A Database of Drosophila Genes & Genomes

FB2013_03, released May 7th, 2013
 

Gene Scer\GAL80

General Information
SymbolScer\GAL80SpeciesS. cerevisiae
NameAnnotation symbol
Feature typeengineered_foreign_geneFlyBase IDFBgn0026367
Gene Model StatusNot Applicable Stock availability 58 publicly available
Also Known AsGAL80
Genomic Location
Chromosome (arm)Recombination map
Cytogenetic mapSequence location
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Automatically generated summary

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This gene is referred to in FlyBase by the symbol Scer\GAL80 (FBgn0026367). It is a engineered_foreign_gene from Saccharomyces cerevisiae. Its molecular function is unknown. The biological processes in which it is involved are not known. 44 alleles are reported. The phenotypes of these alleles are annotated with: organ system; organ system subdivision; adult segment; adult; external compound sense organ; thoracic segment; appendage segment; portion of tissue; peripheral nervous system; histaminergic neuron; epithelial cell; male organism; indirect flight muscle motor neuron MN5. It has no annotated transcripts. Gene has not been localized to the genome sequence.

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FB2013_03
FB2013_02
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See Gelbart and Emmert, 2010.10.13 for analysis details and data files for all genes.
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Lethality
Allele
lethal, with Scer\GAL4elav.PLu, WScer\UAS.cZa
lethal | first instar larval stage | heat sensitive, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4Gyc-89Da.1.9
lethal | heat sensitive, with GaleNIG.12030R, Scer\GAL4Act5C.PI
lethal | heat sensitive, with Scer\GAL4gcm-rA87.P, gcmDN.Scer\UAS.T:Rep-en
lethal | heat sensitive, with Scer\GAL4repo.PU, shi1.Scer\UAS
lethal | larval stage, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4dimm-929
lethal | pharate adult stage, with Scer\GAL41151, salmScer\UAS.cKa
lethal | pharate adult stage, with Scer\GAL4Mef2.PR, salmScer\UAS.cKa
lethal | pharate adult stage | heat sensitive, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4Gyc-89Da.1.9
lethal | pupal stage, with Scer\GAL4sal.BO, rprScer\UAS.C
lethal | pupal stage | heat sensitive, with Scer\GAL4srp.D.cCa, gcmDN.Scer\UAS.T:Rep-en
lethal | temperature conditional, with GaleNIG.12030R, Scer\GAL4Act5C.PI
lethal | temperature conditional, with Scer\GAL4R15W.elav, WScer\UAS.cZa
lethal - all die during larval stage, with ACCB131, ACCScer\UAS.cPa, Scer\GAL4da.G32
partially lethal - majority die | pupal stage | heat sensitive, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4burs.PP
viable
viable, with ACCGD3482, Scer\GAL4sal.BO
viable, with Scer\GAL4A3.eya, zfh1Scer\UAS.cPa
viable, with Scer\GAL4desat1.PB, WScer\UAS.cZa
viable, with Scer\GAL4sal.BO, rprScer\UAS.C
Sterility
Allele
female semi-sterile | heat sensitive, with M6KK109436, Scer\GAL4dm-PG45
female sterile | heat sensitive, with M6NIG.7540R, Scer\GAL4dm-PG45
fertile
male semi-sterile, with Scer\GAL4Act5C.PI, baiKK108684
male semi-sterile, with Scer\GAL4Act5C.PI, ecaKK109376
male semi-sterile, with Scer\GAL4Act5C.PI, opmGD3366
male semi-sterile, with Scer\GAL4Act5C.PI, p24-1KK108359
male semi-sterile, with Scer\GAL4Act5C.PI, p24-2KK116027
male sterile, with Scer\GAL4Act5C.PI, p24-1GD3321
sterile | temperature conditional, with GaleNIG.12030R, Scer\GAL4Act5C.PI
Other Phenotypes
Allele
aging defective, with Scer\GAL4Mef2.PR, foxoScer\UAS.cFa
aging defective, with Scer\GAL4Mef2.PR, foxoTM.Scer\UAS
behavior defective, with Scer\GAL4tim.PE, sggEP1576
behavior defective | adult stage | heat sensitive, with Bhal\NaChBacScer\UAS.cNa, Scer\GAL4Tdc2.PC
cell adhesion defective | cell autonomous | larval stage, with edGD2575
cell death defective | somatic clone, with Egfr::toract.Scer\UAS, Scer\GAL4Myo31DF-NP0001
cell death defective | somatic clone, with Ras85DV12.Scer\UAS, Scer\GAL4Myo31DF-NP0001
cell polarity defective | conditional | somatic clone, with Ras85DV12.Scer\UAS, Scer\GAL4Scer\FRT.Act5C
cell polarity defective | conditional | somatic clone, with Scer\GAL4Scer\FRT.Act5C, phlScer\UAS.F179
cell shape defective | cell autonomous | larval stage | somatic clone, with edGD2575
cell shape defective | conditional | third instar larval stage, with Rho1GD4726, Scer\GAL4ap-md544
cell shape defective | conditional | third instar larval stage, with Rho1V14.Scer\UAS, Scer\GAL4ap-md544
cell shape defective | conditional | third instar larval stage, with RhoGEF2Scer\UAS.cUa, Scer\GAL4ap-md544
chemical resistant | adult stage | heat sensitive, with Pi3K92EA2860C.Scer\UAS, Scer\GAL4elav-C155
chemical resistant | adult stage | heat sensitive, with PtenScer\UAS.cGb, Scer\GAL4elav-C155
chemical resistant | adult stage | heat sensitive, with Scer\GAL4elav-C155, arudsRNA.Scer\UAS
circadian behavior defective, with Scer\GAL4tim.PE, ShawdsRNA.Sym.Scer\UAS.cHa
circadian behavior defective | adult stage | male | heat sensitive, with Scer\GAL4dimm-929, TrpA1Scer\UAS.cKa
circadian rhythm defective, with Scer\GAL4tim.PE, sggEP1576
circadian rhythm defective, with Scer\GAL4tim.PE, ShawdsRNA.Sym.Scer\UAS.cHa
circadian rhythm defective, with Scer\GAL4tim.PE, ShawRA.Scer\UAS.T:Zzzz\FLAG
courtship behavior defective, with bsScer\UAS.cHa
courtship behavior defective, with Scer\GAL4desat1.PB, WScer\UAS.cZa
courtship behavior defective, with Scer\GAL4pain-GAL4, painGD2221
courtship behavior defective | male | heat sensitive, with Scer\GAL4ap-md544, eghGD3206
courtship behavior defective | male | heat sensitive, with Scer\GAL4elav-C155, eghGD3206
courtship behavior defective | male | tetracycline conditional, with CaMKIIT287D.Tn10\tetO, Scer\GAL430Y, Tn10\tetRScer\UAS.T:Hsim\VP16
decreased cell death | heat sensitive, with BacA\p35Scer\UAS.cHa, Scer\GAL4wg-IS650
decreased cell death | heat sensitive, with EcRB1-ΔC655.F645A.Scer\UAS, Scer\GAL4wg-IS650
decreased cell death | heat sensitive, with EgfrDN.Scer\UAS.cBa, Scer\GAL4wg-IS650
decreased cell death | heat sensitive, with Ras85DV12.Scer\UAS, Scer\GAL4wg-IS650
decreased cell number, with Scer\GAL4byn-Gal4, panΔN.Scer\UAS
decreased cell number | late third instar larval stage, with Scer\GAL4how-24B, vnGD2321
eclosion defective, with BxEP1306, Scer\GAL4Ccap.PP
eclosion defective | heat sensitive, with ChiΔLID.Scer\UAS.T:Hsap\MYC, Scer\GAL4Ccap.PP
feeding behavior defective | second instar larval stage, with ACCB131, ACCScer\UAS.cPa, Scer\GAL4da.G32
flight defective, with Scer\GAL4futsch-C380, ShEKO.Scer\UAS.T:Avic\GFP-GL
flightless | temperature conditional, with Scer\GAL4Mhc.PW, TER94A229E.Scer\UAS
hyperactive, with CanA-14FScer\UAS.T:Hsap\MYC, Scer\GAL4elav-C155
hyperplasia, with Hsap\MECP2Scer\UAS.cLa, Scer\GAL4da.G32
hyperplasia, with Hsap\MECP2Scer\UAS.cLa, Scer\GAL4Myo31DF-NP0001
hyperplasia | conditional | somatic clone, with Ras85DV12.Scer\UAS, Scer\GAL4Scer\FRT.Act5C
hyperplasia | conditional | somatic clone, with Scer\GAL4Scer\FRT.Act5C, phlScer\UAS.F179
increased cell death, with Scer\GAL4byn-Gal4, panΔN.Scer\UAS
increased cell death | heat sensitive, with EgfrKK100051, Scer\GAL4wg-IS650
increased cell death | heat sensitive, with Scer\GAL4en-e16E, hepCA
increased cell death | larval stage | heat sensitive, with Scer\GAL4ppk.PG, ik2Scer\UAS.cKa
