST:bs22c06 _ _ _ _ NEST:bs22c12 _ _ _ _ NEST:bs22d02 _ _ _ _ NEST:bs22d06 _ _ _ _ NEST:bs22e02 _ _ _ _ NEST:bs22e06 _ _ _ _ NEST:bs22e07 _ _ _ _ NEST:bs22e10 _ _ _ _ NEST:bs22f07 _ _ _ _ NEST:bs22g02 _ _ _ _ NEST:bs23a07 _ _ _ _ NEST:bs23b02 _ _ _ _ NEST:bs23c05 _ _ _ _ NEST:bs23e07 _ _ _ _ NEST:bs23e10 _ _ _ _ NEST:bs23f04 _ _ _ _ NEST:bs23f09 _ _ _ _ NEST:bs23g06 _ _ _ _ NEST:bs23g10 _ _ _ _ NEST:bs23h04 _ _ _ _ NEST:bs23h05 _ _ _ _ NEST:bs24c12 _ _ _ _ NEST:bs24e04 _ _ _ _ NEST:bs24e09 _ _ _ _ NEST:bs24f01 _ _ _ _ NEST:bs24f02 _ _ _ _ NEST:bs24f08 _ _ _ _ NEST:bs24h05 _ _ _ _ NEST:bs25a03 _ _ _ _ NEST:bs25b07 _ _ _ _ NEST:bs25c07 _ _ _ _ NEST:bs25c12 _ _ _ _ NEST:bs25d10 _ _ _ _ NEST:bs25e02 _ _ _ _ NEST:bs25e10 _ _ _ _ NEST:bs25e11 _ _ _ _ NEST:bs25f07 _ _ _ _ NEST:bs25g12 _ _ _ _ NEST:bs25h11 _ _ _ _ NEST:bs26b08 _ _ _ _ NEST:bs26b09 _ _ _ _ NEST:bs26d12 _ _ _ _ NEST:bs26e07 _ _ _ _ NEST:bs26g09 _ _ _ _ NEST:bs26g11 _ _ _ _ NEST:bs27a02 _ _ _ _ NEST:bs27a03 _ _ _ _ NEST:bs27c07 _ _ _ _ NEST:bs27c08 _ _ _ _ NEST:bs27d02 _ _ _ _ NEST:bs27d11 _ _ _ _ NEST:bs27e02 _ _ _ _ NEST:bs27e03 _ _ _ _ NEST:bs27e11 _ _ _ _ NEST:bs27f03 _ _ _ _ NEST:bs27g01 _ _ _ _ NEST:bs27g02 _ _ _ _ NEST:bs27g03 _ _ _ _ NEST:bs27g04 _ _ _ _ NEST:bs27g06 _ _ _ _ NEST:bs27g09 _ _ _ _ NEST:bs27h04 _ _ _ _ NEST:bs27h05 _ _ _ _ NEST:bs27h11 _ _ _ _ NEST:bs28a02 _ _ _ _ NEST:bs28b05 _ _ _ _ NEST:bs28c11 _ _ _ _ NEST:bs28e01 _ _ _ _ NEST:bs28e06 _ _ _ _ NEST:bs28f02 _ _ _ _ NEST:bs28g05 _ _ _ _ NEST:bs28g09 _ _ _ _ NEST:bs28h08 _ _ _ _ NEST:bs29a07 _ _ _ _ NEST:bs29a09 _ _ _ _ NEST:bs29a11 _ _ _ _ NEST:bs29b02 _ _ _ _ NEST:bs29b09 _ _ _ _ NEST:bs29b10 _ _ _ _ NEST:bs29c09 _ _ _ _ NEST:bs29d02 _ _ _ _ NEST:bs29d03 _ _ _ _ NEST:bs29d12 _ _ _ _ NEST:bs29e11 _ _ _ _ NEST:bs29f04 _ _ _ _ NEST:bs29g03 _ _ _ _ NEST:bs29h01 _ _ _ _ NEST:bs29h03 _ _ _ _ NEST:bs30a01 _ _ _ _ NEST:bs30a09 _ _ _ _ NEST:bs30b01 _ _ _ _ NEST:bs30c01 _ _ _ _ NEST:bs30d08 _ _ _ _ NEST:bs30d11 _ _ _ _ NEST:bs30e09 _ _ _ _ NEST:bs30f05 _ _ _ _ NEST:bs30g01 _ _ _ _ NEST:bs30g02 _ _ _ _ NEST:bs30g09 _ _ _ _ NEST:bs30h06 _ _ _ _ NEST:bs31a06 _ _ _ _ NEST:bs31a10 _ _ _ _ NEST:bs31c05 _ _ _ _ NEST:bs31c07 _ _ _ _ NEST:bs31d06 _ _ _ _ NEST:bs31g11 _ _ _ _ NEST:bs31h06 _ _ _ _ NEST:bs32a11 _ _ _ _ NEST:bs32b08 _ _ _ _ NEST:bs32e09 _ _ _ _ NEST:bs32e10 _ _ _ _ NEST:bs32f07 _ _ _ _ NEST:bs32h08 _ _ _ _ NEST:bs32h12 _ _ _ _ NEST:bs33a04 _ _ _ _ NEST:bs33a06 _ _ _ _ NEST:bs33a07 _ _ _ _ NEST:bs33d08 _ _ _ _ NEST:bs33e07 _ _ _ _ NEST:bs33f03 _ _ _ _ NEST:bs33g02 _ _ _ _ NEST:bs33g12 _ _ _ _ NEST:bs33h09 _ _ _ _ NEST:bs33h12 _ _ _ _ NEST:bs34b01 _ _ _ _ NEST:bs34b06 _ _ _ _ NEST:bs34b09 _ _ _ _ NEST:bs34b12 _ _ _ _ NEST:bs34c07 _ _ _ _ NEST:bs34d09 _ _ _ _ NEST:bs34e04 _ _ _ _ NEST:bs34f06 _ _ _ _ NEST:bs34f07 _ _ _ _ NEST:bs34h05 _ _ _ _ NEST:bs34h06 _ _ _ _ NEST:bs34h07 _ _ _ _ NEST:bs34h11 _ _ _ _ NEST:bs35a07 _ _ _ _ NEST:bs35b10 _ _ _ _ NEST:bs35b12 _ _ _ _ NEST:bs35c08 _ _ _ _ NEST:bs35d06 _ _ _ _ NEST:bs35e06 _ _ _ _ NEST:bs35e07 _ _ _ _ NEST:bs35f01 _ _ _ _ NEST:bs35f11 _ _ _ _ NEST:bs35g01 _ _ _ _ NEST:bs35g07 _ _ _ _ NEST:bs35g08 _ _ _ _ NEST:bs35g11 _ _ _ _ NEST:bs35h03 _ _ _ _ NEST:bs35h07 _ _ _ _ NEST:bs36a03 _ _ _ _ NEST:bs36a12 _ _ _ _ NEST:bs36b12 _ _ _ _ NEST:bs36c04 _ _ _ _ NEST:bs36g01 _ _ _ _ NEST:bs36g09 _ _ _ _ NEST:bs36g10 _ _ _ _ NEST:bs36g11 _ _ _ _ net _ _ net "Egfr signaling and net exert mutually antagonizing activities, during the specification of wing vein versus intervein fate. net, is required to maintain intervein development by restricting Egfr, signaling to the net-free vein regions of the wing disc." NetA axon guidance; GO:0007411 | inferred from sequence similarity; axon guidance; GO:0007411 | non-traceable author statement _ Netrin-A _ NetB axon guidance; GO:0007411 | inferred from sequence similarity; synaptic target attraction; GO:0016200 | traceable author statement _ Netrin-B _ Netrin _ _ Netrin _ neu _ _ neuter _ Neu5Ac _ _ _ _ neur determination of sensory organ precursor cell fate; GO:0016360 | inferred from mutant phenotype; eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype; neurogenesis; GO:0007399 | inferred from mutant phenotype; peripheral nervous system development; GO:0007422 | inferred from mutant phenotype; sensory organ development; GO:0007423 | inferred from mutant phenotype _ neuralized _ neuro _ _ neuromuscular _ neuro-d4 _ _ _ _ neuroligin _ _ neuroligin _ ney _ _ narrow eye _ Nf1 olfactory learning; GO:0008355 | traceable author statement _ Neurofibromin 1 _ NFAT transcription; GO:0006350 | inferred from sequence similarity; transcription; GO:0006350 | inferred from sequence similarity _ Misexpression Suppressor of Ras 1 _ NfI _ _ Nuclear factor I _ ng1 puparial adhesion; GO:0007594 | non-traceable author statement _ new glue 1 _ ng2 puparial adhesion; GO:0007594 | non-traceable author statement _ new glue 2 _ ng3 puparial adhesion; GO:0007594 | non-traceable author statement _ new glue 3 _ ng4 meiosis I; GO:0007127 | non-traceable author statement; puparial adhesion; GO:0007594 | non-traceable author statement _ new glue 4 _ Ngp _ _ _ _ Nhe1 _ _ _ _ NHE2 regulation of pH; GO:0006885 | non-traceable author statement _ _ _ Nhe3 _ _ _ _ NHP2 _ _ _ _ nht transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF4; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF4B; OMIM:601689; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:MPT1; SGDID:S0004607 _ no hitter _ Ni _ _ Nicked _ Niki _ _ _ _ ninA axon guidance; GO:0007411 | non-traceable author statement _ ninjurin A _ ninaA phototransduction; GO:0007602 | inferred from physical interaction with FLYBASE:ninaE; FB:FBgn0002940 _ neither inactivation nor afterpotential A "ninaA gene product is required for the synthesis of rhodopsin, in a subset of photoreceptor cell types." ninaB "phototransduction, UV; GO:0007604 | inferred from mutant phenotype; phototransduction, visible light; GO:0007603 | inferred from mutant phenotype; rhodopsin biogenesis; GO:0016063 | inferred from mutant phenotype; vitamin biosynthesis; GO:0009110 | inferred from mutant phenotype" _ neither inactivation nor afterpotential B ninaB has a key role in the synthesis of vitamin A. ninaC "adaptation of rhodopsin mediated signaling; GO:0016062 | inferred from mutant phenotype; cytoskeleton organization and biogenesis; GO:0007010 | inferred from mutant phenotype; deactivation of rhodopsin mediated signaling; GO:0016059 | inferred from mutant phenotype; phototransduction, UV; GO:0007604 | inferred from mutant phenotype; phototransduction, visible light; GO:0007603 | inferred from mutant phenotype; phototransduction, visible light; GO:0007603 | inferred from mutant phenotype; protein localization; GO:0008104 | inferred from mutant phenotype" _ neither inactivation nor afterpotential C _ ninaD "phototransduction, UV; GO:0007604 | inferred from mutant phenotype; phototransduction, visible light; GO:0007603 | inferred from mutant phenotype; rhodopsin biogenesis; GO:0016063 | inferred from mutant phenotype; rhodopsin biogenesis; GO:0016063 | inferred from mutant phenotype" _ neither inactivation nor afterpotential D _ ninaE photoreceptor morphogenesis; GO:0008594 | inferred from mutant phenotype; rhabdomere development; GO:0042052 | inferred from mutant phenotype _ neither inactivation nor afterpotential E _ NiPp-1 _ _ Nuclear inhibitor of PP1 _ Nipped-A _ _ _ _ Nipped-B _ _ _ _ Nipsnap _ _ _ _ NitFhit _ _ Nitrilase and fragile histidine triad fusion protein _ NK7.1 _ _ _ _ nkd frizzled receptor signaling pathway; GO:0007222 | non-traceable author statement _ naked cuticle _ nkg _ _ nanking _ Nkx6 neurogenesis; GO:0007399 | inferred from mutant phenotype _ _ _ NLaz _ _ Neural Lazarillo _ Nle N receptor signaling pathway; GO:0007219 | inferred from sequence similarity with EMBL:AF069737; protein_id:AAC62236 _ Notchless The Nle gene product modulates N signaling activity. Nlp nucleosome spacing; GO:0016584 | non-traceable author statement _ Nucleoplasmin "Nlp protein can substitute for Xenopus nucleoplasmin in, catalysing the in vitro decondensation of demembranated Xenopus sperm,, this is accompanied by binding of Nlp to sperm chromatin." nls _ _ nineless _ nmd _ _ no mitochondrial derivative _ Nmd3 ribosomal large subunit nucleus export; GO:0000055 | inferred from sequence similarity with SGD:NMD3; SGDID:S0001213 _ Nonsense-mediated mRNA 3 _ Nmda1 _ _ N-methyl-D-aspartate receptor-associated protein _ Nmdar1 _ _ NMDA receptor 1 _ Nmdar2 _ _ NMDA receptor 2 _ Nmdmc _ _ NAD-dependent methylenetetrahydrofolate dehydrogenase _ nmdyn-D6 _ _ _ _ nmdyn-D7 _ _ _ _ nmo ommatidial rotation; GO:0016318 | inferred from genetic interaction with FLYBASE:fz; FB:FBgn0001085 _ nemo nmo is required during wing development for wing shape and vein patterning. Nmt N-terminal protein myristoylation; GO:0006499 | inferred from sequence similarity with SGD:NMT1; SGDID:S0004185; N-terminal protein myristoylation; GO:0006499 | non-traceable author statement _ N-myristoyl transferase _ Nnp-1 rRNA metabolism; GO:0016072 | non-traceable author statement; rRNA processing; GO:0006364 | inferred from sequence similarity with NCBI_gi:4503247 _ _ _ noa _ _ neighbor of abl _ Noa36 _ _ _ _ noah _ _ noah Recovered from a screen for modifiers of eve expression in neurons. nob _ _ no bridge _ noc _ _ no ocelli _ noco _ _ _ _ nocturin _ _ nocturin _ nod meiotic chromosome segregation; GO:0045132 | non-traceable author statement; microtubule-based movement; GO:0007018 | inferred from sequence similarity _ no distributive disjunction _ noe _ _ _ _ nofA _ _ no object fixation A _ nofD _ _ no object fixation D _ nofF _ _ no object fixation F _ nofG _ _ no object fixation G _ nofI _ _ no object fixation I _ nofK _ _ no object fixation K _ nofL _ _ no object fixation L _ noi mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:006793; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:015111 _ noisette "Hypomorphic alleles reveal multiple roles of noi for the survival, and differentiation of male germ cells, the differentiation of female, germ cells and the development of several adult structures." nok _ _ next-of-kin _ nol neuroblast proliferation; GO:0007405 | non-traceable author statement _ no optic lobe _ nompA hearing; GO:0007605 | inferred from mutant phenotype; mechanosensory perception; GO:0007609 | inferred from mutant phenotype; perception of sound; GO:0009592 | inferred from mutant phenotype _ no mechanoreceptor potential A "The structure and location of the nompA protein together with the, phenotypes of mutants suggest that it forms part of a mechanical linkage, required to transmit mechanical stimuli to the transduction apparatus." nompB hearing; GO:0007605 | inferred from mutant phenotype; intraflagellar transport; GO:0042073 | non-traceable author statement _ no mechanoreceptor potential B _ nompC hearing; GO:0007605 | inferred from mutant phenotype; mechanosensory behavior; GO:0007638 | inferred from mutant phenotype _ no mechanoreceptor potential C _ nompD _ _ no mechanoreceptor potential D _ nompE hearing; GO:0007605 | inferred from mutant phenotype _ no mechanoreceptor potential E _ nompF hearing; GO:0007605 | inferred from mutant phenotype _ no mechanoreceptor potential F _ nompI hearing; GO:0007605 | inferred from mutant phenotype _ no mechanoreceptor potential I _ nompJ hearing; GO:0007605 | inferred from mutant phenotype _ no mechanoreceptor potential J _ nonA mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_gi:4826998 _ no on or off transient A _ nonA-l mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:005057; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_gi:4826998 _ nonA-like _ nonC _ _ no on or off transient C _ noose _ _ _ Identified by interaction with stg. nop5 rRNA processing; GO:0006364 | non-traceable author statement _ _ _ Nop56 _ _ _ _ Nop60B rRNA processing; GO:0006364 | non-traceable author statement _ Nucleolar protein at 60B Nop60B plays a central role in ribosomal RNA processing and pseudouridylation. Nopp140 nucleologenesis; GO:0017126 | inferred from sequence similarity with EMBL:M94288 _ _ _ nori-1 _ _ _ _ nori-6 _ _ _ _ norpA olfaction; GO:0007608 | inferred from mutant phenotype; response to abiotic stimulus; GO:0009628 | inferred from mutant phenotype _ no receptor potential A _ Nos defense response; GO:0006952 | non-traceable author statement; nitric oxide biosynthesis; GO:0006809 | traceable author statement _ Nitric oxide synthase "Nos has a suggested role in the developing imaginal eye disc via, interaction with the Rbf pathway." nos "determination of anterior/posterior axis, embryo; GO:0008595 | non-traceable author statement; female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype" _ nanos _ nosh _ _ _ _ not axon target recognition; GO:0007412 | inferred from mutant phenotype; ubiquitin-dependent protein catabolism; GO:0006511 | inferred from genetic interaction with FLYBASE:Pros26; FB:FBgn0002284 _ non-stop "The phenotype of not mutants suggests that not is required for, the migration of the epithelial, marginal and medulla glial cells in, the developing optic lobe." Notum Wnt receptor signaling pathway; GO:0016055 | non-traceable author statement; Wnt receptor signaling pathway; GO:0016055 | non-traceable author statement; proteoglycan metabolism; GO:0006029 | non-traceable author statement _ Notum "Notum antagonizes the wg signaling pathway, restricting the, region of high-response to wg and helping to shape the activity, gradient in different contexts throughout development." noy _ _ no eye _ Np _ _ Notopleural _ NP15.6 _ _ _ _ NPC1 _ _ _ _ npf _ _ neuropeptide F _ NPFR1 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; tachykinin signaling pathway; GO:0007217 | inferred from sequence similarity with FLYBASE:NepYr; FB:FBgn0004842 _ neuropeptide F receptor _ NPFR76F G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; neuropeptide signaling pathway; GO:0007218 | inferred from sequence similarity _ Neuropeptide F-like Receptor 76F _ npr3 _ _ non-pupariating 3 _ nr _ _ nesher _ nrd _ _ neural disrupted _ Nrg neuronal cell adhesion; GO:0007158 | inferred from sequence similarity with NCBI_gi:4826864 _ Neuroglian "Encodes a protein that is likely to play a role in neural and glial, cell adhesion in the developing Drosophila embryo." Nrk protein amino acid phosphorylation; GO:0006468 | inferred from direct assay; signal transduction; GO:0007165 | inferred from direct assay _ Neurospecific receptor kinase _ nrm _ _ neuromusculin _ Nrt _ _ Neurotactin "Nrt is required during axon outgrowth, fasciculation and guidance." Nrv1 potassium transport; GO:0006813 | non-traceable author statement; sodium transport; GO:0006814 | non-traceable author statement _ Nervana 1 "The product(s) of the Nervana gene(s) were recognized by their, epitope(s) which reacts with anti-Horse Radish Peroxidase antibodies. These, antibodies label neurons in Drosophila. The nac gene product may be, required for the glycosylation of these proteins." Nrv2 _ _ Nervana 2 "The product(s) of the Nervana gene(s) were recognized by their, epitope(s) which reacts with anti-Horse Radish Peroxidase antibodies. These, antibodies label neurons in Drosophila. The nac gene product may be, required for the glycosylation of these proteins." Nrx dorsal closure; GO:0007391 | traceable author statement _ Neurexin "The amino-terminal 383 amino acids of cora (a functional domain that, is both necessary and sufficient for proper septate junction localization, of cora) and the cytoplasmic domain of Nrx interact directly." Nrx-1 _ _ Neurexin 1 _ Nsf2 ER to Golgi transport; GO:0006888 | non-traceable author statement; intra-Golgi transport; GO:0006891 | non-traceable author statement; neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle priming; GO:0016082 | non-traceable author statement; vesicle-mediated transport; GO:0016192 | non-traceable author statement _ NEM-sensitive fusion protein 2 "comt and Nsf2 exhibit similar functional properties but have evolved, distinct tissue-specific roles. comt is required in the nervous, system beginning at the adult stage of development whereas Nsf2 is, required in the mesoderm beginning at the first larval instar. The, comt and Nsf2 proteins can functionally substitute for one another." NssBF _ _ Nuclear single stranded DNA-binding factor _ Ntf-2 protein-nucleus import; GO:0006606 | inferred from sequence similarity with SGD:NTF2; SGDID:S0000811; protein-nucleus import; GO:0006606 | non-traceable author statement _ _ "The Ntf-2 product is a part of a multiprotein complex that, facilitates import of the Rel factors into the nucleus." NTPase _ _ _ _ NtR _ _ _ _ nub neuroblast determination; GO:0007400 | non-traceable author statement _ nubbin _ Nuc _ _ Nuclease _ nuc1 _ _ nucleoside auxotroph 1 _ Nuc3 _ _ Nuclease 3 _ NUCB1 _ _ _ _ NucIII _ _ Nuclease III _ Nucleoporin _ _ Nucleoporin "Isolated from a cDNA expression library screened with mAb414 of Davis, and Blobel that recognizes nucleoporin p62." nudC _ _ _ _ nuf "cytokinesis, contractile ring assembly; GO:0045573 | non-traceable author statement; microtubule-based process; GO:0007017 | inferred from sequence similarity" _ nuclear fallout _ Nufip _ _ _ _ Nuk _ _ _ _ nullo intercellular junction assembly; GO:0007043 | inferred from mutant phenotype _ nullo _ numb N receptor signaling pathway; GO:0007219 | traceable author statement; neuroblast determination; GO:0007400 | traceable author statement _ numb _ Nup153 _ _ _ _ Nup154 _ _ _ "Nup154 is essential for viability and is required for normal cell, proliferation." Nup214 _ _ _ _ nup44A _ _ _ _ Nurf-38 _ _ Nucleosome remodeling factor - 38kD _ Nurf301 _ _ _ _ Nut2 _ _ _ _ nvy _ _ nervy _ nw _ _ narrow _ NX _ _ Notch Xasta _ nxf2 mRNA-nucleus export; GO:0006406 | inferred from sequence similarity; mRNA-nucleus export; GO:0006406 | non-traceable author statement _ nuclear RNA export factor 2 _ nxf3 _ _ nuclear export factor 3 _ nxf4 _ _ nuclear export factor 4 _ Nxt1 poly(A)+ mRNA-nucleus export; GO:0016973 | inferred from mutant phenotype _ NTF2-related export protein 1 _ ny _ _ notchy _ O-fut1 O-linked glycosylation; GO:0006493 | inferred from sequence similarity _ O-fucosyltransferase 1 _ O-fut2 _ _ O-fucosyltransferase 2 _ Oab _ _ Orientation abnormal _ oaf female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ out at first _ Oamb octopamine/tyramine signaling pathway; GO:0007211 | inferred from sequence similarity _ Octopamine receptor in mushroom bodies _ oap _ _ ombre-a-paupieres Ecol\lacZ expression is dorsally limited in the third instar eye imaginal disc. Oat _ _ Ornithine aminotransferase precursor _ obk _ _ obake _ obl _ _ oblique wings _ Obp-a _ _ _ _ Obp-b _ _ _ _ Obp-c _ _ _ _ Obp-d _ _ _ _ Obp-e _ _ _ _ Obp-f _ _ _ _ Obp-g _ _ _ _ Obp18a _ _ Odorant-binding protein 18a _ Obp19a _ _ Odorant-binding protein 19a _ Obp19b _ _ Odorant-binding protein 19b _ Obp19c _ _ Odorant-binding protein 19c _ Obp22a _ _ Odorant-binding protein 22a _ Obp44a _ _ _ _ Obp47a _ _ Odorant-binding protein 47a _ Obp51a _ _ Odorant-binding protein 51a _ Obp56a _ _ Odorant-binding protein 56a _ Obp56b _ _ Odorant-binding protein 56b _ Obp56c _ _ Odorant-binding protein 56c _ Obp56d _ _ Odorant-binding protein 56d _ Obp56e _ _ Odorant-binding protein 56e _ Obp56f _ _ Odorant-binding protein 56f _ Obp56g _ _ Odorant-binding protein 56g _ Obp56h _ _ Odorant-binding protein 56h _ Obp56i _ _ Odorant-binding protein 56i _ Obp57a _ _ Odorant-binding protein 57a _ Obp57b _ _ Odorant-binding protein 57b _ Obp57c _ _ _ _ Obp57d _ _ Odorant-binding protein 57d _ Obp57e _ _ Odorant-binding protein 57e _ Obp59a _ _ Odorant-binding protein 59a _ Obp83c _ _ Odorant-binding protein 83c _ Obp83d _ _ Odorant-binding protein 83d _ Obp83f _ _ Odorant-binding protein 83f _ Obp83g _ _ Odorant-binding protein 83g _ Obp8a _ _ Odorant-binding protein 8a _ Obp99a _ _ Odorant-binding protein 99a _ Obp99b _ _ Odorant-binding protein 99b _ Obp99c _ _ Odorant-binding protein 99c _ Obp99d _ _ Odorant-binding protein 99d _ obt _ _ obtuse _ obx _ _ obelix _ oc neurogenesis; GO:0007399 | non-traceable author statement; ocellus morphogenesis; GO:0008056 | non-traceable author statement _ ocelliless "Expression of wg and oc throughout the entire second instar eye-antennal, disc confers a default fate of dorsal vertex cuticle. Activation of, dpp expression in the posterior eye disc eliminates wg and oc, expression, thereby permitting eye differentiation." Ocd _ _ Out cold _ Oce _ _ Ocellarless _ Ocho _ _ Ocho _ ocn _ _ ocnus _ Ocr-l _ _ Octopamine receptor-like _ Ocu _ _ Oculess _ odA _ _ _ _ Odc1 polyamine biosynthesis; GO:0006596 | non-traceable author statement _ Ornithine decarboxylase 1 _ Odc2 polyamine biosynthesis; GO:0006596 | non-traceable author statement _ Ornithine decarboxylase 2 _ odd periodic partitioning by pair rule gene; GO:0007366 | non-traceable author statement _ odd skipped _ OdsH _ _ Ods-site homeobox _ Oef1 _ _ oe1 binding factor 1 _ Oef2 _ _ oe1 binding factor 2 _ Ogg1 DNA repair; GO:0006281 | non-traceable author statement _ _ _ ogre optokinetic behavior; GO:0007634 | inferred from sequence similarity _ optic ganglion reduced _ Ogt _ _ O-glycosyltransferase _ oho23B protein biosynthesis; GO:0006412 | inferred from sequence similarity; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P05765 _ overgrown hematopoietic organs at 23B _ oho31 _ _ overgrown hematopoietic organs-31 _ oho48A _ _ overgrown hematopoietic organs 48A _ oho48E _ _ overgrown hematopoietic organs 48E _ oho51 _ _ overgrown hematopoietic organs 51 _ oho55DE _ _ overgrown hematopoietic organs 55DE _ okina _ _ okina Mutant homozygous males prematurely terminate copulation. okr double-strand break repair; GO:0006302 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype _ okra "Characterization of mutants implies okr is crucial in repair and, recombination." ol1 _ _ oocyte localization 1 _ ol2 _ _ oocyte localization 2 _ ol3 _ _ oocyte localization 3 _ ol4 _ _ oocyte localization 4 _ olf186-F _ _ _ _ olf186-M _ _ _ _ olf345 _ _ olfactory 345 _ olf413 _ _ _ _ olf534 _ _ olfactory 534 _ olf701 _ _ olfactory 701 _ olf702 _ _ olfactory 702 _ olfA _ _ olfactory A _ olfB _ _ olfactory B _ olfF _ _ olfactory F _ olfJ106 _ _ olfactory J106 _ olfJ11 _ _ olfactory J11 _ olfJ147 _ _ olfactory J147 _ olfJ150 _ _ olfactory J150 _ olfJ78 _ _ olfactory J78 _ olfS20 _ _ olfactory S20 _ olfS51 _ _ olfactory S51 _ Oli _ _ Olig family _ ome _ _ omega "ome[+] product postulated to play a role in modifying the, Lcp65Ab1/Lcp65Ab2 gene products." onecut "regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement; transcription; GO:0006350 | inferred from sequence similarity" _ onecut _ Onf-AATAA _ _ Ovarian nuclear factor-AATAA _ onr _ _ _ _ oop _ _ out of place _ op _ _ opaque _ Op29 _ _ Ovary protein-29kD _ opa periodic partitioning; GO:0007365 | non-traceable author statement _ odd paired _ opht _ _ opthalmoptera _ Opl _ _ Opthalmopedia-like _ Opt _ _ Ophthalmoptera _ opt _ _ ophthalmosa _ Optix eye morphogenesis (sensu Drosophila); GO:0007456 | non-traceable author statement; eye morphogenesis (sensu Drosophila); GO:0007456 | non-traceable author statement _ Optix Optix functions during eye development. or eye pigment biosynthesis; GO:0006726 | traceable author statement; non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ orange "The or gene product is part of the AP-3 adaptor complex, which is, critical for pigment granule formation." Or10a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 10a _ Or13a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 13a _ Or19a olfaction; GO:0007608 | inferred from sequence similarity; olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 19a _ Or19b _ _ Odorant receptor 19b _ Or1a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 1a _ Or22a olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 22a _ Or22b olfaction; GO:0007608 | non-traceable author statement; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 22b _ Or22c olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 22c _ Or23a ubiquitin-dependent protein catabolism; GO:0006511 | inferred from sequence similarity with SWISS-PROT:P40307 _ Odorant receptor 23a _ Or24a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 24a _ Or2a olfaction; GO:0007608 | non-traceable author statement; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 2a _ Or30a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 30a _ Or33a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 33a _ Or33b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 33b _ Or33c olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 33c _ Or35a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 35a _ Or42a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 42a _ Or42b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 42b _ Or43a olfaction; GO:0007608 | non-traceable author statement; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 43a _ Or43b olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 43b _ Or45a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 45a _ Or45b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 45b _ Or46a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 46a _ Or46b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 46b _ Or47a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 47a _ Or47b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 47b _ Or49a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 49a _ Or49b olfaction; GO:0007608 | non-traceable author statement; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 49b _ Or56a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 56a _ Or59a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 59a _ Or59b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 59b _ Or59c olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 59c _ Or63a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 63a _ Or65a olfaction; GO:0007608 | inferred from sequence similarity; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 65a _ Or65b olfaction; GO:0007608 | inferred from sequence similarity; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 65b _ Or65c olfaction; GO:0007608 | inferred from sequence similarity; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 65c _ Or67a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 67a _ Or67b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 67b _ Or67c olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 67c _ Or67d _ _ _ _ Or69a olfaction; GO:0007608 | inferred from sequence similarity; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 69a _ Or69b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 69b _ Or71a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 71a _ Or74a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 74a _ Or7a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 7a _ Or82a olfaction; GO:0007608 | inferred from sequence similarity; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 82a _ Or83a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 83a _ Or83b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 83b _ Or83c olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 83c _ Or85a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 85a _ Or85b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 85b _ Or85c olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 85c _ Or85d olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 85d _ Or85e olfaction; GO:0007608 | non-traceable author statement; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 85e _ Or85f olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 85f _ Or88a olfaction; GO:0007608 | inferred from sequence similarity; olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 88a _ Or92a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 92a _ Or94a olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 94a _ Or94b olfaction; GO:0007608 | non-traceable author statement _ Odorant receptor 94b _ Or98a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 98a _ Or98b olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 98b _ Or9a olfaction; GO:0007608 | inferred from sequence similarity _ Odorant receptor 9a _ orb germ-cell development; GO:0007281 | inferred from mutant phenotype; mRNA polyadenylation; GO:0006378 | inferred from sequence similarity with SPTREMBL:Q91572 _ oo18 RNA-binding protein "orb functions in both early and late grk-Egfr signaling pathways,, and in each case is required for the localized expression of grk, protein." Orc1 DNA dependent DNA replication; GO:0006261 | inferred from sequence similarity with EMBL:AJ003133; protein_id:CAA05890; DNA replication initiation; GO:0006270 | inferred from direct assay _ Origin recognition complex subunit 1 Orc1 is required for ATP hydrolysis and ATP-dependent DNA binding. Orc2 DNA dependent DNA replication; GO:0006261 | inferred from sequence similarity with MGD:Orc2; MGI:MGI:1328306; DNA dependent DNA replication; GO:0006261 | inferred from sequence similarity with SGD:Orc2; SGDID:S0000264; DNA replication initiation; GO:0006270 | inferred from direct assay _ Origin recognition complex subunit 2 Orc2 functions in chromosome architecture and replication timing. Orc4 DNA replication initiation; GO:0006270 | inferred from direct assay; DNA replication initiation; GO:0006270 | inferred from sequence similarity with EMBL:Y16386; protein_id:CAA76188 _ Origin recognition complex subunit 4 _ Orc5 DNA dependent DNA replication; GO:0006261 | inferred from sequence similarity with SGD:Orc5; SGDID:S0005205; DNA replication initiation; GO:0006270 | inferred from direct assay; DNA replication initiation; GO:0006270 | inferred from sequence similarity with NCBI_gi:4505525 _ Origin recognition complex subunit 5 _ Orc6 DNA replication initiation; GO:0006270 | inferred from direct assay; DNA replication initiation; GO:0006270 | inferred from sequence similarity with EMBL:AF139659; protein_id:AAD32667.1 _ Origin recognition complex subunit 6 _ Orct _ _ Organic cation transporter _ Orct2 _ _ Organic cation transporter 2 _ ord chromosome segregation; GO:0007059 | inferred from mutant phenotype; gametogenesis; GO:0007276 | inferred from mutant phenotype; meiosis; GO:0007126 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype; sister chromatid cohesion; GO:0007062 | inferred from mutant phenotype _ orientation disrupter _ Orf5C _ _ _ _ org-1 _ _ optomotor-blind-related-gene-1 _ Ork1 potassium transport; GO:0006813 | non-traceable author statement _ Open rectifier K[+] channel 1 _ ORMDL _ _ _ _ oro _ _ oroshigane "oro functions upstream of ptc