Allele Scer\GAL4^Act.PU

General Information
Symbol	Scer\GAL4^Act.PU	Species	S. cerevisiae
Name	Actin promoter construct of Unknown	FlyBase ID	FBal0155894
Feature type	allele	Associated gene	Scer\GAL4

Allele class
Mutagen	in vitro construct - regulatory fusion
Recent Updates
Description	What does this section display? This section contains items that were added to this record for each release. It currently only tracks new links between this FlyBase report and other FlyBase data classes (e.g. genes, references, stocks) or controlled vocabulary terms (e.g. GO, anatomy terms). What does this section not display? This section does not currently display links that were removed or gene model changes.
Update Feed	Click the icon below to subscribe to this FlyBase record and receive updates automatically through your feed reader.
FB2013_03
FB2013_02	Controlled Vocabulary Terms adult olfactory receptor neuron Or59c
All updates	Click here to see a list of all updates to this record from FB2010_08 and on.
Nature of the Allele
Allele class
Mutagen	in vitro construct - regulatory fusion (Rothenberg et al., 2003, Hwangbo et al., 2004)
Mutations Mapped to the Genome

Type Location Additional Notes References
Associated Sequence Data
DDBJ / EMBL / GenBank	DNA sequence Protein sequence Name

UniProtKB/Swiss-Prot
UniProtKB/TrEMBL

Progenitor genotype
Nature of the lesion	Statement Reference An Actin promoter drives Scer\GAL4 expression. (Yepiskoposyan et al., 2006)
Carried in construct	P{Act-GAL4.U} (Yan et al., 2009, Chang et al., 2008, Mao et al., 2009, Wayburn and Volk, 2009, Buch et al., 2008, Okamura et al., 2007, Ribaya et al., 2009, Yepiskoposyan et al., 2006, Ren et al., 2007, Missirlis et al., 2007, Kamimura et al., 2011, Nakayama et al., 2011, Guan et al., 2011, Bader et al., 2011, Mulligan et al., 2012, Geisbrecht et al., 2008, Mariappa et al., 2011, Seisenbacher et al., 2011, Song et al., 2007, Domanitskaya and Schüpbach, 2012, Rodriguez-Jato et al., 2011, Desset et al., 2008, Rawls et al., 2007, Day et al., 2008, Dufourt et al., 2011, Rudolf et al., 2012, Mou et al., 2012, Kametaka et al., 2012, Matakatsu and Blair, 2012, Lin et al., 2011, Chawla and Sokol, 2012, Hartl et al., 2011, Delgehyr et al., 2012, Nakamoto et al., 2012, Miśkiewicz et al., 2011, Matakatsu and Blair, 2008, Day et al., 2006, Qurashi et al., 2007, Joppich et al., 2009, Yan et al., 2008, Vardanyan et al., 2008, Gruenewald et al., 2009, Tien et al., 2008, Vied and Kalderon, 2009, Mitchell et al., 2008, Tain et al., 2009, Sabin et al., 2009, Xu et al., 2009, Barry et al., 2008, Chabu and Doe, 2009, Dasgupta et al., 2009, Parrish et al., 2009, Kamiyama and Chiba, 2009, Salvaing et al., 2008, Funk et al., 2004, Ratnaparkhi et al., 2008, Tang et al., 2008, Wei et al., 2007, Fang et al., 2010, Wu et al., 2009, Shelly et al., 2009, Yu et al., 2010, Gonzalez-Gaitan and Jackle, 2000, Schulze et al., 2009, Beam and Moberg, 2010, Ekas et al., 2010, Wu et al., 2009, Kadener et al., 2008, Raffa et al., 2010, Salzer et al., 2010, Ahlander et al., 2008, Yan et al., 2010, Acevedo et al., 2010, Schulte et al., 2010, Messaritou et al., 2010, Guichard et al., 2006, Michaud and Tanguay, 2003, Wang et al., 2010, Lu et al., 2010, Vos et al., 2010, Kawano et al., 2010, Cziko et al., 2009, Song et al., 2010, Yuan et al., 2011, Radyuk et al., 2010, Fridell et al., 2005, Besson et al., 2010, Zhang et al., 2011, Dow et al., 2003, Ma et al., 2011, Gaumer et al., 2000, Li et al., 2010, Gosnell and Christensen, 2011, Llorens et al., 2007, Resnik-Docampo and de Celis, 2011, Olguín et al., 2011, Huang and Haddad, 2007, Gordon et al., 2008, Liu et al., 2011, Wright et al., 2011, Schulte, 2011.9.16, Schulte, 2011.9.16, Gemmill et al., 2005, Gemmill et al., 2002, Hua et al., 2011, Rhea et al., 2010, Gilbert et al., 2011, McElwain et al., 2011, Bhandari et al., 2006, Missirlis et al., 2003, Navarro et al., 2011, Leonardi et al., 2011, McDermott et al., 2012, Kanakousaki and Gibson, 2012, Maeng et al., 2012, Kim et al., 2011, Petrova et al., 2012, Lee and Chung, 2007, Fischer et al., 2012, Stephan et al., 2012, Urwyler et al., 2012, Rincon-Arano et al., 2012, Marek and Bale, 2006, Marek et al., 2008, Chen et al., 2013, Hermle et al., 2013, Mortimer and Moberg, 2009, Vamos and Boros, 2012, Chan et al., 2011, Tanenhaus et al., 2012, Azzam and Liu, 2013)
Cytology
Phenotypic Data
Phenotypic Class
	cell growth defective, with eIF-4B^L.Scer\UAS (Hernandez et al., 2004) cell shape defective, with pod1^{Scer\UAS.T:Avic\GFP,T:Hsap\MYC} (Rothenberg et al., 2003) chemical resistant, with ZnT35C^a.Scer\UAS, ZnT35C^b.Scer\UAS (Yepiskoposyan et al., 2006) chemical sensitive, with Dpy-30L1^Scer\UAS.cVa (Vardanyan et al., 2008) chemical sensitive \| larval stage, with Ctf4^GD4433 (Gosnell and Christensen, 2011) developmental rate defective \| larval stage, with MP1^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) endomitotic cell cycle defective \| larval stage, with Ctf4^GD4433 (Gosnell and Christensen, 2011) female sterile, with lid^{JmjC.mut.Scer\UAS.P\T} (Li et al., 2010) female sterile, with lid^{ΔARID.Scer\UAS.P\T} (Li et al., 2010) female sterile, with lid^{ΔPHD1.Scer\UAS.P\T} (Li et al., 2010) gravitaxis defective \| conditional, with fh^{dsRNA.Scer\UAS.cLa} (Llorens et al., 2007) hyperplasia \| somatic clone, with Ras85D^V12.Scer\UAS (Jiang et al., 2011) immune response defective, with Toll-7^GD14417 (Nakamoto et al., 2012) increased cell death \| somatic clone, with fwe^{Scer\UAS.P\T.Lose-A.C.T:Ivir\HA1} (Petrova et al., 2012) increased cell death \| somatic clone, with Mmus\Cacfd1^{Scer\UAS.P\T.1.T:Ivir\HA1} (Petrova et al., 2012) increased cell death \| somatic clone, with Mmus\Cacfd1^{Scer\UAS.P\T.3.T:Ivir\HA1} (Petrova et al., 2012) increased cell number, with mts^{dn181.Scer\UAS} (Chabu and Doe, 2009) large body, with Rabex-5^VDRC.cUa (Yan et al., 2010) large body \| adult stage \| heat sensitive, with Ilp6^Scer\UAS.cIa, Scer\GAL80^ts.