increased cell death | third instar larval stage, with Scer\GAL4ap-md544, rprScer\UAS.C
increased cell number, with Scer\GAL4byn-Gal4, wgScer\UAS.cHa.T:Ivir\HA1
increased cell number | somatic clone, with Scer\GAL4Myo31DF-NP0001, ykiScer\UAS.cZa
increased cell number | somatic clone | heat sensitive, with Scer\GAL4esg-NP5130, wtsKK101055
increased cell number | somatic clone | heat sensitive, with Scer\GAL4Myo31DF-NP0001, wtsKK101055
large body | adult stage | heat sensitive, with Ilp6Scer\UAS.cIa, Scer\GAL4Act.PU
large body | heat sensitive, with RpS6dsRNA.Sym.Scer\UAS, Scer\GAL4amn-c651
learning defective | adult stage, with Alkact.Scer\UAS.T:Ivir\HA1, Scer\GAL4Alk.38
learning defective | adult stage, with Alkact.Scer\UAS.T:Ivir\HA1, Scer\GAL4elav-C155
learning defective | adult stage, with Alkact.Scer\UAS.T:Ivir\HA1, Scer\GAL4Ras64B.PW
learning defective | adult stage, with AlkEC.Scer\UAS.T:Hsap\MYC, Scer\GAL4Alk.38
learning defective | adult stage, with AlkEC.Scer\UAS.T:Hsap\MYC, Scer\GAL4elav-C155
learning defective | adult stage, with AlkEC.Scer\UAS.T:Hsap\MYC, Scer\GAL4Ras64B.PW
learning defective | adult stage, with AlkGD42, Scer\GAL4Alk.38
learning defective | adult stage, with AlkGD42, Scer\GAL4elav-C155
learning defective | adult stage, with AlkGD42, Scer\GAL4Ras64B.PW
learning defective | adult stage, with AlkScer\UAS.cLa, Scer\GAL4Alk.38
learning defective | adult stage, with AlkScer\UAS.cLa, Scer\GAL4elav-C155
learning defective | adult stage, with AlkScer\UAS.cLa, Scer\GAL4Ras64B.PW
learning defective | adult stage, with Scer\GAL4Alk.38, jebScer\UAS.cVa
learning defective | adult stage, with Scer\GAL4elav-C155, jebScer\UAS.cVa
learning defective | adult stage, with Scer\GAL4Ras64B.PW, jebScer\UAS.cVa
learning defective | adult stage | heat sensitive, with RdlScer\UAS.cLa, Scer\GAL4c747
learning defective | heat sensitive, with Hsap\MAPTScer\UAS.cWa, Scer\GAL4elav.PU
locomotor behavior defective, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4104Y
locomotor behavior defective, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4121Y
locomotor behavior defective, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4154Y
locomotor behavior defective, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4210Y
locomotor behavior defective, with Hsap\TARDBPScer\UAS.T:Ivir\HA1, Scer\GAL4D42
locomotor behavior defective, with Hsap\TARDBPTDP-25.Scer\UAS.T:Ivir\HA1, Scer\GAL4D42
locomotor behavior defective | adult stage, with KhcN262S.Scer\UAS, Scer\GAL4elav.PU
locomotor behavior defective | heat sensitive, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4007Y
locomotor rhythm defective, with Scer\GAL4cry.PE, WScer\UAS.cZa
locomotor rhythm defective, with Scer\GAL4elav-C155, per01, perScer\UAS.cYa
locomotor rhythm defective, with Scer\GAL4tim.PE, crydsRNA.Scer\UAS.cPa
locomotor rhythm defective, with Scer\GAL4tim.PE, perScer\UAS.cKa
locomotor rhythm defective, with Scer\GAL4tim.PE, perScer\UAS.cYa
locomotor rhythm defective, with Scer\GAL4tim.PE, sggEP1576
locomotor rhythm defective, with Scer\GAL4tim.PE, ShawRA.Scer\UAS.T:Zzzz\FLAG
locomotor rhythm defective, with Scer\GAL4tim.PE, timScer\UAS.cYa
locomotor rhythm defective | heat sensitive, with Bhal\NaChBacScer\UAS.cNa, Scer\GAL4repo.PU
locomotor rhythm defective | heat sensitive, with Ca-P60AJF01948, Scer\GAL4repo.PU
locomotor rhythm defective | heat sensitive, with Mef2EP1751, Scer\GAL4tim.Scer\UAS
locomotor rhythm defective | heat sensitive, with Scer\GAL4alrm.PD, shi1.Scer\UAS
locomotor rhythm defective | heat sensitive, with Scer\GAL4Eaat1.PR, shi1.Scer\UAS
locomotor rhythm defective | heat sensitive, with Scer\GAL4repo.PU, shi1.Scer\UAS
long lived, with Scer\GAL4Mhc.PW, p38bScer\UAS.cAa
melanotic mass phenotype | heat sensitive, with Scer\GAL4srp.D.cCa, gcmDN.Scer\UAS.T:Rep-en
memory defective, with 5-HT1AKK108407, Scer\GAL4c739
memory defective, with 5-HT1AKK108407, Scer\GAL4ey-OK107
memory defective, with Bper\ptxAact.Scer\UAS, Scer\GAL4Mef2.247.Switch
memory defective, with DdcGD1189, Scer\GAL45015
memory defective, with DdcGD1189, Scer\GAL4c316
memory defective, with DdcGD1189, Scer\GAL4VT64246
memory defective, with NPFR1dsRNA.Scer\UAS, Scer\GAL4c061
memory defective, with Rcom\RAcs2.Scer\UAS, Scer\GAL4Cha.7.4
memory defective, with Scer\GAL4drl-PGAL8, orb2JF02376
memory defective | adult stage | heat sensitive, with Scer\GAL4ey-OK107, hopdsRNA.Scer\UAS.cCa
memory defective | adult stage | heat sensitive, with Scer\GAL4ey-OK107, Stat92ENIG.4257R
memory defective | heat sensitive, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4c205
memory defective | heat sensitive, with FdhScer\UAS.cHa, Scer\GAL4c205
memory defective | heat sensitive, with FdhScer\UAS.cHa, Scer\GAL4elav.PU
memory defective | heat sensitive, with Rnor\CMR1Scer\UAS.cPa
memory defective | heat sensitive, with Scer\GAL45-HT1B.PA, Scer\GAL4c061, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL45-HT1B.PA, Scer\GAL80Mef2.PT, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL45-HT1B.PA, Scer\GAL80ple.PK, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL4c061, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL4c259, Scer\GAL80Mef2.PT, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL4c259, Scer\GAL80ple.PK, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL4exba-krasavietz, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL4GH146, Scer\GAL4c316, Inx6GD16939
memory defective | heat sensitive, with Scer\GAL4GH146, Scer\GAL4c316, Inx7KK112684
memory defective | heat sensitive, with Scer\GAL4Mz19, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL4Mz840, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL4NP0047, Scer\GAL80Mef2.PT, TrpA1Scer\UAS.cKa
memory defective | heat sensitive, with Scer\GAL4NP0047, Scer\GAL80ple.PK, TrpA1Scer\UAS.cKa
mitotic cell cycle defective | somatic clone, with Scer\GAL4Myo31DF-NP0001, ykiScer\UAS.cZa
mitotic cell cycle defective | somatic clone | heat sensitive, with Scer\GAL4esg-NP5130, wtsKK101055
mitotic cell cycle defective | somatic clone | heat sensitive, with Scer\GAL4Myo31DF-NP0001, wtsKK101055
neuroanatomy defective, with JraJbz.Scer\UAS, Scer\GAL4D42
neuroanatomy defective, with Pi3K92ED954A.Scer\UAS.T:Hsap\MYC, Scer\GAL4exba-krasavietz
neuroanatomy defective, with Pi3K92ED954A.Scer\UAS.T:Hsap\MYC, Scer\GAL4GH298
neuroanatomy defective, with Scer\GAL4myo.PA, myoScer\UAS.cAa
neuroanatomy defective | heat sensitive, with Hsap\MAPTScer\UAS.B, Scer\GAL4elav.PU
neuroanatomy defective | heat sensitive, with Hsap\MAPTScer\UAS.cWa, Scer\GAL4elav.PU
neuroanatomy defective | larval stage, with aopScer\UAS.cRa
neuroanatomy defective | larval stage, with pntScer\UAS.P1.cZa
neuroanatomy defective | larval stage | heat sensitive, with Scer\GAL4ppk.PG, ik2Scer\UAS.cKa
neuroanatomy defective | third instar larval stage | heat sensitive, with Scer\GAL4gcm-rA87.P, gcmDN.Scer\UAS.T:Rep-en
neurophysiology defective | adult stage, with Scer\GAL4D42, cacGD3326
neurophysiology defective | adult stage, with Scer\GAL4futsch-C380, eagDN.EKI.Scer\UAS
neurophysiology defective | adult stage, with Scer\GAL4futsch-C380, ShEKO.Scer\UAS.T:Avic\GFP-GL
oxidative stress response defective, with Rac1N17.Scer\UAS, Scer\GAL4elav-C155