in hh signaling during both, embryogenesis and imaginal disc development. oro may also have, a role in wing development." ors _ _ outer rhabdomeres small "Mosaic analysis suggests ors may be involved in detemining inner, and outer photoreceptor cell fate." ort _ _ ora transientless _ Ory _ _ Occludin-Related Y _ os primary sex determination; GO:0007538 | inferred from mutant phenotype; stem cell renewal; GO:0017145 | inferred from mutant phenotype; stem cell renewal; GO:0017145 | inferred from mutant phenotype _ outstretched _ Os-C _ _ _ _ Os-E _ _ Olfactory-specific E _ Os9 _ _ Olfactory-specific 9 _ osa _ _ osa "Mosaic analysis in eye discs suggests a function, for osa in cell proliferation and/or survival and neuronal differentiation." Osbp _ _ Oxysterol binding protein _ Oscillin _ _ _ _ Oscp ATP synthesis coupled proton transport; GO:0015986 | non-traceable author statement _ Oligomycin sensitivity-conferring protein _ osho _ _ one shot _ osk pole cell determination; GO:0007278 | non-traceable author statement _ oskar _ osp _ _ outspread osp is not a vital gene. Ost _ _ Ostrich _ ost _ _ odd-striped _ Ost48 N-linked glycosylation; GO:0006487 | non-traceable author statement _ Oligosaccharyltransferase 48kD subunit _ OstStt3 _ _ Oligosaccharyl transferase 3 _ Osw _ _ Outspreadwing _ ot _ _ outheld _ ota2 _ _ olfactory trap abnormal 2 _ Ota3 _ _ Olfactory trap abnormal 3 _ ota5 _ _ olfactory trap abnormal 5 _ ota7 _ _ olfactory trap abnormal 7 _ otb _ _ outback otb is required for dorsal closure. Ote _ _ Otefin "Lam protein interacts with both Ote and fs(1)Ya in a yeast two-hybrid, system." otk axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Sema-1a; FB:FBgn0011259; axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:plexA; FB:FBgn0025741; cell adhesion; GO:0007155 | inferred from direct assay _ off-track _ Otoferlin synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Otoferlin _ otp central nervous system development; GO:0007417 | non-traceable author statement; segment specification; GO:0007379 | non-traceable author statement _ orthopedia _ otu germ-cell development; GO:0007281 | non-traceable author statement; oogenesis; GO:0007292 | traceable author statement _ ovarian tumor _ out programmed cell death; GO:0012501 | inferred from mutant phenotype _ outsiders _ ov _ _ oval _ ovo female germ-line sex determination; GO:0019099 | non-traceable author statement; oogenesis; GO:0007292 | traceable author statement _ ovo _ ovr _ _ overheated _ ovt _ _ ovarian tumor _ ox _ _ oxen _ oxt _ _ peptide O-xylosyltransferase _ P _ _ Pale _ p _ _ pink _ P(3)78A _ _ _ _ P(3)79D _ _ _ _ P(3)91A _ _ _ _ P(3)91F _ _ _ _ P(3)93B _ _ _ _ P(3)97C _ _ _ _ P(3)98DF _ _ _ _ P-1 _ _ proteoglycan-1 "Biochemical analysis of P-1 strongly suggests that it is a member of a family, of heparan-sulfate proteoglycans (HSPGs) and the localization of P-1, in the embryo suggests it is involved in many cell functions, including, fertilization. Results imply proteoglycans are involved in sperm-egg, interactions following sperm entry into the egg." P-25 _ _ _ _ P10 _ _ _ _ p110 _ _ _ _ p115 non-selective vesicle docking; GO:0006904 | inferred from sequence similarity; non-selective vesicle docking; GO:0006904 | inferred from sequence similarity with NCBI_gi:4505541 _ _ _ P12 _ _ _ _ p120 _ _ _ _ p120ctn _ _ Adherens junction protein p120 Identified by PCR based on homology to the vertebrate homologs. P13 cell cycle; GO:0007049 | traceable author statement _ P13 _ p130CAS cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ _ _ p147 _ _ _ _ p16-ARC _ _ _ _ p22 _ _ _ p22 protein is involved in chromatin remodeling. P25 _ _ _ _ P29 _ _ _ _ P30 _ _ _ _ p35 _ _ _ _ P37 _ _ P37 _ p38b regulation of BMP signaling pathway; GO:0030510 | inferred from direct assay; regulation of innate immune response; GO:0045088 | inferred from direct assay; stress response; GO:0006950 | inferred from direct assay; wing morphogenesis; GO:0007476 | inferred from direct assay _ _ p38b functions in dpp signaling in wing morphogenesis. p38c protein amino acid phosphorylation; GO:0006468 | non-traceable author statement; signal transduction; GO:0007165 | non-traceable author statement _ _ _ p40 _ _ _ _ p400 _ _ _ _ P42 _ _ _ _ P43 _ _ P43 _ p47 _ _ _ _ P48 _ _ P48 _ p50 _ _ _ "Identified as a 50kD protein that binds to a discrete translational, derepressor element located at the 5' end of the osk transcript., p50 protein also binds to the Bruno-response element (BRE) at the, 3' end of the osk transcript." p53 _ _ _ _ p55 _ _ _ _ p56 _ _ _ "Identified as a constitutively expressed protein in SL2 cells that, cross reacts with antibodies to rat F[[1]]-ATPase alpha-subunit peptides., The level of protein increases on heat shock." P5cr proline biosynthesis; GO:0006561 | inferred from sequence similarity _ Pyrroline 5-carboyxlate reductase _ p67 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ _ _ p68 _ _ _ "Identified as a 68kD protein that binds to a discrete translational, derepressor element located at the 5' end of the osk transcript." P69 _ _ _ _ p69 _ _ _ _ P71 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle docking; GO:0016081 | non-traceable author statement; synaptic vesicle targeting; GO:0016080 | non-traceable author statement _ _ _ p71 _ _ _ "Identified as a protein that cross reacts with antibodies to rat F[[1]]-ATPase, alpha-subunit peptides. Expression of the protein is induced by heat, shock." p74 _ _ _ _ p74S _ _ _ _ p75 _ _ _ _ p76 _ _ _ _ p78 _ _ _ _ p82 _ _ _ _ p88 _ _ _ _ p94 _ _ _ "p94 protein, a 94kD nuclear-localization signal binding protein,, has been purified from Drosophila embryos. p94 protein specifically, binds the nuclear-localization signal of the SV40 T-antigen in its, dephosphorylated form. The affinity for the nuclear-localization signal, is greatly reduced if the p94 protein is phosphorylated." Pa _ _ Puffrmel _ pa _ _ patulous _ pAbp _ _ polyA-binding protein "pAbp is required to connect the centrosome to the minus-ends of, free microtubules." Pabp2 mRNA polyadenylation; GO:0006378 | inferred from sequence similarity _ _ _ Pacap38 _ _ Pituitary adenylyl cyclase-activating polypeptide _ pads _ _ pads _ Paf-AHalpha _ _ Platelet-activating factor acetylhydrolase alpha _ pain _ _ painless _ Paip2 negative regulation of translation; GO:0016478 | inferred from sequence similarity with HUGO:PAIP2; OMIM:605604 _ polyA-binding protein interacting protein 2 _ Pak axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Dscam; FB:FBgn0033159; cell adhesion; GO:0007155 | inferred from direct assay _ PAK-kinase "Pak is a critical regulator of R cell axon guidance and a downstream, effector of dock in vivo." Pak3 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ Pal _ _ Peptidyl-alpha-hydroxyglycine-alpha-amidating lyase Pal enzyme activity has been identified in Drosophila head extracts. pal male meiosis; GO:0007140 | inferred from mutant phenotype _ paternal loss inducer "pal[+] function seems to be necessary during meiosis, for normal transmission of paternal chromosomes in the, early divisions of the fertilized egg." palido _ _ palido _ pan frizzled receptor signaling pathway; GO:0007222 | non-traceable author statement; segment polarity determination; GO:0007367 | non-traceable author statement _ pangolin _ pana _ _ pollyanna _ pap transcription from Pol II promoter; GO:0006366 | non-traceable author statement _ poils aux pattes _ Paps _ _ PAPS synthetase _ par _ _ paralog _ par-1 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity with FLYBASE:KP78a; FB:FBgn0026064; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity with WB:par-1 _ _ _ par-3 _ _ _ _ par-4 _ _ _ _ par-6 establishment and/or maintenance of epithelial cell polarity; GO:0045197 | non-traceable author statement; establishment and/or maintenance of neuroblast cell polarity; GO:0045196 | non-traceable author statement; establishment and/or maintenance of polarity of embryonic epithelium; GO:0016332 | non-traceable author statement; zonula adherens assembly; GO:0045186 | non-traceable author statement _ _ _ para DDT susceptibility/resistance; GO:0016355 | inferred from mutant phenotype; pyrethroid susceptibility/resistance; GO:0016357 | inferred from mutant phenotype _ paralytic _ Parg _ _ Poly(ADP-ribose) glycohydrolase _ parkin _ _ parkin _ Parp protein amino acid ADP-ribosylation; GO:0006471 | non-traceable author statement _ Poly-(ADP-ribose) polymerase PARP protein is processed in S2 cells treated with etoposide to induce apoptosis. Pas _ _ Partial sevenless _ Past1 endocytosis; GO:0006897 | non-traceable author statement _ Putative Achaete Scute Target 1 _ Patsas _ _ _ _ pav female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; microtubule-based movement; GO:0007018 | inferred from sequence similarity _ pavarotti "pav is required to organize the central spindle and contractile ring, for cytokinesis." Pax cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ Paxillin _ pb "specification of segmental identity, labial segment; GO:0007381 | non-traceable author statement; specification of segmental identity, maxillary segment; GO:0007382 | non-traceable author statement" _ proboscipedia _ pbl cytokinesis; GO:0016288 | inferred from mutant phenotype; cytokinesis; GO:0016288 | non-traceable author statement _ pebble "pbl is required for the formation of the contractile ring and the, initiation of cytokinesis." Pbp375 _ _ PSEA-binding protein 375kD _ Pbprp1 _ _ Pheromone-binding protein-related protein 1 _ Pbprp2 _ _ Pheromone-binding protein-related protein 2 _ Pbprp3 _ _ Pheromone-binding protein-related protein 3 _ Pbprp4 _ _ Pheromone-binding protein-related protein 4 _ Pbprp5 _ _ Pheromone-binding protein-related protein 5 _ pbr _ _ postscutellar bristles _ pby _ _ pebbly _ Pc gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:ph-p; FB:FBgn0004861; gene silencing; GO:0016458 | inferred from mutant phenotype _ Polycomb _ PC-Pld _ _ Phosphatidylcholine-specific phospholipase-D _ Pcaf _ _ _ _ pcb _ _ posterior cell blister _ Pcd _ _ pterin-4a-carbinolamine dehydratase _ pch _ _ parched _ pck tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ pickel _ Pcl _ _ Polycomblike _ pcl _ _ pepsinogen-like _ pcm _ _ pacman _ Pcmt protein modification; GO:0006464 | non-traceable author statement; protein repair; GO:0030091 | non-traceable author statement _ Protein-L-isoaspartate (D-aspartate) O-methyltransferase _ Pcp _ _ Pupal cuticle protein _ pcs programmed cell death; GO:0012501 | inferred from sequence similarity _ parcas _ pcv _ _ posterior crossvein _ pcx _ _ pecanex _ pd _ _ purpleoid _ PDCD-5 apoptosis; GO:0006915 | non-traceable author statement _ _ _ Pigment-dispersing factor circadian rhythm; GO:0007623 | non-traceable author statement; locomotor rhythm; GO:0045475 | non-traceable author statement _ " BDGP-DGC:RH08487""" _ Pdf "Pdf appears to be an important circadian mediator whose expression, and function are downstream of the clockworks." pdf _ _ pod foot _ pdg _ _ pigment cell degeneration _ Pdh _ _ Photoreceptor dehydrogenase _ Pdi protein folding; GO:0006457 | inferred from sequence similarity with PIR:ISMSSS; protein folding; GO:0006457 | non-traceable author statement _ Protein disulfide isomerase _ Pdk _ _ Pyruvate dehydrogenase kinase Cloning and characterization of Pdk. PdL14B1 _ _ _ _ PdL2B1 _ _ _ _ PdL35B1 _ _ _ _ PdL3A _ _ _ _ PdL43C1 _ _ _ _ PdL45C1 _ _ _ _ PdL72A3 _ _ _ _ PdL73A1 _ _ _ _ PdL75A3 _ _ _ _ pdm2 neurogenesis; GO:0007399 | non-traceable author statement _ POU domain protein 2 _ Pdp1 transcription; GO:0006350 | traceable author statement _ PAR-domain protein 1 "Pdp1 is involved in regulating expression of Tm2 gene in the somatic, body wall and pharyngeal muscles by binding to DNA sequences within, the muscle activator that are required for activator function. Results, suggest Pdp1 may function as part of a large protein/DNA complex, that interacts with Mef2 to regulate muscle gene transcription., Pdp1 may also be involved in terminal differentiation of the midgut, endoderm, hindgut and Malpighian tubules, the epidermis and the central, nervous system." Pdr _ _ Purpleoider _ Pdsw complex I (NADH to ubiquinone); GO:0006120 | inferred from sequence similarity _ _ _ Pdz _ _ _ "Novel protein containing four PDZ domains that is isolated during a, yeast two-hybrid screen as an interactor with the short cytoplasmic, domain of Nrx." pe _ _ petit _ pea _ _ peanuts _ Peb _ _ Protein ejaculatory bulb _ peb _ _ pebbled _ PebIII _ _ Ejaculatory bulb protein III _ Pebp2beta _ _ _ _ Pec _ _ Pupilla eccentrica _ PEK protein amino acid phosphorylation; GO:0006468 | non-traceable author statement; response to ER-overload; GO:0006983 | non-traceable author statement _ _ _ pel _ _ perle _ pelo protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:DOM34; SGDID:S0004946 _ pelota _ Pen cytoplasmic transport; GO:0016482 | inferred from mutant phenotype; sperm individualization; GO:0007291 | inferred from mutant phenotype _ Pendulin "Pen is a nuclear localization signal (NLS)-binding protein, that is involved in the intercellular transport of NLS-containing, proteins from the nurse cells to the oocytes." pen _ _ penguin _ pen-1 _ _ _ _ pen-2 _ _ presenilin enhancer _ peo _ _ pendolino _ Pep _ _ Protein on ecdysone puffs _ Pepck gluconeogenesis; GO:0006094 | non-traceable author statement _ Phosphoenolpyruvate carboxykinase _ per mating behavior; GO:0007617 | inferred from mutant phenotype; regulation of sleep; GO:0045187 | inferred from mutant phenotype _ period _ Peritrophin-15a _ _ Peritrophin-15a _ Peritrophin-15b _ _ Peritrophin-15b _ Peritrophin-A _ _ Peritrophin A _ Perk _ _ _ _ pers _ _ persimmon _ Pez protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ pf-2 _ _ pairing failure-2 _ pf-3 _ _ pairing failure-3 _ pf-4 _ _ pairing failure-4 _ pf-5 _ _ pairing failure-5 _ pf-6 _ _ pairing failure-6 _ pf-7 _ _ pairing failure-7 _ pf-8 _ _ pairing failure-8 _ Pfd _ _ Pufdi _ pff _ _ parallel fused fascicles _ Pfk glycolysis; GO:0006096 | non-traceable author statement _ Phosphofructokinase _ pfk chromatin modeling; GO:0006338 | non-traceable author statement _ piefke _ Pfrx _ _ 6-phosphofructo-2-kinase _ pfy _ _ puffy _ Pgant35A _ _ Polypeptide N-acetylgalactosaminyltransferase 35A _ Pgd pentose-phosphate shunt; GO:0006098 | non-traceable author statement _ Phosphogluconate dehydrogenase "Pgd enzyme activity has been measured in D.melanogaster lines in, which spontaneous mutations have accumulated over approximately 300, mutations." Pgi gluconeogenesis; GO:0006094 | non-traceable author statement; glycolysis; GO:0006096 | non-traceable author statement _ Phosphoglucose isomerase _ Pgk glycolysis; GO:0006096 | non-traceable author statement _ Phosphoglycerate kinase _ Pglym78 _ _ Phosphoglyceromutase _ Pglym87 _ _ _ _ Pgm _ _ Phosphogluconate mutase _ PGRP-LA immune response; GO:0006955 | inferred from sequence similarity with EMBL:AB016605; protein_id:BAA77210.1; immune response; GO:0006955 | inferred from sequence similarity with EMBL:AF076481; protein_id:AAC31820.1; immune response; GO:0006955 | inferred from sequence similarity with HUGO:PGLYRP; OMIM:604963 _ Peptidoglycan recognition protein LA _ PGRP-LB immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ Peptidoglycan recognition protein LB _ PGRP-LC immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ Peptidoglycan recognition protein LC _ PGRP-LD immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ Peptidoglycan recognition protein LD _ PGRP-LE defense response; GO:0006952 | non-traceable author statement; immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ Peptidoglycan recognition protein LE _ PGRP-LF defense response; GO:0006952 | non-traceable author statement; defense response; GO:0006952 | non-traceable author statement _ Peptidoglycan recognition protein LF _ PGRP-SA anti-Gram-positive bacterial polypeptide induction; GO:0006965 | inferred from mutant phenotype; immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ Peptidoglycan recognition protein SA "PGRP-SA has a role in activating Tl in Gram-positive bacterial, infection." PGRP-SB1 defense response; GO:0006952 | non-traceable author statement; immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ _ _ PGRP-SB2 defense response; GO:0006952 | non-traceable author statement; immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ _ _ PGRP-SC1a defense response; GO:0006952 | non-traceable author statement; immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ _ _ PGRP-SC1b defense response; GO:0006952 | non-traceable author statement; perception of bacteria; GO:0016045 | non-traceable author statement _ _ _ PGRP-SC2 defense response; GO:0006952 | non-traceable author statement; immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ _ _ PGRP-SD defense response; GO:0006952 | non-traceable author statement; immune response; GO:0006955 | inferred from sequence similarity with SWISS-PROT:O76537 _ _ _ ph-d negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | non-traceable author statement _ polyhomeotic distal _ ph-p gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:Pc; FB:FBgn0003042; gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:Scm; FB:FBgn0003334; gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:esc; FB:FBgn0000588 _ polyhomeotic proximal _ PH4alpha-RP peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity _ prolyl-4-hydroxylase-a related protein _ PH4alphaEFB peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ prolyl-4-hydroxylase-alpha EFB _ PH4alphaMP peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with SWISS-PROT:P54001 _ prolyl-4-hydroxylase-alpha MP _ PH4alphaNE1 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ prolyl-4-hydroxylase-alpha NE1 _ PH4alphaNE2 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ prolyl-4-hydroxylase-alpha NE2 _ PH4alphaNE3 _ _ prolyl-4-hydroxylase-alpha NE3 _ PH4alphaPV peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ prolyl-4-hydroxylase-alpha PV _ PH4alphaSG1 peptidyl-proline hydroxylation to 4-hydroxy-L-proline; GO:0018401 | inferred from sequence similarity with MGD:P4ha1; MGI:MGI:97463 _ prolyl-4-hydroxylase-alpha SG1 _ PH4alphaSG2 _ _ prolyl-4-hydroxylase-alpha SG2 _ Phae1 _ _ Phaedra 1 _ Phae2 _ _ Phaedra 2 _ PHDP _ _ Putative homeodomain protein _ PhKgamma embryonic morphogenesis; GO:0009795 | inferred from mutant phenotype _ Phosphorylase kinase gamma _ phl "dorsal/ventral axis determination, follicular epithelium; GO:0008069 | inferred from mutant phenotype; signal transduction; GO:0007165 | inferred from genetic interaction; signal transduction; GO:0007165 | inferred from mutant phenotype; spermatogenesis; GO:0007283 | inferred from mutant phenotype; terminal region determination; GO:0007362 | inferred from mutant phenotype" _ pole hole _ Phm peptide amidation; GO:0001519 | non-traceable author statement _ Peptidylglycine-alpha-hydroxylating monooxygenase "Phm is required for peptide alpha-amidating activity throughout the, life of Drosophila." phm _ _ phantom _ pho _ _ pleiohomeotic "pho encodes a sequence-specific DNA binding protein that interacts, with PRE in the en gene. The pho protein is proposed to act to, anchor PcG protein complexes to DNA." phr _ _ photorepair "Encodes a photolyase that repairs cyclobutane pyrimidine dimers induced, by UV radiation of DNA." phr6-4 _ _ (6-4)-photolyase "Encodes a photolyase that repairs (6-4) photoproduct induced by UV, radiation of DNA." phtf _ _ _ _ phyl determination of sensory organ precursor cell fate; GO:0016360 | inferred from mutant phenotype; sensory organ determination; GO:0008052 | inferred from mutant phenotype _ phyllopod _ pi _ _ _ _ Pi3K21B _ _ _ "Pi3K21B is autonomously required for imaginal disc cells to achieve, their normal adult size." Pi3K59F phosphorylation; GO:0016310 | non-traceable author statement _ Phosphotidylinositol 3 kinase 59F _ Pi3K68D phosphorylation; GO:0016310 | non-traceable author statement _ Phosphotidylinositol 3 kinase 68D _ Pi3K92E insulin receptor signaling pathway; GO:0008286 | non-traceable author statement; phosphorylation; GO:0016310 | non-traceable author statement; positive regulation of cell growth; GO:0030307 | non-traceable author statement _ _ _ Pi4KIIalpha _ _ _ _ pic _ _ piccolo _ Picot _ _ _ _ Picrotoxin-resistant _ _ _ _ pie eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ pineapple eye _ Pif1A _ _ PFTAIRE-interacting factor 1A _ Pif1B _ _ PFTAIRE-interacting factor 1B _ Pif2 _ _ PFTAIRE-interacting factor 2 _ Pig1 _ _ Pre-intermoult gene 1 _ Pig2 puparial adhesion; GO:0007594 | non-traceable author statement _ Pre-intermoult gene 2 _ pim mitotic sister chromatid separation; GO:0016359 | inferred from mutant phenotype _ pimples _ Pimt _ _ Protein isoaspartyl methyltransferase _ Pin _ _ Pin _ pin _ _ pinto _ pio _ _ piopio Mutations affect myo-epidermal junctions or muscle function in embryos. pip dorsal/ventral axis determination; GO:0007310 | inferred from genetic interaction with FLYBASE:gd; FB:FBgn0000808; dorsal/ventral axis determination; GO:0007310 | inferred from genetic interaction with FLYBASE:ndl; FB:FBgn0002926; dorsal/ventral axis determination; GO:0007310 | inferred from genetic interaction with FLYBASE:wbl; FB:FBgn0004003 _ pipe "A follicular cell marker system that yields a visible phenotype within, the mature egg shell allows direct comparison of a clone and its effect, on the dorsal ventral pattern of the embryos. Wild type wbl activity, is required only in the cells on the ventral side of the follicular, epithelium and is restricted along the A/P axis." PIP5K59B phosphorylation; GO:0016310 | non-traceable author statement _ _ _ PIP82 _ _ _ _ pir _ _ pirouette _ pit _ _ pitchoune pit is required for cell growth and proliferation. PITP _ _ _ _ Pitslre protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ _ _ piwi stem cell renewal; GO:0017145 | inferred from mutant phenotype _ piwi _ pjc-16 _ _ _ _ pk establishment and/or maintenance of cell polarity; GO:0007163 | inferred from mutant phenotype; establishment of ommatidial polarity (sensu Drosophila); GO:0042067 | inferred from mutant phenotype _ prickle _ Pk1 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Protein kinase 1 _ PK11 taste; GO:0007607 | inferred from mutant phenotype _ Pocket 11 _ Pk17E protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Protein kinase-like 17E _ PK19 taste; GO:0007607 | inferred from mutant phenotype _ Pocket 19 _ Pk34A protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ PK4 _ _ Pocket 4 _ Pk61C protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Protein kinase 61C "Pk61C regulates cell growth and apoptosis via the Pi3K92E-dependant, pathway." Pk64F protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Protein kinase-like 64F _ Pk92B protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Protein kinase at 92B _ Pka-C1 "anterior/posterior pattern formation, imaginal disc; GO:0007448 | inferred from mutant phenotype; learning and/or memory; GO:0007611 | inferred from mutant phenotype; oocyte anterior/posterior axis determination; GO:0007314 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype; polarization of the oocyte microtubule cytoskeleton; GO:0008103 | inferred from mutant phenotype; regulation of pole plasm bicoid mRNA localization; GO:0008359 | inferred from mutant phenotype; regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype; rhythmic behavior; GO:0007622 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype" _ cAMP-dependent protein kinase 1 _ Pka-C2 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ cAMP-dependent protein kinase 2 _ Pka-C3 protein amino acid phosphorylation; GO:0006468 | inferred from direct assay; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ cAMP-dependent protein kinase _ Pka-R1 actin filament organization; GO:0007015 | inferred from mutant phenotype; molting cycle (sensu Insecta); GO:0007591 | inferred from mutant phenotype; olfactory learning; GO:0008355 | inferred from mutant phenotype; polarization of the oocyte microtubule cytoskeleton; GO:0008103 | inferred from mutant phenotype _ cAMP-dependent protein kinase R1 _ Pka-R2 circadian rhythm; GO:0007623 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ cAMP-dependent protein kinase R2 _ pkaap _ _ _ _ Pkcdelta protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Protein kinase C delta _ Pkc53E protein amino acid phosphorylation; GO:0006468 | inferred from direct assay; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Protein C kinase 53E _ Pkc98E protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Protein C kinase 98E _ Pkd2 _ _ Polycystic kidney disease gene-2 _ Pkg21D protein amino acid phosphorylation; GO:0006468 | inferred from direct assay; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ cGMP-dependent protein kinase 21D _ Pkn dorsal closure; GO:0007391 | inferred from mutant phenotype _ Protein kinase related to protein kinase N "Pkn is required specifically for epidermal shape changes during the, morphogenetic process of dorsal closure in the developing embryo. Together, with Rho1, Pkn mediates a pathway for cell shape changes in dorsal, closure that is independent of the Rac GTPase-mediated Jun amino (N)-terminal, kinase (JNK) cascade." Pl _ _ Pearl _ pl _ _ pleated _ PL(1)sp-S1 _ _ Polygenic locus sternopleural S1 _ PL(1)sp-S2 _ _ Polygenic locus sternopleural S2 _ PL(2)L4 _ _ Polygenic locus L4 wing vein _ PL(2)sp-G1 _ _ Polygenic locuis sternopleural G1 _ PL(2)sp-G2 _ _ Polygenic locus sternopleural G2 _ PL(2)sp-S3 _ _ Polygenic locus sternopleural S3 _ PL(3)sp-T1 _ _ Polygenic locus sternopleural T1 _ PL(3)sp-T2 _ _ Polygenic locus sternopleural T2 _ PL(3)sp-W1 _ _ Polygenic locus sternopleural W1 _ PL(3)sp-W2 _ _ Polygenic locus sternopleural W2 _ PL(3)w-S _ _ Polygenic locus weight S _ Pla _ _ Plane _ pla _ _ palla "Homozygous mutant females exhibit defects in follicular cell nuclei, distribution." Plap _ _ Phospholipase A2 activator protein _ Plc21C diacylglycerol biosynthesis; GO:0006651 | non-traceable author statement; phosphatidylinositol biosynthesis; GO:0006661 | non-traceable author statement _ Phospholipase C at 21C _ Pld _ _ Phospholipase D _ ple catecholamine metabolism; GO:0006584 | non-traceable author statement; regulation of dopamine metabolism; GO:0042053 | non-traceable author statement _ pale _ plexA _ _ plexin A "plexA controls motor and central nervous system axon guidance in, the embryo." plexB axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Rac1; FB:FBgn0010333; axon guidance; GO:0007411 | inferred from mutant phenotype _ plexin B plexB is required for plexin mediated axon guidance. Pli defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | non-traceable author statement _ Pellino _ plk _ _ plucked _ pll antifungal humoral response (sensu Invertebrata); GO:0006966 | inferred from mutant phenotype; zygotic determination of dorsal/ventral axis; GO:0007352 | inferred from mutant phenotype _ pelle _ plo _ _ pillow _ plp _ _ polyphase _ plpg compartment specification; GO:0007386 | inferred from mutant phenotype _ polyplegic "plpg is required for the integrity of the A/P compartmental, boundary." pls _ _ palsied _ plt _ _ platonic "Mutant males court females and generate courtship songs with the normal, pattern and yet are unsuccessful in copulation." plu negative regulation of DNA replication; GO:0008156 | non-traceable author statement; negative regulation of DNA replication; GO:0008156 | non-traceable author statement _ plutonium "png[+] function is required for the presence, of plu protein." plume _ _ _ _ plw _ _ pale wing _ plx _ _ pollux _ ply _ _ paisley _ Pmi _ _ _ _ Pmm45A _ _ Phosphomannomutase 45A _ Pms2 mismatch repair; GO:0006298 | inferred from sequence similarity; mismatch repair; GO:0006298 | inferred from sequence similarity with MGD:Pms2; MGI:MGI:104288 _ _ _ pmst _ _ pmst _ pn _ _ prune _ png mitotic cell cycle; GO:0000278 | non-traceable author statement; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ pan gu "png[+] function is required for the presence, of plu protein." PNGase _ _ _ _ pnr blastoderm segmentation; GO:0007350 | inferred from mutant phenotype; dorsal closure; GO:0007391 | traceable author statement _ pannier _ pnt anti-apoptosis; GO:0006916 | inferred from genetic interaction with FLYBASE:W; FB:FBgn0003997 _ pointed _ pnut cytokinesis; GO:0016288 | inferred from sequence similarity _ peanut _ Po _ _ Pyridoxal oxidase _ po _ _ pale ocelli _ pod _ _ podgy _ poe _ _ purity of essence _ Pof _ _ Painting of fourth _ poil-rare _ _ _ _ polo male meiosis; GO:0007140 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype _ polo polo is required at multiple stages during spermatogenesis. poly _ _ poly _ pom eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ pomegranate _ pon asymmetric protein localization; GO:0008105 | traceable author statement _ partner of numb _ ponderosa _ _ ponderosa ponderosa has a function in dendritic development. pont _ _ _ _ popeye _ _ _ _ por regulation of Wnt receptor signaling pathway; GO:0030111 | inferred from mutant phenotype _ porcupine _ porin mitochondrial transport; GO:0006839 | inferred from sequence similarity _ porin _ POSH _ _ Plenty of SH3s _ pot _ _ papillote _ Poxm _ _ Pox meso _ Poxn antennal morphogenesis; GO:0007469 | inferred from mutant phenotype; leg morphogenesis; GO:0007480 | inferred from mutant phenotype; sensory organ development; GO:0007423 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype _ Pox neuro _ Pp1alpha-96A protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ Protein phosphatase 1alpha at 96A _ Pp1-13C protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay _ Protein phosphatase 1 at 13C _ Pp1-87B adult locomotory behavior; GO:0008344 | inferred from mutant phenotype; chromosome condensation; GO:0030261 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype; neurogenesis; GO:0007399 | inferred from mutant phenotype; olfactory learning; GO:0008355 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype; protein amino acid dephosphorylation; GO:0006470 | inferred from mutant phenotype; visual learning; GO:0008542 | inferred from mutant phenotype _ Protein phosphatase 1 at 87B _ Pp1-Y2 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ pp10 _ _ _ _ Pp1rY1 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ pp20 _ _ _ _ Pp2A-29B protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ Protein phosphatase 2A at 29B _ PP2A-B' protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ _ PP2A-B' has an essential role in positively modulating