αTub84B (Slaidina et al., 2009) lethal, with 18w^GD14418 (Nakamoto et al., 2012) lethal, with amon^{dsRNA.Scer\UAS.cBa} (Rhea et al., 2010) lethal, with AP-1-2β^NIG.12532R (Kametaka et al., 2012) lethal, with Arf79F^NIG.8385R (Kametaka et al., 2012) lethal, with Arf102F^NIG.11027R (Kametaka et al., 2012) lethal, with Ars2^GD12300 (Sabin et al., 2009) lethal, with bdg^Scer\UAS.cRa (Rawls et al., 2007) lethal, with bru-3^EY08487 (Beam and Moberg, 2010) lethal, with Chc^NIG.9012R (Kametaka et al., 2012) lethal, with fuss^{Scer\UAS.C.T:Avic\GFP-EGFP} (Fischer et al., 2012) lethal, with HP1b^{Scer\UAS.T:Avic\GFP} (Zhang et al., 2011) lethal, with Hsap\UCP2^Scer\UAS.cFa (Fridell et al., 2005) lethal, with LamC^{ΔN.Scer\UAS.cSa} (Schulze et al., 2009) lethal, with Mmus\Bax^Scer\UAS.cGb (Gaumer et al., 2000) lethal, with mop^{dsRNA.Scer\UAS.WIZ} (Huang et al., 2010) lethal, with MP1^{dsRNA.Scer\UAS.WIZ} (Tang et al., 2006) lethal, with MstProx^KK105944 (Nakamoto et al., 2012) lethal, with mys^{dsRNA.Sym.Scer\UAS} (Bhandari et al., 2006) lethal, with NijA^Scer\UAS.cBa (Broderick et al., 2012) lethal, with Snoo^GS18054 (Ramel et al., 2007) lethal, with Sp7^{dsRNA.Scer\UAS.WIZ} (Tang et al., 2006) lethal, with Trc8^{Scer\UAS.T:Hsap\MYC} (Gemmill et al., 2002) lethal, with Vap-33-1^Scer\UAS.cRa (Ratnaparkhi et al., 2008) lethal, with Zzzz\lef^Scer\UAS.cGa (Guichard et al., 2006) lethal \| adult stage, with Ctf4^GD4433 (Gosnell and Christensen, 2011) lethal \| embryonic stage, with HP6^GD4434 (Joppich et al., 2009) lethal \| embryonic stage, with Hs3st-A^{dsRNA.IR.Scer\UAS} (Kamimura et al., 2004) lethal \| embryonic stage, with Hs3st-B^{dsRNA.IR.Scer\UAS} (Kamimura et al., 2004) lethal \| embryonic stage, with N^{1791-2155.Scer\UAS} (Wesley and Mok, 2003) lethal \| embryonic stage, with N^{1893-2155.Scer\UAS} (Wesley and Mok, 2003) lethal \| embryonic stage, with N^{intra.hs.Scer\UAS} (Wesley and Mok, 2003) lethal \| embryonic stage, with scny^GS13668 (Ribaya et al., 2009) lethal \| embryonic stage, with tobi^Scer\UAS.cBa (Buch et al., 2008) lethal \| first instar larval stage, with Trc8^{Scer\UAS.T:Hsap\MYC} (Gemmill et al., 2005) lethal \| larval stage, with foxo^Scer\UAS.cFa (Hwangbo et al., 2004) lethal \| larval stage, with foxo^TM.Scer\UAS (Hwangbo et al., 2004) lethal \| larval stage, with Hs3st-A^{dsRNA.IR.Scer\UAS} (Kamimura et al., 2004) lethal \| larval stage, with Hs3st-B^{dsRNA.IR.Scer\UAS} (Kamimura et al., 2004) lethal \| larval stage, with Met^Scer\UAS.cBa (Barry et al., 2008) lethal \| larval stage, with MP1^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) lethal \| larval stage, with vg^{ΔACT.Scer\UAS} (Garg et al., 2007) lethal \| male, with Hcf^{Scer\UAS.T:Uuuu\T7,T:Zzzz\FLAG} (Rodriguez-Jato et al., 2011) lethal \| maternal effect, with wntD^{Scer\UAS.P\T.cEa} (McElwain et al., 2011) lethal \| partially, with nau^{dsRNA.Scer\UAS.cWa} (Wei et al., 2007) lethal \| partially, with Sp7^{dsRNA.Scer\UAS} (Castillejo-Lopez and Haecker, 2005) lethal \| pharate adult stage, with CycG^{dsRNA.Scer\UAS} (Salvaing et al., 2008) lethal \| P-stage, with Hsap\FXN^Scer\UAS.cNa (Navarro et al., 2011) lethal \| P-stage \| somatic clone, with Ras85D^V12.Scer\UAS (Jiang et al., 2011) lethal \| pupal stage, with Afti^NIG.3002R (Kametaka et al., 2012) lethal \| pupal stage, with AP-1γ^NIG.9113R (Kametaka et al., 2012) lethal \| pupal stage, with AP-1μ^NIG.9388R (Kametaka et al., 2012) lethal \| pupal stage, with AP-1σ^NIG.5864R (Kametaka et al., 2012) lethal \| pupal stage, with DNApol-ε^NIG.6768R (Suyari et al., 2012) lethal \| pupal stage, with Fancd2^{dsRNA.Scer\UAS} (Marek and Bale, 2006) lethal \| pupal stage, with fh^Scer\UAS.cLa (Llorens et al., 2007) lethal \| pupal stage, with Gga^NIG.3002R (Kametaka et al., 2012) lethal \| pupal stage, with hppy^EP-704 (Resnik-Docampo and de Celis, 2011) lethal \| pupal stage, with Mob4^{dsRNA.Scer\UAS.JS1} (Schulte, 2011.9.16) lethal \| pupal stage, with Smn^{dsRNA.C.Scer\UAS.WIZ} (Chang et al., 2008) lethal \| pupal stage, with Smn^{dsRNA.N.Scer\UAS.WIZ} (Chang et al., 2008) lethal \| pupal stage, with Sp7^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) lethal \| pupal stage, with Su(var)205^{dsRNA.Sym.Scer\UAS} (Liu et al., 2005) lethal \| pupal stage \| heat sensitive, with fh^{dsRNA.Scer\UAS.cLa} (Llorens et al., 2007) lethal \| third instar larval stage, with CycG^{dsRNA.Scer\UAS} (Salvaing et al., 2008) lethal \| third instar larval stage, with