paralytic | heat sensitive, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4elav-C155
phototaxis defective, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4tim.PE
phototaxis defective, with Nmdar1Scer\UAS.Exel, Scer\GAL4elav-C155
planar polarity defective | cold sensitive, with Scer\GAL4salm-459.2, dsScer\UAS.cTa
planar polarity defective | heat sensitive, with Scer\GAL4pnr-MD237, chasGD7593
planar polarity defective | heat sensitive, with Scer\GAL4pnr-MD237, zipDN.Scer\UAS.T:Avic\GFP
planar polarity defective | heat sensitive, with Scer\GAL4ptc-559.1, dsecto.Scer\UAS
short lived, with Hsap\TARDBPScer\UAS.T:Ivir\HA1, Scer\GAL4D42
short lived, with Hsap\TARDBPTDP-25.Scer\UAS.T:Ivir\HA1, Scer\GAL4D42
short lived | heat sensitive, with Akt1GD1361, Scer\GAL4esg-NP5130
short lived | heat sensitive, with InRScer\UAS.Exel, Scer\GAL4esg-NP5130
short lived | heat sensitive, with Nint.U.Scer\UAS, Scer\GAL4esg-NP5130
short lived | heat sensitive, with Pi3K92ED954A.Scer\UAS.T:Hsap\MYC, Scer\GAL4esg-NP5130
short lived | heat sensitive, with Scer\GAL4esg-NP5130, bskGD10555
short lived | heat sensitive, with Scer\GAL4esg-NP5130, foxoScer\UAS.cPa
short lived | heat sensitive, with Scer\GAL4esg-NP5130, hepScer\UAS.cBa
short lived | temperature conditional, with GaleNIG.12030R, Scer\GAL4Act5C.PI
size defective, with Scer\GAL4btd-MD808, Sp1GD4097, Sp1dsRNA.Scer\UAS
size defective, with Scer\GAL4dac-p7d23, Sp1GD4097, Sp1dsRNA.Scer\UAS
size defective, with Scer\GAL4Dll-em212, Sp1GD4097, Sp1dsRNA.Scer\UAS
size defective, with Scer\GAL4nub-AC-62, armS10.Scer\UAS.T:Hsap\MYC
size defective | adult stage, with RpS3KK109080, Scer\GAL4tin.CΔ4
size defective | adult stage, with RpS5aGD14071, Scer\GAL4tin.CΔ4
size defective | adult stage, with RpS15AaGD8827, Scer\GAL4tin.CΔ4
size defective | adult stage, with Scer\GAL4tin.CΔ4, mRpS33KK109357
sleep defective, with Bhal\NaChBacScer\UAS.T:Avic\GFP-EGFP, Scer\GAL4Tdc2.PC
sleep defective | heat sensitive, with CanA-14Fact.Scer\UAS.T:Hsap\MYC, Scer\GAL4elav-C155
sleep defective | heat sensitive, with CanA-14FScer\UAS.T:Hsap\MYC, Scer\GAL4elav-C155
small body | adult stage | heat sensitive, with Ilp6GD3987, Scer\GAL4Act.PU
small body | heat sensitive, with InRGD104, Scer\GAL4Act.PU
small body | heat sensitive, with Scer\GAL4Act.PU
smell perception defective, with Pi3K92ED954A.Scer\UAS.T:Hsap\MYC, Scer\GAL4exba-krasavietz
smell perception defective, with Pi3K92ED954A.Scer\UAS.T:Hsap\MYC, Scer\GAL4GH298
smell perception defective, with Scer\GAL4GH298, sggScer\UAS.cBa
smell perception defective | heat sensitive, with GαqdsRNA.Scer\UAS.1f1
smell perception defective | heat sensitive, with GαqdsRNA.Scer\UAS
starvation stress response defective, with Rac1N17.Scer\UAS, Scer\GAL4elav-C155
stress response defective, with Rac1N17.Scer\UAS, Scer\GAL4Cha.7.4
stress response defective, with Rac1N17.Scer\UAS, Scer\GAL4elav-C155
thermotaxis behavior defective | adult stage | heat sensitive, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4DAT.PL
thermotaxis behavior defective | adult stage | heat sensitive, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4ple.PF
touch sensitivity defective | larval stage, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4109(2)80
touch sensitivity defective | larval stage, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4c755
visible, with eygScer\UAS.T:Hsim\VP16
visible, with Scer\GAL4GMR.PF, ykiS111A.S168A.S250A.Scer\UAS.T:SV5\V5
visible, with Scer\GAL4GMR.PF, ykiS168A.Scer\UAS.T:SV5\V5
visible, with Scer\GAL4nub-AC-62, armS10.Scer\UAS.T:Hsap\MYC
visible | heat sensitive, with Hsap\BMP7R292G.Scer\UAS, Scer\GAL4en.PU
visible | heat sensitive, with Hsap\BMP7Scer\UAS.cFa, Scer\GAL4en.PU
visible | heat sensitive, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4burs.PP
visible | heat sensitive, with Rho1GD4726, Scer\GAL4ptc-559.1
visible | heat sensitive, with Scer\GAL4en.PU, gbbR126A.R325A.K334N.Scer\UAS
visible | heat sensitive, with Scer\GAL4en.PU, gbbScer\UAS.cKa
visual behavior defective, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4104Y
visual behavior defective, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4121Y
visual behavior defective, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4154Y
visual behavior defective, with Ctet\TeTxLCTNT.Scer\UAS, Scer\GAL4210Y
Phenotype manifest in
Allele
adult gut, with Egfr::toract.Scer\UAS, Scer\GAL4Myo31DF-NP0001
adult gut, with EgfrDN.Scer\UAS.cBa, Scer\GAL4Myo31DF-NP0001
adult gut, with Ras85DN17.Scer\UAS, Scer\GAL4Myo31DF-NP0001
adult gut | heat sensitive, with Akt1GD1361, Scer\GAL4esg-NP5130
adult gut | heat sensitive, with InRK1409A.Scer\UAS, Scer\GAL4esg-NP5130
adult gut | heat sensitive, with InRScer\UAS.Exel, Scer\GAL4esg-NP5130
adult gut | heat sensitive, with Pi3K92ED954A.Scer\UAS.T:Hsap\MYC, Scer\GAL4esg-NP5130
adult gut | heat sensitive, with Scer\GAL4esg-NP5130, bskGD10555
adult gut | heat sensitive, with Scer\GAL4esg-NP5130, foxoScer\UAS.cPa
adult gut | heat sensitive, with Scer\GAL4esg-NP5130, hepScer\UAS.cBa
adult head | heat sensitive, with Scer\GAL4CD, eygScer\UAS.T:Hsim\VP16
adult heart, with RpS3KK109080, Scer\GAL4tin.CΔ4
adult heart, with RpS5aGD14071, Scer\GAL4tin.CΔ4
adult heart, with RpS15AaGD8827, Scer\GAL4tin.CΔ4
adult heart, with Scer\GAL4tin.CΔ4, mRpS33KK109357
adult heart, with Scer\GAL4tin.CΔ4, unc-45dsRNA.Scer\UAS.cUa
adult heart | heat sensitive, with DlD.Scer\UAS, Scer\GAL4tin.CΔ4
adult heart | heat sensitive, with EgfrDN.Scer\UAS.cBa, Scer\GAL4tin.CΔ4
adult heart | heat sensitive, with Scer\GAL4Act5C.PU, wryVDRC.cUa
adult heart | heat sensitive, with Scer\GAL4tin.CΔ4, SerDN.Scer\UAS
adult hindgut, with Scer\GAL4byn-Gal4, panΔN.Scer\UAS
adult Malpighian tubule | conditional | somatic clone, with Ras85DV12.Scer\UAS, Scer\GAL4Scer\FRT.Act5C
adult Malpighian tubule | conditional | somatic clone, with Scer\GAL4Scer\FRT.Act5C, aPKCCAAXWT.Scer\UAS
adult Malpighian tubule | conditional | somatic clone, with Scer\GAL4Scer\FRT.Act5C, aPKCΔN.Scer\UAS
adult Malpighian tubule | conditional | somatic clone, with Scer\GAL4Scer\FRT.Act5C, phlScer\UAS.F179
adult midgut | heat sensitive, with NdsRNA.P.Scer\UAS, Scer\GAL4esg-NP5130
adult midgut | heat sensitive, with Nint.G.Scer\UAS, Scer\GAL4esg-NP5130
adult midgut precursor cell | late third instar larval stage, with Scer\GAL4how-24B, vnGD2321
adult mushroom body | heat sensitive, with Hsap\MAPTScer\UAS.B, Scer\GAL4elav.PU
adult mushroom body | heat sensitive, with Hsap\MAPTScer\UAS.cWa, Scer\GAL4elav.PU
adult oenocyte, with Scer\GAL4desat1.PB, WScer\UAS.cZa
adult somatic muscle, with Scer\GAL4Mef2.PR, salmScer\UAS.cKa
anterior adult hindgut, with Scer\GAL4byn-Gal4, wgScer\UAS.cHa.T:Ivir\HA1
border follicle cell | heat sensitive, with M6KK109436, Scer\GAL4dm-PG45
crossvein | heat sensitive, with Scer\GAL4en.PU, gbbR126A.R325A.K334N.Scer\UAS
dendrite, with JraJbz.Scer\UAS, Scer\GAL4D42
dendrite & dorsal multidendritic neuron ddaC | larval stage | conditional - heat sensitive, with Scer\GAL4ppk.PG, ik2Scer\UAS.cKa
denticle belt | heat sensitive, with Scer\GAL4ptc-559.1, dsecto.Scer\UAS
dorsal air sac primordium tip cell | third instar larval stage | heat sensitive, with Mmp2dsRNA.Scer\UAS.cWa, Scer\GAL4btl.PS
dorsal air sac primordium tip cell | third instar larval stage | heat sensitive, with Scer\GAL4btl.PS, esgScer\UAS.cFa