scr function. Pp2B-14D protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein phosphatase 2B at 14D _ Pp2C1 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein phosphatase 2C _ Pp4-19C M-phase specific microtubule process; GO:0000072 | inferred from mutant phenotype; microtubule-based process; GO:0007017 | inferred from mutant phenotype; regulation of mitotic cell cycle; GO:0007346 | inferred from mutant phenotype _ Protein phosphatase 19C "Pp4-19C is required for organization of microtubules at centrosomes, in Drosophila embryos." pp45 _ _ _ _ ppa ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ partner of paired _ ppan _ _ peter pan "ppan is cell autonomous and is required for normal mitotic growth, but is not absolutely required for general biosynthesis or DNA replication." PpD3 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein phosphatase D3 _ PpD33 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ Protein phosphatase D33 _ PpD5 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein phosphatase D5 _ PpD6 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein phosphatase D6 _ pph _ _ polyphenic _ Pph13 _ _ PvuII-PstI homology 13 An incompletely characterized homeodomain sequence. Ppi _ _ Prepro insulin-like _ Ppi-16 _ _ Protein phosphatase 1 Interacting protein clone-16 "Isolated in an interaction trap for proteins interacting with the, Pp1-87B protein." ppk thermosensory behavior; GO:0040040 | inferred from mutant phenotype _ pickpocket ppk is not a vital gene. ppl _ _ pumpless _ Ppn _ _ Papilin "The Ppn gene product influences cell rearrangements and may modulate, metalloproteinases during organogenesis." PpN58A protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein phosphatase N at 58A _ ppo _ _ poco pelo _ PPP4R2r _ _ Protein phosphatase 4 regulatory subunit 2-related protein _ Ppr-Y protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ Ppt1 _ _ _ _ PpV protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; regulation of cell cycle; GO:0000074 | inferred from genetic interaction with SGD:SIT4; SGDID:S0002205 _ Protein phosphatase V _ PpY-55A protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay; protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ Protein phosphatase Y at 55A _ PQBP-1 _ _ Poly-glutamine tract binding protein 1 _ Pr _ _ Prickly _ pr pteridine biosynthesis; GO:0006728 | inferred from direct assay; pteridine biosynthesis; GO:0006728 | inferred from direct assay _ purple "The enzyme sepiapterin synthase A, is involved in early steps leading, to the synthesis of the drosopterins." PR2 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Fak-like tyrosine kinase _ Prat 'de novo' IMP biosynthesis; GO:0006189 | non-traceable author statement _ Phosphoribosylamidotransferase "By comparing methylation by Ecol\dam methylase between euchromatic, and heterochromatic genes it was determined that the heterochromatic, state does not prevent methylase accessibility in vivo." prat _ _ pratfall _ Prat2 'de novo' IMP biosynthesis; GO:0006189 | inferred from sequence similarity _ Phosphoribosylamidotransferase 2 _ prc _ _ pericardine _ prd periodic partitioning by pair rule gene; GO:0007366 | non-traceable author statement _ paired "prd is required for promoting cell proliferation during early accessory, gland development." prd1 _ _ paired-like 1 _ prd10 _ _ paired-like 10 _ prd11 _ _ paired-like 11 _ prd2 _ _ paired-like 2 _ prd5 _ _ paired-like 5 _ prd6 _ _ _ _ prd8 _ _ paired-like 8 _ pre _ _ presto _ prg _ _ piragua prg is involved in dorsal closure. primo-1 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ _ primo-2 _ _ _ _ Prl _ _ Proxless _ PRL-1 protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ _ Data suggests that PRL-1 is not a vital gene. Prm _ _ Paramyosin _ Proct _ _ proctolin _ prod _ _ proliferation disrupter _ prominin-like _ _ _ _ pros axonogenesis; GO:0007409 | inferred from mutant phenotype; central nervous system development; GO:0007417 | inferred from mutant phenotype; glia cell differentiation; GO:0007404 | inferred from mutant phenotype; peripheral nervous system development; GO:0007422 | inferred from mutant phenotype _ prospero _ Prosalpha6 _ _ Proteasome alpha6 subunit _ Prosalpha7 _ _ Proteasome alpha7 subunit _ Prosbeta2 _ _ Proteasome beta2 subunit "A wild type level of proteosome activity is required for the proper, regulation of at least two alternative cell fate decisions during sense, organ development. Proteosome-mediated protein degradation antagonizes, N signaling activity, perhaps by targeting an active form of N, protein for degradation." Prosbeta3 ATP-dependent proteolysis; GO:0006510 | non-traceable author statement _ _ _ Prosbeta5 _ _ _ _ Pros20S-alpha3 _ _ Proteasome 20S alpha3 subunit _ Pros20S-alpha3t _ _ Proteasome 20S alpha3t subunit _ Pros25 ATP-dependent proteolysis; GO:0006510 | non-traceable author statement; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ Proteasome 25kD subunit _ Pros26 ATP-dependent proteolysis; GO:0006510 | non-traceable author statement; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ Proteasome 26kD subunit "A wild type level of proteosome activity is required for the proper, regulation of at least two alternative cell fate decisions during sense, organ development. Proteosome-mediated protein degradation antagonizes, N signaling activity, perhaps by targeting an active form of N, protein for degradation." Pros26.4 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMC1; OMIM:602706; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPT2; SGDID:S0002165 _ Proteasome 26S subunit subunit 4 ATPase _ Pros28.1 ATP-dependent proteolysis; GO:0006510 | non-traceable author statement; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ Proteasome 28kD subunit 1 _ Pros28.1A _ _ _ _ Pros28.1B _ _ _ _ Pros28.2 _ _ Proteasome 28kD subunit 2 _ Pros29 ATP-dependent proteolysis; GO:0006510 | non-traceable author statement; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ Proteasome 29kD subunit _ Pros35 ATP-dependent proteolysis; GO:0006510 | non-traceable author statement; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ Proteasome 35kD subunit _ Pros45 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMC5; OMIM:601681; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPT6; SGDID:S0003016 _ _ _ Pros54 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD4; OMIM:601648; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN10; SGDID:S0001243 _ Proteasome 54kD subunit _ Prosap _ _ _ _ ProsMA5 ATP-dependent proteolysis; GO:0006510 | non-traceable author statement; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ Proteasome alpha subunit _ protoporphyrinogen-oxidase _ _ _ "This gene was first recognized by a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." prp _ _ prickly pear _ Prp18 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003666; mRNA splicing; GO:0006371 | non-traceable author statement _ _ _ Prp19 mRNA splicing; GO:0006371 | inferred from sequence similarity _ _ _ pru _ _ perugino _ Prx2540-1 _ _ Peroxiredoxin 2540 _ Prx2540-2 _ _ Peroxiredoxin 2540 _ Prx5037 _ _ Peroxiredoxin 5037 _ Prx6005 _ _ Peroxiredoxin 6005 _ PRY _ _ polycystine-related-Y _ Ps _ _ Pigmentless _ ps _ _ pasilla ps is required for normal apical secretion in the salivary gland. alphaPS4 cell-matrix adhesion; GO:0007160 | traceable author statement; heterophilic cell adhesion; GO:0007157 | traceable author statement _ _ _ alphaPS5 cell-matrix adhesion; GO:0007160 | traceable author statement; heterophilic cell adhesion; GO:0007157 | traceable author statement _ _ _ Psa _ _ Puromycin sensitive aminopeptidase _ psb _ _ pseudobeadex _ Psc negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | non-traceable author statement _ Posterior sex combs _ psc _ _ pseudoscute _ Psi mRNA processing; GO:0006397 | inferred from direct assay; spermatogenesis; GO:0007283 | inferred from mutant phenotype _ P-element somatic inhibitor _ psi3 _ _ phase angle 3 _ pskl _ _ pop-sickle _ Psn cytoskeleton organization and biogenesis; GO:0007010 | inferred from mutant phenotype _ Presenilin _ psq _ _ pipsqueak _ pt _ _ platinum _ Pt-10 _ _ Larval protein-10 _ Pt-10A _ _ Adult protein-10A _ Pt-11 _ _ Larval protein-11 _ Pt-12 _ _ Larval protein-12 _ Pt-13 _ _ Larval protein-13 _ Pt-15 _ _ Larval protein-15 _ Pt-15A _ _ Adult protein-15A _ Pt-16 _ _ Larval protein-16 _ Pt-2 _ _ Larval protein-2 _ Pt-26 _ _ Adult protein-26 _ Pt-3 _ _ Larval protein-3 _ Pt-37 _ _ Adult protein-37 _ Pt-4 _ _ Larval protein-4 _ Pt-5 _ _ Larval protein-5 _ Pt-6 _ _ Larval protein-6 _ Pt-7 _ _ Larval protein-7 _ Pt-7A _ _ Adult protein-7A _ Pt-8 _ _ Larval protein-8 _ Pt-9 _ _ Larval protein-9 _ Pt-9A _ _ Adult protein-9A _ ptc regulation of mitotic cell cycle; GO:0007346 | inferred from mutant phenotype _ patched "hh and ptc can regulate transcription from a wg enhancer element, containing ci protein binding sites by modulating the activity of, ci protein." PTefa transcription; GO:0006350 | inferred from direct assay _ Positive transcription elongation factor a PTefa stimulates the level of runoff transcripts in vitro. Pten insulin receptor signaling pathway; GO:0008286 | inferred from genetic interaction with FLYBASE:Pi3K92E; FB:FBgn0015279; insulin receptor signaling pathway; GO:0008286 | inferred from genetic interaction with FLYBASE:chico; FB:FBgn0024248; protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity with HUGO:PTEN; OMIM:601728 _ _ _ ptg oogenesis; GO:0007292 | traceable author statement _ pentagon _ Pth _ _ _ _ ptl _ _ pointless _ ptls _ _ pathless _ ptn oogenesis; GO:0007292 | inferred from mutant phenotype _ pitkin ptn is required for normal development of the female germ line. pto _ _ pistachio _ PTP-ER R7 cell fate commitment; GO:0007465 | inferred from genetic interaction with FLYBASE:Dsor1; FB:FBgn0010269; R7 cell fate commitment; GO:0007465 | inferred from genetic interaction with FLYBASE:Ras85D; FB:FBgn0003205; R7 cell fate commitment; GO:0007465 | inferred from genetic interaction with FLYBASE:phl; FB:FBgn0003079; RAS protein signal transduction; GO:0007265 | inferred from genetic interaction with FLYBASE:Dsor1; FB:FBgn0010269; RAS protein signal transduction; GO:0007265 | inferred from genetic interaction with FLYBASE:Ras85D; FB:FBgn0003205; RAS protein signal transduction; GO:0007265 | inferred from genetic interaction with FLYBASE:phl; FB:FBgn0003079; protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay; protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay _ Protein tyrosine phosphatase-ERK/Enhancer of Ras1 _ Ptp10D protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein tyrosine phosphatase 10D "Ptp10D and Ptp69D are necessary for repulsion of growth cones from, the midline of the embryonic central nervous system." Ptp11-1 protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ _ _ Ptp12D protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein tyrosine phosphatase 12D _ Ptp36E protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity _ Protein tyrosine phosphatase 36E _ Ptp4E protein amino acid dephosphorylation; GO:0006470 | inferred from sequence similarity; protein amino acid dephosphorylation; GO:0006470 | non-traceable author statement _ Protein tyrosine phosphatase 4E _ Ptp52F axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Lar; FB:FBgn0000464; axon guidance; GO:0007411 | inferred from mutant phenotype _ _ "Ptp52F has a role in axon guidance and may act competitively with, Lar in regulating axon guidance in the CNS." Ptp61F axon guidance; GO:0007411 | inferred from physical interaction with FLYBASE:dock; FB:FBgn0010583; protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay _ Protein tyrosine phosphatase 61F "The spatial and temporal expression of two alternative transcripts, of Ptp61F during Drosophila embryogenesis has been analyzed in wild-type, embryos and in embryos mutant for pair-rule and segment-polarity genes." Ptp69D defasciculation of motor neuron; GO:0007415 | inferred from genetic interaction with FLYBASE:Ptp99A; FB:FBgn0004369; motor axon guidance; GO:0008045 | inferred from genetic interaction with FLYBASE:Ptp99A; FB:FBgn0004369; protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay _ Protein tyrosine phosphatase 69D _ Ptp99A defasciculation of motor neuron; GO:0007415 | inferred from genetic interaction with FLYBASE:Ptp69D; FB:FBgn0014007; motor axon guidance; GO:0008045 | inferred from genetic interaction with FLYBASE:Ptp69D; FB:FBgn0014007 _ Protein tyrosine phosphatase 99A _ Ptpa _ _ Phosphotyrosyl phosphatase activator _ Ptpmeg _ _ _ _ ptr _ _ proximal to raf _ Ptth _ _ Prothoracicotropic hormone _ Ptx1 _ _ _ _ ptz _ _ pitzi _ Pu tetrahydrobiopterin biosynthesis; GO:0006729 | non-traceable author statement _ Punch _ pu _ _ pupal _ pUbsf mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:AAF05605; regulation of cell cycle; GO:0000074 | inferred from mutant phenotype _ poly-U-binding splicing factor _ puc protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay; wound healing; GO:0042060 | inferred from direct assay _ puckered _ puf _ _ puff _ pug _ _ pugilist _ pum _ _ pumilio _ pur _ _ purplish ruby _ Pur-alpha _ _ Purine-rich binding protein-alpha _ Pur-r _ _ Purine-resistant _ pur1 _ _ purine requiring _ puri _ _ puri _ put TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490; TGFbeta receptor signaling pathway; GO:0007179 | inferred from mutant phenotype _ punt _ Pvf1 border cell migration; GO:0007298 | inferred from mutant phenotype _ PDGF- and VEGF-related factor 1 _ Pvf2 _ _ PDGF- and VEGF-related factor 2 _ Pvf3 _ _ PDGF- and VEGF-related factor 3 _ Pvr actin cytoskeleton organization and biogenesis; GO:0030036 | inferred from mutant phenotype; border cell migration; GO:0007298 | inferred from mutant phenotype _ PDGF- and VEGF-receptor related _ Pw _ _ Pointed wing _ pwc _ _ pink wing c _ pwn phototransduction; GO:0007602 | inferred from mutant phenotype _ pawn _ Px _ _ Plexate _ px _ _ plexus "px encodes an essential component of a global repressor of vein differentiation., px acts downstream of kni." Pxd _ _ Peroxidase _ pxd _ _ _ _ Pxn _ _ Peroxidasin _ pxt _ _ _ _ pyd _ _ polychaetoid _ pyd3 _ _ _ _ pyg _ _ pygoscelis _ pygo frizzled-2 receptor signaling pathway; GO:0007223 | inferred from mutant phenotype; segment polarity determination; GO:0007367 | inferred from mutant phenotype; signal transduction; GO:0007165 | inferred from mutant phenotype _ pygopus _ PyK glycolysis; GO:0006096 | non-traceable author statement _ Pyruvate kinase _ pyp _ _ polyphene _ pys _ _ polychaetous _ PZ22 _ _ _ _ Q _ _ Queer wing _ qed _ _ _ _ qf _ _ quetas finas _ qkr54B _ _ quaking related 54B _ qkr58C _ _ quaking related 58C _ qkr58E-1 _ _ quaking related 58E-1 _ qkr58E-2 _ _ quaking related 58E-2 _ qkr58E-3 _ _ quaking related 58E-3 _ qkr58E-4 _ _ quaking related 58E-4 _ qkr58E-5 _ _ quaking related 58E-5 _ qkr58E-6 _ _ quaking related 58E-6 _ qkr58E-7 _ _ quaking related 58E-7 _ Qm protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:5174431 _ _ _ qm _ _ quemao _ qrt _ _ quartet _ qs _ _ quicksilver _ qtc courtship behavior; GO:0007619 | traceable author statement; male courtship behavior; GO:0008049 | inferred from mutant phenotype _ quick-to-court _ qua actin filament organization; GO:0007015 | inferred from direct assay; nurse cell/oocyte transport; GO:0007300 | inferred from mutant phenotype _ quail _ quag _ _ quagmire _ qui oogenesis; GO:0007292 | inferred from mutant phenotype _ quit _ quiescin _ _ _ _ qvr _ _ quiver "qvr may encode a novel K[+] channel-related polypeptide. qvr and, Sh may share the same pathway in the regulation of synaptic transmission." R photoreceptor commitment; GO:0007459 | non-traceable author statement _ Roughened "Ras85D-mediated signaling pathways are not influenced by R levels., Ras85D and R seem to function via distinct pathways. R has, a regulatory role in morphogenesis in the eye, ovary and embryo. R, also plays a role cell migration and cell shaping." r 'de novo' pyrimidine biosynthesis; GO:0006207 | non-traceable author statement _ rudimentary "The complementation behavior of a collection of new r alleles generated, with different mutagens supports the premise that the CPSase-ATCase-DHOase, complex is translated from a single mRNA." r(alphaGPDH) _ _ regulator of alpha GPDH _ r(ADH) _ _ regulator of ADH _ r-l 'de novo' pyrimidine biosynthesis; GO:0006207 | non-traceable author statement _ rudimentary-like _ ra _ _ rase _ Rab-RP1 _ _ Rab-related protein 1 _ Rab-RP2 _ _ Rab-related protein 2 _ Rab-RP3 _ _ Rab-related protein 3 _ Rab-RP4 _ _ Rab-related protein 4 _ Rab1 _ _ Rab-protein 1 "In photoreceptor cells Rab1 contributes to the maintenance of local, cell structure by mediating vesicle transport between the rough endoplasmic, reticulum (rER) and Golgi body." Rab10 _ _ Rab-protein 10 _ Rab11 endocytosis; GO:0006897 | inferred from mutant phenotype; polarization of the oocyte microtubule cytoskeleton; GO:0008103 | inferred from mutant phenotype; regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype; regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype _ Rab-protein 11 "Rab11 has a role in endocytic recycling and in the organization of, posterior membrane compartments in the developing oocyte. Rab11, also has a role in the organization of microtubule plus ends and osk, mRNA localization and translation." Rab14 _ _ Rab-protein 14 "This gene was first recognized by a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." Rab2 _ _ Rab-protein 2 _ Rab3 neurotransmitter secretion; GO:0007269 | non-traceable author statement; protein transport; GO:0015031 | non-traceable author statement; synaptic vesicle fusion; GO:0016083 | non-traceable author statement _ Rab-protein 3 "Evolutionary conservation of both structure and localization suggests, that n-syb, Rab3 and syt have an important function in the, synaptic vesicle." rab3-GAP neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle fusion; GO:0016083 | non-traceable author statement _ _ _ rab3-GEF neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle fusion; GO:0016083 | non-traceable author statement _ _ _ Rab4 _ _ Rab-protein 4 _ Rab5 establishment and/or maintenance of chromatin architecture; GO:0006325 | inferred from mutant phenotype; female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype _ Rab-protein 5 _ Rab6 _ _ Rab-protein 6 "Rab6 is required for anterograde transport of rhodopsin through the, ER-Golgi complex." Rab7 endosome to lysosome transport; GO:0008333 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490; endosome transport; GO:0016197 | inferred from mutant phenotype _ Rab-protein 7 _ Rab8 _ _ Rab-protein 8 _ rABP50 _ _ ribosomal 'Alu-repeat' binding protein 50 "rABP50 has been identified as a 50kD protein that is associated with, the 'Alu-repeat' DNA in the non-transcribed spacer of the ribosomal, repeat (bb). The distribution of rABP50 protein on the 'Alu-repeat', DNA has been mapped." rABP70 _ _ ribosomal 'Alu-repeat' binding protein 70 "rABP70 has been identified as a 70kD protein that is associated with, the 'Alu-repeat' DNA in the non-transcribed spacer of the ribosomal, repeat (bb). The distribution of rABP70 protein on the 'Alu-repeat', DNA has been mapped." rabphilin-3A synaptic vesicle endocytosis; GO:0008099 | inferred from sequence similarity with SWISS-PROT:P47709; synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ _ _ Rac1 cell proliferation; GO:0008283 | inferred from genetic interaction with FLYBASE:RacGAP50C; FB:FBgn0033881; rhabdomere development; GO:0042052 | inferred from genetic interaction with FLYBASE:ninaE; FB:FBgn0002940 _ _ _ Rac2 rhabdomere development; GO:0042052 | inferred from mutant phenotype _ _ _ RacA _ _ _ _ RacGAP50C Rho protein signal transduction; GO:0007266 | inferred from genetic interaction with FLYBASE:Pak; FB:FBgn0014001; Rho protein signal transduction; GO:0007266 | inferred from genetic interaction with FLYBASE:argos; FB:FBgn0004569; Rho protein signal transduction; GO:0007266 | inferred from genetic interaction with FLYBASE:rho; FB:FBgn0004635; Rho protein signal transduction; GO:0007266 | inferred from genetic interaction with FLYBASE:vn; FB:FBgn0003984; cell proliferation; GO:0008283 | inferred from genetic interaction with FLYBASE:Cdc42; FB:FBgn0010341 _ _ "RacGAP50C acts as a negative regulator of Rho-family GTPases Rac1, and Cdc42." RacGAP84C limb morphogenesis; GO:0030326 | non-traceable author statement _ _ _ rack _ _ on-the-rack _ Rack1 _ _ Receptor of activated protein kinase C 1 _ rad olfactory learning; GO:0008355 | traceable author statement _ radish _ Rad1 DNA repair; GO:0006281 | inferred from sequence similarity with EMBL:AF038841; DNA repair; GO:0006281 | non-traceable author statement _ _ _ Rad17 DNA repair; GO:0006281 | inferred from sequence similarity with SWISS-PROT:P32641; DNA repair; GO:0006281 | non-traceable author statement _ _ _ rad201 _ _ radiation-resistant _ Rad21 mitotic sister chromatid cohesion; GO:0007064 | inferred from sequence similarity _ _ _ Rad23 nucleotide-excision repair; GO:0006289 | inferred from sequence similarity with SGD:RAD23; SGDID:S0000763; nucleotide-excision repair; GO:0006289 | non-traceable author statement _ _ _ rad50 larval development (sensu Insecta); GO:0002168 | inferred from mutant phenotype _ _ _ Rad51 DNA recombination; GO:0006310 | inferred from sequence similarity with HUGO:RAD51; OMIM:179617; DNA repair; GO:0006281 | inferred from sequence similarity with HUGO:RAD51; OMIM:179617 _ Rad51-like _ Rad51C DNA recombination; GO:0006310 | inferred from sequence similarity with HUGO:RAD51; OMIM:179617D; DNA repair; GO:0006281 | inferred from sequence similarity with HUGO:RAD51; OMIM:179617D _ _ _ Rad51D DNA recombination; GO:0006310 | inferred from sequence similarity with HUGO:XRCC2; OMIM:600375; DNA repair; GO:0006281 | inferred from sequence similarity with HUGO:XRCC2; OMIM:600375 _ _ _ Rad9 DNA repair; GO:0006281 | non-traceable author statement _ _ _ Raf2 _ _ Raf oncogene 2 _ rags _ _ rags _ Rala _ _ Ras-related protein Rala regulates developmental cell shape changes through the JNK pathway. RalBp-like _ _ Retinal-binding protein like _ rambl _ _ rambling _ ran _ _ _ _ ran-like _ _ ran-like _ Ranbp11 _ _ _ _ Ranbp16 protein-nucleus export; GO:0006611 | non-traceable author statement _ _ _ Ranbp21 _ _ _ _ Ranbp9 _ _ _ _ rap cyclin catabolism; GO:0008054 | inferred from direct assay _ retina aberrant in pattern "rap negatively regulates the levels of CycA, CycB and CycB3, proteins. rap is required for cyclin removal during G1 when the, embryonic epidermal cell proliferation stops and during G2 preceding, salivary gland endoreduplication." Rap1 _ _ repressor/activator protein 1 _ Rap2l _ _ Ras-associated protein 2-like _ Rapgap1 _ _ _ _ raps asymmetric cytokinesis; GO:0008356 | inferred from mutant phenotype _ rapsynoid _ rar1 _ _ radiation-resistant on 1 _ rar3 _ _ radiation-resistant on 3 _ ras GMP biosynthesis; GO:0006177 | non-traceable author statement; oogenesis; GO:0007292 | traceable author statement _ raspberry _ Ras64B _ _ Ras oncogene at 64B _ Ras85D eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype; perineurial glial growth; GO:0042066 | inferred from mutant phenotype _ Ras oncogene at 85D _ rasp patched receptor ligand processing; GO:0007225 | inferred from mutant phenotype; segment polarity determination; GO:0007367 | inferred from mutant phenotype _ rasp _ Rasta Wnt receptor signaling pathway; GO:0016055 | inferred from mutant phenotype _ Rasta "Rasta is an essential and dedicated component of the wg, signaling pathway. it is required for the activation of wg target, genes but appears to act downstream of arm stablization." raw _ _ raw _ ray eggshell formation; GO:0007304 | inferred from mutant phenotype _ rayon _ raz _ _ razorback _ rb eye pigment biosynthesis; GO:0006726 | traceable author statement; non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement _ ruby _ Rb97D spermatogenesis; GO:0007283 | non-traceable author statement _ Ribonuclear protein at 97D The distribution of Rb97D protein in the testes has been examined. Rbf regulation of cell cycle; GO:0000074 | inferred from sequence similarity with MGD:Rbl1; MGI:MGI:103300 _ Retinoblastoma-family protein _ Rbf2 regulation of cell cycle; GO:0000074 | inferred from sequence similarity with EMBL:U50850 _ Retinoblastoma-family protein 2 _ rbl _ _ reduced bristles _ rbo _ _ rolling blackout "Required for embryonic development and, in conditional mutants, the, acute maintenance of coordinated mobility and phototransduction." Rbp1 mRNA splice site selection; GO:0006376 | inferred from sequence similarity with NCBI_NP:003008 _ RNA-binding protein 1 _ Rbp1-like mRNA splice site selection; GO:0006376 | inferred from sequence similarity with NCBI_NP:003008; mRNA splicing; GO:0006371 | inferred from sequence similarity _ _ _ Rbp11 _ _ RNA-binding protein 11 _ Rbp13 _ _ RNA-binding protein 13 _ Rbp2 translational initiation; GO:0006413 | inferred from sequence similarity _ RNA-binding protein 2 _ Rbp4 mRNA processing; GO:0006397 | inferred from sequence similarity with SGD:HRP1; SGDID:S0005483 _ RNA-binding protein 4 _ Rbp6 _ _ RNA-binding protein 6 _ Rbp9 egg chamber formation; GO:0007293 | traceable author statement _ RNA-binding protein 9 _ rc _ _ red cells _ Rca1 _ _ Regulator of cyclin A1 "numb functions downstream of of cell division genes (CycA, Rca1, and stg) and progression through the cell cycle is required for asymmetric, localization of numb and thus N mediated specification of the sib, fate in the RP2/sib division." rd _ _ reduced _ rde _ _ reduced eye _ rdgA deactivation of rhodopsin mediated signaling; GO:0016059 | inferred from genetic interaction with FLYBASE:trp; FB:FBgn0003861; rhodopsin mediated signaling; GO:0016056 | inferred from mutant phenotype _ retinal degeneration A rdgA is required for response termination in photoreceptors. rdgB deactivation of rhodopsin mediated signaling; GO:0016059 | inferred from mutant phenotype; olfaction; GO:0007608 | inferred from mutant phenotype; phototransduction; GO:0007602 | inferred from mutant phenotype; rhodopsin mediated signaling; GO:0016056 | inferred from mutant phenotype _ retinal degeneration B _ rdgBbeta _ _ _ _ rdgC deactivation of rhodopsin mediated signaling; GO:0016059 | inferred from mutant phenotype; phototransduction; GO:0007602 | inferred from mutant phenotype; phototransduction; GO:0007602 | inferred from mutant phenotype; protein amino acid dephosphorylation; GO:0006470 | inferred from mutant phenotype _ retinal degeneration C "The calmodulin/rdgC interaction is required to potentiate dephosphorylation, of rhodopsin in vivo and for rapid termination of the photoresponse." rdgD _ _ retinal degeneration D _ rdgE _ _ retinal degeneration E _ rdgG _ _ retinal degeneration G _ Rdl cyclodiene susceptibility/resistance; GO:0016354 | non-traceable author statement; cyclodiene susceptibility/resistance; GO:0016354 | non-traceable author statement _ Resistant to dieldrin _ rdo _ _ reduced ocelli _ rdtp _ _ redtape _ rdx _ _ roadkill _ Re _ _ Rough eye _ rec meiotic recombination; GO:0007131 | inferred from mutant phenotype _ recombination-defective _ RecQ4 _ _ _ _ RecQ5 _ _ homolog of RecQ "RecQ5 expression is developmentally regulated and the DNA helicase activity, of RecQ5 might be involved in the DNA metabolism of early embryos." red _ _ red Malpighian tubules _ redax _ _ _ _ ref(1)H _ _ refractory to sigma H _ ref(2)M _ _ refractory to sigma M _ ref(2)P viral infectious cycle; GO:0019058 | non-traceable author statement _ refractory to sigma P _ ref(3)D _ _ refractory to sigma D _ ref(3)O _ _ refractory to sigma O _ ref(3)V _ _ refractory to sigma V _ ref1 _ _ _ _ REG _ _ _ _ Reg-10 _ _ Rhythmically expressed gene 10 _ Reg-11 _ _ Rhythmically expressed gene 11 _ Reg-12 _ _ Rhythmically expressed gene 12 _ Reg-13 _ _ Rhythmically expressed gene 13 _ Reg-14 _ _ Rhythmically expressed gene 14 _ Reg-15 _ _ Rhythmically expressed gene 15 _ Reg-16 _ _ Rhythmically expressed gene 16 _ Reg-17 _ _ Rhythmically expressed gene 17 _ Reg-18 _ _ Rhythmically expressed gene 18 _ Reg-19 _ _ Rhythmically expressed gene 19 _ Reg-2 _ _ Rhythmically expressed gene 2 _ Reg-20 _ _ Rhythmically expressed gene 20 _ Reg-21 _ _ Rhythmically expressed gene 21 _ Reg-3 _ _ Rhythmically expressed gene 3 _ Reg-5 circadian rhythm; GO:0007623 | non-traceable author statement _ Rhythmically expressed gene 5 _ Reg-6 _ _ Rhythmically expressed gene 6 _ Reg-7 _ _ Rhythmically expressed gene 7 _ Reg-8 _ _ Rhythmically expressed gene 8 _ Reg-9 _ _ Rhythmically expressed gene 9 _ reggie-1 _ _ reggie-1 _ regucalcin _ _ _ _ Rel antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype; antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype; antifungal polypeptide induction; GO:0006967 | inferred from mutant phenotype _ Relish "Rel is required for the signal-dependent localization of Dif, and has a less important or indirect role in nuclear localization of, dl." rem _ _ remnants _ rempA hearing; GO:0007605 | inferred from mutant phenotype _ reduced mechanoreceptor potentials A _ rempD hearing; GO:0007605 | inferred from mutant phenotype _ reduced mechanoreceptor potentials D _ ren _ _ renegade _ Rep neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle fusion; GO:0016083 | non-traceable author statement _ Rab escort protein _ Rep1 DNA fragmentation; GO:0006309 | inferred from sequence similarity with HUGO:DFF45; OMIM:601882; anti-apoptosis; GO:0006916 | inferred from genetic interaction with MGD:Cidea; MGI:MGI:1270845 _ _ _ Rep2 _ _ _ _ Rep3 _ _ _ _ Rep4 DNA fragmentation; GO:0006309 | inferred from sequence similarity _ _ _ repo _ _ reversed polarity Encodes the glial specific epitope for the antibody RK2 of A. Tomlinson. rept _ _ reptin _ Res _ _ Resurrector _ Ret protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; signal transduction; GO:0007165 | inferred from sequence similarity _ Ret oncogene _ ret _ _ reticulated _ reti _ _ reticent _ retinin _ _ retinin _ retn oogenesis; GO:0007292 | inferred from mutant phenotype; salivary gland morphogenesis; GO:0007435 | non-traceable author statement _ retained "retn is essential for anterior-posterior patterning and for muscle, development in the embryo." rets _ _ retiarius _ retx _ _ retinal exchanger Encodes a sodium/calcium(-potassium) exchanger expressed in photoreceptors. Rev _ _ Revolute _ Rev1 DNA repair; GO:0006281 | inferred from sequence similarity with SGD:REV1; SGDID:S0005873; bypass DNA synthesis; GO:0019985 | non-traceable author statement _ _ _ RevIII-3y _ _ _ _ RevIII-7b _ _ _ _ RevIII-7y _ _ _ _ Rex _ _ Ribosomal exchange _ rex _ _ rapid exhaustion _ rexin _ _ _ _ rey _ _ rough eye _ Rf _ _ Roof _ RfaBp transport; GO:0006810 | traceable author statement _ Retinoid- and fatty-acid binding protein _ RfC3 DNA replication; GO:0006260 | inferred from sequence similarity; DNA replication; GO:0006260 | inferred from sequence similarity with SGD:RFC3; SGDID:S0005234 _ _ _ RfC38 DNA replication; GO:0006260 | inferred from sequence similarity _ Replication factor C 38kD subunit _ RfC4 DNA replication; GO:0006260 | non-traceable author statement _ Replication factor C subunit 4 _ RfC40 DNA replication; GO:0006260 | inferred from sequence similarity with EMBL:AF139987; protein_id:AAD34861.1 _ Replication-factor-C 40kD subunit _ RFeSP _ _ Rieske iron-sulfur protein _ rfr oogenesis; GO:0007292 | traceable author statement _ refringent _ Rfx _ _ _ _ rg _ _ rugose _ Rga _ _ Regena "Rga modulates the expression of the w locus and several other unrelated, genes." Rgl _ _ Ral guanine nucleotide exchange factor 2 _ rgr _ _ regular _ rh eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ roughish _ Rh2 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; phototransduction; GO:0007602 | inferred from genetic interaction with FLYBASE:ninaE; FB:FBgn0002940 _ Rhodopsin 2 _ Rh3 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; phototransduction; GO:0007602 | inferred from direct assay _ Rhodopsin 3 _ Rh4 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; phototransduction; GO:0007602 | inferred from direct assay _ Rhodopsin 4 _ Rh5 phototransduction; GO:0007602 | inferred from genetic interaction with FLYBASE:ninaE; FB:FBgn0002940; phototransduction; GO:0007602 | inferred from genetic interaction with FLYBASE:ninaE; FB:FBgn0002940; phototransduction; GO:0007602 | inferred from sequence similarity with EMBL:X80072; protein_id:CAA56378.1; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:Rh3; FB:FBgn0003249; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:Rh3; FB:FBgn0003249; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:Rh4; FB:FBgn0003250; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:Rh4; FB:FBgn0003250; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:ninaE; FB:FBgn0002940; sensory perception; GO:0007600 | inferred from electronic annotation _ Rhodopsin 5 _ Rh50 _ _ _ _ Rh6 phototransduction; GO:0007602 | inferred from genetic interaction with FLYBASE:ninaE; FB:FBgn0002940; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:Rh2; FB:FBgn0003248; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:Rh3; FB:FBgn0003249; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:Rh4; FB:FBgn0003250; phototransduction; GO:0007602 | inferred from sequence similarity with FLYBASE:ninaE; FB:FBgn0002940; sensory perception; GO:0007600 | inferred from electronic annotation _ Rhodopsin 6 _ Rh7 G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity with FLYBASE:Rh3; FB:FBgn0003249 _ Rhodopsin 7 _ rha _ _ _ _ rhea _ _ rhea _ Rheb _ _ _ _ rhi eggshell pattern formation; GO:0030381 | inferred from mutant phenotype _ rhino "rhi is required for proper chromosome conformation in the nurse cells, during oogenesis and for the correct patterning of the eggshell and, embryo." rho "EGF receptor ligand processing; GO:0007174 | inferred from genetic interaction with FLYBASE:spi; FB:FBgn0005672; EGF receptor ligand processing; GO:0007174 | inferred from genetic interaction with FLYBASE:spi; FB:FBgn0005672; proteolysis and peptidolysis; GO:0006508 | inferred from genetic interaction with FLYBASE:S; FB:FBgn0003310, FLYBASE:spi; FB:FBgn0005672" _ rhomboid _ rho-2 EGF receptor signaling pathway; GO:0007173 | non-traceable author statement _ rhomboid-2 _ rho-4 _ _ rhomboid-4 _ rho-5 _ _ rhomboid-5 _ rho-6 _ _ rhomboid-6 _ rho-7 _ _ rhomboid-7 _ Rho1 NOT muscle attachment; GO:0016203 | inferred from mutant phenotype; NOT myofibril assembly; GO:0030239 | inferred from mutant phenotype; neuroblast proliferation; GO:0007405 | inferred from mutant phenotype _ _ _ RhoBTB _ _ _ _ RhoGAP100F _ _ _ _ RhoGAP102A _ _ _ _ RhoGAP15B _ _ _ _ RhoGAP16F _ _ _ _ RhoGAP18B _ _ _ _ RhoGAP19D _ _ _ _ RhoGAP1A _ _ _ _ RhoGAP54D _ _ _ _ RhoGAP5A _ _ _ _ RhoGAP68F _ _ _ _ RhoGAP71E _ _ _ _ RhoGAP88C _ _ _ _ RhoGAP92B _ _ _ _ RhoGAP93B _ _ _ _ RhoGAPp190 mushroom body development; GO:0016319 | inferred from mutant phenotype _ _ _ RhoGEF2 regulation of cell shape; GO:0008360 | inferred from direct assay _ _ _ RhoGEF3 _ _ _ _ RhoGEF4 _ _ _ _ RhoL _ _ rho-like _ RhoX _ _ _ _ Rhp _ _ Rhophilin _ rib tracheal cell migration; GO:0007427 | inferred from mutant phenotype; tracheal cell migration; GO:0007427 | inferred from mutant phenotype _ ribbon _ Ric _ _ Ras which interacts with Calmodulin _ Rim synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ _ _ rin RAS protein signal transduction; GO:0007265 | inferred from genetic interaction with FLYBASE:Rho1; FB:FBgn0014020 _ rasputin _ Ring _ _ _ _ rip _ _ ripcord _ ripp _ _ rippchen _ rk G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity _ rickets _ rk(2)364 _ _ _ _ rK(2)639 _ _ _ _ rl transmembrane receptor protein tyrosine kinase signaling pathway; GO:0007169 | inferred from mutant phenotype _ rolled _ Rlb1 _ _ _ _ Rlc1 _ _ _ _ Rlip _ _ _ _ rls _ _ restless _ rlt _ _ roulette _ Rm2 _ _ Ring magnifier on 2 _ Rm62 _ _ Rm62 _ rn eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype; leg morphogenesis; GO:0007480 | inferred from mutant phenotype _ rotund _ RN-tre _ _ tre oncogene-related protein _ RNA-guanine-7-methyltransferase _ _ RNA (guanine-7-)methyltransferase _ Rnase1 _ _ Ribonuclease 1 Defined as an RNAse activity at high pH. Rnase2 _ _ Ribonuclease 2 Defined as an RNAse activity at low pH. RNaseX25 _ _ Ribonuclease X25 _ rnh1 _ _ ribonuclease H1 rnh1 is required for imaginal disc morphogenesis. rno negative regulation of EGF receptor signaling pathway; GO:0042059 | inferred from direct assay _ rhinoceros _ Rnp4F _ _ RNA-binding protein 4F _ rnRacGAP _ _ _ _ RnrL DNA replication; GO:0006260 | non-traceable author statement _ Ribonucleoside diphosphate reductase large subunit _ RnrS DNA replication; GO:0006260 | non-traceable author statement _ Ribonucleoside diphosphate reductase small subunit _ ro eye morphogenesis (sensu Drosophila); GO:0007456 | non-traceable author statement; negative regulation of R8 differentiation; GO:0045680 | non-traceable author statement; restriction of R8 fate; GO:0007461 | non-traceable author statement _ rough _ Roa _ _ Rough anteriorly _ road Wnt receptor signaling pathway; GO:0016055 | inferred from mutant phenotype _ regulator of armadillo road plays an essential role in wg signal transduction. roam _ _ roaming _ robl microtubule-based movement; GO:0007018 | inferred from sequence similarity _ roadblock _ robl22E microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ robl37BC microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ robl60C _ _ _ _ robl62A microtubule-based movement; GO:0007018 | inferred from sequence similarity _ _ _ robls54B _ _ roadblock similar 54B _ robo axon guidance; GO:0007411 | inferred from mutant phenotype; axon midline choice point recognition; GO:0016199 | traceable author statement _ roundabout _ robo3 axon guidance; GO:0007411 | inferred from mutant phenotype; ventral cord development; GO:0007419 | inferred from mutant phenotype _ _ "low levels of lea or robo and robo3 have both distinct and, overlapping functions in controlling pathway choices within the central, nervous system." Roc _ _ Ras operated by calmodulin Encodes a calmodulin-binding RAS-like protein. Roc1a smoothened receptor signaling pathway; GO:0007224 | inferred from mutant phenotype; ubiquitin cycle; GO:0006512 | inferred from sequence similarity with SGD:HRT1; SGDID:S0005493 _ _ _ Roc1b _ _ _ _ Roc2 _ _ _ _ rod mitotic chromosome segregation; GO:0000070 | inferred from mutant phenotype _ rough deal _ Roe1 protein-mitochondrial targeting; GO:0006626 | non-traceable author statement _ _ _ Roi neurogenesis; GO:0007399 | non-traceable author statement _ Rough eye _ Rok "metarhodopsin inactivation; GO:0016060 | non-traceable author statement; phototransduction, visible light; GO:0007603 | non-traceable author statement" _ Rhodopsin kinase _ rok Rho protein signal transduction; GO:0007266 | inferred from physical interaction; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Rho-kinase "rok works downstream of fz/dsh to mediate a subset of the planar, cell polarity (PCP) response, regulating the number but not orientation, of wing hairs and the rotation but not chirality of photoreceptor clusters." rol _ _ reduced optic lobes _ rols myoblast fusion; GO:0007520 | inferred from mutant phenotype; myoblast fusion; GO:0007520 | non-traceable author statement _ rolling pebbles rols is involved in muscle fusion in the developing embryo. Rop regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype; vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ Ras opposite _ rope _ _ rope _ Ror protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; signal transduction; GO:0007165 | inferred from sequence similarity _ _ _ ros _ _ rosario _ rost myoblast fusion; GO:0007520 | inferred from mutant phenotype; myoblast fusion; GO:0007520 | traceable author statement _ rolling stone "Mesodermal expression of rost is essential, for myoblast fusion." Rox8 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003243; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:011954; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:014382 _ Rox8 Rox8 has been cloned and characterized. Rp21 protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein 21 _ Rp34 protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein 34 _ Rp7-8 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ Ribosomal protein 7/8 _ RpA-30 DNA dependent DNA replication; GO:0006261 | inferred from direct assay _ Replication Protein A 30 _ RpA-70 DNA dependent DNA replication; GO:0006261 | inferred from direct assay; DNA dependent DNA replication; GO:0006261 | non-traceable author statement _ Replication Protein A 70 _ RpA-8 DNA dependent DNA replication; GO:0006261 | inferred from direct assay _ Replication Protein A 8 _ Rpb10 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2A; OMIM:1806630; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB10; SGDID:S0005736 _ _ _ Rpb11 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2A; OMIM:1806631; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB11; SGDID:S0005365 _ _ _ Rpb12 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2A; OMIM:1806632; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPC10; SGDID:S0001185 _ _ _ Rpb4 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2D; OMIM:606017; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB4; SGDID:S0003676 _ _ _ Rpb5 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2E; OMIM:180664; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB5; SGDID:S0000358 _ _ _ Rpb7 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2G; OMIM:602013; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB7; SGDID:S0002812 _ _ _ Rpb8 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2H; OMIM:606023; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB8; SGDID:S0005750; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with WB:RPB8 _ _ _ Rpd3 chromatin silencing; GO:0006342 | inferred from genetic interaction with FLYBASE:Pc; FB:FBgn0003042; chromatin silencing; GO:0006342 | inferred from physical interaction with FLYBASE:Pc; FB:FBgn0003042; negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | inferred from physical interaction with FLYBASE:E(z); FB:FBgn0000629; negative regulation of transcription by homeotic gene (Polycomb group); GO:0006340 | inferred from physical interaction with FLYBASE:esc; FB:FBgn0000588 _ _ _ RPE65 _ _ _ _ RpI1 transcription from Pol I promoter; GO:0006360 | inferred from sequence similarity with SWISS-PROT:O54889; transcription from Pol I promoter; GO:0006360 | non-traceable author statement _ RNA polymerase I subunit _ RpI12 transcription from Pol I promoter; GO:0006360 | non-traceable author statement _ RNA polymerase I 12kD subunit _ RpI135 transcription from Pol I promoter; GO:0006360 | inferred from sequence similarity with SWISS-PROT:O54888; transcription from Pol I promoter; GO:0006360 | non-traceable author statement _ RNA polymerase I 135kD subunit _ RpII140 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2B; OMIM:180661; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB2; SGDID:S0005677; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with WB:RPB2 _ RNA polymerase II 140kD subunit _ RpII15 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2I; OMIM:180662; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB9; SGDID:S0003038 _ RNA polymerase II 15kD subunit _ RpII18 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2F; OMIM:604414; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPO26; SGDID:S0006391; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with WB:RPB6 _ RNA polymerase II 18kD subunit _ RpII215 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2A; OMIM:180663; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPO21; SGDID:S0002299; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with WB:ama-1 _ RNA polymerase II 215kD subunit _ RpII33 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with HUGO:POLR2C; OMIM:180663; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with SGD:RPB3; SGDID:S0001283 _ RNA polymerase II 33kD subunit _ RpIII128 transcription from Pol III promoter; GO:0006383 | inferred from sequence similarity with SGD:RET1; SGDID:S0005733; transcription from Pol III promoter; GO:0006383 | non-traceable author statement _ RNA polymerase III 128kD subunit _ rpk _ _ ripped pocket rpk has been cloned and sequenced. RpL1 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P50878 _ Ribosomal protein L1 _ RpL11 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P25121; protein biosynthesis; GO:0006412 | non-traceable author statement _ _ _ RpL12 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P23358 _ Ribosomal protein L12 _ RpL13 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P41123 _ Ribosomal protein L13 _ RpL14 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P50914 _ Ribosomal protein L14 _ RpL15 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL15A; SGDID:S0004019 _ _ _ RpL17A protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL17A; SGDID:S0000183; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein L17A _ RpL18A protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P11249 _ Ribosomal protein L18A _ RpL19 protein biosynthesis; GO:0006412 | inferred from sequence similarity with MGD:Rpl19; MGI:MGI:98020 _ Ribosomal protein L19 _ RpL22 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P50886; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein L22 _ RpL23a protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL25; SGDID:S0005487; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein L23a _ RpL25 protein biosynthesis; GO:0006412 | inferred from sequence similarity _ Ribosomal protein L25 _ RpL27A protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P18445; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein L27A _ RpL29 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL29; SGDID:S0006437; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein L29 _ RpL3 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P21531; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein L3 _ RpL30 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL30; SGDID:S0002998 _ Ribosomal protein L30 _ RpL31 protein biosynthesis; GO:0006412 | inferred from sequence similarity; protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506633 _ _ _ RpL32 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL32; SGDID:S0000188 _ Ribosomal protein L32 "Chromosome homologies of Muller's element D (J chromosome in the Paleartic, species and XR chromosome arm in Nearctic species) and of element E, (O chromosome in the Paleartic species and 2 chromosome in Nearctic, species) have been confirmed by single copy probes in the species of, the obscura group and in D.melanogaster." RpL36 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P39032 _ Ribosomal protein L36 _ RpL37a protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506643 _ Ribosomal protein L37a _ RpL40 protein biosynthesis; GO:0006412 | inferred from sequence similarity with PIR:S11248; ubiquitin cycle; GO:0006512 | inferred from sequence similarity _ Ribosomal protein L40 _ RpL46 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPL46; SGDID:S0003725 _ Ribosomal protein L46 _ RpL7 protein biosynthesis; GO:0006412 | inferred from sequence similarity with PIR:JC4230; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein L7 _ RpL7A protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P12970; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein L7A _ RpL8 protein biosynthesis; GO:0006412 | inferred from sequence similarity; protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506663 _ Ribosomal protein L8 _ RpL9 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P17077 _ Ribosomal protein L9 _ Rpn1 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD2; OMIM:606223; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN1; SGDID:S0001069 _ _ _ Rpn11 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN11; SGDID:S0001900 _ _ _ Rpn12 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD8; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN12; SGDID:S0001948 _ _ _ Rpn2 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD1; OMIM:8816993; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN2; SGDID:S0001337 _ _ _ Rpn5 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD12; OMIM:604450; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN5; SGDID:S0002306 _ _ _ Rpn6 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD11; OMIM:604449; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN6; SGDID:S0002255 _ Proteasome p44.5 subunit _ Rpn7 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD6; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN7; SGDID:S0006312 _ _ _ Rpn9 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMD13; OMIM:603481; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPN9; SGDID:S0002835 _ _ _ RpP0 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P19945 _ Ribosomal protein P0 "Encodes an apurinic-apyrimidinic DNA endonuclease, AP3." RpP1 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P19944 _ Ribosomal protein P1 _ RpP2 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P47955 _ Ribosomal protein P2 _ Rpp30 tRNA processing; GO:0008033 | inferred from sequence similarity _ RNaseP protein p30 _ rpr apoptosis; GO:0006915 | inferred from genetic interaction with FLYBASE:Ras85D; FB:FBgn0003205; induction of apoptosis; GO:0006917 | inferred from genetic interaction with FLYBASE:Dcp-1; FB:FBgn0010501; induction of apoptosis; GO:0006917 | inferred from genetic interaction with FLYBASE:th; FB:FBgn0003691 _ reaper _ RpS12 protein biosynthesis; GO:0006412 | inferred from sequence similarity with MGD:Rps12; MGI:MGI:98105 _ Ribosomal protein S12 _ RpS13 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPS13; SGDID:S0002471; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein S13 _ RpS14a protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:Y08307; protein_id:CAA69615 _ Ribosomal protein S14a _ RpS14b protein biosynthesis; GO:0006412 | inferred from sequence similarity with EMBL:Y08307; protein_id:CAA69615 _ Ribosomal protein S14b _ RpS15A protein biosynthesis; GO:0006412 | inferred from sequence similarity with PIR:S51385 _ Ribosomal protein S15A _ RpS17 protein biosynthesis; GO:0006412 | inferred from sequence similarity with MGD:Rps17; MGI:MGI:1309526 _ Ribosomal protein S17 _ RpS18 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPS18A; SGDID:S0002858 _ Ribosomal protein S18 _ RpS19 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P17074; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein S19 An RpS19 cDNA has been cloned and sequenced. RpS20 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPS20; SGDID:S0001007; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein S20 _ RpS25 protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506707; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein S25 _ RpS26 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P70394 _ Ribosomal protein S26 _ RpS27A protein biosynthesis; GO:0006412 | inferred from sequence similarity with NCBI_gi:4506713 _ Ribosomal protein S27A RpS27A expression has been studied in heat shocked aging flies. RpS3 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P17073 _ Ribosomal protein S3 _ RpS3A protein biosynthesis; GO:0006412 | inferred from sequence similarity with MGD:Rps3a; MGI:MGI:1202063 _ Ribosomal protein S3A _ RpS4 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPS4A; SGDID:S0003906; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein S4 _ RpS5 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P24050; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein S5 _ RpS6 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPS6A; SGDID:S0006011 _ Ribosomal protein S6 _ RpS9 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:P29314; protein biosynthesis; GO:0006412 | non-traceable author statement _ Ribosomal protein S9 _ Rpt1 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMC2; OMIM:154365; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPT1; SGDID:S0001628 _ _ _ Rpt3 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMC4; OMIM:602707; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPT3; SGDID:S0002802 _ _ _ Rpt4 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMC6; OMIM:602708; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPT4; SGDID:S0005785 _ _ _ Rrp1 DNA repair; GO:0006281 | inferred from sequence similarity with MGD:Apex; MGI:MGI:88042 _ Recombination repair protein 1 "dsDNA 3'-exonuclease activity of Rrp1 is more efficient in purine-rich, regions than in pyrimidine-rich regions. The base occupying the penultimate, position in the 3'-terminal dinucleotides may be important in determining, the relative efficiency of bond cleavage by Rrp1. These results, suggest that the sequence specificity of Rrp1-catalysed phosphodiester, backbone cleavage is determined by the specific DNA-protein interactions, in the enzyme active site." rrpA _ _ reduced receptor potential A _ rrpB _ _ reduced receptor potential B _ rrpC _ _ reduced receptor potential C _ rrpD _ _ reduced receptor potential D _ rs _ _ rose "It is likely that this gene is required for the normal transport of, eye-pigment precursors." Rs1 ribosome biogenesis; GO:0007046 | non-traceable author statement _ _ _ rsc _ _ reduplicated sex combs _ rsd _ _ raised _ Rsf1 _ _ Repressor splicing factor 1 _ RSG7 regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with FLYBASE:dsh; FB:FBgn0000499; regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with HUGO:DVL3; OMIM:601368; regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with SWISS-PROT:O54829; regulation of G-protein coupled receptor protein signaling pathway; GO:0008277 | inferred from sequence similarity with WB:egl-10 _ Regulator of G-protein signaling 7 _ rsh defense response; GO:0006952 | inferred from mutant phenotype _ _ _ rsi _ _ reduced size _ rss _ _ reduced scutellars and sternitals _ rst regulation of myogenesis; GO:0016202 | inferred from mutant phenotype _ roughest "rst and kirre act redundantly during muscle development as myoblast, attractants." Rst(1)JH _ _ Resistance to Juvenile Hormone _ rst(1a)cyr _ _ resistance 1a cyromazine _ Rst(2)chl _ _ Resistant to chlorpyrifos _ Rst(2)DDT _ _ Resistance to DDT "The RalDDT[R]"" strain (FBrf0052775) is highly resistant to DDT (and" pyrethroid) by (mainly) cytochrome-P450-dependent mixed-function oxidases. FBrf0087658 studies the metabolism of diazinon in this strain in comparison " to Canton-S.""" Rst(2)Lb _ _ Resistance to Leptopilina boulardi _ Rst(2)mth _ _ Resistance to malathion on chromosome 2 _ Rst(3)amd _ _ alpha methyl dopa-resistant on 3 "Based on two of 16 chromosomes selected for conferring, resistance to alpha methyl dopa when heterozygous." rt _ _ rotated abdomen _ Rtc1 _ _ _ _ rtet _ _ tetracycline resistance rtet is an essential gene. rtg _ _ rotated genitalia _ rtGEF _ _ rho-type guanine exchange factor "Encodes a guanine nucleotide exchange factor., Expressed throughout oogenesis and embryogenesis, and in the embryo mRNA is abundant in cells undergoing morphogenetic, movements." rtv _ _ retroactive _ ru cone cell fate commitment (sensu Drosophila); GO:0007466 | inferred from mutant phenotype; photoreceptor commitment; GO:0007459 | inferred from genetic interaction with FLYBASE:rho; FB:FBgn0004635 _ roughoid ru regulates Egfr signaling in the eye. rub _ _ rubroad _ rubb _ _ rubbish _ rubymine _ _ rubymine rubymine is involved in the morphogeneis of the compound eye. rud _ _ ruddle _ rue _ _ ruffled eye _ Ruf _ _ _ _ rug eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ rugged _ run "regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement; sex determination, establishment of X:A ratio; GO:0007540 | non-traceable author statement" _ runt _ rut molting cycle (sensu Insecta); GO:0007591 | inferred from genetic interaction with FLYBASE:Itp-r83A; FB:FBgn0010051 _ rutabaga _ rux mitotic cell cycle; GO:0000278 | inferred from mutant phenotype; regulation of cell cycle; GO:0000074 | inferred from mutant phenotype _ roughex _ rv _ _ raven _ rvn _ _ ravenoid _ rwi _ _ red wine _ Rx brain development; GO:0007420 | non-traceable author statement _ _ "Rx is cloned and sequenced and the gene structure and expression, pattern determined." ry _ _ rosy _ Rya-r44F muscle contraction; GO:0006936 | inferred from mutant phenotype _ Ryanodine receptor 44F Rya-r44F is required for proper muscle function. S "EGF receptor ligand processing; GO:0007174 | inferred from genetic interaction with FLYBASE:rho; FB:FBgn0004635, FLYBASE:spi; FB:FBgn0005672; regulation of EGF receptor signaling pathway; GO:0042058 | inferred from genetic interaction with FLYBASE:rho; FB:FBgn0004635, FLYBASE:spi; FB:FBgn0005672" _ Star _ s _ _ sable _ S(faf)196 _ _ _ _ S(faf)244 _ _ _ _ S(faf)86 _ _ _ _ S(rux)2B _ _ _ The wild type function of S(rux)2C is required for entry to S phase. S(rux)2C _ _ _ The wild type function of S(rux)2C is required for entry to S phase. S(Sev-CycE)D16 _ _ _ _ S(Sev-CycE)D17 _ _ _ _ S(Sev-CycE)D2 _ _ _ _ S(Sev-CycE)D28 _ _ _ _ S(Sev-CycE)D30 _ _ _ _ S1P _ _ _ _ S2P _ _ _ _ s3754 _ _ _ _ S63 _ _ S63 _ S6k cell growth and/or maintenance; GO:0008151 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype _ RPS6-p70-protein kinase "The S6k gene product regulates cell size in a cell-autonomous, manner without impinging on cell number." S6kII protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ RPS6-protein kinase-II _ SA _ _ Stromalin _ sa _ _ spermatocyte arrest _ SA-2 _ _ Stromalin-2 _ sAB1 _ _ _ _ sad _ _ shadow _ sag R1/R6 cell fate commitment; GO:0007462 | inferred from mutant phenotype; R7 cell fate commitment; GO:0007465 | inferred from mutant phenotype; cone cell fate commitment (sensu Drosophila); GO:0007466 | inferred from mutant phenotype _ semang _ sage _ _ salivary gland-expressed bHLH _ saguaro _ _ saguaro saguaro has a function in dendritic development. SAK protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ _ _ sala _ _ spalt-adjacent The role of sala in spalt function (if any) is not yet clear. salm oenocyte development; GO:0007438 | inferred from mutant phenotype; photoreceptor differentiation; GO:0007467 | inferred from mutant phenotype; sensory organ development; GO:0007423 | inferred from mutant phenotype _ spalt major _ salr _ _ spalt-related _ salvador _ _ _ _ sam _ _ sperm amotile _ sAM16 _ _ _ _ SamDC spermidine biosynthesis; GO:0008295 | non-traceable author statement; spermine biosynthesis; GO:0006597 | non-traceable author statement _ S-adenosylmethionine decarboxylase _ Samuel _ _ Samuel _ sano _ _ serrano _ Sap-r _ _ Saposin-related _ Sap47 _ _ Synapse-associated protein 47kD _ sar1 _ _ _ _ Sara TGFbeta receptor signaling pathway; GO:0007179 | non-traceable author statement _ Smad anchor for receptor activation _ sas _ _ stranded at second _ Sas10 _ _ _ _ sat eggshell formation; GO:0007304 | inferred from mutant phenotype _ satin _ sauf _ _ _ sauf is a member of the hh signaling pathway. saw _ _ sawtooth _ sax "anterior/posterior pattern formation, imaginal disc; GO:0007448 | inferred from mutant phenotype; maternal determination of anterior/posterior axis, embryo; GO:0008358 | inferred from genetic interaction; maternal determination of anterior/posterior axis, embryo; GO:0008358 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype" _ saxophone _ Sb cytoskeleton organization and biogenesis; GO:0007010 | inferred from mutant phenotype _ Stubble "Sb product may have dual function; to detach imaginal, disc cells from extracellular matrix via its extracellular proteolytic, domain and to transmit signal to intracellular domain to modify, cytoskeleton and facilitate cell changes." sb _ _ soft brown _ sba _ _ six-banded _ sbb axon guidance; GO:0007411 | inferred from mutant phenotype; axon target recognition; GO:0007412 | inferred from mutant phenotype; larval walking behavior; GO:0008346 | inferred from mutant phenotype _ scribbler _ Sbf _ _ SET domain binding factor _ sbn _ _ scatterbrained _ Sbp2 _ _ SECIS-binding protein 2 _ Sbp3 _ _ Su(H)-binding protein 3 _ Sbp6 _ _ Su(H)-binding protein 6 _ sbr poly(A)+ mRNA-nucleus export; GO:0016973 | inferred from mutant phenotype _ small bristles _ sby _ _ small body _ Sc _ _ Scotched eye _ sc neurogenesis; GO:0007399 | inferred from genetic interaction with FLYBASE:sisA; FB:FBgn0003411; sex determination; GO:0007530 | inferred from mutant phenotype _ scute _ Sc2 _ _ _ _ SC35 mRNA splice site selection; GO:0006376 | inferred from sequence similarity with NCBI_NP:035488; mRNA splicing; GO:0006371 | non-traceable author statement _ _ _ sca eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from genetic interaction with FLYBASE:hh; FB:FBgn0004644; neurogenesis; GO:0007399 | inferred from genetic interaction with FLYBASE:N; FB:FBgn0004647 _ scabrous _ Scad67 _ _ Suppressor of constitutively activated Dpp signaling 67 _ scal _ _ scabrous-like _ Scamp synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ _ _ scant _ _ scott of the antarctic _ SCAP protein-Golgi targeting; GO:0000042 | non-traceable author statement _ _ _ SCAR _ _ _ "SCAR may be involved in embryonic central nervous system, development." Scar _ _ Scarred _ scarecrow _ _ scarecrow _ scat _ _ scattered _ scb calcium-dependent cell-matrix adhesion; GO:0016340 | inferred from sequence similarity _ scab _ Scbp _ _ Soluble calcium-binding protein _ scc brain development; GO:0007420 | inferred from mutant phenotype _ split central complex _ scd _ _ sex combs distal _ Sce _ _ Sex combs extra _ sced cell cycle dependent actin filament reorganization; GO:0030037 | inferred from mutant phenotype; pseudocleavage (sensu Insecta); GO:0030589 | inferred from mutant phenotype _ scrambled "sced is required for actin cap expansion and pseudocleavage furrow, formation during syncytial blastoderm divisions." Scf _ _ Scruffy Scf acts in parallel to bi in the adult abdomen. scf _ _ supercoiling factor _ scg _ _ scrambled egg _ Scgalpha _ _ Sarcoglycan alpha _ Scgbeta _ _ Sarcoglycan beta _ Scgdelta cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ Sarcoglycan delta _ Scim10 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 10 _ Scim11 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 11 _ Scim12 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 12 _ Scim13 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 13 _ Scim14 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 14 _ Scim15 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 15 _ Scim16 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 16 _ Scim17 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 17 _ Scim18 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 18 _ Scim20 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 20 _ Scim21 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 21 _ Scim22 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 22 _ Scim23 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 23 _ Scim24 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype; mitotic chromosome condensation; GO:0007076 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 24 _ Scim25 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype; sister chromatid cohesion; GO:0007062 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 25 _ Scim26 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 26 _ Scim27 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 27 _ Scim28 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 28 _ Scim29 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 29 _ Scim30 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 30 _ Scim32 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 32 _ Scim33 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 33 _ Scim34 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 34 _ Scim35 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 35 _ Scim36 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 36 _ Scim37 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 37 _ Scim4 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 4 _ Scim5 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 5 _ Scim6 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 6 _ Scim7 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 7 _ Scim8 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 8 _ Scim9 female meiosis chromosome segregation; GO:0016321 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype; sister chromatid cohesion; GO:0007062 | inferred from mutant phenotype _ Sensitized chromosome inheritance modifier 9 _ Scm gene silencing; GO:0016458 | inferred from genetic interaction with FLYBASE:ph-p; FB:FBgn0004861; gene silencing; GO:0016458 | inferred from mutant phenotype _ Sex comb on midleg _ Scn _ _ Scutenick _ scp _ _ scooped _ Scp1 _ _ Sarcoplasmic calcium-binding protein 1 _ Scp2 _ _ Sarcoplasmic calcium-binding protein 2 _ ScpX _ _ Sterol carrier protein X-related thiolase _ Scr salivary gland determination; GO:0007432 | traceable author statement; segment specification; GO:0007379 | non-traceable author statement _ Sex combs reduced _ scr _ _ scruff _ scra cellularization; GO:0007349 | traceable author statement; cytokinesis; GO:0016288 | traceable author statement _ scraps _ scratch-like1 _ _ _ _ scratch-like2 _ _ _ _ scrib antibacterial polypeptide induction; GO:0006963 | inferred from mutant phenotype; cell proliferation; GO:0008283 | inferred from mutant phenotype; establishment and/or maintenance of polarity of follicular epithelium; GO:0016334 | inferred from mutant phenotype; establishment and/or maintenance of polarity of larval imaginal disc epithelium; GO:0016336 | inferred from mutant phenotype; morphogenesis of follicular epithelium; GO:0016333 | inferred from mutant phenotype; morphogenesis of larval imaginal disc epithelium; GO:0016335 | inferred from mutant phenotype _ scribbled "scrib is required for polarization of the embryonic, imaginal disc, and follicular epithelia. scrib acts as a tumor suppressor." scro _ _ scarecrow _ scrt _ _ scratch _ Scsalpha tricarboxylic acid cycle; GO:0006099 | non-traceable author statement _ Succinyl coenzyme A synthetase alpha subunit _ Scs-fp tricarboxylic acid cycle; GO:0006099 | non-traceable author statement _ Succinyl coenzyme A synthetase flavoprotein subunit _ scu _ _ scully Analysis of scu mutants suggests a role for scu in germline formation. scw "BMP receptor signaling pathway; GO:0030509 | non-traceable author statement; TGFbeta receptor signaling pathway; GO:0007179 | non-traceable author statement; TGFbeta receptor signaling pathway; GO:0007179 | non-traceable author statement; cell fate specification; GO:0001708 | non-traceable author statement; zygotic determination of anterior/posterior axis, embryo; GO:0007354 | non-traceable author statement" _ screw "dpp/tkv signaling is obligatorily required, while scw/sax signaling, is necessary but not sufficient for dorsal patterning in the embryo." scy _ _ scratched eye _ scylla _ _ _ _ Sd _ _ Segregation distorter "A mutation of Sd generated by loss of a P-element in Sd exhibits, a maternal effect embryonic lethal phenotype. Homozygous females are, completely normal but hemizygotes are sterile regardless of the genotype, of the male. Embryos from these females die before the syncytial blastoderm, stage, around the 7th or 8th nuclear division. In addition, their, nuclei are no longer mitotically synchronous and many appear abnormal, in size and shape." sd neurogenesis; GO:0007399 | non-traceable author statement _ scalloped _ sda _ _ slamdance _ sDBP-X _ _ satellite DNA binding protein X "sDBP-X has been identified as a 15kD protein that is associated with, 1.688-g/cm[3] satDNA. The distribution of sDBP-X protein on 1.688-g/cm[3], satDNA has been mapped." Sdc _ _ Syndecan _ Sdh _ _ Succinate dehydrogenase _ SdhB tricarboxylic acid cycle; GO:0006099 | non-traceable author statement _ Succinate dehydrogenase B _ Sdic microtubule-based movement; GO:0007018 | inferred from sequence similarity; microtubule-based movement; GO:0007018 | inferred from sequence similarity with EMBL:AF063231; protein_id:AAC33446 _ Sperm-specific dynein intermediate chain _ sdk _ _ sidekick "sdk is necessary to prevent extra photoreceptor cells from differentiating, during eye disc development." sdl _ _ seedless _ sdp _ _ sandpaper _ sds22 _ _ _ _ sdt establishment and/or maintenance of epithelial cell polarity; GO:0045197 | inferred from physical interaction with FLYBASE:crb; FB:FBgn0000368; establishment and/or maintenance of epithelial cell polarity; GO:0045197 | inferred from physical interaction with FLYBASE:crb; FB:FBgn0000368 _ stardust _ sdx _ _ spreadex _ se _ _ sepia _ Sebp1 _ _ Secretion enhancer-binding protein 1 _ Sebp3 _ _ Secretion enhancer-binding protein 3 _ Sebp344 _ _ Secretion enhancer-binding protein 344 _ sec10 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ sec13 non-selective vesicle assembly; GO:0006902 | inferred from sequence similarity with SGD:SEC13; SGDID:S0004198 _ _ _ sec15 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Sec22 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ Sec22 _ sec23 ER to Golgi transport; GO:0006888 | inferred from sequence similarity with SGD:SEC23; SGDID:S0006385; Golgi organization and biogenesis; GO:0007030 | inferred from genetic interaction with FLYBASE:ecd; FB:FBgn0000543 _ _ _ sec31 _ _ _ _ sec5 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ sec6 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Sec61alpha "SRP-dependent, co-translational membrane targeting, translocation; GO:0006616 | inferred from sequence similarity with SWISS-PROT:P38378; cell death; GO:0008219 | inferred from mutant phenotype" _ _ _ Sec61beta "SRP-dependent, co-translational membrane targeting, translocation; GO:0006616 | inferred from sequence similarity with SWISS-PROT:P38391" _ _ _ sec8 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ seg oogenesis; GO:0007292 | inferred from mutant phenotype _ short egg _ segB _ _ short egg B _ sei potassium transport; GO:0006813 | non-traceable author statement _ seizure _ SelD cell proliferation; GO:0008283 | inferred from mutant phenotype; imaginal disc development; GO:0007444 | inferred from mutant phenotype; selenocysteine biosynthesis; GO:0016260 | inferred from mutant phenotype _ "selenide,water dikinase" SelD may modulate the Ras/MAPK pathway. SelR _ _ _ _ Sem1 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Sema-1a axon guidance; GO:0007411 | inferred from sequence similarity with EMBL:AF030430; axon guidance; GO:0007411 | non-traceable author statement _ _ _ Sema-1b axon guidance; GO:0007411 | inferred from sequence similarity with EMBL:AF036585 _ _ _ Sema-2a axon guidance; GO:0007411 | inferred from sequence similarity with MGD:Sema3a; MGI:MGI:107558; synaptic target inhibition; GO:0016201 | inferred from mutant phenotype _ _ "Sema-2a prevents promiscuous and ectopic synapse formation. Relative, balance of Sema-2a and Fas2 controls synaptogenesis. The relative, balance of Sema-2a and the Netrins controls the choice of a specific, target and the avoidance of a potential target. NetB and Sema-2a, can both be repulsive for certain motor axons." Sema-2b axon guidance; GO:0007411 | non-traceable author statement _ _ _ Sema-3a axon guidance; GO:0007411 | non-traceable author statement _ _ _ Sema-5c axon guidance; GO:0007411 | inferred from sequence similarity with MGD:Sema3a; MGI:MGI:107558 _ _ _ sens(3)str _ _ sensitive to streptomycin _ sep _ _ separated _ 37500 cytokinesis; GO:0016288 | inferred from sequence similarity; cytokinesis; GO:0016288 | non-traceable author statement _ Septin-1 "Defined as a transcription unit discovered by Northern blots, in vicinity, of slgA gene." 37501 cytokinesis; GO:0016288 | inferred from sequence similarity; cytokinesis; GO:0016288 | non-traceable author statement _ Septin-2 _ 37503 cytokinesis; GO:0016288 | non-traceable author statement _ _ _ 37504 cytokinesis; GO:0016288 | inferred from sequence similarity; cytokinesis; GO:0016288 | non-traceable author statement _ _ _ sept _ _ seven pentacosene "sept and smoq are two genetic factors that, act additively on the production of the 7-tricosene and 7-pentacosene, cuticular hydrocarbons." seq _ _ sequoia seq has a function in dendritic development. Ser N receptor signaling pathway; GO:0007219 | non-traceable author statement; salivary gland morphogenesis; GO:0007435 | non-traceable author statement _ Serrate _ Ser12 _ _ Serine protease 12 _ Ser4 _ _ Serine protease 4 _ Ser6 _ _ Serine protease 6 _ Ser7 _ _ _ _ Ser8 _ _ _ _ Ser89E _ _ Serine protease like 89E _ Ser99Da digestion; GO:0007586 | non-traceable author statement _ Serine protease 1 _ Ser99Db digestion; GO:0007586 | non-traceable author statement _ Serine protease 2 _ Ser99Dc digestion; GO:0007586 | non-traceable author statement _ Serine protease 3 _ Serp2 _ _ _ _ serpin-27A _ _ _ _ Serpin-P9 _ _ Serpin-P9 _ SerT _ _ Serotonin transporter _ sesA _ _ stress-sensitive A _ sesB _ _ stress-sensitive B "Encodes the Adenine nucleotide (ADP/ATP) translocase of the, inner mitochondrial membrane." sesD _ _ stress-sensitive D _ sesE _ _ stress-sensitive E _ sesF _ _ stress-sensitive F _ sesG _ _ stress-sensitive G _ sesH _ _ stress-sensitive H _ Set _ _ _ _ sev R7 cell fate commitment; GO:0007465 | inferred from mutant phenotype _ sevenless _ sey _ _ scratched eyes _ sf _ _ safranin _ SF1 mRNA splicing; GO:0006371 | inferred from sequence similarity with protein_id:CAA03883; mRNA splicing; GO:0006371 | non-traceable author statement _ Splicing factor 1 _ SF2 mRNA splice site selection; GO:0006376 | inferred from sequence similarity with NCBI_NP:008855; mRNA splicing; GO:0006371 | inferred from sequence similarity with PIR:S26404 _ _ _ sfl _ _ sulfateless sfl is essential for wg signaling. sgg circadian rhythm; GO:0007623 | inferred from mutant phenotype; segment polarity determination; GO:0007367 | inferred from mutant phenotype _ shaggy _ sgl glycosaminoglycan biosynthesis; GO:0006024 | non-traceable author statement _ sugarless _ Sgs1 puparial adhesion; GO:0007594 | traceable author statement _ Salivary gland secretion 1 _ Sgs3 puparial adhesion; GO:0007594 | traceable author statement _ Salivary gland secretion 3 _ Sgs4 puparial adhesion; GO:0007594 | traceable author statement _ Salivary gland secretion 4 _ Sgs5 puparial adhesion; GO:0007594 | traceable author statement _ Salivary gland secretion 5 _ Sgs6 puparial adhesion; GO:0007594 | traceable author statement _ Salivary gland secretion 6 _ Sgs7 puparial adhesion; GO:0007594 | traceable author statement _ Salivary gland secretion 7 _ Sgs8 puparial adhesion; GO:0007594 | traceable author statement _ Salivary gland secretion 8 _ Sgs9 puparial adhesion; GO:0007594 | inferred from expression pattern _ Salivary gland secretion 9 _ SGT _ _ _ _ Sh courtship behavior; GO:0007619 | traceable author statement; potassium transport; GO:0006813 | traceable author statement _ Shaker _ sh _ _ short winged _ Sh3beta _ _ _ _ SH3PX1 intracellular protein transport; GO:0006886 | inferred from sequence similarity with EMBL:AF121859 _ _ _ sha _ _ shavenoid _ Shab potassium transport; GO:0006813 | non-traceable author statement; potassium transport; GO:0006813 | traceable author statement _ Shaker cognate b _ shakA _ _ shaking A _ shakB jump response; GO:0007630 | inferred from mutant phenotype _ shaking B "shakB expressed in paired Xenopus oocytes localizes to the membrane, and its presence induces the formation of intercellular channels." Shal potassium transport; GO:0006813 | non-traceable author statement; potassium transport; GO:0006813 | traceable author statement _ Shaker cognate l _ shanti _ _ shanti _ Shaq _ _ _ _ shark protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ "Src homology 2, ankyrin repeat, tyrosine kinase" shark is required for embryonic dorsal closure. Shaw potassium transport; GO:0006813 | non-traceable author statement; potassium transport; GO:0006813 | traceable author statement _ Shaker cognate w _ Shc EGF receptor signaling pathway; GO:0007173 | inferred from genetic interaction with FLYBASE:Egfr; FB:FBgn0003731; torso receptor signaling pathway; GO:0008293 | inferred from genetic interaction with FLYBASE:tor; FB:FBgn0003733 _ SHC-adaptor protein "Shc is required for signaling by a subset of receptor tyrosine kinases;, tor and Egfr, but not sev." shd _ _ shade _ shf _ _ shifted _ shg asymmetric cytokinesis; GO:0008356 | inferred from mutant phenotype; homophilic cell adhesion; GO:0007156 | inferred from direct assay _ shotgun _ shi cellularization; GO:0007349 | traceable author statement; cytokinesis; GO:0016288 | traceable author statement; pole cell formation; GO:0007279 | traceable author statement; synaptic vesicle budding; GO:0016185 | traceable author statement _ shibire _ shk _ _ shank _ shm _ _ short macros _ shn wing morphogenesis; GO:0007476 | inferred from genetic interaction with FLYBASE:dpp; FB:FBgn0000490 _ schnurri _ sho _ _ shovel _ shoc _ _ short circuit "shoc is required for the formation of longitudinal axon tracts between, segments." shot microtubule-based process; GO:0007017 | inferred from sequence similarity with EMBL:AF150755; protein_id:AAD32244.1 _ short stop _ shr _ _ shrunken _ shrb _ _ shrub shrb has a function in dendritic development. shrv _ _ shrinking violet shrv has a function in dendritic development. shtd _ _ shattered _ Shu _ _ Shudderer _ shu oogenesis; GO:0007292 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype _ shutdown "shu is essential for the normal function of the germline stem cells, in females and is also required at later stages of oogenesis." shy _ _ shy _ sib _ _ sibless _ sic _ _ sichel _ Side _ _ similar to Deadpan _ side motor axon guidance; GO:0008045 | inferred from mutant phenotype _ sidestep _ sie _ _ sieve _ sif actin cytoskeleton organization and biogenesis; GO:0030036 | non-traceable author statement; actin cytoskeleton organization and biogenesis; GO:0030036 | non-traceable author statement; synaptic transmission; GO:0007268 | non-traceable author statement; synaptic transmission; GO:0007268 | non-traceable author statement _ still life _ sim central nervous system development; GO:0007417 | non-traceable author statement; ectoderm development; GO:0007398 | traceable author statement _ single-minded _ sima "regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement" _ similar _ Sin _ _ Sex-lethal interactor _ Sin3A negative regulation of transcription; GO:0016481 | inferred from expression pattern _ _ _ sina sensory organ development; GO:0007423 | inferred from mutant phenotype; ubiquitin-dependent protein catabolism; GO:0006511 | non-traceable author statement _ seven in absentia _ sinah _ _ sina homologue "Recovered from a yeast two-hybrid screen for interactors with numb, protein." sine _ _ _ _ singles-bar _ _ singles bar _ sinu tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ sinuous _ sip cystoblast cell division; GO:0007282 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype; spermatogenesis; GO:0007283 | inferred from mutant phenotype _ sine prole sip is required for male and female fertility. SIP1 _ _ Syntaxin Interacting Protein 1 _ Sip1 _ _ SRY interacting protein 1 _ sip1 _ _ septin interacting protein 1 _ SIP2 _ _ Syntaxin Interacting Protein 2 _ sip2 ubiquitin cycle; GO:0006512 | non-traceable author statement _ septin interacting protein 2 _ SIP3 _ _ Syntaxin Interacting Protein 3 _ Sir2 histone deacetylation; GO:0016575 | inferred from direct assay _ _ _ sisA anterior midgut development; GO:0007496 | inferred from mutant phenotype; endoderm development; GO:0007492 | inferred from mutant phenotype; posterior midgut development; GO:0007497 | inferred from mutant phenotype; primary sex determination; GO:0007538 | inferred from mutant phenotype _ sisterless A sisA has an essential function in the yolk nuclei of both sexes. Six4 gonad development; GO:0008406 | inferred from mutant phenotype; myoblast fusion; GO:0007520 | inferred from mutant phenotype _ _ "Six4 has a role in the regulation of cell recognition events required, for myoblast fusion." siz _ _ schizo _ SK _ _ small conductance calcium-activated potassium channel _ Sk _ _ Streak _ sk _ _ stuck _ SK2-3 _ _ _ _ SK3-1 _ _ _ _ skd _ _ skuld _ Skeletor _ _ Skeletor _ skf _ _ skiff _ skl cell death; GO:0008219 | inferred from genetic interaction with FLYBASE:grim; FB:FBgn0015946; cell death; GO:0008219 | inferred from genetic interaction with FLYBASE:reaper; FB:FBgn0011706 _ sickle _ skn _ _ skinhead "skn functions downstream of sgg in many wg-dependent processes, and upstream of vg to promote cell proliferation in the wing." skpA _ _ _ _ skpB _ _ _ _ skpC _ _ _ _ skpD _ _ _ _ sktl phosphorylation; GO:0016310 | non-traceable author statement _ skittles _ Sl _ _ Splotched _ sl _ _ small wing "The sl gene product is involved in Ras-mediated signaling where, it acts as a negative regulator of the Ras pathway." slam germ-cell migration; GO:0008354 | inferred from mutant phenotype _ slow as molasses "slam controls a key aspect of membrane trafficking in membrane, invagination that takes place during embryo cellularization." slbo border cell migration; GO:0007298 | inferred from mutant phenotype _ slow border cells slbo protein binds to the copia ULR (untranslated leader region). Slbp cell cycle; GO:0007049 | inferred from mutant phenotype; histone mRNA 3'-end processing; GO:0006398 | inferred from mutant phenotype; histone mRNA metabolism; GO:0008334 | inferred from mutant phenotype _ Stem-loop binding protein "Slbp-dependant processing plays an important role in coupling histone, mRNA production with the cell cycle." slc _ _ slim chaetae _ sld _ _ slender _ slf _ _ schlaff _ slgA glutamine biosynthesis; GO:0006542 | non-traceable author statement; proline catabolism; GO:0006562 | non-traceable author statement _ sluggish A _ slgB _ _ sluggish B _ Slh intracellular protein transport; GO:0006886 | inferred from sequence similarity with SPTREMBL:Q62843; protein targeting; GO:0006605 | inferred from sequence similarity with SPTREMBL:Q62843 _ SLY-1 homologous _ sli axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:robo; FB:FBgn0005631; axon guidance; GO:0007411 | inferred from physical interaction with FLYBASE:robo; FB:FBgn0005631 _ slit _ slim _ _ scruin like at the midline _ slinky _ _ _ Identified in a screen for enhancer-trap elements mapping to 71CD. slip _ _ slipshod _ Slip1 _ _ _ _ slk _ _ schluckless _ sll _ _ slalom _ slm _ _ slim _ slmb regulation of frizzled receptor signaling pathway; GO:0008590 | inferred from mutant phenotype; regulation of smoothened receptor signaling pathway; GO:0008589 | inferred from mutant phenotype; release of cytoplasmic sequestered NF-kappaB; GO:0008588 | inferred from mutant phenotype _ supernumerary limbs _ slo "male courtship behavior (sensu Drosophila), song production; GO:0045433 | non-traceable author statement; male courtship behavior (sensu Drosophila), song production; GO:0045433 | non-traceable author statement; potassium transport; GO:0006813 | non-traceable author statement" _ slowpoke "Cloned slo channels in excised patches from Xenopus oocytes can exhibit, large variability in gating properties, both within a single channel, and among channels." Slob _ _ Slowpoke binding protein _ slou neurogenesis; GO:0007399 | non-traceable author statement; somatic muscle development; GO:0007525 | non-traceable author statement _ slouch slou functions as an identity gene in somatic muscle development. slow-phase _ _ slow phase _ slp1 "specification of segmental identity, head; GO:0007380 | inferred from genetic interaction with FLYBASE:Kr; FB:FBgn0001325; specification of segmental identity, head; GO:0007380 | inferred from genetic interaction with FLYBASE:bcd; FB:FBgn0000166; specific" _ sloppy paired 1 _ slp2 periodic partitioning; GO:0007365 | non-traceable author statement _ sloppy paired 2 _ slpr JNK cascade; GO:0007254 | inferred from genetic interaction with FLYBASE:Jra; FB:FBgn0001291; JNK cascade; GO:0007254 | inferred from genetic interaction with FLYBASE:Rac1; FB:FBgn0010333; JNK cascade; GO:0007254 | inferred from genetic interaction with FLYBASE:puc; FB:FBgn0004210 _ slipper _ slrp _ _ slow receptor potential _ sls mitotic chromosome condensation; GO:0007076 | inferred from mutant phenotype; myoblast fusion; GO:0007520 | inferred from mutant phenotype _ sallimus _ slt _ _ slight _ slug _ _ slug _ slv _ _ saliva _ sm _ _ smooth The genomic organization of the sm locus has been determined. SM-20d _ _ Similar to rat Smooth Muscle-20 _ SM2-1 _ _ _ _ SM3-2 _ _ _ "SM3-2 may be involved in the cell-death signaling pathway regulated, by rpr." SM3-3 _ _ _ _ SM3-6 _ _ _ SM3-6 may function downstream of Ras85D as a negative regulator. SM3-8 _ _ _ SM3-8 may function downstream of Ras85D as a negative regulator. sma _ _ smaller _ Smac49a _ _ _ "Remarkably specific expression pattern of Smac49a suggests a role, in the perception by males of courtship-modulating pheromones." SmB mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003082; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:010946 _ Small ribonucleoprotein particle protein B _ SMC1 sister chromatid cohesion; GO:0007062 | inferred from sequence similarity with SGD:SMC1; SGDID:S0001886; sister chromatid cohesion; GO:0007062 | non-traceable author statement _ _ _ SMC2 sister chromatid cohesion; GO:0007062 | inferred from sequence similarity with SGD:SMC2; SGDID:S0001927 _ _ _ Smc5 mitosis; GO:0007067 | non-traceable author statement; mitotic chromosome segregation; GO:0000070 | non-traceable author statement _ _ _ smd _ _ smalloid _ SmD3 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004166; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:013248 _ Small ribonucleoprotein Sm D3 _ smet _ _ smetana _ smg _ _ smaug _ smi21F _ _ smell impaired 21F _ smi26D _ _ smell impaired 26D _ smi27E _ _ smell impaired 27E _ smi28E _ _ smell impaired 28E _ smi35A olfaction; GO:0007608 | inferred from mutant phenotype; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ smell impaired 35A _ smi45E _ _ smell impaired 45E _ smi51A _ _ smell impaired 51A _ smi60E _ _ smell impaired 60E _ smi61A _ _ smell impaired 61A _ smi65A _ _ smell impaired 65A _ smi79E _ _ smell impaired 79E _ smi98B _ _ smell impaired 98B _ smid _ _ smallminded _ smiUNK _ _ smell impaired unknown _ Smn _ _ survival motor neuron _ smo blastoderm segmentation; GO:0007350 | inferred from mutant phenotype; regulation of mitotic cell cycle; GO:0007346 | inferred from mutant phenotype _ smoothened "smo activity is required for transduction of hh but not wg., smo acts downstream from ptc to transduce the hh signal." smoq _ _ small monoene quantities "sept and smoq are two genetic factors that, act additively on the production of the 7-tricosene and 7-pentacosene, cuticular hydrocarbons." Smox wing morphogenesis; GO:0007476 | inferred from mutant phenotype _ Smad on X _ smp-30 _ _ Senescence marker protein-30 _ Smr _ _ Smrter "Smr encodes a cofactor of EcR which mediates at least in part the, transcriptional repressive activity of EcR." smt3 protein-nucleus import; GO:0006606 | inferred from genetic interaction with FLYBASE:lwr; FB:FBgn0010602; protein-nucleus import; GO:0006606 | inferred from physical interaction with FLYBASE:dl; FB:FBgn0000462 _ _ _ smu _ _ small mushroom bodies _ sn oogenesis; GO:0007292 | traceable author statement _ singed _ sna mesoderm cell fate determination; GO:0007500 | traceable author statement _ snail _ snafu female meiosis; GO:0007143 | inferred from mutant phenotype; mitosis; GO:0007067 | inferred from mutant phenotype _ _ _ Snap ER to Golgi transport; GO:0006888 | non-traceable author statement; neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle priming; GO:0016082 | non-traceable author statement _ Soluble NSF attachment protein _ gammaSnap neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle priming; GO:0016082 | non-traceable author statement _ gamma-soluble NSF attachment protein _ gammaSnap-2 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle priming; GO:0016082 | non-traceable author statement _ _ _ Snap24 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle fusion; GO:0016083 | non-traceable author statement _ Synapse protein 24 _ Snap25 Golgi to plasma membrane transport; GO:0006893 | inferred from sequence similarity _ Synapse protein 25 _ Snap25b Golgi to plasma membrane transport; GO:0006893 | inferred from sequence similarity _ _ _ snapin synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ _ _ Snb _ _ Snowblind _ snb _ _ snowballs _ snf mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003083; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:004587; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:009677; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012274; mRNA splicing; GO:0006371 | inferred from sequence similarity with SWISS-PROT:P45429 _ sans fille _ SNF1A protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; signal transduction; GO:0007165 | inferred from sequence similarity _ SNF1A/AMP-activated protein kinase _ SNF4Agamma protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ SNF4/AMP-activated protein kinase gamma subunit _ sng _ _ snaggle _ sni _ _ sniffer "The function of sni is required to prevent neuronal apoptosis, induced by oxidative stress." snk Tl receptor signaling pathway; GO:0008063 | inferred from genetic interaction with FLYBASE:Tl; FB:FBgn0003717 _ snake _ snky _ _ sneaky "snky is required for the initial response of the sperm to cytoplasmic, cues in the egg and for the subsequent initiation of embryogenesis." snl _ _ sonless _ Snm1 _ _ _ _ sno _ _ strawberry notch _ snp _ _ snap _ sNPF _ _ short neuropeptide F precursor _ Snr1 _ _ Snf5-related 1 _ snRNA:U2:34ABc mRNA splicing; GO:0006371 | inferred from sequence similarity _ _ _ snRNA:U4:25F mRNA splicing; GO:0006371 | inferred from sequence similarity _ _ _ snRNP105K _ _ _ "Identified as a protein specific to U5 small nuclear ribonucleoprotein, particles (snRNPs)." snRNP120K _ _ _ "Identified as a protein specific to U5 small nuclear ribonucleoprotein, particles (snRNPs)." snRNP200K _ _ _ "Identified as a protein specific to U5 small nuclear ribonucleoprotein, particles (snRNPs)." snRNP42K _ _ _ "Identified as a protein specific to U5 small nuclear ribonucleoprotein, particles (snRNPs)." snRNP54K _ _ _ "Identified as a protein specific to U5 small nuclear ribonucleoprotein, particles (snRNPs)." snRNP69D mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:008869; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:011588 _ small nuclear ribonucleoprotein at 69D _ snRNP70K mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003080; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012203 _ small nuclear ribonucleoprotein 70K _ snRNPA _ _ _ "Identified as a protein specific to U1 small nuclear ribonucleoprotein, particles (snRNPs)." snRNPC _ _ _ "Identified as a protein specific to U1 small nuclear ribonucleoprotein, particles (snRNPs)." snRNPD-L _ _ _ "Identified as a protein which is common to all small nuclear ribonucleoprotein, particles (snRNPs)." snRNPD-U _ _ _ "Identified as a protein which is common to all small nuclear ribonucleoprotein, particles (snRNPs)." snRNPE _ _ _ "Identified as a protein which is common to all small nuclear ribonucleoprotein, particles (snRNPs)." snRNPF _ _ _ "Identified as a protein which is common to all small nuclear ribonucleoprotein, particles (snRNPs)." snRNPG _ _ _ "Identified as a protein which is common to all small