Spn77Ba^{dsRNA.R57.Scer\UAS} (Tang et al., 2008) lethal \| third instar larval stage, with Spn77Ba^{dsRNA.WIZ.Scer\UAS} (Tang et al., 2008) lethal \| third instar larval stage, with Tctp^{dsRNA.Scer\UAS} (Hsu et al., 2007) locomotor rhythm defective, with cyc^{Scer\UAS.T:Hsim\VP16} (Kadener et al., 2008) melanotic mass phenotype \| adult stage, with Sp7^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) melanotic mass phenotype \| larval stage, with MP1^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) melanotic mass phenotype \| larval stage, with Sp7^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) melanotic mass phenotype \| pupal stage, with Sp7^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) mitotic cell cycle defective \| conditional, with Fancd2^{dsRNA.Scer\UAS} (Marek and Bale, 2006) mitotic cell cycle defective \| larval stage, with Ctf4^GD4433 (Gosnell and Christensen, 2011) neuroanatomy defective \| adult stage \| somatic clone, with LIMK1^JF02063 (Stephan et al., 2012) neuroanatomy defective \| adult stage \| somatic clone, with LIMK1^{Scer\UAS.KI.T:Ivir\HA1} (Stephan et al., 2012) neuroanatomy defective \| adult stage \| somatic clone, with LIMK1^{Scer\UAS.T:Ivir\HA1} (Stephan et al., 2012) neuroanatomy defective \| adult stage \| somatic clone, with tsr^S3A.Scer\UAS (Stephan et al., 2012) neuroanatomy defective \| adult stage \| somatic clone, with tsr^S3E.Scer\UAS (Stephan et al., 2012) neuroanatomy defective \| third instar larval stage, with Smn^{dsRNA.C.Scer\UAS.WIZ} (Chang et al., 2008) neuroanatomy defective \| third instar larval stage, with Smn^{dsRNA.FL.Scer\UAS.WIZ} (Chang et al., 2008) neuroanatomy defective \| third instar larval stage, with Smn^{dsRNA.N.Scer\UAS.WIZ} (Chang et al., 2008) neurophysiology defective, with Slob^{dsRNA.Scer\UAS} (Ma et al., 2011) oxidative stress response defective, with Lnk^Scer\UAS.cSa (Song et al., 2010) oxidative stress response defective, with PHGPx^Scer\UAS.cMa (Missirlis et al., 2003) partially lethal - majority die, with Cat^{Scer\UAS.T:Mito-oat} (Radyuk et al., 2010) partially lethal - majority die, with edin^Scer\UAS.cGa (Gordon et al., 2008) partially lethal - majority die, with HP1b^{dsRNA.Sym.Scer\UAS} (Zhang et al., 2011) partially lethal - majority die, with Hs2st^Scer\UAS.cKa (Kamimura et al., 2011) partially lethal - majority die, with Hs6st^Scer\UAS.cKa (Kamimura et al., 2011) partially lethal - majority die, with Hsap\APP^{Aβ42.Scer\UAS.T:SS-hh} (Hua et al., 2011) partially lethal - majority die, with LamC^{W557S.Scer\UAS} (Schulze et al., 2009) partially lethal - majority die, with sfl^Scer\UAS.cKa (Kamimura et al., 2011) partially lethal - majority die, with Swim^{dsRNA.1.Scer\UAS} (Mulligan et al., 2012) partially lethal - majority die \| larval stage, with Met^Scer\UAS.cBa (Barry et al., 2008) planar polarity defective, with pk^{sple.Scer\UAS} (Collier et al., 2005) planar polarity defective \| cell non-autonomous \| somatic clone, with sano^{Scer\UAS.T:Avic\GFP} (Chung et al., 2009) planar polarity defective \| pupal stage \| somatic clone, with stan^KK100512 (Hermle et al., 2013) planar polarity defective \| somatic clone, with kay^EY12710 (Weber et al., 2008) planar polarity defective \| somatic clone, with sano^{Scer\UAS.T:Avic\GFP} (Chung et al., 2009) short lived, with edin^Scer\UAS.cGa (Gordon et al., 2008) short lived, with fh^{dsRNA.Scer\UAS.cLa} (Llorens et al., 2007) short lived, with Lnk^Scer\UAS.cSa (Song et al., 2010) size defective, with N^{Scer\UAS.ΔLNR.T:Ecol\lexA} (Leonardi et al., 2011) small body \| adult stage, with Ilp6^GD3987 (Slaidina et al., 2009) small body \| adult stage \| heat sensitive, with Ilp6^GD3987, Scer\GAL80^ts.αTub84B (Slaidina et al., 2009) small body \| heat sensitive, with InR^GD104, Scer\GAL80^ts.αTub84B (Slaidina et al., 2009) small body \| heat sensitive, with Scer\GAL80^ts.αTub84B (Slaidina et al., 2009) starvation stress response defective, with Lnk^Scer\UAS.cSa (Song et al., 2010) sterile, with fry¹, fry², fry^{Scer\UAS.T:Hsap\MYC.T:Avic\GFP} (Fang et al., 2010) sterile, with fry¹, fry²/fry^{Scer\UAS.T:Hsap\MYC.T:Avic\GFP} (Fang et al., 2010) sterile, with fry², fry¹/fry^{Scer\UAS.T:Hsap\MYC.T:Avic\GFP} (Fang et al., 2010) stress response defective, with Ilp6^Scer\UAS.cIa (Slaidina et al., 2009) stress response defective, with Ilp6^VDRC.cUa (Slaidina et al., 2009) stress response defective, with Mrp4^EP430 (Huang and Haddad, 2007) stress response defective, with Mrp4^EP3177 (Huang and Haddad, 2007) stress response defective, with Mrp4^EP3221 (Huang and Haddad, 2007) stress response defective, with Mrp4^EP3655 (Huang and Haddad, 2007) stress response defective \| third instar larval stage, with Desi^GD3920 (Kawano et al., 2010) viable, with Hsepi^Scer\UAS.cKa (Kamimura et al., 2011) viable, with LamC^hs.PSb (Schulze et al., 2009) viable, with LamC^{K493W.Scer\UAS} (Schulze et al., 2009) viable, with LamC^{L567P.Scer\UAS} (Schulze et al., 2009) viable, with LamC^{N210K.Scer\UAS} (Schulze et al., 2009) viable, with LamC^{R401K.Scer\UAS.cSa} (Schulze et al., 2009) viable, with LamC^ΔC.Scer\UAS (Schulze et al., 2009) viable, with Lerp^NIG.31072R (Kametaka et al., 2012) viable, with