dorsal air sac primordium tip cell | third instar larval stage | heat sensitive, with Scer\GAL4btl.PS, TimpScer\UAS.cPa
egg | heat sensitive, with M6KK109436, Scer\GAL4dm-PG45
egg | heat sensitive, with M6NIG.7540R, Scer\GAL4dm-PG45
egg chamber | heat sensitive, with M6KK109436, Scer\GAL4dm-PG45
embryonic/larval brain | larval stage | ventral, with pntScer\UAS.P1.cZa
embryonic/larval carpet glial cell | heat sensitive, with Scer\GAL4moody.SPG, WScer\UAS.cZa
embryonic/larval hindgut, with Scer\GAL4byn-Gal4, panΔN.Scer\UAS
embryonic/larval hindgut, with Scer\GAL4byn-Gal4, wgScer\UAS.cHa.T:Ivir\HA1
embryonic/larval midgut | third instar larval stage, with Scer\GAL4Myo31DF-NP0001, shiK44A.Scer\UAS
embryonic/larval neuromuscular junction | first instar larval stage | heat sensitive, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4Tdc2.PC
embryonic/larval neuromuscular junction | third instar larval stage | heat sensitive, with Scer\GAL4Tdc2.PC, shi1.Scer\UAS
embryonic/larval oenocyte | second instar larval stage, with ACCB131, ACCScer\UAS.cPa, Scer\GAL4da.G32
embryonic/larval optic lobe | temperature conditional, with Dl::NΔECN.Scer\UAS, Scer\GAL4c768
embryonic/larval optic lobe | temperature conditional, with Dl::NΔECN.Scer\UAS, Scer\GAL4C855a
embryonic/larval spiracle | larval stage, with ACCB131, ACCScer\UAS.cPa, Scer\GAL4da.G32
embryonic/larval tracheal system | larval stage, with ACCB131, ACCScer\UAS.cPa, Scer\GAL4da.G32
enterocyte, with EgfrDN.Scer\UAS.cBa, Scer\GAL4Myo31DF-NP0001
enterocyte of posterior adult midgut epithelium | heat sensitive, with NGD144, Scer\GAL4esg-NP7397
enteroendocrine cell | heat sensitive, with NGD144, Scer\GAL4esg-NP7397
eye, with Scer\GAL4GMR.PF, ykiS111A.S168A.S250A.Scer\UAS.T:SV5\V5
eye, with Scer\GAL4GMR.PF, ykiS168A.Scer\UAS.T:SV5\V5
eye | heat sensitive, with Scer\GAL4CD, eygScer\UAS.T:Hsim\VP16
eye | heat sensitive, with Scer\GAL4GMR.PF, Sk2Scer\UAS.cYa
eye | temperature conditional, with Scer\GAL4R15W.elav, WScer\UAS.cZa
female germline stem cell | supernumerary | temperature conditional, with Scer\GAL4bab1-Gal4, dppScer\UAS.cUa
first segment of antenna, with Scer\GAL4btd-MD808, Sp1GD4097, Sp1dsRNA.Scer\UAS
follicle cell | heat sensitive, with M6NIG.7540R, Scer\GAL4dm-PG45
gamma Kenyon cell, with Scer\GAL4myo.PA, myoScer\UAS.cAa
germline cell | supernumerary, with Scer\GAL4ptc-559.1, taiGD4265
germline cell | supernumerary | heat sensitive, with EcRdsRNA.Scer\UAS.cCa, Scer\GAL4bab1-Pgal4-2
germline cell | supernumerary | heat sensitive, with EcRdsRNA.Scer\UAS.cCa, Scer\GAL4ptc-559.1
germline cell | supernumerary | heat sensitive, with Scer\GAL4bab1-Pgal4-2, taiGD4265
germline cell | supernumerary | heat sensitive, with Scer\GAL4ptc-559.1, abScer\UAS.cBa
glial cell | heat sensitive, with Scer\GAL4moody.SPG, WScer\UAS.cZa
indirect flight muscle motor neuron MN5, with JraJbz.Scer\UAS, Scer\GAL4D42
indirect flight muscle motor neuron MN5, with Scer\GAL4D42, cacGD3326
intestinal stem cell, with Hsap\MECP2Scer\UAS.cLa, Scer\GAL4da.G32
intestinal stem cell | heat sensitive, with Scer\GAL4esg-NP5130, bskGD10555
intestinal stem cell | somatic clone, with Scer\GAL4esg-NP5130, wtsKK101055
intestinal stem cell | somatic clone, with Scer\GAL4Myo31DF-NP0001, wtsKK101055
intestinal stem cell | somatic clone, with Scer\GAL4Myo31DF-NP0001, ykiScer\UAS.cZa
intestinal stem cell | supernumerary | heat sensitive, with NGD144, Scer\GAL4esg-NP7397
lamellocyte | heat sensitive, with Scer\GAL4srp.D.cCa, gcmDN.Scer\UAS.T:Rep-en
leg, with Scer\GAL41151, salmScer\UAS.cKa
leg, with Scer\GAL4Mef2.PR, salmScer\UAS.cKa
leg | distal, with Scer\GAL4Dll-em212, Sp1GD4097, Sp1dsRNA.Scer\UAS
leg | medial, with Scer\GAL4dac-p7d23, Sp1GD4097, Sp1dsRNA.Scer\UAS
leg | pupal stage, with Cyp18a1GD1176, Scer\GAL4da.G32
male genitalia | conditional, with Scer\GAL4en.PU, rprScer\UAS.cUa
male genitalia | heat sensitive, with Myo31DFdsRNA.Sym.Scer\UAS, Scer\GAL4tsh-md621
male germline cell | supernumerary, with Scer\GAL4A3.eya, osScer\UAS.cZa
male germline cell | supernumerary, with Scer\GAL4A3.eya, zfh1Scer\UAS.cPa
medulla anlage | temperature conditional, with Dl::NΔECN.Scer\UAS, Scer\GAL4c768
medulla anlage | temperature conditional, with Dl::NΔECN.Scer\UAS, Scer\GAL4C855a
medulla neuropil glial cell | heat sensitive, with Scer\GAL4gcm-rA87.P, gcmDN.Scer\UAS.T:Rep-en
melanotic mass | heat sensitive, with Scer\GAL4srp.D.cCa, gcmDN.Scer\UAS.T:Rep-en
mesothoracic tergum | heat sensitive, with Scer\GAL4pnr-MD237, chasGD7593
mesothoracic tergum | heat sensitive, with Scer\GAL4pnr-MD237, zipDN.Scer\UAS.T:Avic\GFP
midgut, with Egfr::toract.Scer\UAS, Scer\GAL4esg-NP5130
midgut, with EgfrDN.Scer\UAS.cBa, Scer\GAL4esg-NP5130
midgut, with Hsap\MECP2Scer\UAS.cLa, Scer\GAL4da.G32
midgut, with Hsap\MECP2Scer\UAS.cLa, Scer\GAL4Myo31DF-NP0001
midgut, with KrnNIG.8056R, Scer\GAL4how-24B
midgut, with Krns.Scer\UAS.cUa, Scer\GAL4esg-NP5130
midgut, with Mkp3Scer\UAS.cRa, Scer\GAL4esg-NP5130
midgut, with Ras85DNIG.9375R, Scer\GAL4esg-NP5130
midgut, with Scer\GAL4esg-NP5130, aosScer\UAS.cUa
midgut, with Scer\GAL4esg-NP5130, domeScer\UAS.T:Avic\GFP-EGFP
midgut, with Scer\GAL4esg-NP5130, domeΔTMCYT.Scer\UAS
midgut, with Scer\GAL4esg-NP5130, phlNIG.2845R
midgut, with Scer\GAL4esg-NP5130, pntdsRNA.Scer\UAS.cUa
midgut, with Scer\GAL4esg-NP5130, spis.Scer\UAS
midgut, with Scer\GAL4esg-NP5130, Stat92ENIG.cUa
midgut, with Scer\GAL4esg-NP5130, upd3Scer\UAS.cMa
midgut, with Scer\GAL4how-24B, domeΔTMCYT.Scer\UAS
midgut, with Scer\GAL4how-24B, spiVDRC.cUa
midgut, with Scer\GAL4how-24B, Stat92ENIG.cUa
midgut, with Scer\GAL4how-24B, vnScer\UAS.cSa
midgut, with Scer\GAL4how-24B, vnVDRC.cUa
multidendritic neuron | heat sensitive, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4Tdc2.PC
multidendritic neuron | heat sensitive, with Scer\GAL4Tdc2.PC, shi1.Scer\UAS
muscle cell, with Scer\GAL4Mef2.PR, foxoScer\UAS.cFa
muscle cell, with Scer\GAL4Mef2.PR, foxoTM.Scer\UAS
mushroom body, with Pi3K92ED954A.Scer\UAS.T:Hsap\MYC, Scer\GAL4exba-krasavietz
mushroom body, with Scer\GAL4myo.PA, myoScer\UAS.cAa
ommatidium | heat sensitive, with Hsap\ATXN3tr.Q78.Scer\UAS.T:Ivir\HA1, Scer\GAL4GMR.PF
ommatidium | heat sensitive, with Scer\GAL4GMR.PF, Sk2Scer\UAS.cYa
optic lobe, with NetAdsRNA.Scer\UAS, Scer\GAL4GMR.long, Scer\GAL4Scer\FRT.Act5C
optic lobe | somatic clone, with fra3
photoreceptor cell | heat sensitive, with Scer\GAL4GMR.PF, Sk2Scer\UAS.cYa
photoreceptor cell R8 stalk, with NetAdsRNA.Scer\UAS, Scer\GAL4GMR.long, Scer\GAL4Scer\FRT.Act5C
photoreceptor cell R8 stalk | somatic clone, with fra3
plasmatocyte | heat sensitive, with Scer\GAL4srp.D.cCa, gcmDN.Scer\UAS.T:Rep-en
rhabdomere | heat sensitive, with Hsap\ATXN3tr.Q78.Scer\UAS.T:Ivir\HA1, Scer\GAL4GMR.PF
rhabdomere | heat sensitive, with Scer\GAL4GMR.PF, Sk2Scer\UAS.cYa
secondary neuroblast | ectopic | larval stage, with aopScer\UAS.cRa
secondary neuroblast | ectopic | larval stage, with pntScer\UAS.P1.cZa
second segment of antenna, with Scer\GAL4btd-MD808, Sp1GD4097, Sp1dsRNA.Scer\UAS
somatic cell of testis | supernumerary, with Scer\GAL4A3.eya, osScer\UAS.cZa
somatic cell of testis | supernumerary, with Scer\GAL4A3.eya, zfh1Scer\UAS.cPa
testis, with Scer\GAL4A3.eya, osScer\UAS.cZa
testis, with Scer\GAL4A3.eya, zfh1Scer\UAS.cPa