nuclear ribonucleoprotein, particles (snRNPs)." sns larval visceral muscle development; GO:0007523 | inferred from mutant phenotype; myoblast fusion; GO:0007520 | inferred from mutant phenotype _ sticks and stones _ so circadian rhythm; GO:0007623 | inferred from genetic interaction with FLYBASE:mnb; FB:FBgn0002777; glia cell migration; GO:0008347 | inferred from mutant phenotype _ sine oculis _ sob _ _ sister of odd and bowl _ soba _ _ suppressor of bulge and argos _ Socs16D _ _ Suppressor of Cytokine Signaling at 16D _ Socs36E JAK-STAT cascade; GO:0007259 | non-traceable author statement _ Suppressor of cytokine signaling at 36E _ Socs44A _ _ Suppressor of Cytokine Signaling at 44A _ Sod superoxide metabolism; GO:0006801 | non-traceable author statement _ Superoxide dismutase _ Sod2 superoxide metabolism; GO:0006801 | non-traceable author statement _ Superoxide dismutase 2 (Mn) "Expression of Sod2 is reduced in rl[1] mutants, suggesting a role, of the rl encoded MAP-kinase in regulating Sod2." Sodh-1 _ _ Sorbitol dehydrogenase 1 _ Sodh-2 _ _ Sorbitol dehydrogenase-2 _ sog "BMP receptor signaling pathway; GO:0030509 | non-traceable author statement; ectoderm development; GO:0007398 | non-traceable author statement; negative regulation of TGFbeta receptor signaling pathway; GO:0030512 | non-traceable author statement; zygotic determination of anterior/posterior axis, embryo; GO:0007354 | non-traceable author statement" _ short gastrulation _ sol optokinetic behavior; GO:0007634 | non-traceable author statement _ small optic lobes _ somatostatin _ _ somatostatin _ sop protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPS2; SGDID:S0003091 _ string of pearls _ Sop2 actin filament-based process; GO:0030029 | inferred from mutant phenotype; pseudocleavage (sensu Insecta); GO:0030589 | inferred from mutant phenotype _ Suppressor of profilin 2 "The Arp2/3 complex (including Sop2) is required for actin cap expansion, and pseudocleavage furrow formation during syncytial blastoderm divisions." sorc "cytoplasmic transport, nurse cell to oocyte; GO:0007303 | inferred from mutant phenotype; regulation of pole plasm bicoid mRNA localization; GO:0008359 | inferred from mutant phenotype" _ sorciere _ Sos RAS protein signal transduction; GO:0007265 | inferred from sequence similarity with MGD:Sos1; MGI:MGI:98354; neurogenesis; GO:0007399 | non-traceable author statement _ Son of sevenless "The Sos signaling pathway is required to prevent certain axons crossing, the midline during the development of the central nervous system." sour-grapes _ _ sour grapes _ sov _ _ small ovary _ Sox100B _ _ _ _ Sox102F _ _ _ _ Sox14 _ _ Sox box protein 14 _ Sox15 _ _ Sox box protein 15 _ Sox21a _ _ _ _ Sox21b _ _ _ _ SoxD _ _ _ _ SoxN _ _ SoxNeuro _ soz _ _ sozzled _ sp _ _ speck _ Sp1 _ _ _ "btd and Sp1 play essential and redundant roles for mechanosensory, development. However, Sp1 lacks the specific features of btd required, for embryonic intercalary and antennal segment formation." SP1029 _ _ _ _ SP1070 _ _ _ _ SP1173 _ _ _ _ SP2353 _ _ _ _ SP2523 _ _ _ _ SP2637 _ _ _ _ SP295 _ _ _ _ SP460 _ _ _ _ SP555 _ _ _ _ SP558 _ _ _ _ SP71 _ _ _ _ spag _ _ spaghetti _ span _ _ separation anxiety _ Spat _ _ Serine pyruvate aminotransferase _ spb _ _ split brain _ spdk _ _ spotted dick _ spdo cytoskeleton organization and biogenesis; GO:0007010 | non-traceable author statement _ sanpodo _ alpha-Spec neuromuscular synaptic transmission; GO:0007274 | inferred from mutant phenotype; plasma membrane organization and biogenesis; GO:0007009 | traceable author statement _ alpha Spectrin "alpha-spectrin forms an elongated heterodimer with beta-spectrin to, form an important cytoskeletal component. The hts and alpha-Spec, products are components of the fusome (FBrf0073745) and alpha-spectrin is, required for the spatial arrangement of follicle cells during oocyte, development (FBrf0078876). The Drosophila alpha-spectrin can, be recognized by antibodies against the mammalian protein." beta-Spec neuromuscular synaptic transmission; GO:0007274 | inferred from mutant phenotype; plasma membrane organization and biogenesis; GO:0007009 | traceable author statement _ beta Spectrin "beta-spectrin forms an elongated heterodimer with alpha-spectrin to, form an important cytoskeletal component." Spec2 _ _ _ _ spel1 mismatch repair; GO:0006298 | inferred from sequence similarity; mismatch repair; GO:0006298 | inferred from sequence similarity with EMBL:U21011 _ spellchecker1 spel1 is not a vital gene. spen axon guidance; GO:0007411 | inferred from mutant phenotype; glia cell migration; GO:0008347 | inferred from mutant phenotype _ split ends _ Spf _ _ Spadefoot _ Spf45 _ _ _ _ spg _ _ sponge "spg function is essential only for oogenesis and not for any other, period of development." sph _ _ sparse hairs _ sphinx _ _ _ _ spi R8-mediated photoreceptor organization; GO:0045470 | non-traceable author statement; salivary gland determination; GO:0007432 | non-traceable author statement _ spitz _ spin courtship behavior; GO:0007619 | non-traceable author statement; programmed cell death; GO:0012501 | non-traceable author statement _ spinster spin may be a negative regulator of synaptic growth. spir eggshell formation; GO:0007304 | inferred from mutant phenotype; pole plasm assembly; GO:0007315 | inferred from mutant phenotype _ spire _ spk phototransduction; GO:0007602 | inferred from mutant phenotype _ spike _ Spl _ _ Splayed _ splinter _ _ splinter _ Sply _ _ _ _ Spn _ _ Spinophilin _ spn-A _ _ spindle A "Analysis of mutants of the 5 spindle genes (spn-A, spn-B, spn-C,, spn-D and spn-E) reveals that the group of genes is required for, each of the symmetry-breaking steps that generate polarity during axis, formation., spn-E is required for the localization of fs(1)K10, bcd and osk, mRNAs, spn-A. spn-B, spn-C and spn-D play an indirect role, in this process." spn-B DNA recombination; GO:0006310 | inferred from sequence similarity with HUGO:XRCC3; OMIM:600675; DNA repair; GO:0006281 | inferred from sequence similarity with HUGO:XRCC3; OMIM:600675 _ spindle B "Analysis of mutants of the 5 spindle genes (spn-A, spn-B, spn-C,, spn-D and spn-E) reveals that the group of genes is required for, each of the symmetry-breaking steps that generate polarity during axis, formation., spn-E is required for the localization of fs(1)K10, bcd and osk, mRNAs, spn-A. spn-B, spn-C and spn-D play an indirect role, in this process., Double mutants analysis suggests that spn-B and spn-D genes play, a partially redundant role in oocyte positioning." spn-C _ _ spindle C "Analysis of mutants of the 5 spindle genes (spn-A, spn-B, spn-C,, spn-D and spn-E) reveals that the group of genes is required for, each of the symmetry-breaking steps that generate polarity during axis, formation., spn-E is required for the localization of fs(1)K10, bcd and osk, mRNAs, spn-A. spn-B, spn-C and spn-D play an indirect role, in this process." spn-D _ _ spindle D "Analysis of mutants of the 5 spindle genes (spn-A, spn-B, spn-C,, spn-D and spn-E) reveals that the group of genes is required for, each of the symmetry-breaking steps that generate polarity during axis, formation., spn-E is required for the localization of fs(1)K10, bcd and osk, mRNAs, spn-A. spn-B, spn-C and spn-D play an indirect role, in this process., Double mutants analysis suggests that spn-B and spn-D genes play, a partially redundant role in oocyte positioning." spn-E _ _ spindle E _ spn-F _ _ spindle F _ Spn1 _ _ Serine protease inhibitor 1 _ Spn2 _ _ Serine protease inhibitor 2 _ Spn3 _ _ Serine protease inhibitor 3 _ Spn4 _ _ Serine protease inhibitor 4 _ Spn43Aa _ _ Serine protease inhibitor 43Aa _ Spn43Ab _ _ Serine protease inhibitor 43Ab _ Spn43Ad _ _ _ _ Spn5 _ _ Serine protease inhibitor 5 _ Spn6 _ _ Serine protease inhibitor 6 _ spnl _ _ space-needle _ spno _ _ supernova _ spo _ _ spook _ spongecake _ _ spongecake _ spr _ _ spread wings _ sprd _ _ spread _ Spred _ _ Sprouty-related protein with EVH-1 domain Spred is positively regulated by ro and gl. spri _ _ sprint _ Sps2 _ _ Selenophosphate synthetase 2 _ Spt3 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:SUPT3H; OMIM:602947; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:SPT3; SGDID:S0002800 _ _ _ spt4 non-covalent chromatin modification; GO:0016582 | inferred from sequence similarity with SGD:SPT4; SGDID:S0003295 _ _ _ Spt5 transcription; GO:0006350 | non-traceable author statement _ _ "Spt5 may be involved in promoter-associated pausing and transcriptional, elongation." Spt6 _ _ _ "Spt6 may be involved in promoter-associated pausing and transcriptional, elongation." Sptr _ _ Sepiapterin reductase _ Spx mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:005841; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:014964; mRNA splicing; GO:0006371 | inferred from sequence similarity with SWISS-PROT:Q15427 _ Spliceosomal protein on the X _ spx _ _ split thorax _ spz dorsal/ventral axis determination; GO:0007310 | inferred from genetic interaction with FLYBASE:pip; FB:FBgn0003089 _ spatzle _ Spz3 _ _ _ _ Sq _ _ Squat _ sq _ _ square _ sqd _ _ squid _ sqh cytokinesis; GO:0016288 | non-traceable author statement _ spaghetti squash _ squ oogenesis; GO:0007292 | inferred from mutant phenotype _ squash _ sqz _ _ squeeze _ SR _ _ Sex Ratio _ sr central nervous system development; GO:0007417 | inferred from mutant phenotype; muscle development; GO:0007517 | inferred from mutant phenotype _ stripe _ Sr-CI defense response; GO:0006952 | non-traceable author statement _ "Scavenger receptor class C, type I" _ Sr-CII defense response; GO:0006952 | non-traceable author statement _ "Scavenger receptor class C, type II" _ Sr-CIII _ _ "Scavenger receptor class C, type III" _ SR3-10 _ _ Suppressor of Ras85D 3-10 _ SR3-2 _ _ Suppressor of Ras85D 3-2 _ SR3-4A _ _ _ _ SR3-6 _ _ Suppressor of Ras85D 3-6 _ SR3-7 _ _ _ _ SR3-8 _ _ _ _ sra meiosis I; GO:0007127 | non-traceable author statement _ sarah _ Sra-1 _ _ _ _ Sras proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ severas _ srb _ _ smaller body _ Src42A cell communication; GO:0007154 | inferred from direct assay _ Src oncogene at 42A _ Src64B ring canal formation; GO:0007301 | inferred from mutant phenotype; ring canal stabilization; GO:0008335 | inferred from mutant phenotype _ Src oncogene at 64B _ Srd _ _ Sorbitol dehydrogenase _ Srebp _ _ _ _ Srf _ _ Surf wings _ srg _ _ semirough _ srh _ _ short rhabdomeres _ srn _ _ stern _ sro _ _ shroud _ srp mesoderm cell fate commitment; GO:0001710 | inferred from mutant phenotype _ serpent _ Srp19 "SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity with NCBI_gi:4507213" _ Signal recognition particle protein 19 _ SRp30 _ _ _ _ Srp54 mRNA splice site selection; GO:0006376 | inferred from sequence similarity with NCBI_NP:004759; mRNA splicing; GO:0006371 | non-traceable author statement _ _ _ Srp54k "SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity with SWISS-PROT:P14576; SRP-dependent, co-translational membrane targeting, signal sequence recognition; GO:0006617 | inferred from sequence similarity" _ Signal recognition particle protein 54k _ SRPK protein amino acid phosphorylation; GO:0006468 | traceable author statement _ _ _ SrpRbeta "SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity" _ Signal recognition particle receptor beta _ srw _ _ shrew _ Sry-alpha actin filament organization; GO:0007015 | inferred from mutant phenotype; cellularization; GO:0007349 | traceable author statement _ Serendipity alpha _ Sry-beta _ _ Serendipity beta _ Sry-delta "determination of anterior/posterior axis, embryo; GO:0008595 | inferred from genetic interaction with FLYBASE:bcd; FB:FBgn0000166; oogenesis; GO:0007292 | inferred from genetic interaction with FLYBASE:bcd; FB:FBgn0000166" _ Serendipity delta _ Sry-rDM10 _ _ Sry-related DM10 _ Sry-rDM17 _ _ Sry-related DM17 _ Sry-rDM23 _ _ Sry-related DM23 _ Sry-rDM33 _ _ Sry-related DM33 _ Sry-rDM36 _ _ Sry-related DM36 _ Sry-rDM63 _ _ Sry-related DM63 _ Sry-rDM64 _ _ Sry-related DM64 _ ss transcription from Pol II promoter; GO:0006366 | non-traceable author statement _ spineless _ ss(2)28Aa _ _ _ _ SS3-1 _ _ Suppressor of GMR-sina 3-1 _ SS3-5 _ _ Suppressor of GMR-sina 3-5 _ SS3-6 _ _ Suppressor of GMR-sina 3-6 _ Ssb _ _ Small synaptic boutons _ Ssb-c15a _ _ Single stranded-binding protein c15a _ Ssb-c31a _ _ Single stranded-binding protein c31A "A Ssb-c31a cDNA has been cloned and sequenced. Ssb-c31a encodes, a nuclear DNA binding protein that binds specifically to the NssBF, element. Overexpression of Ssb-c31a in transfected cells represses, the 1731 element promoter." Ssb-c7a _ _ Single stranded-binding protein c7a _ Ssb-cF4 _ _ Single stranded-binding protein cF4 _ Sse mitotic sister chromatid separation; GO:0016359 | inferred from mutant phenotype _ Separase Sse is required for sister chromatid separation. ssh regulation of actin polymerization and/or depolymerization; GO:0008064 | inferred from mutant phenotype _ slingshot _ Ssl protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Suppressor of Stellate-like _ Ssl1 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2H2; OMIM:601748; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:SSL1; SGDID:S0003995 _ _ _ Ssl2 _ _ Strictosidine synthase-like 2 _ ssm chromatin modeling; GO:0006338 | inferred from mutant phenotype _ sesame "Maternally provided ssm is required for a late stage of sperm chromatin, re-modeling." SSP6107 _ _ _ _ SsRbeta ER retention; GO:0006621 | inferred from sequence similarity _ Signal sequence receptor beta _ Ssrp _ _ Structure specific recognition protein _ st eye pigment biosynthesis; GO:0006726 | non-traceable author statement; eye pigment biosynthesis; GO:0006726 | non-traceable author statement; ommochrome biosynthesis; GO:0006727 | non-traceable author statement _ scarlet _ St-SD _ _ Stabilizer of Segregation Distorter _ ST2 _ _ ST2 _ ST6Gal _ _ Sialyltransferase _ Sta _ _ Stigmata _ sta protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:RPS0A; SGDID:S0003446; protein biosynthesis; GO:0006412 | non-traceable author statement _ stubarista _ stai germ-cell migration; GO:0008354 | inferred from mutant phenotype; neurogenesis; GO:0007399 | inferred from mutant phenotype _ stathmin _ Stam JAK-STAT cascade; GO:0007259 | non-traceable author statement; neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle endocytosis; GO:0008099 | non-traceable author statement _ Signal transducing adaptor molecule _ stan dendrite morphogenesis; GO:0016358 | inferred from mutant phenotype; frizzled receptor signaling pathway; GO:0007222 | inferred from mutant phenotype; segment polarity determination; GO:0007367 | inferred from mutant phenotype _ starry night _ Stat92E signal transduction; GO:0007165 | inferred from sequence similarity with MGD:Stat5b; MGI:MGI:103035 _ Signal-transducer and activator of transcription protein at 92E _ stau RNA localization; GO:0006403 | inferred from mutant phenotype; microtubule-based process; GO:0007017 | inferred from sequence similarity _ staufen _ stc neurogenesis; GO:0007399 | non-traceable author statement _ shuttle craft "A maternally derived source of stc protein is required during embryogenesis, but not oogenesis." stch _ _ stubby chaetae _ stck _ _ steamer duck _ std _ _ staroid _ Ste spermatogenesis; GO:0007283 | inferred from genetic interaction; spermatogenesis; GO:0007283 | inferred from mutant phenotype _ Stellate _ Ste12DOR _ _ Stellate 12D orphon _ stet cell proliferation; GO:0008283 | inferred from mutant phenotype _ stem cell tumor _ stf _ _ stormfront _ stg protein amino acid dephosphorylation; GO:0006470 | inferred from direct assay _ string _ sti _ _ sticky _ stich1 _ _ sticky ch1 _ stich2 _ _ sticky ch2 _ stil oogenesis; GO:0007292 | inferred from mutant phenotype _ stand still "stil has a role in specifying or maintaining, a cytoskeletal component that is required in the germ line during oogenesis,, and possibly during germ line sex determination." Stim cell adhesion; GO:0007155 | non-traceable author statement _ Stromal interaction molecule _ stk _ _ sticking _ stl oogenesis; GO:0007292 | inferred from mutant phenotype _ stall _ stld _ _ stalled _ Stlk protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Ste20-like kinase _ stmA _ _ stambha A _ stmB _ _ stambha B _ stmC _ _ stambha C _ stnA neurotransmitter secretion; GO:0007269 | traceable author statement; synaptic vesicle exocytosis; GO:0016079 | traceable author statement _ stoned A _ stnB non-selective vesicle coating; GO:0006901 | traceable author statement; synaptic vesicle coating; GO:0016183 | traceable author statement; synaptic vesicle endocytosis; GO:0008099 | traceable author statement _ stoned B "The stnA and stnB proteins are essential for the recycling of synaptic, vesicle membrane and are required for the proper sorting of the syt, gene product during endocytosis." stop oogenesis; GO:0007292 | inferred from mutant phenotype _ stopped _ stout _ _ strung out _ str _ _ stripes _ strb _ _ starburst _ stretch _ _ stretched out _ Strn-Mlck protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Stretchin-Mlck "A single Strn-Mlck gene produces multiple isoforms whose regulatory regions, and expression patterns are different. These differences suggest various, cellular functions of Strn-Mlck." stuk _ _ _ _ stumps _ _ _ _ stw _ _ straw _ stwl _ _ stonewall _ sty EGF receptor signaling pathway; GO:0007173 | non-traceable author statement; tracheal system development (sensu Insecta); GO:0007424 | non-traceable author statement _ sprouty _ su(b) _ _ suppressor of black _ su(B)2 _ _ suppressor of Bar on 2 _ su(Cbx) _ _ suppressor of Contrabithorax _ Su(crc) _ _ Suppressor of cryptocephal _ Su(da[lyh])22C1 _ _ _ _ Su(da[lyh])22C6 _ _ _ _ Su(da[lyh])26E2 _ _ _ _ Su(da[lyh])26H6 _ _ _ _ Su(Dl)D107 _ _ Suppressor of Delta D107 _ Su(Dl)F116 _ _ Suppressor of Delta F116 _ su(dp[ov]) _ _ suppressor of dumpy[oblique-vortex] _ Su(dpp)39CDE _ _ _ "Mutant analysis suggests a role for Su(dpp)39CDE in the dpp, signaling pathway." Su(dpp)YE10 _ _ _ _ Su(dpp)YE9 dorsal/ventral axis determination; GO:0007310 | inferred from mutant phenotype _ _ _ Su(DTS)-1 _ _ _ _ Su(dx) N receptor signaling pathway; GO:0007219 | inferred from genetic interaction with FLYBASE:N; FB:FBgn0004647; wing margin morphogenesis; GO:0008587 | inferred from genetic interaction with FLYBASE:N; FB:FBgn0004647; wing margin morphogenesis; GO:0008587 | inferred from genetic interaction with FLYBASE:dx; FB:FBgn0000524; wing vein morphogenesis; GO:0008586 | inferred from genetic interaction with FLYBASE:N; FB:FBgn0004647; wing vein morphogenesis; GO:0008586 | inferred from genetic interaction with FLYBASE:dx; FB:FBgn0000524 _ Suppressor of deltex _ su(dx) _ _ suppressor of deltex _ Su(er) _ _ Suppressor of erupt _ Su(f) _ _ Suppressor of forked _ su(f) mRNA cleavage; GO:0006379 | inferred from sequence similarity with NCBI_NP:001317; mRNA cleavage; GO:0006379 | inferred from sequence similarity with NCBI_gi:4557495 _ suppressor of forked _ su(fa[swb]) _ _ suppressor of facet-strawberry _ Su(fu) _ _ Suppressor of fused _ Su(Gl)27 _ _ Suppressor of Glued 27 _ Su(Gl)77 _ _ Suppressor of Glued 77 _ Su(H) N receptor signaling pathway; GO:0007219 | inferred from genetic interaction with FLYBASE:N; FB:FBgn0004647 _ Suppressor of Hairless _ Su(hh)2A _ _ Suppressor of hedgehog 2A _ Su(hh)3A _ _ Suppressor of hedgehog 3A _ Su(hh)I _ _ _ _ Su(hh)II _ _ _ _ Su(hh)III _ _ _ _ Su(hh)IV _ _ _ _ Su(hh)V _ _ _ _ Su(hh)VI _ _ _ _ Su(hh)VII _ _ _ _ su(Hw) _ _ suppressor of Hairy wing "The su(Hw) chromatin insulator protein alters double-strand break, repair frequencies in the Drosophila germ line." Su(Kr[If]) _ _ Suppressor of Kruppel-Irregular facets _ su(lz) _ _ suppressor of lozenge _ su(lz[34]) _ _ suppressor of lozenge-34 _ su(mbm) _ _ suppressor of mushroom body miniature _ Su(mg)1-1 _ _ Suppressor of modifier of gypsy 1-1 _ Su(mg)1-2 _ _ Suppressor of modifier of gypsy 1-2 _ Su(mg)1-3 _ _ Suppressor of modifier of gypsy 1-3 _ Su(mg)1-4 _ _ Suppressor of modifier of gypsy 1-4 _ Su(mg)1-6 _ _ Suppressor of modifier of gypsy 1-6 _ Su(mg)1-7 _ _ Suppressor of modifier of gypsy 1-7 _ Su(mg)1-8 _ _ Suppressor of modifier of gypsy 1-8 _ Su(mg)1-9 _ _ Suppressor of modifier of gypsy 1-9 _ Su(mg)2-1 _ _ Suppressor of modifier of gypsy 2-1 _ Su(mg)2-2 _ _ Suppressor of modifier of gypsy 2-2 _ Su(mg)2-3 _ _ Suppressor of modifier of gypsy 2-3 _ Su(mg)2-4 _ _ Suppressor of modifier of gypsy 2-4 _ Su(mg)2-5 _ _ Suppressor of modifier of gypsy 2-5 _ Su(mg)2-6 _ _ Suppressor of modifier of gypsy 2-6 _ Su(mg)2-7 _ _ Suppressor of modifier of gypsy 2-7 _ Su(mg)3-1 _ _ Suppressor of modifier of gypsy 3-1 _ Su(mg)3-2 _ _ Suppressor of modifier of gypsy 3-2 _ Su(mg)3-3 _ _ Suppressor of modifier of gypsy 3-3 _ Su(mg)3-4 _ _ Suppressor of modifier of gypsy 3-4 _ Su(mg)3-5 _ _ Suppressor of modifier of gypsy 3-5 _ Su(osk)2-O26 _ _ Suppressor of oskar 2-O26 _ Su(osk)3-O26 _ _ Suppressor of oskar 3-O26 _ Su(osk)B11 _ _ Suppressor of oskar B11 _ Su(osk)C37 _ _ Suppressor of oskar C37 _ Su(osk)D20 _ _ Suppressor of oskar D20 _ Su(osk)E2 _ _ Suppressor of oskar E2 _ Su(osk)G23 _ _ Suppressor of oskar G23 _ Su(osk)G28 _ _ Suppressor of oskar G28 _ Su(osk)G71 _ _ Suppressor of oskar G71 _ Su(osk)H1 _ _ Suppressor of oskar H1 _ Su(osk)K2 _ _ Suppressor of oskar K2 _ Su(osk)K6 _ _ Suppressor of oskar K6 _ Su(osk)M26 _ _ Suppressor of oskar M26 _ Su(osk)P16 _ _ Suppressor of oskar P16 _ Su(osk)P2 _ _ Suppressor of oskar P2 _ Su(osk)P59 _ _ Suppressor of oskar P59 _ Su(P) _ _ Suppressor of ref(2)P sterility _ Su(par) _ _ Suppressor of paralog _ Su(Pc)35CD _ _ _ _ Su(Pc)37D _ _ Suppressor of Polycomb at 37D _ su(pd) _ _ suppressor of purpleoid _ Su(phl)4 _ _ Suppressor of pole hole 4 _ Su(phl)43B _ _ Suppressor of pole hole 43B _ Su(phl)6 _ _ Suppressor of pole hole 6 _ Su(phl)7 _ _ Suppressor of pole hole 7 _ Su(phl)9 _ _ Suppressor of pole hole 9 _ su(pr) _ _ suppressor of purple _ su(r) _ _ suppressor of rudimentary _ Su(Raf)3C _ _ _ _ Su(Raf)43B _ _ _ _ Su(rdgB)116 _ _ _ _ su(rdgB)69 _ _ _ _ su(rdgB)82 _ _ _ _ Su(rdgB)83 _ _ _ _ Su(Rex) _ _ _ _ Su(ro[DOM])1480 _ _ _ _ Su(ro[DOM])1993 _ _ _ _ Su(ro[DOM])2014 _ _ _ _ Su(ro[DOM])3023 _ _ _ _ Su(ro[DOM])345 _ _ _ _ Su(ro[DOM])519 _ _ _ _ Su(ro[DOM])923 _ _ _ _ su(RpII140[Z36])S1 _ _ _ _ su(RpII140[Z36])S10 _ _ _ _ su(RpII140[Z36])S11 _ _ _ _ su(RpII140[Z36])S12 _ _ _ _ su(RpII140[Z36])S13 _ _ _ _ su(RpII140[Z36])S14 _ _ _ _ su(RpII140[Z36])S15 _ _ _ _ su(RpII140[Z36])S16 _ _ _ _ su(RpII140[Z36])S17 _ _ _ _ su(RpII140[Z36])S18 _ _ _ _ su(RpII140[Z36])S19 _ _ _ _ su(RpII140[Z36])S2 _ _ _ _ su(RpII140[Z36])S20 _ _ _ _ su(RpII140[Z36])S3 _ _ _ _ su(RpII140[Z36])S4 _ _ _ _ su(RpII140[Z36])S5 _ _ _ _ su(RpII140[Z36])S6 _ _ _ _ su(RpII140[Z36])S7 _ _ _ _ su(RpII140[Z36])S8 _ _ _ _ su(RpII140[Z36])S9 _ _ _ _ su(RpII215)S3 _ _ _ _ Su(rst)B16 _ _ _ _ Su(rst)B183 _ _ _ _ Su(rst)B188 _ _ _ _ Su(rst)B52 _ _ _ _ Su(rst)C103 _ _ _ _ Su(rst)C134 _ _ _ _ Su(rst)C195 _ _ _ _ Su(rst)C233 _ _ _ _ Su(rst)C352 _ _ _ _ Su(rst)C379 _ _ _ _ Su(rst)C40 _ _ _ _ Su(rst)C451 _ _ _ _ Su(rst)C478 _ _ _ _ Su(rst)C94 _ _ _ _ Su(rst)D121 _ _ _ _ Su(rst)D124 _ _ _ _ Su(rst)D207 _ _ _ _ Su(rst)D231 _ _ _ _ Su(rst)D49 _ _ _ _ Su(rst)D63 _ _ _ _ Su(rst)E122 _ _ _ _ Su(rst)E124 _ _ _ _ Su(rst)E156 _ _ _ _ Su(rst)E218 _ _ _ _ Su(rst)E252 _ _ _ _ Su(rst)E290 _ _ _ _ Su(rst)E304 _ _ _ _ Su(rst)E358 _ _ _ _ Su(rst)E392 _ _ _ _ Su(rst)G67 _ _ _ _ Su(rst)J45 _ _ _ _ Su(S) _ _ Suppressor of Star _ su(s) _ _ suppressor of sable _ su(sc) _ _ suppressor of scute _ Su(SD) _ _ Suppressor of SD _ Su(Sd)2a-1 _ _ Suppressor of SD 2a-1 _ Su(SD)3A _ _ Suppressor of SD 3A _ Su(SD)3BPi _ _ Suppressor of SD 3BPi _ Su(Sd)4a-2 _ _ Suppressor of SD 4a-2 _ Su(sph) _ _ Suppressor of sparse hairs _ Su(spl) _ _ Suppressor of split _ Su(ss) _ _ Suppressor of spineless _ Su(Ste) _ _ Suppressor of Stellate "Su(Ste) genes are transcribed and can encode a variant of the beta-subunit, of casein kinase 2." Su(stn) _ _ Suppressor of stoned _ Su(SuRaf1)1 _ _ _ _ Su(SuRaf1)10 _ _ _ _ Su(SuRaf1)11 _ _ _ _ Su(SuRaf1)12 _ _ _ _ Su(SuRaf1)19-2 _ _ _ _ Su(SuRaf1)2 _ _ _ _ Su(SuRaf1)A2-1 _ _ _ _ Su(SuRaf1)IV _ _ _ _ Su(Sxl[fs])46 _ _ _ _ Su(Sxl[fs])X2 _ _ _ _ su(t) _ _ suppressor of tan _ Su(tkv*)3-3 _ _ _ _ Su(top) _ _ Suppressor of torpedo _ Su(tor)1-1 _ _ _ _ Su(tor)1-106 _ _ _ _ Su(tor)1-163 _ _ _ _ Su(tor)2-113 _ _ _ _ Su(tor)2-113-31 _ _ _ _ Su(tor)2-15 _ _ _ _ Su(tor)2-164-14 _ _ _ _ Su(tor)2-180 _ _ _ _ Su(tor)2-187-1 _ _ _ _ Su(tor)2-187-2 _ _ _ _ Su(tor)2-187-3 _ _ _ _ Su(tor)2-191 _ _ _ _ Su(tor)2-237 _ _ _ _ Su(tor)2-278 _ _ _ _ Su(tor)2-28 _ _ _ _ Su(tor)2-28-23 _ _ _ _ Su(tor)2-280 _ _ _ _ Su(tor)2-280-28 _ _ _ _ Su(tor)2-3 _ _ _ _ Su(tor)2-321 _ _ _ _ Su(tor)2-341 _ _ _ _ Su(tor)2-341-39 _ _ _ _ Su(tor)2-399 _ _ _ _ Su(tor)2-4 _ _ _ _ Su(tor)2-408 _ _ _ _ Su(tor)2-48 _ _ _ _ Su(tor)2-56 _ _ _ _ Su(tor)2-68-20 _ _ _ _ Su(tor)2-87 _ _ _ _ Su(tor)2-93 _ _ _ _ Su(tor)278-22 _ _ _ _ Su(tor)293-12-3 _ _ _ _ Su(tor)3-1 _ _ _ _ Su(tor)3-168 _ _ _ _ Su(tor)3-293 _ _ _ _ Su(tor)3-307 _ _ _ _ Su(tor)3-333 _ _ _ _ Su(tor)3-337 _ _ _ _ Su(tor)3-344 _ _ _ _ Su(tor)3-8 _ _ _ _ Su(tor)3-91 _ _ _ _ Su(tor)307-14 _ _ _ _ Su(tor)321-16-5 _ _ _ _ Su(tor)337-73 _ _ _ _ Su(Tpl) _ _ _ _ su(tu-bw) _ _ suppressor of tumor-brown _ su(Ubx[bx-1]) _ _ _ _ Su(var) _ _ Suppressor of variegation _ Su(var)1002 _ _ Suppressor of variegation 1002 _ Su(var)1301 _ _ Suppressor of variegation 1301 _ Su(var)13T _ _ _ _ Su(var)2-1 _ _ Suppressor of variegation 2-1 _ Su(var)2-10 chromosome condensation; GO:0030261 | inferred from mutant phenotype; chromosome organization and biogenesis (sensu Eukarya); GO:0007001 | inferred from mutant phenotype; eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype _ Suppressor of variegation 2-10 _ Su(var)2-1001 _ _ _ _ Su(var)2-11 _ _ Suppressor of variegation 2-11 _ Su(var)2-12 _ _ Suppressor of variegation 2-12 _ Su(var)2-2 _ _ Suppressor of variegation 2-2 _ Su(var)2-24 _ _ _ _ Su(var)2-3 _ _ Suppressor of variegation 2-3 _ Su(var)2-4 _ _ Suppressor of variegation 2-4 _ Su(var)2-8 _ _ Suppressor of variegation 2-8 _ Su(var)2-9 _ _ Suppressor of variegation 2-9 _ Su(var)2-b204 _ _ _ _ Su(var)2-b4801 _ _ _ _ Su(var)2-b701 _ _ _ _ Su(var)2-b801 _ _ _ _ Su(var)2-S29 _ _ _ _ Su(var)204 _ _ Suppressor of variegation 204 _ Su(var)205 establishment of chromatin silencing; GO:0006343 | inferred from mutant phenotype _ Suppressor of variegation 205 _ Su(var)206 _ _ Suppressor of variegation 206 _ Su(var)208 _ _ Suppressor of variegation 208 _ Su(var)209 _ _ Suppressor of variegation 209 _ Su(var)25F26B _ _ _ _ Su(var)28D _ _ _ _ Su(var)3-1 _ _ Suppressor of variegation 3-1 _ Su(var)3-10 _ _ Suppressor of variegation 3-10 _ Su(var)3-11 _ _ Suppressor of variegation 3-11 _ Su(var)3-12 _ _ Suppressor of variegation 3-12 _ Su(var)3-13 _ _ Suppressor of variegation 3-13 _ Su(var)3-14 _ _ Suppressor of variegation 3-14 _ Su(var)3-2 _ _ Suppressor of variegation 3-2 _ Su(var)3-3 _ _ Suppressor of variegation 3-3 _ Su(var)3-4 _ _ Suppressor of variegation 3-4 _ Su(var)3-5 _ _ Suppressor of variegation 3-5 _ Su(var)3-7 _ _ Suppressor of variegation 3-7 "The genomic organization and pattern of expression of the Su(var)3-7, locus have been characterized." Su(var)3-8 _ _ Suppressor of variegation 3-8 _ Su(var)3-9 translational initiation; GO:0006413 | inferred from sequence similarity; translational initiation; GO:0006413 | non-traceable author statement _ Suppressor of variegation 3-9 _ Su(var)3-c1101 _ _ _ _ Su(var)302 _ _ Suppressor of variegation 302 _ Su(var)303 _ _ Suppressor of variegation 303 _ Su(var)307 _ _ Suppressor of variegation 307 _ Su(var)308 _ _ Suppressor of variegation 308 _ Su(var)309 _ _ Suppressor of variegation 309 _ Su(var)311 _ _ Suppressor of variegation 311 _ Su(var)314 _ _ Suppressor of variegation 314 _ Su(var)315 _ _ Suppressor of variegation 315 _ Su(var)316 _ _ Suppressor of variegation 316 _ Su(var)319 _ _ Suppressor of variegation 319 _ Su(var)320 _ _ Suppressor of variegation 320 _ Su(var)321 _ _ Suppressor of variegation 321 _ Su(var)323 _ _ Suppressor of variegation 323 _ Su(var)324 _ _ Suppressor of variegation 324 _ Su(var)325 _ _ Suppressor of variegation 325 _ Su(var)327 _ _ Suppressor of variegation 327 _ Su(var)330 _ _ Suppressor of variegation 330 _ Su(var)38D _ _ _ _ Su(var)401 _ _ Suppressor of variegation 401 _ Su(var)47E48A _ _ _ _ Su(var)501 _ _ Suppressor of variegation 501 _ Su(var)502 _ _ Suppressor of variegation 502 _ Su(var)503 _ _ Suppressor of variegation 503 _ Su(var)505 _ _ Suppressor of variegation 505 _ Su(var)57D58D _ _ _ _ Su(var)96B96D _ _ _ _ Su(var)99C99E _ _ _ _ Su(var)b301 _ _ Suppressor of variegation b301 _ Su(var)b601 _ _ Suppressor of variegation b601 _ su(ve) _ _ suppressor of veinlet _ su(vg) _ _ suppressor of vestigial _ Su(vg)B27 _ _ Suppressor of vestigial B27 _ Su(vg)E4 _ _ Suppressor of vestigial E4 _ Su(vg)E6 _ _ Suppressor of vestigial E6 _ su(w[a]) mRNA splicing; GO:0006371 | non-traceable author statement _ suppressor of white-apricot _ Su(w[a])B1 _ _ Suppressor of white-apricot B on 1 _ Su(w[a])B2 _ _ Suppressor of white-apricot B on 2 _ Su(w[a4]) _ _ Suppressor of white-apricot 4 _ Su(w[ch]) _ _ Suppressor of white-cherry _ su(w[sp]) _ _ suppressor of white-spotted _ Su(y)P22 _ _ _ _ Su(y)P31 _ _ _ _ Su(y[3P]) _ _ Suppressor of yellow-P _ Su(z)12 _ _ _ _ Su(z)2 _ _ Suppressor of zeste 2 "Deletion analysis of the protein reveals the, homology region (HR) is necessary and sufficient for Su(z)2 locus, specific polytene chromosome binding." Su(z)3 _ _ Suppressor of zeste 3 _ Su(z)4 _ _ Suppressor of zeste 4 _ Su(z)6 _ _ Suppressor of zeste 6 _ Su(z)7 _ _ Suppressor of zeste 7 _ sub female meiosis chromosome segregation; GO:0016321 | inferred from genetic interaction with FLYBASE:ncd; FB:FBgn0002924; female meiosis chromosome segregation; GO:0016321 | inferred from genetic interaction with FLYBASE:nod; FB:FBgn0002948; meiotic spindle assembly; GO:0000212 | inferred from genetic interaction with FLYBASE:ncd; FB:FBgn0002924 _ subito _ substance-P _ _ substance P _ Suc _ _ Sucrase _ Sucb _ _ _ _ Sulf1 pattern specification; GO:0007389 | inferred from mutant phenotype _ Sulfated Sulf1 is required for normal pattern formation in the embryonic cuticle. sun ATP synthesis coupled proton transport; GO:0015986 | non-traceable author statement _ stunted _ suo male meiosis chromosome segregation; GO:0007060 | inferred from mutant phenotype _ solofuso _ supact _ _ suppressor activated _ Sur _ _ Sulfonylurea receptor _ sur _ _ schmalspur _ Sur-8 _ _ _ _ Surf1 cytochrome