lid^{C1296A.Scer\UAS.P\T} (Li et al., 2010) viable, with lid^{JmjC.mut.Scer\UAS.P\T} (Li et al., 2010) viable, with lid^{Scer\UAS.P\T.cSa} (Li et al., 2010) viable, with lid^{ΔARID.Scer\UAS.P\T} (Li et al., 2010) viable, with lid^{ΔC5HC2.Scer\UAS.P\T} (Li et al., 2010) viable, with lid^{ΔJmjN.Scer\UAS.P\T} (Li et al., 2010) viable, with lid^{ΔPHD1.Scer\UAS.P\T} (Li et al., 2010) viable, with lid^{ΔPHD3.Scer\UAS.P\T} (Li et al., 2010) viable, with Snoo^GS-C517T (Ramel et al., 2007) viable, with tobi^{1B5.Sym.Scer\UAS}, tobi^{a.1B5.Sym.Scer\UAS} (Buch et al., 2008) viable, with tobi^{dsRNA.2A2.Scer\UAS} (Buch et al., 2008) viable, with Vap-33-1^{P58S.cRa.Scer\UAS} (Ratnaparkhi et al., 2008) visible, with lft^NIG.13139R (Mao et al., 2009) visible, with pk^{sple.Scer\UAS} (Collier et al., 2005) visible, with Rabex-5^VDRC.cUa (Yan et al., 2010) visible, with Snoo^GS-C517T (Ramel et al., 2007) visible, with Swim^{dsRNA.1.Scer\UAS} (Mulligan et al., 2012) visible \| larval stage, with Spn77Ba^{dsRNA.R57.Scer\UAS} (Tang et al., 2008) visible \| larval stage, with Spn77Ba^{dsRNA.WIZ.Scer\UAS} (Tang et al., 2008) wound healing defective, with MP1^{dsRNA.Scer\UAS.WIZ} (Tang et al., 2006) wound healing defective, with Sp7^{dsRNA.Scer\UAS.WIZ} (Tang et al., 2006)
Phenotype Manifest In
	A1-7 ventral acute muscle 3, with Lrt^GD14419 (Wayburn and Volk, 2009) A1-7 ventral oblique muscle 4, with Lrt^GD14419 (Wayburn and Volk, 2009) adult olfactory receptor neuron Or59c \| somatic clone, with LIMK1^JF02063 (Stephan et al., 2012) adult olfactory receptor neuron Or59c \| somatic clone, with LIMK1^{Scer\UAS.KI.T:Ivir\HA1} (Stephan et al., 2012) adult olfactory receptor neuron Or59c \| somatic clone, with LIMK1^{Scer\UAS.T:Ivir\HA1} (Stephan et al., 2012) adult olfactory receptor neuron Or59c \| somatic clone, with tsr^S3A.Scer\UAS (Stephan et al., 2012) adult olfactory receptor neuron Or59c \| somatic clone, with tsr^S3E.Scer\UAS (Stephan et al., 2012) bract \| ectopic \| somatic clone, with Ras85D^V12.Scer\UAS (Mou et al., 2012) class IV dendritic arborizing neuron \| somatic clone, with dco^EP3280 (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with dco^EY02910 (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with Oda^EP2104 (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with pAbp^B.Scer\UAS (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with pAbp^EP310 (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with pAbp^EY11561 (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with pAbp^Scer\UAS.cSa (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with Rm62^EP3607 (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with Rm62^EY06795 (Cziko et al., 2009) class IV dendritic arborizing neuron \| somatic clone, with Rm62^EY10915 (Cziko et al., 2009) cytoophidium, with CTPsyn^{Scer\UAS.P\T.C.C.T:Avic\GFP-YFP.Venus} (Azzam and Liu, 2013) egg, with fry¹, fry², fry^{Scer\UAS.T:Hsap\MYC.T:Avic\GFP} (Fang et al., 2010) egg, with fry¹, fry²/fry^{Scer\UAS.T:Hsap\MYC.T:Avic\GFP} (Fang et al., 2010) egg, with nau^{dsRNA.Scer\UAS.cWa} (Wei et al., 2007) egg chamber \| somatic clone, with Scer\GAL4^tub.PU, mam^N.Scer\UAS (Vied and Kalderon, 2009) embryonic/larval fat body \| somatic clone, with bsk^Scer\UAS.cBa (Chang and Neufeld, 2009) embryonic/larval neuroblast, with mts^{dn181.Scer\UAS} (Chabu and Doe, 2009) embryonic/larval somatic muscle, with nau^{dsRNA.Scer\UAS.cWa} (Wei et al., 2007) embryonic/larval trachea, with Vhl^{dsRNA.Scer\UAS.cMa} (Mortimer and Moberg, 2009) embryonic/larval tracheal system, with Spn77Ba^{dsRNA.R57.Scer\UAS} (Tang et al., 2008) embryonic/larval tracheal system, with Spn77Ba^{dsRNA.WIZ.Scer\UAS} (Tang et al., 2008) eye-antennal disc \| somatic clone, with Ras85D^V12.Scer\UAS (Jiang et al., 2011) eye disc \| somatic clone, with btl::Egfr^{Scer\UAS.T:λ\cI-DD} (Olson et al., 2011) eye disc \| somatic clone, with dome^{ΔCYT.Scer\UAS} (Classen et al., 2009) eye disc \| somatic clone, with flw^GD15008 (Jiang et al., 2011) eye disc \| somatic clone, with sqh^DD.Scer\UAS (Jiang et al., 2011) eye disc \| somatic clone, with zip^GD1566 (Jiang et al., 2011) fat body \| somatic clone, with ush^Scer\UAS.cCa (Hyun et al., 2009) female germline cell \| somatic clone \| supernumerary, with ab^Scer\UAS.cBa (König et al., 2011) female germline cell \| somatic clone \| supernumerary, with EcR^{dsRNA.Scer\UAS.cCa} (König et al., 2011) follicle cell, with CTPsyn^{Scer\UAS.P\T.C.C.T:Avic\GFP-YFP.Venus} (Azzam and Liu, 2013) follicle cell \| somatic clone, with sds22^GD11788 (Grusche et al., 2009) follicle stem cell \| somatic clone, with N^{intra.GS.Scer\UAS}, Scer\GAL4^e22c, Scer\GAL4^tub.PU (Vied and Kalderon, 2009) follicle stem cell \| somatic clone, with Scer\GAL4^e22c, Scer\GAL4^tub.PU, Su(H)^{Scer\UAS.cSa.T:Hsim\VP16} (Vied and Kalderon, 2009) larval outer optic anlage \| somatic clone, with Dl::N^{ΔECN.Scer\UAS} (Wang et al., 2011) melanotic mass \| adult stage, with Sp7^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) melanotic mass \| larval stage, with MP1^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) melanotic mass \| larval stage, with Sp7^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) melanotic