tracheal air sac | third instar larval stage | heat sensitive, with Mmp2dsRNA.Scer\UAS.cWa, Scer\GAL4btl.PS
tracheal air sac | third instar larval stage | heat sensitive, with Scer\GAL4btl.PS, esgScer\UAS.cFa
tracheal air sac | third instar larval stage | heat sensitive, with Scer\GAL4btl.PS, TimpScer\UAS.cPa
type II bouton | first instar larval stage | heat sensitive, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4Tdc2.PC
type II bouton | third instar larval stage | heat sensitive, with Scer\GAL4Tdc2.PC, shi1.Scer\UAS
ventral nerve cord | larval stage, with pntScer\UAS.P1.cZa
wing, with BxEP1306, Scer\GAL4Ccap.PP
wing, with Scer\GAL4nub-AC-62, armS10.Scer\UAS.T:Hsap\MYC
wing | adult stage A1 | heat sensitive, with Hsap\KCNJ2Scer\UAS.T:Avic\GFP-EGFP, Scer\GAL4burs.PP
wing | heat sensitive, with ChiΔLID.Scer\UAS.T:Hsap\MYC, Scer\GAL4Ccap.PP
wing | heat sensitive, with Hsap\BMP7R292G.Scer\UAS, Scer\GAL4en.PU
wing | heat sensitive, with Hsap\BMP7Scer\UAS.cFa, Scer\GAL4en.PU
wing | heat sensitive, with Rho1GD4726, Scer\GAL4ptc-559.1
wing | heat sensitive, with Rho1N19.Scer\UAS, Scer\GAL4ptc-559.1
wing | heat sensitive, with Rho1V14.Scer\UAS, Scer\GAL4ptc-559.1
wing | heat sensitive, with Scer\GAL4en.PU, gbbScer\UAS.cKa
wing blade | heat sensitive, with Scer\GAL4wg-IS650, shgKK103334
wing disc | cell autonomous | somatic clone, with edGD2575
wing disc | cell non-autonomous | somatic clone, with edGD2575
wing disc | conditional | third instar larval stage, with Rho1GD4726, Scer\GAL4ap-md544
wing disc | conditional | third instar larval stage, with Rho1V14.Scer\UAS, Scer\GAL4ap-md544
wing disc | conditional | third instar larval stage, with RhoGEF2Scer\UAS.cUa, Scer\GAL4ap-md544
wing disc | posterior compartment | heat sensitive, with Scer\GAL4hh-Gal4, cpadsRNA.Scer\UAS.cFa
wing disc | third instar larval stage, with Scer\GAL4ap-md544, rprScer\UAS.C
wing hair, with Scer\GAL4nub-AC-62, armS10.Scer\UAS.T:Hsap\MYC
wing hair | cold sensitive, with Scer\GAL4salm-459.2, dsScer\UAS.cTa
wing hair | heat sensitive, with BacA\p35Scer\UAS.cHa, Scer\GAL4wg-IS650
wing hair | heat sensitive, with EcRB1-ΔC655.F645A.Scer\UAS, Scer\GAL4wg-IS650
wing hair | heat sensitive, with EgfrDN.Scer\UAS.cBa, Scer\GAL4wg-IS650
wing hair | heat sensitive, with Ras85DV12.Scer\UAS, Scer\GAL4wg-IS650
wing hair | heat sensitive, with Rho1GD4726, Scer\GAL4ptc-559.1
wing hair | heat sensitive, with Rho1N19.Scer\UAS, Scer\GAL4ptc-559.1
wing hair | heat sensitive, with Scer\GAL4wg-IS650, shgKK103334
wing hair | pupal stage, with Scer\GAL4dpp.blk1, sec15KK101708
wing hair | supernumerary | heat sensitive, with Rho1GD4726, Scer\GAL4ptc-559.1
wing hair | supernumerary | heat sensitive, with Rho1N19.Scer\UAS, Scer\GAL4ptc-559.1
wing hair | supernumerary | heat sensitive, with Rho1V14.Scer\UAS, Scer\GAL4ptc-559.1
wing margin | heat sensitive, with BacA\p35Scer\UAS.cHa, Scer\GAL4wg-IS650
wing margin | heat sensitive, with EcRB1-ΔC655.F645A.Scer\UAS, Scer\GAL4wg-IS650
wing margin | heat sensitive, with EgfrDN.Scer\UAS.cBa, Scer\GAL4wg-IS650
wing margin | heat sensitive, with EgfrKK100051, Scer\GAL4wg-IS650
wing margin | heat sensitive, with Ras85DV12.Scer\UAS, Scer\GAL4wg-IS650
wing margin | heat sensitive, with Scer\GAL4wg-IS650, shgKK103334
wing margin | temperature conditional, with Scer\GAL4wg-IS650, panΔN.Scer\UAS
hide Classical Alleles ( 6 )
For All Classical Alleles Show

Allele of Scer\GAL80ClassMutagenStocksKnown lesion
Scer\GAL803.1.w-
0 --
Scer\GAL806.1.w-
0 --
Scer\GAL80longGMR
0 --
Scer\GAL80NP2492
0 Yes
Scer\GAL80tsh-GAL800 Yes
Scer\GAL80unspecified
0 --
hide Alleles Carried on Transgenic Constructs ( 38 )
For All Alleles Carried on Transgenic Constructs Show

Allele of Scer\GAL80ClassMutagenStocksKnown lesion
Scer\GAL80αTub84B.PL36 Yes
Scer\GAL80IVS.WPRE.8xEcol\lexAop5 Yes
Scer\GAL80ts.αTub84B5 Yes
Scer\GAL80ID4 Yes
Scer\GAL80αTub84B.PG3 Yes
Scer\GAL80ET2 Yes
Scer\GAL80Scer\FRT.αTub84B2 Yes
Scer\GAL80ey.3.51 Yes
Scer\GAL80ase.PN0 Yes
Scer\GAL80btl
0 --
Scer\GAL80Ccap.PL0 Yes
Scer\GAL80Cha.3.3P0 Yes
Scer\GAL80Cha.PK0 Yes
Scer\GAL80cry.PS0 Yes
Scer\GAL80Ecol\lexAop0 Yes
Scer\GAL80Eh.2.40 Yes
Scer\GAL80elav.PS0 Yes
Scer\GAL80elav.PSb0 Yes
Scer\GAL80elav.PY0 Yes
Scer\GAL80eve.RRK0 --
Scer\GAL80Gad10 Yes
Scer\GAL80hsp70.R11F050 Yes
Scer\GAL80Ir64a.PA0 Yes
Scer\GAL80IVS.hsp70.R11F050 Yes
Scer\GAL80IVS.WPRE.hsp70.R11F050 Yes
Scer\GAL80mb2470 --
Scer\GAL80Mef2.PT0 Yes
Scer\GAL80Mhc.PW0 Yes
Scer\GAL80Pdf.PS0 Yes
Scer\GAL80ple.PK0 Yes
Scer\GAL80ppk.PY0 Yes
Scer\GAL80repo.PL0 Yes
Scer\GAL80SV40.R11F050 Yes
Scer\GAL80SV40.R15E070 Yes
Scer\GAL80svp.3kb0 Yes
Scer\GAL80WPRE.hsp70.R11F050 Yes
Scer\GAL80αTub84B.PB0 Yes
Scer\GAL80αTub84B.PC0 Yes
hide Aneuploid Aberrations
hide Transgenic Constructs & Insertions
Transgenic Constructs
Type of construct
Name
Expression data
Insertions
Type of insertions
Name
Expression data
hide Gene Ontology: Function, Process & Cellular Component ( 0 unique terms )
hide Terms Based on Experimental Evidence ( 0 terms )
hide Terms Based on Predictions or Assertions ( 0 terms )
hide Sequence Ontology: Class of Gene
engineered_foreign_gene
 
hide Interactions & Pathways
hide Summary of Physical Interactions
hide Summary of Genetic Interactions
Interacts with
Please look at the allele data for full details of the genetic interactions
Scer\GAL80 allele
Gene
References
hide External Data
Linkouts
hide Orthologs
hide OrthoDB Orthologs (0) - based on analysis using Dmel annotation version 5.41
OrthoDB Ortholog Groups
OrthoDB orthology group searches
(Waterhouse et al., 2011, Nucleic Acids Res. 39(Database issue): D283--D288)
Drosophila inclusive ortholog search
No orthologs identified
Dipteran inclusive ortholog search
No orthologs identified
Insect inclusive ortholog search
No orthologs identified
Arthropod inclusive ortholog search
No orthologs identified
Metazoa inclusive ortholog search
No orthologs identified
Ortholog(s) in Drosophila melanogaster (None identified)
No D. melanogaster orthologies identified
hide Human Orthologs (0)
Gene
OMIM
HGNC
hideAAA Orthologs (0) based on analysis using Dmel annotation version 4.3
No orthologs identified
hide Stocks & Reagents
hide Stocks Listed in FlyBase ( 58 )
Bloomington
33223
w*; P{ID.GAL80}E10.1
30040
P{ET-GAL80}1, y1 w1118
30041
y1 w1118; P{ET-GAL80}2
7017
w*; P{tubP-GAL80ts}2/TM2
32213
w*; P{8XLexAop2-IVS-GAL80-WPRE}attP2
32214
w*; P{8XLexAop2-IVS-GAL80-WPRE}attP40
32217
w* P{8XLexAop2-IVS-GAL80-WPRE}su(Hw)attP8
32215
w*; P{8XLexAop2-IVS-GAL80-WPRE}su(Hw)attP1
32216
w*; P{8XLexAop2-IVS-GAL80-WPRE}su(Hw)attP5
5132
P{hsFLP}1, P{tubP-GAL80}LL1 w* P{neoFRT}19A
5140
w*; P{FRT(whs)}G13 P{tubP-GAL80}LL2
38881
w*; Bl1/CyO; P{αTub84B(FRT.GAL80)}3
hide Genomic Clones ( 0 )
hide cDNA Clones ( 0 )
cDNA Clones, Fully Sequenced
BDGP DGC clones
Other clones
cDNA Clones, End Sequenced (ESTs)
BDGP DGC clones
Other clones
hide RNAi & Array Information
Linkouts
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hide Etymology
hide Identification
hide Relationship to Other Genes
Source for database identity of
Source for database merge of
Additional comments
hide Other Comments
Used a repressor in the MARCM (Mosaic Analysis with a Repressible Cell Marker) system.
(Lee and Luo, 1999)
Scer\GAL80 antagonizes the activity of Scer\GAL4 in developing and adult flies.