biogenesis; GO:0017004 | inferred from sequence similarity with MGD:Surf1; MGI:MGI:98443 _ Surfeit 1 _ Surf4 _ _ Surfeit 4 _ Surf6 ribosome biogenesis; GO:0007046 | inferred from sequence similarity with MGD:Surf6; MGI:MGI:98447 _ Surfeit 6 _ sut1 _ _ sugar transporter 1 _ sut2 _ _ sugar transporter 2 _ sut3 _ _ sugar transporter 3 _ sut4 _ _ sugar transporter 4 _ SuUR _ _ Suppressor of Under-Replication "Mutation in SuUR suppresses DNA underreplication in intercalary, and pericentric heterochromatin of polytene chromosomes." sv _ _ shaven _ sva53 _ _ _ _ Svop _ _ SVtwo-related protein _ svp photoreceptor commitment; GO:0007459 | traceable author statement _ seven up svp controls cell proliferation in the developing Malpighian tubules. svr cuticle biosynthesis (sensu Insecta); GO:0040003 | non-traceable author statement _ silver _ svs _ _ shortened veins _ sw _ _ short wing _ SW140 _ _ _ _ swa "mRNA localization, intracellular; GO:0008298 | non-traceable author statement" _ swallow "swa function is required to maintain the position, of several localized mRNAs and localized ribonucleoprotein (RNP) complexes, in the cortex of the oocyte (including bcd and hts mRNA)." sws brain development; GO:0007420 | non-traceable author statement _ swiss cheese _ sx _ _ sexcombless _ sxc _ _ super sex combs _ Sxl "meiotic recombination; GO:0007131 | traceable author statement; oogenesis; GO:0007292 | traceable author statement; sex determination, primary response to X:A ratio; GO:0007541 | traceable author statement" _ Sex lethal _ SY2-2 _ _ _ _ Syb synaptic vesicle docking; GO:0016081 | inferred from sequence similarity; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity _ Synaptobrevin _ syd axon cargo transport; GO:0008088 | inferred from mutant phenotype; axon cargo transport; GO:0008088 | inferred from mutant phenotype _ sunday driver "The syd gene product mediates kinesin-dependent axonal transport, by directly interacting with the Klc protein." Syn neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with SWISS-PROT:O88935; synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Synapsin _ Syn1 _ _ Syntrophin-like 1 _ Syn2 _ _ Syntrophin-like 2 _ Synaptobrevin-1-like synaptic vesicle docking; GO:0016081 | inferred from sequence similarity; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity _ Synaptobrevin-1 like _ synaptogyrin regulation of calcium ion dependent exocytosis; GO:0017158 | inferred from sequence similarity with SPTREMBL:Q9WVG8; synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ _ _ synaptojanin synaptic vesicle endocytosis; GO:0008099 | traceable author statement _ _ _ syndapin neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle endocytosis; GO:0008099 | non-traceable author statement _ _ _ syt larval locomotory behavior; GO:0008345 | inferred from mutant phenotype; neurotransmitter secretion; GO:0007269 | inferred from mutant phenotype; neurotransmitter secretion; GO:0007269 | inferred from mutant phenotype; regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype; synaptic vesicle fusion; GO:0016083 | inferred from mutant phenotype _ synaptotagmin _ Syt3 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle fusion; GO:0016083 | non-traceable author statement _ _ _ Syt7 synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ _ _ SytIV synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Synaptotagmin IV _ SytV synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Synaptotagmin V _ Syx13 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with EMBL:AF044581; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with EMBL:AF044581 _ Syntaxin 13 _ Syx16 synaptic vesicle docking; GO:0016081 | inferred from sequence similarity _ Syntaxin 16 _ Syx17 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with EMBL:AF115435; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with EMBL:AF115435 _ Syntaxin 17 _ Syx18 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ Syntaxin 18 _ Syx1A regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from mutant phenotype _ Syntaxin 1A _ Syx4 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with MGD:Stx4a; MGI:MGI:893577; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with MGD:Stx4a; MGI:MGI:893577 _ Syntaxin 4 _ Syx5 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with NCBI_gi:4507293; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with NCBI_gi:4507293 _ Syntaxin 5 _ Syx6 synaptic vesicle docking; GO:0016081 | inferred from sequence similarity _ Syntaxin 6 _ Syx7 synaptic vesicle docking; GO:0016081 | inferred from sequence similarity _ Syntaxin 7 _ Syx8 neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with EMBL:AF115323; protein_id:AAD20831; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with EMBL:AF115323; protein_id:AAD20831 _ Syntaxin 8 _ t _ _ tan _ T-A7.1 _ _ _ _ T-B7.2 _ _ _ _ T-B9.3 _ _ _ _ T-B9.4 _ _ _ _ T-C9.12 _ _ _ _ T-cp1 protein folding; GO:0006457 | non-traceable author statement _ Tcp1-like _ T-D14.1 _ _ _ _ T3dh _ _ Type III alcohol dehydrogenase _ T48 _ _ Transcript 48 _ Ta _ _ Thickened arista _ ta _ _ tapered _ TA7-1a _ _ _ _ Tabp _ _ Truncated actin binding protein _ tacc microtubule stabilization; GO:0007026 | non-traceable author statement; mitosis; GO:0007067 | non-traceable author statement _ transforming acidic coiled-coil protein tacc is essential for mitotic spindle function in the early embryo. Taf1 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF1; OMIM:313650; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF1; SGDID:S0001039 _ TBP-associated factor 1 "Taf1 is required in ovary, eye, ocelli, wing bristle and terminalia, development and has a suggested role in regulating the cell cycle,, cell differentiation, cell proliferation and cell survival." Taf10 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF10; OMIM:600475; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF25; SGDID:S0002574 _ TBP-associated factor 10 _ Taf105 _ _ TBP-associated factor 105kD _ Taf10b transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF10; OMIM:600475; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF25; SGDID:S0002574 _ TBP-associated factor 10b _ Taf11 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF11; OMIM:600772; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF40; SGDID:S0004477 _ TBP-associated factor 11 "Does not interact, in vitro, with human thryroid-hormone receptor-beta." Taf12 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF12; OMIM:600773; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF61; SGDID:S0002552 _ TBP-associated factor 12 "Does not interact, in vitro, with human thryroid-hormone receptor-beta." Taf12L transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF12; OMIM:600773; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF61; SGDID:S0002552 _ TBP-associated factor 30kD subunit alpha-2 _ Taf13 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF13; OMIM:600774 _ TBP-associated factor 13 _ Taf2 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF2; OMIM:604912; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TSM1; SGDID:S0000638 _ TBP-associated factor 2 "Does not interact, in vitro, with human thryroid-hormone receptor-beta." Taf4 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF4; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF4B; OMIM:601689; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:MPT1; SGDID:S0004607 _ TBP-associated factor 4 _ Taf5 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF5; OMIM:601787; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF5L; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF90; SGDID:S0000402 _ TBP-associated factor 5 "Does not interact, in vitro, with human thryroid-hormone receptor-beta." Taf6 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF6L; OMIM:602946; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF60; SGDID:S0003080 _ TBP-associated factor 6 "Interacts, in vitro, with human thryroid-hormone receptor-beta." Taf6L transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF6L; OMIM:602946; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF60; SGDID:S0003080 _ TBP-associated factor 6-like _ Taf7 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TAF7; OMIM:600573; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TAF67; SGDID:S0004840 _ TBP-associated factor 7 _ Taf8 cell growth and/or maintenance; GO:0008151 | inferred from mutant phenotype _ TBP-associated factor 8 Taf8 is required for cell viability. tafazzin _ _ _ _ tai border cell migration; GO:0007298 | inferred from mutant phenotype _ taiman tai is required cell-autonomously for border cell migration. tak _ _ takahe _ Tak1 JNK cascade; GO:0007254 | inferred from genetic interaction with FLYBASE:bsk; FB:FBgn0000229; JNK cascade; GO:0007254 | inferred from genetic interaction with FLYBASE:hep; FB:FBgn0010303; apoptosis; GO:0006915 | inferred from genetic interaction with FLYBASE:W; FB:FBgn0003997; apoptosis; GO:0006915 | inferred from genetic interaction with FLYBASE:grim; FB:FBgn0015946; apoptosis; GO:0006915 | inferred from genetic interaction with FLYBASE:rpr; FB:FBgn0011706 _ TGF-beta activated kinase 1 _ Takl1 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Tak1-like 1 _ Takl2 protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Tak1-like 2 _ Takr86C G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; tachykinin signaling pathway; GO:0007217 | inferred from sequence similarity _ Tachykinin-like receptor at 86C _ Takr99D G-protein coupled receptor protein signaling pathway; GO:0007186 | inferred from sequence similarity; tachykinin signaling pathway; GO:0007217 | inferred from sequence similarity _ Tachykinin-like receptor at 99D "Xenopus oocyte injection assays suggest that this gene encodes a, member of the neurokinin receptor family." Talin cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ _ _ tam DNA dependent DNA replication; GO:0006261 | inferred from direct assay _ tamas _ tamo negative regulation of protein-nucleus import; GO:0042308 | non-traceable author statement _ _ tamo negatively regulates the nuclear import of dl. tan _ _ tantalus _ tap _ _ target of Poxn "tap is expressed in both neuronal and glial precursors after they, have progressed beyond the ectodermal vs neuronal decision but before, they differentiate into mature neurons or glia. Unlike other neural, bHLH genes, expression persists until very late stages of embryogenesis." Tapdelta ER retention; GO:0006621 | inferred from sequence similarity _ Translocon-associated protein delta _ tara _ _ taranis tara is a novel trithorax-group member. tardiness _ _ tardiness _ tau microtubule-based process; GO:0007017 | inferred from sequence similarity _ _ _ Tay _ _ Transacting region on the Y Tay acts as a specific regulator of sperm development. Tb _ _ Tubby _ TB9-3 _ _ _ _ tbd _ _ tiny bristloid _ Tbf1 _ _ TE1 binding factor 1 "Investigation of the proteins that bind the regulatory sequences of, alphaTub84B. DNaseI footprinting assays demonstrate Tbf1 binds, to tubulin element 1 (TE1) and tubulin element 2 (TE2) of alphaTub84B." Tbh _ _ Tyramine beta hydroxylase _ tbi _ _ tibi _ tbl _ _ tasteblind _ Tbp transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TBP; OMIM:600075; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TBPL1; OMIM:605521; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:SPT15; SGDID:S0000950; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with WB:tbp-1; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with WB:tlp-1 _ TATA binding protein _ Tbp-1 proteolysis and peptidolysis; GO:0006508 | inferred from direct assay; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with HUGO:PSMC3; OMIM:186852; proteolysis and peptidolysis; GO:0006508 | inferred from sequence similarity with SGD:RPT5; SGDID:S0005643 _ Tat-binding protein-1 _ TBPH _ _ _ _ tbr _ _ tracheae broken _ tc _ _ tiny chaetae _ Tch _ _ Thin chaetae _ Tcp _ _ Third cold paralytic _ Tcr _ _ Third chromosome alpha methyl dopa-resistant "Mutations in Tcr show dominant resistance to alpha-methyl dopa, dominant, rescue of partially complementing amd alleles and recessive lethality." Tdc _ _ Tyrosine decarboxylase _ tdc1 _ _ _ _ Tdp1 _ _ Tyrosyl-DNA phosophodiesterase 1 _ te _ _ tenerchaetae _ ted _ _ trapped _ tef male meiosis I; GO:0007141 | inferred from mutant phenotype; synapsis; GO:0007129 | non-traceable author statement _ teflon "tef is required for maintenance of pairing between autosomal, bivalents until their separation at anaphase I." tefu _ _ telomere fusion "tefu is essential for normal cell proliferation, the gene may have, a role in protecting the linear ends of chromosomes." teg _ _ tegamino _ Tehao antifungal polypeptide induction; GO:0006967 | non-traceable author statement; signal transduction; GO:0007165 | inferred from sequence similarity _ _ _ Tektin-A microtubule-based process; GO:0007017 | inferred from sequence similarity _ Tektin A _ Tektin-C microtubule-based process; GO:0007017 | inferred from sequence similarity _ Tektin C _ Tel _ _ Telomere elongation _ Ten-a cell adhesion; GO:0007155 | inferred from sequence similarity with MGD:Tnc; MGI:MGI:101922; cell-matrix adhesion; GO:0007160 | inferred from sequence similarity with EMBL:AB025413; protein_id:BAA77399.1 _ Tenascin accessory "Variation of a microsatellite within the Ten-a locus has been studied, in North American populations of D.melanogaster." Ten-m cell adhesion; GO:0007155 | inferred from sequence similarity with EMBL:AB025410 _ Tenascin major "Ten-m has been characterized as a potential ligand of PS2 integrins, by functional interaction in cell culture." tensin cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ _ _ TepI antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from direct assay _ Thiolester containing protein I _ TepII antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from direct assay _ Thiolester containing protein II _ TepIII _ _ Thiolester containing protein III _ TepIV antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from direct assay _ Thiolester containing protein IV _ TepV _ _ Thiolester containing protein V _ TepVI antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from direct assay _ Thiolester containing protein VI _ Tequila _ _ _ _ ter _ _ terraced _ TER94 ER fusion; GO:0016320 | inferred from sequence similarity with SGD:CDC48; SGDID:S0002284 _ _ TER94 is involved in osk localization during oogenesis. Tera _ _ Transitional endoplasmic reticulum ATPase _ term _ _ terminus _ tet _ _ tetraltera _ tete _ _ tete _ teu _ _ teufel _ TFAM _ _ mitochondrial transcription factor A _ Tfb1 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2H1; OMIM:189972; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TFB1; SGDID:S0002719 _ _ _ Tfb2 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2H4; OMIM:601760; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TFB2; SGDID:S0006043 _ _ _ Tfb4 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2H3; OMIM:601750; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TFB4; SGDID:S0006260 _ _ _ tfd _ _ two-faced _ TfIIA-L transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2A1; OMIM:600520; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TFIIA-ALPHA/BETA-LIKE FACTOR; OMIM:605358; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TOA1; SGDID:S0005720 _ Transcription factor IIA L _ TfIIA-S transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2A2; OMIM:600519; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TOA2; SGDID:S0001541 _ Transcription-factor-IIA-S _ TfIIA-S-2 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2A2; OMIM:600519; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TOA2; SGDID:S0001541 _ _ _ TfIIB transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2B; OMIM:189963; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:SUA7; SGDID:S0006290 _ Transcription factor IIB _ TfIIEalpha transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with EMBL:Y08816; protein_id:CAA70050.2; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2E1; OMIM:189962; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TFA1; SGDID:S0001511 _ Transcription factor IIEalpha _ TfIIEbeta transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with EMBL:Y08815; protein_id:CAA70049.1; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2E2; OMIM:189964; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TFA2; SGDID:S0001770 _ Transcription factor IIEbeta _ TfIIFalpha transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2F1; OMIM:189968; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TFG1; SGDID:S0003418 _ Transcription factor IIFalpha _ TfIIFbeta transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:GTF2F2; OMIM:189969; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:TFG2; SGDID:S0003237 _ Transcription factor TFIIFbeta TfIIFbeta has been cloned and sequenced. TfIIH-116 _ _ Transcription factor IIH-116kD _ TfIIH-29 _ _ Transcription factor IIH-29kD _ TfIIH-45 _ _ Transcription factor IIH-45kD _ TfIIH-66 _ _ Transcription factor IIH-66kD _ TfIIH-97 _ _ Transcription factor IIH-97kD _ TfIIIB transcription from Pol III promoter; GO:0006383 | traceable author statement _ Transcription factor IIIB _ TfIIIC transcription from Pol III promoter; GO:0006383 | traceable author statement _ Transcription factor IIIC _ TfIIS RNA elongation from Pol II promoter; GO:0006368 | non-traceable author statement _ RNA polymerase II elongation factor _ TfIIZ _ _ Transcription factor IIZ _ Tft _ _ Tufted _ tft _ _ tufts _ tg _ _ telegraph _ tgo oxygen and radical metabolism; GO:0006800 | non-traceable author statement; regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement _ tango _ th anti-apoptosis; GO:0006916 | inferred from direct assay; anti-apoptosis; GO:0006916 | inferred from genetic interaction with FLYBASE:W; FB:FBgn0003997; anti-apoptosis; GO:0006916 | inferred from genetic interaction with FLYBASE:rpr; FB:FBgn0011706; apoptosis; GO:0006915 | inferred from physical interaction with FLYBASE:W; FB:FBgn0003997; apoptosis; GO:0006915 | inferred from physical interaction with FLYBASE:rpr; FB:FBgn0011706 _ thread _ TH1 _ _ _ _ tha _ _ thin arched _ Thd1 nucleotide-excision repair; GO:0006289 | non-traceable author statement; nucleotide-excision repair; GO:0006289 | non-traceable author statement _ _ _ thi _ _ thickhead _ thic _ _ thickened aristae _ Thiolase _ _ Thiolase _ thiv _ _ thickened veins _ tho _ _ thousand points of light _ Thor antibacterial humoral response (sensu Invertebrata); GO:0006961 | inferred from mutant phenotype; immune response; GO:0006955 | inferred from mutant phenotype _ Thor _ thr mitotic chromosome segregation; GO:0000070 | non-traceable author statement; mitotic sister chromatid separation; GO:0016359 | traceable author statement _ three rows _ thv _ _ thick vein _ thvd _ _ thick vein delta _ ti _ _ tarsi irregular _ Tie protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ Tie-like receptor tyrosine kinase _ Tig _ _ Tiggrin _ Tik circadian rhythm; GO:0007623 | inferred from mutant phenotype _ Timekeeper _ tilA _ _ touch insensitive larva A _ tilB hearing; GO:0007605 | inferred from mutant phenotype _ touch insensitive larva B _ tilC _ _ touch insensitive larva C _ tilD _ _ touch insensitive larva D _ tilE _ _ touch insensitive larva E _ tilF _ _ touch insensitive larva F _ tilG _ _ touch insensitive larva G _ tilH _ _ touch insensitive larva H _ tilI _ _ touch insensitive larva I _ tilJ _ _ touch insensitive larva J _ tilK _ _ touch insensitive larva K _ tilL _ _ touch insensitive larva L _ tilM _ _ touch insensitive larva M _ tilN _ _ touch insensitive larva N _ tilO _ _ touch insensitive larva O _ tilP _ _ touch insensitive larva P _ tim mating behavior; GO:0007617 | inferred from mutant phenotype; regulation of sleep; GO:0045187 | inferred from mutant phenotype _ timeless _ Tim10 protein transport; GO:0015031 | non-traceable author statement _ _ _ Tim13 protein transport; GO:0015031 | inferred from sequence similarity _ _ _ Tim17a1 protein transport; GO:0015031 | inferred from sequence similarity _ _ _ Tim17a2 protein transport; GO:0015031 | inferred from sequence similarity _ _ _ Tim17b1 protein transport; GO:0015031 | inferred from sequence similarity _ _ _ Tim17b2 protein transport; GO:0015031 | inferred from sequence similarity with SWISS-PROT:O35092 _ Translocase inner membrane 17 _ Tim8 protein transport; GO:0015031 | inferred from sequence similarity _ _ _ Tim9a protein transport; GO:0015031 | inferred from sequence similarity _ _ _ Tim9b protein transport; GO:0015031 | non-traceable author statement _ _ _ timeout _ _ timeout _ timp _ _ tissue inhibitor of metalloproteases _ tin mesoderm development; GO:0007498 | non-traceable author statement; somatic muscle development; GO:0007525 | non-traceable author statement; visceral muscle development; GO:0007522 | non-traceable author statement _ tinman _ Tincar _ _ _ _ tipA _ _ temperature-induced paralytic A _ TipB _ _ Temperature-induced paralytic B _ tipC _ _ temperature-induced paralytic C _ tipD _ _ temperature-induced paralytic D _ tipE sodium transport; GO:0006814 | non-traceable author statement _ temperature-induced paralytic E _ tipF _ _ temperature-induced paralytic F _ tiptop _ _ tiptop _ Tis11 _ _ Tis11 homolog _ tiz _ _ tiziano _ tj _ _ traffic jam _ Tk _ _ _ _ tk _ _ thick _ Tk3 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Tyrosine kinase 3 _ Tk4 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Tyrosine kinase 4 _ Tk6 protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity _ Tyrosine kinase 6 _ tkd _ _ thickoid _ tko protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:O15235; protein biosynthesis; GO:0006412 | inferred from sequence similarity with SWISS-PROT:O35680 _ technical knockout _ Tkr _ _ Tyrosine kinase-related protein _ tkv "TGFbeta receptor signaling pathway; GO:0007179 | inferred from genetic interaction; anterior/posterior pattern formation, imaginal disc; GO:0007448 | inferred from mutant phenotype; dorsal closure; GO:0007391 | inferred from mutant phenotype; tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from genetic interaction; wing morphogenesis; GO:0007476 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype" _ thickveins _ Tl antimicrobial humoral response (sensu Invertebrata); GO:0006960 | inferred from genetic interaction with FLYBASE:imd; FB:FBgn0013983 _ Toll _ tlc _ _ tender little chaetae _ tld positive regulation of BMP signaling pathway; GO:0030513 | traceable author statement; zygotic determination of dorsal/ventral axis; GO:0007352 | non-traceable author statement _ tolloid _ tll eye morphogenesis (sensu Drosophila); GO:0007456 | non-traceable author statement; terminal region determination; GO:0007362 | non-traceable author statement _ tailless _ tlr-2 _ _ tld-related-2 _ Tm1 _ _ Tropomyosin 1 "GstS1 interacts with with the TnH-34 isoform of troponin-H in, asynchronous indirect flight muscle." Tm2 _ _ Tropomyosin 2 _ TM4SF _ _ Transmembrane 4 superfamily _ Tml84D _ _ Tropomyosin-like-84D _ TMS1 _ _ _ _ tmx _ _ trail mix _ tn _ _ thin _ tna _ _ tonalli _ tnk _ _ tonock _ tny _ _ thorny _ to circadian rhythm; GO:0007623 | inferred from expression pattern; response to starvation; GO:0009267 | inferred from expression pattern _ takeout _ TO42 _ _ _ _ Tob negative regulation of cell proliferation; GO:0008285 | inferred from sequence similarity _ _ _ toc _ _ toucan _ toe _ _ twin of eyg _ tok _ _ tolkin _ Toki _ _ _ _ Toll-4 defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | inferred from sequence similarity _ Toll-4 _ Toll-6 defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | inferred from sequence similarity _ Toll-6 _ Toll-7 defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | inferred from sequence similarity _ Toll-7 _ Toll-9 antifungal polypeptide induction; GO:0006967 | non-traceable author statement; signal transduction; GO:0007165 | inferred from sequence similarity _ _ _ Tollo defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | inferred from sequence similarity _ Tollo _ Tom _ _ Twin of m4 "Tom can antagonize N signaling activity during lateral inhibition, processes in the embryonic mesoderm, sensory organ specification in, imaginal discs and cell type specification in developing ommatidia." Tom34 _ _ Translocase outer membrane 34kD _ Tom40 _ _ _ _ tomosyn synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ _ _ ton _ _ tonochaetae _ tondo _ _ tondo "Homozygous mutant females exhibit defects in follicular cell nuclei, distribution." Top1 embryonic morphogenesis; GO:0009795 | inferred from mutant phenotype; larval development (sensu Insecta); GO:0002168 | inferred from mutant phenotype; oogenesis; GO:0007292 | inferred from mutant phenotype _ Topoisomerase 1 _ Top2 meiosis; GO:0007126 | traceable author statement; mitosis; GO:0007067 | traceable author statement _ Topoisomerase 2 _ Top3alpha _ _ Topoisomerase 3alpha _ Top3beta _ _ Topoisomerase 3beta _ Tor phosphorylation; GO:0016310 | non-traceable author statement; positive regulation of cell growth; GO:0030307 | non-traceable author statement _ Target of rapamycin _ tor eggshell pattern formation; GO:0030381 | inferred from mutant phenotype; terminal region determination; GO:0007362 | inferred from mutant phenotype _ torso _ torp _ _ torpid _ torp4a _ _ _ _ tos _ _ tosca _ TotA humoral defense mechanism (sensu Invertebrata); GO:0016065 | non-traceable author statement; stress response; GO:0006950 | inferred from mutant phenotype _ Turandot A _ TotB humoral defense mechanism (sensu Invertebrata); GO:0016065 | non-traceable author statement _ Turandot B _ TotC humoral defense mechanism (sensu Invertebrata); GO:0016065 | non-traceable author statement _ Turandot C _ TotF humoral defense mechanism (sensu Invertebrata); GO:0016065 | non-traceable author statement _ Turandot F _ TotM humoral defense mechanism (sensu Invertebrata); GO:0016065 | non-traceable author statement _ Turandot M _ toto _ _ toto _ TotX humoral defense mechanism (sensu Invertebrata); GO:0016065 | non-traceable author statement _ Turandot X _ TotZ humoral defense mechanism (sensu Invertebrata); GO:0016065 | non-traceable author statement _ Turandot Z _ tou chromatin modeling; GO:0006338 | non-traceable author statement _ toutatis _ tov _ _ tiny ovaries _ toy _ _ twin of eyeless _ Tpi _ _ Triose phosphate isomerase _ Tpl _ _ Triplolethal _ TpnC41C _ _ Troponin C at 41C _ TpnC47D _ _ Troponin C at 47D _ TpnC73F _ _ Troponin C at 73F _ TppII _ _ tripeptidyl-peptidase II _ Tpr2 _ _ Tetratricopeptide repeat protein 2 _ Tps1 _ _ Trehalose-6-phosphate synthase 1 "Upon induction of Tps1, trehalose increased and this was, associated with increased tolerance to anoxia." tra mRNA splicing; GO:0006371 | traceable author statement _ transformer _ tra2 mRNA splicing; GO:0006371 | traceable author statement _ transformer 2 _ Traf1 embryonic morphogenesis; GO:0009795 | inferred from expression pattern; larval development (sensu Insecta); GO:0002168 | inferred from expression pattern _ TNF-receptor-associated factor 1 _ Traf2 defense response; GO:0006952 | non-traceable author statement; signal transduction; GO:0007165 | non-traceable author statement _ TNF-receptor-associated factor 2 _ Traf3 defense response; GO:0006952 | inferred from sequence similarity with EMBL:U33840; signal transduction; GO:0007165 | inferred from sequence similarity with EMBL:U33840 _ _ _ Trailer-hitch _ _ Trailer hitch _ Transaldolase "pentose-phosphate shunt, non-oxidative branch; GO:0009052 | non-traceable author statement" _ Transaldolase _ Trap1 _ _ _ _ Trap100 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with EMBL:AF055995 _ _ _ Trap150beta transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with EMBL:AF105332; protein_id:AAD31729.1 _ _ _ Trap170 transcription from Pol II promoter; GO:0006366 | non-traceable author statement _ _ _ Trap18 _ _ _ _ Trap19 _ _ _ _ Trap220 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with EMBL:AF055994 _ _ _ Trap25 _ _ _ _ Trap36 _ _ _ _ Trap37 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with NCBI_gi:4758066 _ _ _ Trap80 cell growth and/or maintenance; GO:0008151 | inferred from mutant phenotype; transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with EMBL:AF055994 _ _ Trap80 is required for cell viability. Trap95 transcription from Pol II promoter; GO:0006366 | inferred from sequence similarity with NCBI_gi:4885647 _ _ _ trbl regulation of cell cycle; GO:0000074 | inferred from mutant phenotype _ tribbles _ trc protein amino acid phosphorylation; GO:0006468 | inferred from sequence similarity; protein amino acid phosphorylation; GO:0006468 | non-traceable author statement _ tricornered "trc is important for maintaining the integrity of outgrowths of epidermal, cells." Trc8 _ _ _ _ Tre sweet taste perception; GO:0001582 | inferred from mutant phenotype; taste; GO:0007607 | inferred from mutant phenotype _ Trehalose-sensitivity _ Tre1 sweet taste perception; GO:0001582 | inferred from mutant phenotype; sweet taste perception; GO:0001582 | inferred from mutant phenotype; taste; GO:0007607 | inferred from mutant phenotype _ Trehalose receptor 1 _ Treh _ _ Trehalase "This gene was first recognized by a match of an, STS sequence from a European Drosophila Genome Mapping Project cosmid." Trf transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TBP; OMIM:600075; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TBPL1; OMIM:605521; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:SPT15; SGDID:S0000950; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with WB:TBP; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with WB:TLP _ TBP-related factor "Trf protein can differentially mediate activation by some enhancer, proteins but not others." Trf2 transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TBP; OMIM:600075; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with HUGO:TBPL1; OMIM:605521; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with SGD:SPT15; SGDID:S0000950; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with WB:TBP; transcription initiation from Pol II promoter; GO:0006367 | inferred from sequence similarity with WB:TLP _ TATA box binding protein-related factor 2 _ Trfp _ _ Trf-proximal _ trg _ _ trithoraxgleich _ trh salivary gland morphogenesis; GO:0007435 | traceable author statement; tracheal system development (sensu Insecta); GO:0007424 | traceable author statement _ trachealess _ tri _ _ trident _ Tricalbin synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ Tricalbin _ trimmed tracheal