mass \| P-stage, with Sp7^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006) neuroblast, with Su(var)205^{dsRNA.Sym.Scer\UAS} (Liu et al., 2005) NMJ bouton, with Smn^{dsRNA.C.Scer\UAS.WIZ} (Chang et al., 2008) NMJ bouton, with Smn^{dsRNA.FL.Scer\UAS.WIZ} (Chang et al., 2008) NMJ bouton, with Smn^{dsRNA.N.Scer\UAS.WIZ} (Chang et al., 2008) ovary, with fry¹, fry², fry^{Scer\UAS.T:Hsap\MYC.T:Avic\GFP} (Fang et al., 2010) ovary, with fry¹, fry²/fry^{Scer\UAS.T:Hsap\MYC.T:Avic\GFP} (Fang et al., 2010) photoreceptor cell R4 \| somatic clone, with kay^EY12710 (Weber et al., 2008) polytene chromosome, with Ctf4^GD4433 (Gosnell and Christensen, 2011) posterior crossvein, with Rabex-5^VDRC.cUa (Yan et al., 2010) stomatogastric nervous system anlage, with spi^s.Scer\UAS (Gonzalez-Gaitan and Jackle, 2000) tracheal primordium \| ectopic, with Vhl^{dsRNA.Scer\UAS.cMa} (Mortimer and Moberg, 2009) wing, with Hcf^{Scer\UAS.T:Uuuu\T7,T:Zzzz\FLAG} (Rodriguez-Jato et al., 2011) wing, with lft^NIG.13139R (Mao et al., 2009) wing, with Rabex-5^VDRC.cUa (Yan et al., 2010) wing \| somatic clone, with Rho1^N19.Scer\UAS (Yan et al., 2009) wing \| somatic clone, with Rho1^V14.Scer\UAS (Yan et al., 2009) wing disc \| somatic clone, with let-7^Scer\UAS.cCa (Caygill and Johnston, 2008) wing disc \| somatic clone \| third instar larval stage, with N^{Scer\UAS.ΔLNR.T:Ecol\lexA} (Leonardi et al., 2011) wing hair, with pk^{sple.Scer\UAS} (Collier et al., 2005) wing hair \| cell non-autonomous \| somatic clone, with sano^{Scer\UAS.T:Avic\GFP} (Chung et al., 2009) wing hair \| pupal stage \| somatic clone, with stan^KK100512 (Hermle et al., 2013) wing hair \| somatic clone, with sano^{Scer\UAS.T:Avic\GFP} (Chung et al., 2009) wing hair \| somatic clone \| supernumerary, with Rho1^V14.Scer\UAS (Yan et al., 2009) wing margin, with Swim^{dsRNA.1.Scer\UAS} (Mulligan et al., 2012) wing margin bristle, with Hs6st^Scer\UAS.cKa (Kamimura et al., 2011) wing vein \| ectopic, with Snoo^GS-C517T (Ramel et al., 2007) wing vein L2, with Rabex-5^VDRC.cUa (Yan et al., 2010)
Detailed Description
	Statement Reference
External Data
Linkouts
Interactions
	Show the genetic interaction network for Enhancers & Suppressors
Phenotypic Class
NOT Enhanced by
Statement Reference Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-enhanceable by Df(2R)Np5/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-enhanceable by Df(2R)w45-30n/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-enhanceable by Df(3R)ME15/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-enhanceable by Df(3R)Tl-P/+ (McElwain et al., 2011)
Suppressed by
Statement Reference Dpy-30L1^Scer\UAS.cVa, Scer\GAL4^Act.PU has chemical sensitive phenotype, suppressible by MTF-1^Tub.PY (Vardanyan et al., 2008) HP1b^{Scer\UAS.T:Avic\GFP}, Scer\GAL4^Act.PU has lethal phenotype, suppressible by Su(var)205^{Scer\UAS.T:Avic\GFP}, Scer\GAL4^Act.PU (Zhang et al., 2011, Zhang et al., 2011) Hs6st^Scer\UAS.cKa, Scer\GAL4^Act.PU has partially lethal - majority die phenotype, suppressible by Hsepi^Scer\UAS.cKa, Scer\GAL4^Act.PU (Kamimura et al., 2011, Kamimura et al., 2011) N^{Scer\UAS.ΔLNR.T:Ecol\lexA}, Scer\GAL4^Act.PU has size defective phenotype, suppressible by rumi^Δ26 (Leonardi et al., 2011) Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU has large body phenotype, suppressible \| partially by Ras85D^e1B/Ras85D[+], Scer\GAL4^Act.PU (Yan et al., 2010, Yan et al., 2010) Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU has visible phenotype, suppressible by Ras85D^e1B/Ras85D[+], Scer\GAL4^Act.PU (Yan et al., 2010, Yan et al., 2010) Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU has visible phenotype, suppressible by Ras85D^e2F/Ras85D[+], Scer\GAL4^Act.PU (Yan et al., 2010, Yan et al., 2010) Ras85D^V12.Scer\UAS, Scer\GAL4^Act.PU, scrib⁶⁷³ has tumorigenic \| somatic clone phenotype, suppressible \| somatic clone by sds22^Scer\UAS.cJa, Scer\GAL4^Act.PU (Jiang et al., 2011, Jiang et al., 2011) Scer\GAL4^Act.PU, sfl^Scer\UAS.cKa has partially lethal - majority die phenotype, suppressible by Hs2st^Scer\UAS.cKa, Scer\GAL4^Act.PU (Kamimura et al., 2011, Kamimura et al., 2011) Scer\GAL4^Act.PU, sfl^Scer\UAS.cKa has partially lethal - majority die phenotype, suppressible by Hsepi^Scer\UAS.cKa, Scer\GAL4^Act.PU (Kamimura et al., 2011, Kamimura et al., 2011) Scer\GAL4^Act.PU, Sp7^{Scer\UAS.P\T.T:SS-ea} has melanotic mass phenotype phenotype, suppressible by MP1^{dsRNA.Scer\UAS.WIZ}, Scer\GAL4^Act.PU (Tang et al., 2006, Tang et al., 2006) Scer\GAL4^Act.PU, Spn77Ba^{dsRNA.WIZ.Scer\UAS} has lethal \| larval stage phenotype, suppressible by MP1^{dsRNA.Scer\UAS.WIZ}, Scer\GAL4^Act.PU (Tang et al., 2008, Tang et al., 2008) Scer\GAL4^Act.PU, Spn77Ba^{dsRNA.WIZ.Scer\UAS} has lethal \| larval stage phenotype, suppressible by Scer\GAL4^Act.PU/Sp7^{dsRNA.Scer\UAS.WIZ} (Tang et al., 2008, Tang et al., 2008) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, suppressible by +/Df(3R)L127 (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, suppressible by Cerk[+]/Cerk^BG01100 (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, suppressible by Df(1)Sxl-bt/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, suppressible by Df(3R)e1025-14/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, suppressible by fz4[+]/fz4^25-1 (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, suppressible by fz4[+]/fz4^GS7412 (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, suppressible by fz4^3-1/fz4[+] (McElwain et al., 2011)