(Lee and Luo, 1999)
hide Tag or Foreign Gene Data
  • Foreign sequence; species == Saccharomyces cerevisiae; gene == GAL80; SGD:S000004515.
hide External Crossreferences & Linkouts
Sequence Crossreferences
Other Crossreferences
SGD
  • S000004515
Linkouts
hide Synonyms & Secondary IDs ( 6 )
Reported As
Symbol Synonym
G80
(Wang and Struhl, 2004)
GAL80
(Tien et al., 2008, Lei et al., 2003, Luan et al., 2006, Dutta et al., 2005, Ward et al., 2006, Vef et al., 2006, Long et al., 2006, McDonald et al., 2006, Poulton and Deng, 2006, Ryoo et al., 2004, Kim et al., 2007, Gutierrez et al., 2007, Zhu et al., 2006, Thum et al., 2011, Miura et al., 2006, Stoleru et al., 2007, Zhu et al., 2005, Assa-Kunik et al., 2007, Hewes et al., 2006, Keene et al., 2004, Shafer et al., 2008, Umemori et al., 2009, Poeck et al., 2008, Wernet et al., 2006, Makhijani et al., 2007, Wang et al., 2011, Rothenfluh et al., 2006, Keleman et al., 2007, Wang et al., 2008, Rallis et al., 2010, Xia and Tully, 2007, Sitaraman et al., 2008, Krashes et al., 2007, Zhao et al., 2009, Kamikouchi et al., 2009, Donlea et al., 2009, Chen et al., 2012, Billeter et al., 2009, Agrawal et al., 2010, Takashima et al., 2008, Franciscovich et al., 2008, Hodge and Stanewsky, 2008, Blanco et al., 2010, Hari et al., 2008, Moressis et al., 2009, Hekmat-Scafe et al., 2010, Boerner and Duch, 2010, Nagoshi et al., 2010, Kamikouchi et al., 2010, Zhou et al., 2010, Sanders et al., 2010, Tonoki et al., 2011, Kelley et al., 2008, Sung et al., 2010, Malzer et al., 2010, Chiang et al., 2011, Kim et al., 2010, Jiang and Edgar, 2009, Dow et al., 2003, Orihara-Ono et al., 2011, Chang et al., 2011, Knapek et al., 2011, Kuranaga et al., 2011, Vonhoff and Duch, 2010, Ai et al., 2010, Hou et al., 2011, Hijazi et al., 2011, Eddison et al., 2011, Okumura et al., 2010, Fei et al., 2010, Fox and Spradling, 2009, Awasaki et al., 2011, Awasaki et al., 2011, Awasaki et al., 2008, Roch et al., 2010, Elsaesser et al., 2010, Mathur et al., 2010, Takemura and Adachi-Yamada, 2011, Schönbauer et al., 2011, Berger et al., 2012, Leonardi et al., 2011, Melkani et al., 2011, Bosveld et al., 2012, Liu et al., 2012, Kong et al., 2010, Weber et al., 2012)
Gal80
(Benton et al., 2006, Lawrence et al., 2004, Chotard et al., 2005, Baena-Lopez and Garcia-Bellido, 2006, Speder et al., 2006, Komiyama et al., 2007, Bazigou et al., 2007, Sato and Tomlinson, 2007, Berdnik et al., 2006, Komiyama et al., 2004, Sweeney et al., 2006, Bazigou et al., 2007, Luan et al., 2006, Liu et al., 2007, Thistle et al., , Luan et al., 2006, Sasaki et al., 2007, Molnar et al., 2011, Baena-Lopez et al., 2009, Fischler et al., 2007, Mondal et al., 2007, Grueber et al., 2007, Liu and Davis, 2009, Thompson et al., 2005, Iyengar et al., 2006, Picot et al., 2007, Helfrich-Forster et al., 2007, Ruiz et al., 2012, Zirin and Mann, 2007, Song et al., 2009, Fang et al., 2010, Wang et al., 2010, Cabernard and Doe, 2009, Betz et al., 2008, Dimitrova et al., 2008, Wang et al., 2008, Franch-Marro et al., 2008, Nezis et al., 2008, Qian et al., 2008, Yu et al., 2010, Rhiner et al., 2010, Pauli et al., 2010, Zhang et al., 2012, Rewitz et al., 2010, Liu et al., 2010, White et al., 2010, Repiso et al., 2010, Laplante and Nilson, 2011, Zeng et al., 2010, Buchon et al., 2010, Varija Raghu et al., 2011, Yonamine et al., 2011, Acebes et al., 2011, Hogan et al., 2011, Nisoli et al., 2010, Hadjieconomou et al., 2011, Poulton et al., 2011, Demontis and Perrimon, 2010, Shuai et al., 2011, Ren et al., 2010, Schwedes et al., 2011, Ferris et al., 2006, Lee et al., 2011, Hasegawa et al., 2011, Thevenon et al., 2009, Viktorin et al., 2011, Hermann et al., 2012, Keene et al., 2011, Johard et al., 2009, Rideout et al., 2010, Gregory et al., 2012, Michels et al., 2011, Biteau et al., 2010, Casali, 2010, Liu et al., 2010, Karim and Moore, 2011, Gong et al., 2010, Callejo et al., 2011, Kosmidis et al., 2010, Papanikolopoulou et al., 2010, Herranz et al., 2010, Koon et al., 2011, Stephan et al., 2011, Moraru et al., 2012, Gault et al., 2012, Timofeev et al., 2012, Kaneko et al., 2012, Hudson and Cooley, 2010)
gal80
(de Navas et al., 2006, Cabernard and Affolter, 2005, Picot et al., 2009, Warner and Longmore, 2009, Widmann and Dahmann, 2009)
Scer\GAL80
(Casal et al., 2006)
tub-Gal80
(Lee et al., 2011)
Name Synonym
Secondary FlyBase IDs
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Okamoto et al., 2013, Genes Dev. 27(1): 87--97
A secreted decoy of InR antagonizes insulin/IGF signaling to restrict body growth in Drosophila. [FBrf0220509]
Vonhoff et al., 2013, Development 140(3): 606--616
Temporal coherency between receptor expression, neural activity and AP-1-dependent transcription regulates Drosophila motoneuron dendrite development. [FBrf0220342]
Aso et al., 2012, PLoS Genet. 8(7): e1002768
Three dopamine pathways induce aversive odor memories with different stability. [FBrf0218860]
Berger et al., 2012, Cell Rep. 2(2): 407--418
FACS Purification and Transcriptome Analysis of Drosophila Neural Stem Cells Reveals a Role for Klumpfuss in Self-Renewal. [FBrf0219320]
Chakrabarti et al., 2012, Cell Host Microbe 12(1): 60--70
Infection-induced host translational blockage inhibits immune responses and epithelial renewal in the Drosophila gut. [FBrf0218984]
Chen et al., 2012, Dev. Neurobiol. 72(11): 1422--1432
The POU-domain protein Pdm3 regulates axonal targeting of R neurons in the Drosophila ellipsoid body. [FBrf0219674]
Chen et al., 2012, Science 335(6069): 678--685
Visualizing long-term memory formation in two neurons of the Drosophila brain. [FBrf0217453]
Daenzer et al., 2012, PLoS Genet. 8(5): e1002721
UDP-Galactose 4'-Epimerase Activities toward UDP-Gal and UDP-GalNAc Play Different Roles in the Development of Drosophila melanogaster. [FBrf0218493]
Duran et al., 2012, EMBO Mol. Med. 4(8): 719--729
Deleterious effects of neuronal accumulation of glycogen in flies and mice. [FBrf0219126]
Duvall and Taghert, 2012, PLoS Biol. 10(6): e1001337
The Circadian Neuropeptide PDF Signals Preferentially through a Specific Adenylate Cyclase Isoform AC3 in M Pacemakers of Drosophila. [FBrf0218594]
Fritsch et al., 2012, J. Biol. Chem. 287(8): 5942--5953
Different Requirements for Proteolytic Processing of Bone Morphogenetic Protein 5/6/7/8 Ligands in Drosophila melanogaster. [FBrf0217533]
Füger et al., 2012, PLoS Genet. 8(11): e1003066
Spastic Paraplegia Mutation N256S in the Neuronal Microtubule Motor KIF5A Disrupts Axonal Transport in a Drosophila HSP Model. [FBrf0220146]
Gault et al., 2012, J. Cell Biol. 196(5): 605--621
Drosophila CK1-γ, gilgamesh, controls PCP-mediated morphogenesis through regulation of vesicle trafficking. [FBrf0217630]
Gregory et al., 2012, PLoS ONE 7(2): e31899
The Aggregation and Neurotoxicity of TDP-43 and Its ALS-Associated 25 kDa Fragment Are Differentially Affected by Molecular Chaperones in Drosophila. [FBrf0217614]
Grima et al., 2012, PLoS Biol. 10(8): e1001367
CULLIN-3 Controls TIMELESS Oscillations in the Drosophila Circadian Clock. [FBrf0219137]
Hergarden et al., 2012, Proc. Natl. Acad. Sci. U.S.A. 109(10): 3967--3972
Allatostatin-A neurons inhibit feeding behavior in adult Drosophila. [FBrf0217661]
Hermann et al., 2012, J. Comp. Neurol. 520(5): 970--987
Neuropeptide F immunoreactive clock neurons modify evening locomotor activity and free-running period in Drosophila melanogaster. [FBrf0217231]
Hong et al., 2012, Nature 484(7393): 201--207
Teneurins instruct synaptic partner matching in an olfactory map. [FBrf0218059]
Jafari et al., 2012, PLoS Biol. 10(3): e1001280
Combinatorial activation and repression by seven transcription factors specify Drosophila odorant receptor expression. [FBrf0217822]
Kaneko et al., 2012, Curr. Biol. 22(19): 1851--1857
Circadian rhythm of temperature preference and its neural control in Drosophila. [FBrf0219631]
Krüttner et al., 2012, Neuron 76(2): 383--395
Drosophila CPEB Orb2A Mediates Memory Independent of Its RNA-Binding Domain. [FBrf0219767]
Liu et al., 2012, PLoS ONE 7(8): e42725
Drosophila EYA Regulates the Immune Response against DNA through an Evolutionarily Conserved Threonine Phosphatase Motif. [FBrf0219297]
Liu et al., 2012, Curr. Biol. 22(22): 2114--2123
Two dopaminergic neurons signal to the dorsal fan-shaped body to promote wakefulness in Drosophila. [FBrf0220041]
Liu et al., 2012, Nature 488(7412): 512--516
A subset of dopamine neurons signals reward for odour memory in Drosophila. [FBrf0219314]
Majumdar et al., 2012, Cell 148(3): 515--529
Critical Role of Amyloid-like Oligomers of Drosophila Orb2 in the Persistence of Memory. [FBrf0217407]