cell migration; GO:0007427 | inferred from mutant phenotype _ trimmed _ trio Rho protein signal transduction; GO:0007266 | inferred from direct assay; actin cytoskeleton organization and biogenesis; GO:0030036 | inferred from direct assay; axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Abl; FB:FBgn0000017; axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Lar; FB:FBgn0000464; axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:Rac1; FB:FBgn0010333; central nervous system development; GO:0007417 | inferred from genetic interaction with FLYBASE:Abl; FB:FBgn0000017; peripheral nervous system development; GO:0007422 | inferred from genetic interaction with FLYBASE:Lar; FB:FBgn0000464; peripheral nervous system development; GO:0007422 | inferred from genetic interaction with FLYBASE:Rac1; FB:FBgn0010333 _ _ _ Trip1 protein biosynthesis; GO:0006412 | inferred from sequence similarity with SGD:TIF34; SGDID:S0004754; translational initiation; GO:0006413 | inferred from sequence similarity _ Trip1 Cloned by PCR as being similar to Hsap\TRIP-1. trk _ _ trunk _ Trl establishment and/or maintenance of chromatin architecture; GO:0006325 | non-traceable author statement; regulation of transcription from Pol II promoter; GO:0006357 | non-traceable author statement _ Trithorax-like _ Trn protein-nucleus import; GO:0006606 | inferred from sequence similarity with SGD:KAP104; SGDID:S0000221 _ Transportin _ trn _ _ tartan trn protein confers affinity for dorsal cells during wing development. tRNA-guanylyltransferase _ _ tRNA guanylyltransferase _ trol neuroblast cell division; GO:0045034 | non-traceable author statement _ terribly reduced optic lobes _ trp "calcium ion transport; GO:0006816 | inferred from sequence similarity; light-induced release of calcium, from internal store; GO:0008377 | inferred from direct assay" _ transient receptor potential _ trpgamma _ _ _ trpgamma-trpl heteromultimers contribute to the photoresponse. Trp1 "SRP-dependent, co-translational membrane targeting; GO:0006614 | inferred from sequence similarity with SGD:EC62; SGDID:S0006015" _ Translocation protein 1 _ trpl calcium ion transport; GO:0006816 | inferred from sequence similarity; response to abiotic stimulus; GO:0009628 | inferred from mutant phenotype _ trp-like _ trr _ _ trithorax-related "trr may not be involved in the regulation of homeotic genes or in, position effect variegation." Trs20 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Trs23 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Trs31 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ Trs33 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ trt _ _ _ trt functions to repress wg signaling. tru _ _ troupa _ trx positive regulation of transcription by homeotic gene (trithorax group); GO:0006339 | non-traceable author statement _ trithorax _ Trx-2 _ _ thioredoxin-2 _ Trxr-1 NOT oxidized glutathione reduction; GO:0006128 | inferred from direct assay; thioredoxin pathway; GO:0006125 | inferred from direct assay _ Thioredoxin reductase-1 Isolation and characterization of Trxr-1. Trxr-2 _ _ thioredoxin reductase 2 _ alphaTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ alphaTrypsin One of a cluster of trypsin-encoding genes. betaTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ betaTrypsin One of a cluster of trypsin-encoding genes. deltaTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ deltaTrypsin One of a cluster of trypsin-encoding genes. gammaTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ gammaTrypsin One of a cluster of trypsin-encoding genes. epsilonTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ epsilonTrypsin One of a cluster of trypsin-encoding genes. etaTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ etaTrypsin One of a cluster of trypsin-encoding genes. thetaTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ thetaTrypsin One of a cluster of trypsin-encoding genes. zetaTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ zetaTrypsin One of a cluster of trypsin-encoding genes. iotaTry proteolysis and peptidolysis; GO:0006508 | non-traceable author statement _ iotaTrypsin One of a cluster of trypsin-encoding genes. lambdaTry _ _ _ _ kappaTry _ _ _ _ Try29F _ _ Trypsin 29F _ Ts deoxyribonucleotide biosynthesis; GO:0009263 | non-traceable author statement _ _ _ Tsc _ _ Triple sex combs _ Tsc1 regulation of cell cycle; GO:0000074 | traceable author statement; regulation of cell growth; GO:0001558 | traceable author statement _ _ Tsc1 is a negative regulator of insulin signaling. Tsf1 iron homeostasis; GO:0006879 | inferred from sequence similarity; iron homeostasis; GO:0006879 | inferred from sequence similarity with EMBL:J03298 _ Transferrin 1 _ Tsf2 _ _ Transferrin 2 _ Tsf3 response to bacteria; GO:0009617 | inferred from expression pattern _ Transferrin 3 _ tsg "regulation of TGFbeta receptor signaling pathway; GO:0017015 | inferred from mutant phenotype; zygotic determination of anterior/posterior axis, embryo; GO:0007354 | traceable author statement" _ twisted gastrulation The tsg protein functions with sog to antagonize BMP signaling. TSG101 _ _ tumor suppressor protein 101 _ tsh negative regulation of salivary gland determination; GO:0045705 | traceable author statement _ teashirt _ tsl _ _ torso-like "fs(1)N and fs(1)M3 are necessary for extracellular accumulation, of tsl." Tsp _ _ Thrombospondin _ Tsp26A _ _ Tetraspanin 26A _ Tsp29Fa _ _ Tetraspanin 29Fa _ Tsp29Fb _ _ Tetraspanin 29Fb _ Tsp2A _ _ Tetraspanin 2A _ Tsp33B _ _ Tetraspanin 33B _ Tsp39D _ _ Tetraspanin 39D _ Tsp3A _ _ Tetraspanin 3A _ Tsp40A _ _ Tetraspanin 40A _ Tsp42A _ _ Tetraspanin 42A _ Tsp42Ea _ _ Tetraspanin 42Ea _ Tsp42Eb _ _ Tetraspanin 42Eb _ Tsp42Ec _ _ Tetraspanin 42Ec _ Tsp42Ed _ _ Tetraspanin 42Ed _ Tsp42Ee _ _ Tetraspanin 42Ee _ Tsp42Ef _ _ Tetraspanin 42Ef _ Tsp42Eg _ _ Tetraspanin 42Eg _ Tsp42Eh _ _ Tetraspanin 42Eh _ Tsp42Ei _ _ Tetraspanin 42Ei _ Tsp42Ej _ _ Tetraspanin 42Ej _ Tsp42Ek _ _ Tetraspanin 42Ek _ Tsp42El _ _ Tetraspanin 42El _ Tsp42En _ _ Tetraspanin 42En _ Tsp42Eo _ _ Tetraspanin 42Eo _ Tsp42Ep _ _ Tetraspanin 42Ep _ Tsp42Eq _ _ Tetraspanin 42Eq _ Tsp42Er _ _ Tetraspanin 42Er _ Tsp47F _ _ Tetraspanin 47F _ Tsp5D _ _ Tetraspanin 5D _ Tsp66A _ _ Tetraspanin 66A _ Tsp66E _ _ Tetraspanin 66E _ Tsp68C _ _ Tetraspanin 68C _ Tsp74F _ _ Tetraspanin 74F _ Tsp86D _ _ Tetraspanin 86D _ Tsp96F _ _ Tetraspanin 96F _ Tsp97E _ _ Tetraspanin 97E _ tsr actin polymerization and/or depolymerization; GO:0008154 | non-traceable author statement _ twinstar tsr is required for ovarian morphogenesis. tss _ _ toothless _ tst _ _ twister _ tsu regulation of pole plasm oskar mRNA localization; GO:0007317 | inferred from physical interaction with FLYBASE:mago; FB:FBgn0002736 _ tsunagi "tsu is required in the germline for the localization of germ cell, determinants and axis formation during oogenesis." tt _ _ tilt _ tta _ _ tetanic _ ttk negative regulation of transcription from Pol II promoter; GO:0000122 | non-traceable author statement; negative regulation of transcription from Pol II promoter; GO:0000122 | non-traceable author statement _ tramtrack _ ttp _ _ tip-tap _ ttr _ _ tetrapter _ ttv _ _ tout-velu "ttv is required for the diffusion of the hh gene product. ttv, is a member of the EXT gene family." ttx _ _ tetrodotoxin-sensitive _ tty _ _ tweety _ Tu _ _ Turned-up wing _ tu(1)Sz _ _ tumor (1) Sz _ tu(2)48 _ _ tumor(2)48 _ tu(2)91k _ _ _ _ tu(2)bw _ _ tumor (2) brown _ tu(2)W _ _ tumor(2)W _ tu(3)1b _ _ _ _ tu(3)be _ _ tumor(3)be _ tu(3)C4 _ _ tumor(3)C4 _ tu(3)pb _ _ _ _ tu-36e _ _ _ _ tu-47 _ _ _ _ tub antifungal humoral response (sensu Invertebrata); GO:0006966 | inferred from mutant phenotype _ tube _ gammaTub23C microtubule-based process; GO:0007017 | inferred from sequence similarity; microtubule-based process; GO:0007017 | non-traceable author statement _ gamma-Tubulin at 23C _ gammaTub37C microtubule-based process; GO:0007017 | inferred from sequence similarity; microtubule-based process; GO:0007017 | non-traceable author statement _ gamma-Tubulin at 37C gammaTub37C is essential for nuclear proliferation in the early embryo. betaTub56D cytoskeleton organization and biogenesis; GO:0007010 | inferred from electronic annotation; muscle attachment; GO:0016203 | traceable author statement _ beta-Tubulin at 56D _ betaTub60D axon guidance; GO:0007411 | inferred from mutant phenotype; axonogenesis; GO:0007409 | inferred from mutant phenotype; larval behavior (sensu Insecta); GO:0007627 | inferred from mutant phenotype; light response; GO:0009416 | inferred from mutant phenotype _ beta-Tubulin at 60D _ alphaTub67C microtubule-based process; GO:0007017 | inferred from sequence similarity _ alpha-Tubulin at 67C "In D.melanogaster, two multigene families, each made up of four, members, code for alpha- and beta-tubulins. Tubulins are a highly, conserved family of proteins that are the main structural components of, microtubules in mitotic and meiotic spindles, cilia, flagella, neural, processes and the cytoskeleton; nontubulin proteins (MAPS or, microtubule-associated proteins) are involved along with tubulins in the, formation of specialized microtubules (FBrf0045282; FBrf0046966)., alphaTub67C is transcribed in the nurse cells, the transcript is, maternally inherited; the transcript accumulates in 0- to 3-hr embryos and, adult ovaries (FBrf0037623; FBrf0049502). A stable pool of alphaTub67C, tubulin is found in ovaries, unfertilized eggs and embryos, but synthesis, of the protein probably only occurs in the ovary (FBrf0049502)." alphaTub84B _ _ alpha-Tubulin at 84B "In D.melanogaster, two multigene families, each made up of four, members, code for alpha- and beta-tubulins. Tubulins are a highly, conserved family of proteins that are the main structural components of, microtubules in mitotic and meiotic spindles, cili" alphaTub84D microtubule-based process; GO:0007017 | inferred from sequence similarity _ alpha-Tubulin at 84D "In D.melanogaster, two multigene families, each made up of four, members, code for alpha- and beta-tubulins. Tubulins are a highly, conserved family of proteins that are the main structural components of, microtubules in mitotic and meiotic spindles, cilia, flagella, neural, processes and the cytoskeleton; nontubulin proteins (MAPS or, microtubule-associated proteins) are involved along with tubulins in the, formation of specialized microtubules (FBrf0045282; FBrf0046966)., alphaTub84D is coordinately expressed with alphaTub84B at most, developmental stages with the exception of the adult stage where no, alphaTub84D mRNA can be detected in males (FBrf0049502)." betaTub85D microtubule-based process; GO:0007017 | inferred from sequence similarity _ beta-Tubulin at 85D The correct tubulin protein levels in the male germ cells is investigated. alphaTub85E _ _ alpha-Tubulin at 85E "In D.melanogaster, two multigene families, each made up of four, members, code for alpha- and beta-tubulins. Tubulins are a highly, conserved family of proteins that are the main structural components of, microtubules in mitotic and meiotic spindles, cilia, flagella, neural, processes and the cytoskeleton; nontubulin proteins (MAPS or, microtubule-associated proteins) are involved along with tubulins in the, formation of specialized microtubules (FBrf0045282; FBrf0046966)., alphaTub85E is the only alpha-tubulin not expressed maternally., Transcripts present from 6-8 hr through adult. Protein found in support, cells of chordotonal organs, developing muscles and somatic component of, the testis (FBrf0049502). In adults expression of alphaTub85E is, male-specific (FBrf0045282)." betaTub97EF _ _ beta-Tubulin at 97EF _ tud "mitochondrial rRNA, mitochondrial export; GO:0019090 | inferred from mutant phenotype; pole cell determination; GO:0007278 | non-traceable author statement" _ tudor _ tuh1 _ _ tumorous head on 1 _ Tul _ _ Turneduplike _ TULP _ _ _ _ tum _ _ tumbleweed tum has a function in dendritic development. tup _ _ tailup "eve and tup constitute a bimodal switch regulating axonal growth, and directing motor axons to ventral (tup) or dorsal (eve) regions, of the muscle field during embryogenesis." tur olfactory learning; GO:0008355 | traceable author statement _ turnip _ tutl adult locomotory behavior; GO:0008344 | inferred from mutant phenotype; flight behavior; GO:0007629 | inferred from mutant phenotype; larval behavior (sensu Insecta); GO:0007627 | inferred from mutant phenotype _ turtle _ tw _ _ twisted _ twe "embryonic morphogenesis; GO:0009795 | inferred from mutant phenotype; female meiotic spindle assembly (sensu Drosophila, sensu Mus); GO:0007056 | inferred from mutant phenotype; male meiosis; GO:0007140 | inferred from mutant phenotype; male meiotic spindle assembly (sensu Drosophila, sensu Mus); GO:0007053 | inferred from mutant phenotype; regulation of syncytial blastoderm mitotic cell cycle; GO:0007348 | inferred from mutant phenotype; spermatogenesis; GO:0007283 | inferred from mutant phenotype" _ twine _ twf _ _ twinfilin _ twg _ _ twisted genitals _ twi mesoderm cell fate determination; GO:0007500 | traceable author statement; mesoderm cell fate specification; GO:0007501 | traceable author statement _ twist _ twin _ _ twin _ Two-b _ _ Two bristles _ twr _ _ twisted bristles roughened eye _ tws imaginal disc pattern formation; GO:0007447 | inferred from mutant phenotype; mitotic anaphase; GO:0000090 | inferred from mutant phenotype; regulation of mitosis; GO:0007088 | inferred from mutant phenotype; sensory organ development; GO:0007423 | inferred from mutant phenotype _ twins _ tx _ _ taxi "Phenotypic variation of the genetic components underlying oviposition, behavior is analyzed using the complete diallel mating design." TXBP181-like _ _ _ _ Txl _ _ Thioredoxin-like _ txl _ _ taxi-like _ ty oogenesis; GO:0007292 | traceable author statement _ tiny _ tyl _ _ tinylike _ tyr1 _ _ tyrosine 1 "Although originally considered to be the structural gene for phenol, oxidase (FBrf0015054), FBrf0043263 suggest that it may be a regulator of, phenol oxidase activity." Tyr2 _ _ Tyrosine 2 _ Tyr3 _ _ Tyrosine 3 _ TyrR octopamine/tyramine signaling pathway; GO:0007211 | inferred from sequence similarity; olfaction; GO:0007608 | inferred from mutant phenotype _ Tyramine receptor _ tyw _ _ tiny wing _ U _ _ Upturned _ U26 _ _ _ _ U2A mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AJ004824; protein_id:CAA06160; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:003081; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:012274 _ _ _ U2af35 mRNA splicing; GO:0006371 | inferred from direct assay _ U2 small nuclear riboprotein auxiliary factor 35 "U2AF is an essential splicing factor. Purified U2AF comprizes two, polypeptides of 65 and 35kD, U2af65 and U2af35 respectively." U2af38 mRNA splicing; GO:0006371 | inferred from sequence similarity with EMBL:AF090120; mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:006749 _ U2 small nuclear riboprotein auxiliary factor 38 "The presence of one RS domain of U2AF, on either the large subunit, (encoded by U2af50) or the small subunit (encoded by U2af38), promotes, high-affinity pyrimidine tract RNA binding activity." U2af50 mRNA splicing; GO:0006371 | inferred from sequence similarity with NCBI_NP:009210 _ U2 small nuclear riboprotein auxiliary factor 50 "The presence of one RS domain of U2AF, on either the large subunit, (encoded by U2af50) or the small subunit (encoded by U2af38), promotes, high-affinity pyrimidine tract RNA binding activity." U2af65 _ _ U2 small nuclear riboprotein auxiliary factor 65 "U2AF is an essential splicing factor. Purified U2AF comprizes two, polypeptides of 65 and 35kD, U2af65 and U2af35 respectively." U5E3 dorsal/ventral axis determination; GO:0007310 | non-traceable author statement _ _ May be an effector target gene of dorsal fate determination. U5E3sis dorsal/ventral axis determination; GO:0007310 | non-traceable author statement _ _ May be an effector target gene of dorsal fate determination. UB597 _ _ UB597 _ Uba1 ubiquitin cycle; GO:0006512 | non-traceable author statement _ Ubiquitin activating enzyme 1 _ Uba2 SMT3-dependent protein catabolism; GO:0019950 | non-traceable author statement _ Smt3 activating enzyme 2 _ Ubc-E2H _ _ _ _ Ubc14B ubiquitin cycle; GO:0006512 | non-traceable author statement _ Ubiquitin conjugating enzyme 14B _ Ubc47D male courtship behavior; GO:0008049 | inferred from mutant phenotype; ubiquitin cycle; GO:0006512 | inferred from sequence similarity _ Ubiquitin-conjugating-enzyme-47D _ Ubc84D ubiquitin cycle; GO:0006512 | inferred from sequence similarity _ Ubiquitin conjugating enzyme 84D _ Ubc87F ubiquitin cycle; GO:0006512 | inferred from sequence similarity _ _ _ Ubc87Fb _ _ Ubiquitin conjugating enzyme 87Fb _ UbcD10 ubiquitin cycle; GO:0006512 | non-traceable author statement _ Ubiquitin conjugating enzyme 10 _ UbcD2 ubiquitin cycle; GO:0006512 | inferred from sequence similarity with SGD:UBC4; SGDID:S0000286; ubiquitin cycle; GO:0006512 | inferred from sequence similarity with SGD:UBC5; SGDID:S0002466 _ Ubiquitin conjugating enzyme 2 _ UbcD4 ubiquitin cycle; GO:0006512 | non-traceable author statement _ Ubiquitin conjugating enzyme 4 _ UbcD6 DNA repair; GO:0006281 | inferred from genetic interaction with SGD:RAD6; SGDID:S0003026; ubiquitin cycle; GO:0006512 | inferred from sequence similarity _ Ubiquitin conjugating enzyme _ ubi-d4 _ _ _ _ Ubi-p5E ubiquitin cycle; GO:0006512 | inferred from sequence similarity _ Ubiquitin-5E "Hybridization of a polyubiquitin probe to 5E was seen in Canton-S but, not in the Vallecas stock (FBrf0073429). However STS sequences from EDGP cosmids 199A6, and 143G11 confirm the existence of ubiquitin sequences at 5D--5E." Ubi-p63E response to heat shock; GO:0006951 | inferred from expression pattern; ubiquitin cycle; GO:0006512 | inferred from sequence similarity _ Ubiquitin-63E Ubi-p63E expression has been studied in heat shocked aging flies. UBL3 _ _ _ _ Ubp64E deubiquitination; GO:0006514 | inferred from sequence similarity _ Ubiquitin-specific protease 64E _ Ubx "regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement; specification of segmental identity, abdomen; GO:0007385 | non-traceable author statement; specification of segmental identity, thorax; GO:0007384 | non-traceable author statement" _ Ultrabithorax _ UC119 _ _ _ _ Uch deubiquitination; GO:0006514 | inferred from direct assay; deubiquitination; GO:0006514 | inferred from sequence similarity _ Ubiquitin carboxy-terminal hydrolase _ Uch-L3 deubiquitination; GO:0006514 | inferred from direct assay; deubiquitination; GO:0006514 | inferred from sequence similarity with NCBI:NM_015984; proteolysis and peptidolysis; GO:0006508 | inferred from direct assay _ Ubiquitin C-terminal hydrolase _ Ucp4A _ _ _ _ Ucp4B _ _ _ _ Ucp4C _ _ _ _ Uev1A _ _ _ _ uex _ _ unextended _ Uf _ _ Unfolded _ Ufd1-like ubiquitin-dependent protein catabolism; GO:0006511 | inferred from sequence similarity _ Ubiquitin fusion-degradation 1-like _ Ufo _ _ Ultra female overexpression _ Ugt protein amino acid glycosylation; GO:0006486 | non-traceable author statement _ UDP-glucose-glycoprotein glucosyltransferase _ Ugt35a _ _ UDP-glycosyltransferase 35a _ Ugt35b _ _ UDP-glycosyltransferase 35b _ Ugt36Ba _ _ _ _ Ugt36Bb _ _ _ _ Ugt36Bc _ _ _ _ Ugt37a1 _ _ UDP-glycosyltransferase 37a1 _ Ugt37b1 _ _ UDP-glycosyltransferase 37b1 _ Ugt37c1 _ _ UDP-glycosyltransferase 37c1 _ Ugt58Fa _ _ _ _ Ugt86Da _ _ _ _ Ugt86Dc _ _ _ _ Ugt86Dd _ _ _ _ Ugt86De _ _ _ _ Ugt86Dg _ _ _ _ Ugt86Dh _ _ _ _ Ugt86Di _ _ _ _ Ugt86Dj _ _ _ _ Uhg1 _ _ U snoRNA host gene 1 _ Uhg2 _ _ U snoRNA host gene 2 _ Ulp1 _ _ _ _ ultA _ _ ultrahair A _ ultB _ _ ultrahair B _ umpA _ _ uncoordinated with mechanoreceptor potential A _ umpB _ _ uncoordinated with mechanoreceptor potential B _ un _ _ uneven _ unc hearing; GO:0007605 | inferred from mutant phenotype _ uncoordinated _ unc-104 cytoskeleton organization and biogenesis; GO:0007010 | inferred from electronic annotation _ _ _ unc-115 _ _ _ _ unc-119 _ _ _ _ unc-13 synaptic vesicle exocytosis; GO:0016079 | inferred from sequence similarity _ _ _ unc-13-4A neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle priming; GO:0016082 | non-traceable author statement _ _ _ unc-13-4B neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle priming; GO:0016082 | non-traceable author statement _ _ _ unc-4 _ _ _ _ unc-5 axon guidance; GO:0007411 | inferred from genetic interaction with FLYBASE:NetB; FB:FBgn0015774; axon guidance; GO:0007411 | inferred from mutant phenotype _ _ "The unc-5 Netrin receptor mediates long range (with fra) and short, range (either acting alone or with a co-receptor other than fra), repulsive responses to Netrin. Midline repulsion mediated by unc-5, operates independently of that mediated by sli and robo." Unc-76 axon cargo transport; GO:0008088 | inferred from mutant phenotype _ _ Unc-76 is required for processive transport within axons. unch _ _ unchained _ uncl hearing; GO:0007605 | inferred from mutant phenotype _ uncoordinated-like _ und _ _ uninitiated _ ung _ _ uniungula _ uni _ _ unicorn _ unk _ _ unkempt _ unp _ _ unexpanded _ unpg _ _ unplugged "Expression analyzed in CNS study of neuroblasts and ganglion mother, cells, using an enhancer trap to reveal the expression pattern." up _ _ upheld _ upd-like _ _ upd-like _ Updo _ _ _ _ Upf1 nonsense-mediated mRNA decay; GO:0000184 | inferred from sequence similarity with SGD:NAM7; SGDID:S0004903 _ _ _ upo _ _ unipolar disorder "Identified in a screen for mutants defective in the retinal axon, projections." upw _ _ upward _ urd _ _ urdur _ Uro _ _ Urate oxidase _ usdy _ _ unsteady _ Usf transcription; GO:0006350 | inferred from sequence similarity with SWISS-PROT:Q63665 _ _ _ ush eye morphogenesis (sensu Drosophila); GO:0007456 | inferred from mutant phenotype; heart development; GO:0007507 | inferred from mutant phenotype _ u-shaped _ usnp neurotransmitter secretion; GO:0007269 | inferred from sequence similarity with SWISS-PROT:Q9Z2P6; synaptic vesicle fusion; GO:0016083 | inferred from sequence similarity with SWISS-PROT:Q9Z2P6 _ ubisnap _ usp metamorphosis; GO:0007552 | non-traceable author statement; neuronal remodeling; GO:0016322 | inferred from mutant phenotype _ ultraspiracle _ ut _ _ u-turn _ UY530 _ _ _ _ uzip axonogenesis; GO:0007409 | non-traceable author statement _ unzipped _ v ommochrome biosynthesis; GO:0006727 | non-traceable author statement _ vermilion _ v(2)k03514 _ _ _ _ v(2)k05816 _ _ _ _ v(2)k06408 _ _ _ _ v(2)rG232 _ _ _ _ v(3)03699 _ _ _ _ vac _ _ vacuolated _ VAChT neurotransmitter transport; GO:0006836 | non-traceable author statement _ _ _ vah _ _ ventral abdominal hole _ vam _ _ vacuolar medulla _ Vanaso olfactory behavior; GO:0042048 | inferred from mutant phenotype _ Vanaso _ Vang establishment and/or maintenance of cell polarity; GO:0007163 | non-traceable author statement _ Van Gogh _ vanin-like _ _ _ _ vao _ _ varied outspread _ vap _ _ vacuolar peduncle "vap can function as an inhibitor of signaling pathways mediated, by Ras and receptor tyrosine kinases. It may have a Ras-independent, role in the regulation of growth." Vap-33-1 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle priming; GO:0016082 | non-traceable author statement _ _ _ Vap-33-2 neurotransmitter secretion; GO:0007269 | non-traceable author statement; synaptic vesicle priming; GO:0016082 | non-traceable author statement _ _ _ vari tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ varicose _ vas oogenesis; GO:0007292 | inferred from mutant phenotype; pole cell determination; GO:0007278 | non-traceable author statement _ vasa _ vav Rho protein signal transduction; GO:0007266 | inferred from sequence similarity _ _ _ vb _ _ vibrissae _ vcg _ _ ventral central gaps _ veg _ _ vegetable _ veli _ _ _ "veli may play a role in localizing receptors to postsynaptic, specializations in neurons." ven _ _ venation _ ventrally-expressed-protein-D _ _ _ _ ver _ _ verrocchio _ verfilzt _ _ _ _ vg wing morphogenesis; GO:0007476 | non-traceable author statement _ vestigial _ Vha100-1 _ _ _ _ Vha100-2 _ _ _ _ Vha100-3 _ _ _ _ Vha13 hydrogen transport; GO:0006818 | inferred from sequence similarity _ Vacuolar H[+] ATPase G-subunit _ Vha14 proton transport; GO:0015992 | non-traceable author statement _ Vacuolar H[+] ATPase 14kD subunit _ Vha16 proton transport; GO:0015992 | non-traceable author statement _ Vacuolar H[+] ATPase 16kD subunit _ Vha16-2 _ _ _ _ Vha16-3 _ _ _ _ Vha16-4 _ _ _ _ Vha26 proton transport; GO:0015992 | non-traceable author statement _ Vacuolar H[+]-ATPase 26kD E subunit _ Vha36 hydrogen transport; GO:0006818 | inferred from sequence similarity _ _ _ Vha44 proton transport; GO:0015992 | inferred from sequence similarity _ Vacuolar H[+] ATPase 44kD C subunit _ Vha55 proton transport; GO:0015992 | non-traceable author statement _ Vacuolar H[+]-ATPase 55kD B subunit _ Vha68 _ _ Vacuolar H[+]-ATPase 68kD A subunit _ Vha68-1 proton transport; GO:0015992 | non-traceable author statement _ _ _ Vha68-2 _ _ _ _ VhaAC39 proton transport; GO:0015992 | non-traceable author statement _ _ _ VhaM9.7-1 _ _ _ _ VhaM9.7-2 _ _ _ _ VhaPPA1-1 _ _ _ _ VhaPPA1-2 _ _ _ _ VhaSFD _ _ Vacuolar H[+]-ATPase SFD subunit _ Vhl cytoskeleton organization and biogenesis; GO:0007010 | inferred from direct assay; tracheal system development (sensu Insecta); GO:0007424 | inferred from mutant phenotype _ von Hippel-Lindau "Vhl is required for halting cell migration and tube outgrowth at, the end of the tracheal tube formation." viaf1 _ _ viral iap associated factor _ vib _ _ vibrator "vib has a number of roles throughout development. These roles may, be separated into two classes: actin based processes and signal, transduction processes." Victoria humoral defense mechanism (sensu Invertebrata); GO:0016065 | non-traceable author statement _ _ _ vid _ _ visual system disorganizer "Isolated in a screen of P-element mutagenized adult flies for those, that showed structural abnormalities in the optic lobe." vig _ _ vasa intronic gene _ vihar _ _ vihar _ vimar _ _ visceral mesodermal armadillo-repeats "vimar is one of the bap target genes that are required for normal, development and differentiation of the midgut visceral mesoderm." vin _ _ vin _ Vinc cytoskeletal anchoring; GO:0007016 | inferred from sequence similarity _ Vinculin _ vir dosage compensation; GO:0007549 | traceable author statement; mRNA splicing; GO:0006371 | traceable author statement; sex determination; GO:0007530 | traceable author statement _ virilizer _ vis _ _ vismay _ Vitamin-D-hydroxylase _ _ Vitamin D hydroxylase _ vizhichai _ _ vizhichai _ vkg _ _ viking _ vlc leg morphogenesis; GO:0007480 | non-traceable author statement _ vulcan _ vls _ _ valois "Only vas and tud are essential for osk-induced pole cell and, abdomen formation, vls is not." vm1 _ _ visible mutation-1 _ vm2 _ _ visible mutation-2 _ Vm26Aa oogenesis; GO:0007292 | inferred from mutant phenotype; vitelline membrane formation; GO:0007305 | non-traceable author statement _ Vitelline membrane 26Aa "The Vm26Aa, Vm26Ab, Vm32E, Vm34Ca genes are responsible for, encoding the major proteins of the first layer of the Drosophila, eggshell, the vitelline membrane." Vm26Ab eggshell formation; GO:0007304 | inferred from mutant phenotype; vitelline membrane formation; GO:0007305 | non-traceable author statement _ Vitelline membrane 26Ab "The Vm26Aa, Vm26Ab, Vm32E, Vm34Ca genes are responsible for, encoding the major proteins of the first layer of the Drosophila, eggshell, the vitelline membrane." vm3 _ _ visible mutation-3 _ Vm32E vitelline membrane formation; GO:0007305 | non-traceable author statement _ Vitelline membrane 32E _ Vm34Ca vitelline membrane formation; GO:0007305 | non-traceable author statement _ Vitelline membrane 34Ca "The Vm26Aa, Vm26Ab, Vm32E, Vm34Ca genes are responsible for, encoding the major proteins of the first layer of the Drosophila, eggshell, the vitelline membrane." Vm39DE _ _ _ _ Vm42A _ _ _ _ Vn _ _ Vein _ vn notum morphogenesis; GO:0007477 | inferred from mutant phenotype; wing morphogenesis; GO:0007476 | inferred from mutant phenotype _ vein _ vnc _ _ variable nurse cells "The phenotypes associated with vnc mutations implicate the vnc, product in the control of cystocyte divisions within the germarium." vnd "regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement; ventral cord development; GO:0007419 | non-traceable author statement" _ ventral nervous system defective "This gene was independently characterized by virtue of its homeodomain, (as NK2) and, as vnd, by virtue of the phenotype of mutant alleles; in, addition, alleles were recovered simply as X-linked lethals. Required for, the correct specification of neuroblasts in the ventral nerve chord., Expression starts at the blastoderm stage during cell membrane formation, (2.5-3.25-hour embryos) in the region that gives rise, to the ventral nervous system. vnd transcripts, detected in the ventral nervous system at later stages, of embryonic development. vnd transcripts also found, in the midgut starting at 12 hours of embryonic, development and thereafter during embryonic, development. vnd mRNA also found in larvae and pupae, but the abundance of the mRNA is lower than that of, embryos. vnd mRNA is expressed in the central nervous, system of the adult." Vno _ _ Vein off _ Voila taste; GO:0007607 | inferred from mutant phenotype _ a la voile et a la vapeur _ volcano _ _ volcano _ Vps16 lysosomal transport; GO:0007041 | non-traceable author statement _ _ _ Vps45 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ vri circadian rhythm; GO:0007623 | non-traceable author statement; locomotor rhythm; GO:0045475 | non-traceable author statement _ vrille _ vs _ _ vesiculated _ vss _ _ variable size and shape _ vst _ _ vestar _ vt _ _ verticals _ vtd _ _ verthandi _ Vti1 vesicle-mediated transport; GO:0016192 | inferred from sequence similarity _ _ _ vtw muscle development; GO:0007517 | inferred from mutant phenotype _ vertical wings _ vu _ _ vesuvio _ vvl "regulation of transcription, DNA-dependent; GO:0006355 | non-traceable author statement" _ ventral veins lacking "vvl is required for the maintenance of btl expression during tracheal, tree development. vvl is also required for the specific expression, in the tracheal cells of tkv and rho. vvl makes the tracheal, cells competent to further signaling through activation of its target, genes." W induction of apoptosis; GO:0006917 | inferred from genetic interaction with FLYBASE:Dcp-1; FB:FBgn0010501; induction of apoptosis; GO:0006917 | inferred from genetic interaction with FLYBASE:th; FB:FBgn0003691 _ Wrinkled _