NOT suppressed by
Statement Reference MP1^{Scer\UAS.P\T.T:SS-ea}, Scer\GAL4^Act.PU has lethal \| larval stage phenotype, non-suppressible by spz⁴ (Tang et al., 2006) MP1^{Scer\UAS.P\T.T:SS-ea}, Scer\GAL4^Act.PU has melanotic mass phenotype \| larval stage phenotype, non-suppressible by Sp7^{dsRNA.Scer\UAS.WIZ}, Scer\GAL4^Act.PU (Tang et al., 2006, Tang et al., 2006) MP1^{Scer\UAS.P\T.T:SS-ea}, Scer\GAL4^Act.PU has melanotic mass phenotype phenotype, non-suppressible by spz⁴ (Tang et al., 2006) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-suppressible by Cerk[+]/Cerk^X35 (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-suppressible by Df(1)BSC287/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-suppressible by Df(1)BSC288/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-suppressible by Df(1)BSC722/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-suppressible by Df(1)ED7067/+ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-suppressible by Dgk^f03609/Dgk[+] (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-suppressible by dsh³ (McElwain et al., 2011) Scer\GAL4^Act.PU, wntD^{Scer\UAS.P\T.cEa} has lethal \| maternal effect phenotype, non-suppressible by Sk2^KG05894/Sk2[+] (McElwain et al., 2011)
Enhancer of
Statement Reference Scer\GAL4^Act.PU/egr^{dsRNA.Scer\UAS} is an enhancer of partially lethal - majority die \| somatic clone \| pupal stage phenotype of scrib¹ (Ohsawa et al., 2011) tsr^S3E.Scer\UAS/Scer\GAL4^Act.PU is an enhancer \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of psidin¹ (Stephan et al., 2012)
NOT Enhancer of
Statement Reference Scer\GAL4^Act.PU/NAA20^KK102646 is a non-enhancer \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/NAA20^KK102646 is a non-enhancer \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of psidin^IG978 (Stephan et al., 2012)
Suppressor of
Statement Reference btl::ft^{ftICD.T:Ivir\HA1,T:λ\cI-DD}/Scer\GAL4^Act.PU is a suppressor \| partially of planar polarity defective phenotype of ft⁸/ft^G-rv (Matakatsu and Blair, 2012) dome^{ΔCYT.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor \| somatic clone of tumorigenic \| somatic clone phenotype of Pc¹⁵ (Classen et al., 2009) dome^{ΔCYT.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor \| somatic clone of tumorigenic \| somatic clone phenotype of Sce¹ (Classen et al., 2009) flw^{Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU is a suppressor \| somatic clone of visible \| somatic clone phenotype of sds22^e00975 (Jiang et al., 2011) Hs2st^Scer\UAS.cKa, Scer\GAL4^Act.PU is a suppressor of partially lethal - majority die phenotype of Scer\GAL4^Act.PU, sfl^Scer\UAS.cKa (Kamimura et al., 2011, Kamimura et al., 2011) Hsap\PANK2^{T418M.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor \| partially of female sterile phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK2^{T418M.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor \| partially of locomotor behavior defective phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK2^{T418M.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor \| partially of short lived phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK2^{T418M.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor of lethal \| pupal stage phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK4^Scer\UAS.cWa/Scer\GAL4^Act.PU is a suppressor \| partially of locomotor behavior defective phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK4^Scer\UAS.cWa/Scer\GAL4^Act.PU is a suppressor of female sterile phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK4^Scer\UAS.cWa/Scer\GAL4^Act.PU is a suppressor of lethal \| pupal stage phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK4^Scer\UAS.cWa/Scer\GAL4^Act.PU is a suppressor of short lived phenotype of fbl¹ (Wu et al., 2009) Hsepi^Scer\UAS.cKa, Scer\GAL4^Act.PU is a suppressor of partially lethal - majority die phenotype of Hs6st^Scer\UAS.cKa, Scer\GAL4^Act.PU (Kamimura et al., 2011, Kamimura et al., 2011) Hsepi^Scer\UAS.cKa, Scer\GAL4^Act.PU is a suppressor of partially lethal - majority die phenotype of Scer\GAL4^Act.PU, sfl^Scer\UAS.cKa (Kamimura et al., 2011, Kamimura et al., 2011) mir-279^{Scer\UAS.T:Disc\RFP}/Scer\GAL4^Act.PU is a suppressor \| partially \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of pros^IG2227 (Hartl et al., 2011) Mmus\Mll5^{Scer\UAS.P\T.cRa}/Scer\GAL4^Act.PU is a suppressor \| partially of female sterile \| recessive phenotype of upSET^e00365 (Rincon-Arano et al., 2012) MP1^{dsRNA.Scer\UAS.WIZ}, Scer\GAL4^Act.PU is a suppressor of lethal \| larval stage phenotype of Scer\GAL4^Act.PU, Spn77Ba^{dsRNA.WIZ.Scer\UAS} (Tang et al., 2008, Tang et al., 2008) MP1^{dsRNA.Scer\UAS.WIZ}, Scer\GAL4^Act.PU is a suppressor of melanotic mass phenotype phenotype of Scer\GAL4^Act.PU, Sp7^{Scer\UAS.P\T.T:SS-ea} (Tang et al., 2006, Tang et al., 2006) Ras85D^e1B/Ras85D[+], Scer\GAL4^Act.PU