Moraru et al., 2012, Neural Dev. 7(1): 14
Analysis of cell identity, morphology, apoptosis and mitotic activity in a primary neural cell culture system in Drosophila. [FBrf0218691]
Mosca et al., 2012, Nature 484(7393): 237--241
Trans-synaptic Teneurin signalling in neuromuscular synapse organization and target choice. [FBrf0218053]
Palm et al., 2012, PLoS Genet. 8(7): e1002828
Lipoproteins in Drosophila melanogaster-Assembly, Function, and Influence on Tissue Lipid Composition. [FBrf0219024]
Parvy et al., 2012, PLoS Genet. 8(8): e1002925
Drosophila melanogaster Acetyl-CoA-Carboxylase Sustains a Fatty Acid-Dependent Remote Signal to Waterproof the Respiratory System. [FBrf0219401]
Peru Y Colón de Portugal et al., 2012, J. Neurosci. 32(49): 17706--17713
Adult Neuronal Arf6 Controls Ethanol-Induced Behavior with Arfaptin Downstream of Rac1 and RhoGAP18B. [FBrf0220158]
Poernbacher et al., 2012, Curr. Biol. 22(5): 389--396
Drosophila Pez acts in hippo signaling to restrict intestinal stem cell proliferation. [FBrf0217766]
Rajan and Perrimon, 2012, Cell 151(1): 123--137
Drosophila cytokine unpaired 2 regulates physiological homeostasis by remotely controlling insulin secretion. [FBrf0219535]
Rezaval et al., 2012, Curr. Biol. 22(13): 1155--1165
Neural circuitry underlying Drosophila female postmating behavioral responses. [FBrf0218941]
Ruben et al., 2012, J. Biol. Rhythms 27(5): 353--364
A mechanism for circadian control of pacemaker neuron excitability. [FBrf0219602]
Ruiz et al., 2012, PLoS ONE 7(9): e45649
Drosophila Zpr1 (Zinc Finger Protein 1) Is Required Downstream of Both EGFR And FGFR Signaling in Tracheal Subcellular Lumen Formation. [FBrf0219539]
Ryglewski et al., 2012, J. Physiol. 590(4): 809--825
Cav2 channels mediate low and high voltage-activated calcium currents in Drosophila motoneurons. [FBrf0217496]
Saleem et al., 2012, Mech. Dev. 129(5-8): 177--191
Drosophila melanogaster p24 trafficking proteins have vital roles in development and reproduction. [FBrf0219054]
Schneider et al., 2012, PLoS ONE 7(12): e52007
Neuronal basis of innate olfactory attraction to ethanol in Drosophila. [FBrf0220349]
Song et al., 2012, Genes Dev. 26(14): 1612--1625
Regeneration of Drosophila sensory neuron axons and dendrites is regulated by the Akt pathway involving Pten and microRNA bantam. [FBrf0218927]
Sundram et al., 2012, J. Biol. Rhythms 27(3): 183--195
Cellular Requirements for LARK in the Drosophila Circadian System. [FBrf0218481]
Sánchez-Hernández et al., 2012, Development 139(20): 3849--3858
The WIF domain of the human and Drosophila Wif-1 secreted factors confers specificity for Wnt or Hedgehog. [FBrf0219478]
Thistle et al., 2012, Cell 149(5): 1140--1151
Contact Chemoreceptors Mediate Male-Male Repulsion and Male-Female Attraction during Drosophila Courtship. [FBrf0218411]
Timofeev et al., 2012, Neuron 75(1): 80--93
Localized netrins act as positional cues to control layer-specific targeting of photoreceptor axons in Drosophila. [FBrf0218874]
Tsubouchi et al., 2012, Curr. Biol. 22(22): 2124--2134
Dendritic Filopodia, Ripped Pocket, NOMPC, and NMDARs Contribute to the Sense of Touch in Drosophila Larvae. [FBrf0219946]
Volders et al., 2012, J. Neurosci. 32(43): 15193--15204
Drosophila rugose Is a Functional Homolog of Mammalian Neurobeachin and Affects Synaptic Architecture, Brain Morphology, and Associative Learning. [FBrf0219807]
Wang et al., 2012, Mol. Cell. Biol. 32(12): 2203--2213
LST8 Regulates Cell Growth via Target-of-Rapamycin Complex 2 (TORC2). [FBrf0218417]
Wang and Sun, 2012, Development 139(18): 3413--3421
Segregation of eye and antenna fates maintained by mutual antagonism in Drosophila. [FBrf0219201]
Weber et al., 2012, Genetics 191(1): 145--162
Novel regulators of planar cell polarity: a genetic analysis in Drosophila. [FBrf0218210]
Weiss et al., 2012, Genetics 190(2): 581--600
Huntingtin Aggregation Kinetics and Their Pathological Role in a Drosophila Huntington's Disease Model. [FBrf0217529]
Yanagihashi et al., 2012, J. Cell Sci. 125(8): 1980--1990
Snakeskin, a membrane protein associated with smooth septate junctions, is required for intestinal barrier function in Drosophila. [FBrf0218431]
Zhang et al., 2012, PLoS ONE 7(2): e31994
Control of tissue growth and cell transformation by the salvador/warts/hippo pathway. [FBrf0217552]
Acebes et al., 2011, J. Neurosci. 31(8): 2734--2745
Synapse loss in olfactory local interneurons modifies perception. [FBrf0213264]
Awasaki et al., 2011, Nat. Neurosci. 14(7): 821--823
Glia instruct developmental neuronal remodeling through TGF-β signaling. [FBrf0213992]
Bader et al., 2011, Cell 145(3): 371--382
A conserved f box regulatory complex controls proteasome activity in Drosophila. [FBrf0213568]
Bang et al., 2011, PLoS Genet. 7(3): e1001346
Dopamine signalling in mushroom bodies regulates temperature-preference behaviour in Drosophila. [FBrf0213392]
Callejo et al., 2011, Proc. Natl. Acad. Sci. U.S.A. 108(31): 12591--12598
Feature Article: From the Cover: Dispatched mediates Hedgehog basolateral release to form the long-range morphogenetic gradient in the Drosophila wing disk epithelium. [FBrf0214615]
Casad et al., 2011, Genetics 189(3): 861--870
Cardiomyopathy Is Associated with Ribosomal Protein Gene Haplo-Insufficiency in Drosophila melanogaster. [FBrf0216591]
Chang et al., 2011, PLoS Genet. 7(2): e1001288
Pathogenic VCP/TER94 Alleles Are Dominant Actives and Contribute to Neurodegeneration by Altering Cellular ATP Level in a Drosophila IBMPFD Model. [FBrf0213008]
Chang et al., 2011, Development 138(17): 3803--3812
Differential adhesion and actomyosin cable collaborate to drive Echinoid-mediated cell sorting. [FBrf0214612]
Chen et al., 2011, Curr. Biol. 21(9): 719--729
QUASIMODO, a Novel GPI-Anchored Zona Pellucida Protein Involved in Light Input to the Drosophila Circadian Clock. [FBrf0213611]
Chiang et al., 2011, Curr. Biol. 21(1): 1--11
Three-Dimensional Reconstruction of Brain-wide Wiring Networks in Drosophila at Single-Cell Resolution. [FBrf0212704]
Clark et al., 2011, Curr. Biol. 21(19): 1672--1677
Multiple TGF-β Superfamily Signals Modulate the Adult Drosophila Immune Response. [FBrf0216429]
Cognigni et al., 2011, Cell Metab. 13(1): 92--104
Enteric neurons and systemic signals couple nutritional and reproductive status with intestinal homeostasis. [FBrf0212594]
Copf et al., 2011, Proc. Natl. Acad. Sci. U.S.A. 108(19): 8059--8064
Cytokine signaling through the JAK/STAT pathway is required for long-term memory in Drosophila. [FBrf0213703]
Eddison et al., 2011, Neuron 70(5): 979--990
arouser Reveals a Role for Synapse Number in the Regulation of Ethanol Sensitivity. [FBrf0213908]
Ellis and Carney, 2011, Genetics 187(1): 157--169
Socially-Responsive Gene Expression in Male Drosophila melanogaster Is Influenced by the Sex of the Interacting Partner. [FBrf0212780]
Fernández et al., 2011, Development 138(11): 2337--2346
Actin-Capping Protein and the Hippo pathway regulate F-actin and tissue growth in Drosophila. [FBrf0213674]
Gallio et al., 2011, Cell 144(4): 614--624
The coding of temperature in the Drosophila brain. [FBrf0213085]
Goda et al., 2011, PLoS Genet. 7(7): e1002167
Adult Circadian Behavior in Drosophila Requires Developmental Expression of cycle, But Not period. [FBrf0214302]
Gohl et al., 2011, Nat. Methods 8(3): 231--237
A versatile in vivo system for directed dissection of gene expression patterns. [FBrf0213287]
Gouzi et al., 2011, PLoS Genet. 7(9): e1002281
The receptor tyrosine kinase alk controls neurofibromin functions in Drosophila growth and learning. [FBrf0216258]
Hadjieconomou et al., 2011, Nat. Methods 8(3): 260--266
Flybow: genetic multicolor cell labeling for neural circuit analysis in Drosophila melanogaster. [FBrf0213120]
Hakeda-Suzuki et al., 2011, Nat. Neurosci. 14(3): 314--323
Golden Goal collaborates with Flamingo in conferring synaptic-layer specificity in the visual system. [FBrf0213128]
Hasegawa et al., 2011, Development 138(5): 983--993
Concentric zones, cell migration and neuronal circuits in the Drosophila visual center. [FBrf0213020]
Hijazi et al., 2011, PLoS ONE 6(3): e17763
The ly6 protein coiled is required for septate junction and blood brain barrier organisation in Drosophila. [FBrf0213269]
Hogan et al., 2011, PLoS Genet. 7(2): e1001305
Two frizzled planar cell polarity signals in the Drosophila wing are differentially organized by the fat/dachsous pathway. [FBrf0213159]
Hou et al., 2011, Nitric Oxide 24(1): 17--24
Nitric oxide metabolism controlled by formaldehyde dehydrogenase (fdh, homolog of mammalian GSNOR) plays a crucial role in visual pattern memory in Drosophila. [FBrf0212726]
Hung et al., 2011, Science 334(6063): 1710--1713
Direct redox regulation of F-actin assembly and disassembly by Mical. [FBrf0217252]
Kang et al., 2011, PLoS ONE 6(12): e29800
Novel Cytochrome P450, cyp6a17, Is Required for Temperature Preference Behavior in Drosophila. [FBrf0217065]
Karim and Moore, 2011, J. Neurosci. 31(47): 17017--17027
Convergent local identity and topographic projection of sensory neurons. [FBrf0216770]
Keene et al., 2011, J. Neurosci. 31(17): 6527--6534
Distinct visual pathways mediate Drosophila larval light avoidance and circadian clock entrainment. [FBrf0213587]
King et al., 2011, J. Neurosci. 31(3): 1139--1148
Drosophila tao Controls Mushroom Body Development and Ethanol-Stimulated Behavior through par-1. [FBrf0212818]
Knapek et al., 2011, J. Neurosci. 31(9): 3453--3458
Bruchpilot, a synaptic active zone protein for anesthesia-resistant memory. [FBrf0213189]
Koon et al., 2011, Nat. Neurosci. 14(2): 190--199
Autoregulatory and paracrine control of synaptic and behavioral plasticity by octopaminergic signaling. [FBrf0212895]
Kuranaga et al., 2011, Development 138(8): 1493--1499
Apoptosis controls the speed of looping morphogenesis in Drosophila male terminalia. [FBrf0213320]
König et al., 2011, EMBO J. 30(8): 1549--1562
Ecdysteroids affect Drosophila ovarian stem cell niche formation and early germline differentiation. [FBrf0213531]
Laplante and Nilson, 2011, J. Cell Biol. 192(2): 335--348
Asymmetric distribution of Echinoid defines the epidermal leading edge during Drosophila dorsal closure. [FBrf0212838]
Lee et al., 2011, Cell Struct. Funct. 36(2): 197--208
Regulation of Intestinal Stem Cell Proliferation by Human Methyl-CpG-binding Protein-2 in Drosophila. [FBrf0216745]
Lee et al., 2011, Proc. Natl. Acad. Sci. U.S.A. 108(33): 13794--13799
Serotonin-mushroom body circuit modulating the formation of anesthesia-resistant memory in Drosophila. [FBrf0214737]
Leonardi et al., 2011, Development 138(16): 3569--3578
Multiple O-glucosylation sites on Notch function as a buffer against temperature-dependent loss of signaling. [FBrf0214548]
Li et al., 2011, PLoS ONE 6(11): e28269
The hector G-Protein Coupled Receptor Is Required in a Subset of fruitless Neurons for Male Courtship Behavior. [FBrf0216834]
Lieber et al., 2011, Neuron 69(3): 468--481
DSL-Notch Signaling in the Drosophila Brain in Response to Olfactory Stimulation. [FBrf0212999]
Lin et al., 2011, PLoS Genet. 7(12): e1002408
Drosophila Ribosomal Protein Mutants Control Tissue Growth Non-Autonomously via Effects on the Prothoracic Gland and Ecdysone. [FBrf0217066]
Melkani et al., 2011, PLoS ONE 6(7): e22579
The UNC-45 Chaperone Is Critical for Establishing Myosin-Based Myofibrillar Organization and Cardiac Contractility in the Drosophila Heart Model. [FBrf0214543]
Michels et al., 2011, Learn. Mem. 18(5): 332--344
Cellular site and molecular mode of synapsin action in associative learning. [FBrf0213538]
Molnar et al., 2011, PLoS Genet. 7(3): e1001335
Role of the Drosophila non-visual ß-arrestin kurtz in hedgehog signalling. [FBrf0213301]
Morante et al., 2011, Development 138(4): 687--693
Cell migration in Drosophila optic lobe neurons is controlled by eyeless/Pax6. [FBrf0212874]
Neumüller et al., 2011, Cell Stem Cell 8(5): 580--593
Genome-Wide Analysis of Self-Renewal in Drosophila Neural Stem Cells by Transgenic RNAi. [FBrf0213621]
Ng et al., 2011, Curr. Biol. 21(8): 625--634
Glial cells physiologically modulate clock neurons and circadian behavior in a calcium-dependent manner. [FBrf0213518]
Ofstad et al., 2011, Nature 474(7350): 204--207
Visual place learning in Drosophila melanogaster. [FBrf0213884]
Olguín et al., 2011, Curr. Biol. 21(3): 236--242
Intertissue mechanical stress affects frizzled-mediated planar cell polarity in the Drosophila notum epidermis. [FBrf0212947]
Orihara-Ono et al., 2011, Dev. Biol. 351(1): 163--175
Downregulation of Notch mediates the seamless transition of individual Drosophila neuroepithelial progenitors into optic medullar neuroblasts during prolonged G1. [FBrf0212978]
Perdigoto et al., 2011, Development 138(21): 4585--4595
Distinct levels of Notch activity for commitment and terminal differentiation of stem cells in the adult fly intestine. [FBrf0216374]
Pitman et al., 2011, Curr. Biol. 21(10): 855--861
A pair of inhibitory neurons are required to sustain labile memory in the Drosophila mushroom body. [FBrf0213725]
Poulton et al., 2011, Development 138(9): 1737--1745
The microRNA pathway regulates the temporal pattern of Notch signaling in Drosophila follicle cells. [FBrf0213494]
Rauskolb et al., 2011, PLoS Biol. 9(6): e1000624
Zyxin links fat signaling to the hippo pathway. [FBrf0213900]
Sarno et al., 2011, Int. J. Dev. Biol. 55(10-11-12): 975--979
Effect of the transformer-2 gene of Anastrepha on the somatic sexual development of Drosophila. [FBrf0217213]
Schwedes et al., 2011, J. Insect Physiol. 57(7): 899--907
Ecdysone receptor expression and activity in adult Drosophila melanogaster. [FBrf0214050]
Schönbauer et al., 2011, Nature 479(7373): 406--409
Spalt mediates an evolutionarily conserved switch to fibrillar muscle fate in insects. [FBrf0216735]
Shuai et al., 2011, J. Neurogenet. 25(1-2): 35--39
Stress Resistance Conferred by Neuronal Expression of Dominant-Negative Rac in Adult Drosophila melanogaster. [FBrf0213665]
Stephan et al., 2011, Mol. Biol. Cell 22(21): 4079--4092
Membrane-targeted WAVE mediates photoreceptor axon targeting in the absence of the WAVE complex in Drosophila. [FBrf0216499]
Sweeney et al., 2011, Neuron 72(5): 734--747
Secreted Semaphorins from Degenerating Larval ORN Axons Direct Adult Projection Neuron Dendrite Targeting. [FBrf0216932]
Séjourné et al., 2011, Nat. Neurosci. 14(7): 903--910
Mushroom body efferent neurons responsible for aversive olfactory memory retrieval in Drosophila. [FBrf0214029]
Takemura and Adachi-Yamada, 2011, Dev. Biol. 357(2): 336--346
Cell death and selective adhesion reorganize the dorsoventral boundary for zigzag patterning of Drosophila wing margin hairs. [FBrf0214791]
Thum et al., 2011, J. Comp. Neurol. 519(17): 3415--3432
Diversity, variability, and suboesophageal connectivity of antennal lobe neurons in D. melanogaster larvae. [FBrf0216269]
Tomita et al., 2011, J. Neurosci. 31(37): 13137--13146
Pan-Neuronal Knockdown of Calcineurin Reduces Sleep in the Fruit Fly, Drosophila melanogaster. [FBrf0215571]
Tonoki et al., 2011, Genes Cells 16(5): 557--564
Aging causes distinct characteristics of polyglutamine amyloids in vivo. [FBrf0213535]
Varija Raghu et al., 2011, J. Comp. Neurol. 519(1): 162--176
Neurons with cholinergic phenotype in the visual system of Drosophila. [FBrf0212356]
Viktorin et al., 2011, Dev. Biol. 356(2): 553--565
Multipotent neural stem cells generate glial cells of the central complex through transit amplifying intermediate progenitors in Drosophila brain development. [FBrf0214495]
Vrailas-Mortimer et al., 2011, Dev. Cell 21(4): 783--795
A Muscle-Specific p38 MAPK/Mef2/MnSOD Pathway Regulates Stress, Motor Function, and Life Span in Drosophila. [FBrf0216446]
Wang et al., 2011, Nat. Neurosci. 14(6): 757--762
Hierarchical chemosensory regulation of male-male social interactions in Drosophila. [FBrf0213751]
Wang et al., 2011, Dev. Biol. 350(2): 414--428
Notch signaling regulates neuroepithelial stem cell maintenance and neuroblast formation in Drosophila optic lobe development. [FBrf0212909]
Wang et al., 2011, PLoS ONE 6(11): e25890
Drosophila TRPA Channel Painless Inhibits Male-Male Courtship Behavior through Modulating Olfactory Sensation. [FBrf0216587]
Wu et al., 2011, Curr. Biol. 21(10): 848--854
Heterotypic Gap Junctions between Two Neurons in the Drosophila Brain Are Critical for Memory. [FBrf0213804]
Yonamine et al., 2011, J. Cell Biol. 192(4): 557--567
Sphingosine kinases and their metabolites modulate endolysosomal trafficking in photoreceptors. [FBrf0213095]
You et al., 2011, Dev. Dyn. 240(3): 640--648
Sulfated is a negative feedback regulator of wingless in Drosophila. [FBrf0213052]
Zappia et al., 2011, PLoS ONE 6(5): e19715
M6 membrane protein plays an essential role in Drosophila oogenesis. [FBrf0213770]
Zhang et al., 2011, Cell Death Differ. 18(8): 1346--1355
Wbp2 cooperates with Yorkie to drive tissue growth downstream of the Salvador-Warts-Hippo pathway. [FBrf0214266]
Zhu et al., 2011, Proc. Natl. Acad. Sci. U.S.A. 108(51): 20615--20620
Ets transcription factor Pointed promotes the generation of intermediate neural progenitors in Drosophila larval brains. [FBrf0216951]
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