is a suppressor \| partially of large body phenotype of Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU (Yan et al., 2010, Yan et al., 2010) Ras85D^e1B/Ras85D[+], Scer\GAL4^Act.PU is a suppressor of visible phenotype of Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU (Yan et al., 2010, Yan et al., 2010) Ras85D^e2F/Ras85D[+], Scer\GAL4^Act.PU is a suppressor of visible phenotype of Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU (Yan et al., 2010, Yan et al., 2010) Scer\GAL4^Act.PU/BacA\p35^Scer\UAS.cHa is a suppressor of increased cell death \| somatic clone \| third instar larval stage phenotype of Aos1^c06048 (Kanakousaki and Gibson, 2012) Scer\GAL4^Act.PU/BacA\p35^Scer\UAS.cUa is a suppressor \| partially \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/bwa^Scer\UAS.cYa is a suppressor of lethal \| recessive phenotype of CDase¹ (Yuan et al., 2011) Scer\GAL4^Act.PU/cbt^Scer\UAS.cRa is a suppressor \| somatic clone of cell lethal \| somatic clone phenotype of tkv⁴ (Rodriguez, 2011) Scer\GAL4^Act.PU/CG10505^Scer\UAS.cYa is a suppressor \| partially of chemical sensitive phenotype of MTF-1^140-1R (Yepiskoposyan et al., 2006) Scer\GAL4^Act.PU/Dg^{dsRNA.Scer\UAS} is a suppressor \| cell autonomous \| partially \| somatic clone of cell polarity defective \| somatic clone \| cell autonomous phenotype of Ras85D^ΔC40B (Poulton and Deng, 2006) Scer\GAL4^Act.PU/Dg^{dsRNA.Scer\UAS} is a suppressor \| cell non-autonomous \| partially \| somatic clone of cell polarity defective \| somatic clone \| cell non-autonomous phenotype of Ras85D^ΔC40B (Poulton and Deng, 2006) Scer\GAL4^Act.PU/ex^{CT.Scer\UAS.P\T.T:Avic\GFP-EGFP} is a suppressor of size defective \| adult stage \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/ex^Scer\UAS.cBa is a suppressor of size defective \| adult stage \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/ex^{Scer\UAS.P\T.T:Avic\GFP-EGFP} is a suppressor of size defective \| adult stage \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/Hsap\ELP3^Scer\UAS.cMa is a suppressor of lethal phenotype of Elp3¹/Elp3² (Miśkiewicz et al., 2011) Scer\GAL4^Act.PU/Hsap\ELP3^Scer\UAS.cMa is a suppressor of lethal phenotype of Elp3^Δ3/Elp3^Δ4 (Miśkiewicz et al., 2011) Scer\GAL4^Act.PU/Hsap\MOB4^1.Scer\UAS is a suppressor of lethal \| larval stage phenotype of Mob4^EYΔL3 (Schulte et al., 2010) Scer\GAL4^Act.PU/Hsap\MTF1^{Scer\UAS.P\T.cBa} is a suppressor \| partially of chemical sensitive \| recessive phenotype of MTF-1^140-1R (Balamurugan et al., 2004) Scer\GAL4^Act.PU/Hsap\PANK2^m.Scer\UAS is a suppressor of lethal \| pupal stage phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^m.Scer\UAS is a suppressor of locomotor behavior defective phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^m.Scer\UAS is a suppressor of short lived phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^m.Scer\UAS is a suppressor of sterile phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{S241P.Scer\UAS} is a suppressor \| partially of female sterile phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{S241P.Scer\UAS} is a suppressor \| partially of locomotor behavior defective phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{S241P.Scer\UAS} is a suppressor \| partially of short lived phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{S241P.Scer\UAS} is a suppressor of lethal \| pupal stage phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK3^Scer\UAS.cWa is a suppressor \| partially of locomotor behavior defective phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK3^Scer\UAS.cWa is a suppressor of female sterile phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK3^Scer\UAS.cWa is a suppressor of lethal \| pupal stage phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK3^Scer\UAS.cWa is a suppressor of short lived phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\SCRIB^{Scer\UAS.T:Avic\GFP-EGFP} is a suppressor of lethal \| larval stage phenotype of scrib¹/scrib^j7B3 (Dow et al., 2003) Scer\GAL4^Act.PU/HtrA2^{Scer\UAS.P\T.cTa} is a suppressor of locomotor behavior defective phenotype of Pink1^B9 (Tain et al., 2009) Scer\GAL4^Act.PU/in::mwh^Scer\UAS.cLa is a suppressor of planar polarity defective phenotype of in^IH56 (Lu et al., 2010) Scer\GAL4^Act.PU/in::mwh^Scer\UAS.cLa is a suppressor of planar polarity defective phenotype of mwh¹ (Lu et al., 2010) Scer\GAL4^Act.PU/LIMK1^JF02063 is a suppressor \| partially \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/LIMK1^{Scer\UAS.KI.T:Ivir\HA1} is a suppressor \| partially \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/Mpk2^{DPTD.Scer\UAS.T:Sjap\GST} is a suppressor \| partially of melanotic mass phenotype \| larval stage phenotype of p38b^d27 (Seisenbacher et al., 2011) Scer\GAL4^Act.PU/pros^Scer\UAS.cMa is a suppressor \| partially \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of mir-279^S096207 (Hartl et al., 2011) Scer\GAL4^Act.PU/RpS6^{dsRNA.Sym.Scer\UAS} is a suppressor of visible phenotype of CycE^JP (Lin et al., 2011) Scer\GAL4^Act.PU/Socs36E^{Scer\UAS.P\T.cCa} is a suppressor \| somatic clone of tumorigenic \| somatic clone phenotype of Sce¹ (Classen et al., 2009) Scer\GAL4^Act.PU/Sp7^{dsRNA.Scer\UAS.WIZ} is a suppressor of lethal \| larval stage phenotype of Scer\GAL4^Act.PU, Spn77Ba^{dsRNA.WIZ.Scer\UAS} (Tang et al., 2008, Tang et al., 2008) Scer\GAL4^Act.PU/tsr^S3A.Scer\UAS is a suppressor \| partially \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/ZnT35C^a.Scer\UAS is a suppressor \| partially of chemical sensitive phenotype of MTF-1^140-1R (Yepiskoposyan et al., 2006) scramb1^Scer\UAS.cAa/Scer\GAL4^Act.PU is a suppressor of neurophysiology defective phenotype of scramb1^Δ38, scramb2^Δ57 (Acharya et al., 2006) sds22^Scer\UAS.cJa, Scer\GAL4^Act.PU is a suppressor \| somatic clone of tumorigenic \| somatic clone phenotype of Ras85D^V12.Scer\UAS, Scer\GAL4^Act.PU, scrib⁶⁷³ (Jiang et al., 2011, Jiang et al., 2011) Su(var)205^{Scer\UAS.T:Avic\GFP}, Scer\GAL4^Act.PU is a suppressor of lethal phenotype of HP1b^{Scer\UAS.T:Avic\GFP}, Scer\GAL4^Act.PU (Zhang et al., 2011, Zhang et al., 2011) Topors^{dsRNA.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor of body color defective phenotype of y² (Capelson and Corces, 2005)
NOT Suppressor of
Statement Reference Hsap\PANK2^{T418M.Scer\UAS}/Scer\GAL4^Act.PU is a non-suppressor of male sterile phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK4^Scer\UAS.cWa/Scer\GAL4^Act.PU is a non-suppressor of male sterile phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/app^{dsRNA.Scer\UAS.cMa} is a non-suppressor of size defective \| adult stage \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/BacA\p35^Scer\UAS.cHa is a non-suppressor of decreased cell number \| somatic clone \| third instar larval stage phenotype of Aos1^c06048 (Kanakousaki and Gibson, 2012) Scer\GAL4^Act.PU/BacA\p35^Scer\UAS.cUa is a non-suppressor \| somatic clone of neuroanatomy defective \| somatic clone \| adult stage phenotype of psidin^IG978 (Stephan et al., 2012) Scer\GAL4^Act.PU/ds^Scer\UAS.cTa is a non-suppressor of planar polarity defective phenotype of ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ex^{linker.Scer\UAS.P\T.T:Avic\GFP-EGFP} is a non-suppressor of size defective \| adult stage \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/Fer1HCH^mut.Scer\UAS is a non-suppressor of lethal \| recessive phenotype of Fer2LCH⁰⁰⁰³⁵ (Missirlis et al., 2007) Scer\GAL4^Act.PU/Fer1HCH^Scer\UAS.cMa is a non-suppressor of lethal \| recessive phenotype of Fer2LCH⁰⁰⁰³⁵ (Missirlis et al., 2007) Scer\GAL4^Act.PU/Fer2LCH^Scer\UAS.cMa is a non-suppressor of lethal phenotype of Fer1HCH⁰⁰⁴⁵¹ (Missirlis et al., 2007) Scer\GAL4^Act.PU/Fer2LCH^Scer\UAS.cMa is a non-suppressor of lethal phenotype of Fer1HCH^G00188/Fer1HCH⁰⁰⁴⁵¹ (Missirlis et al., 2007) Scer\GAL4^Act.PU/Hsap\PANK2^c.Scer\UAS is a non-suppressor of lethal \| pupal stage phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^c.Scer\UAS is a non-suppressor of locomotor behavior defective phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^c.Scer\UAS is a non-suppressor of short lived phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^c.Scer\UAS is a non-suppressor of sterile phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{G411R.Scer\UAS} is a non-suppressor of lethal \| pupal stage phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{G411R.Scer\UAS} is a non-suppressor of locomotor behavior defective phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{G411R.Scer\UAS} is a non-suppressor of male sterile phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{G411R.Scer\UAS} is a non-suppressor of short lived phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{S241P.Scer\UAS} is a non-suppressor of male sterile phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK3^Scer\UAS.cWa is a non-suppressor of male sterile phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Mpk2^{Scer\UAS.T:Sjap\GST} is a non-suppressor of melanotic mass phenotype \| larval stage phenotype of p38b^d27 (Seisenbacher et al., 2011) Scer\GAL4^Act.PU/PI31^{Scer\UAS.P\T.T:Ivir\HA1} is a non-suppressor of sterile phenotype of ntc^ms771 (Bader et al., 2011) Scer\GAL4^Act.PU/Pp1-87B^{Scer\UAS.T:Ivir\HA1} is a non-suppressor \| somatic clone of visible \| somatic clone phenotype of sds22^e00975 (Jiang et al., 2011) Scer\GAL4^Act.PU/wts^{Scer\UAS.T:Hsap\MYC} is a non-suppressor of size defective \| adult stage \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Sp7^{dsRNA.Scer\UAS.WIZ}, Scer\GAL4^Act.PU is a non-suppressor of melanotic mass phenotype \| larval stage phenotype of MP1^{Scer\UAS.P\T.T:SS-ea}, Scer\GAL4^Act.PU (Tang et al., 2006, Tang et al., 2006) ZnT35C^b.Scer\UAS/Scer\GAL4^Act.PU is a non-suppressor of chemical sensitive phenotype of MTF-1^140-1R (Yepiskoposyan et al., 2006)
Phenotype Manifest In
Enhanced by
Statement Reference Ras85D^V12.Scer\UAS, Scer\GAL4^Act.PU has eye-antennal disc \| somatic clone phenotype, enhanceable \| somatic clone by sds22^Δ2.8/sds22^Δ2.8 (Jiang et al., 2011)
Suppressed by
Statement Reference N^{Scer\UAS.ΔLNR.T:Ecol\lexA}, Scer\GAL4^Act.PU has wing disc \| somatic clone \| third instar larval stage phenotype, suppressible by rumi^Δ26 (Leonardi et al., 2011) Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU has posterior crossvein phenotype, suppressible by Ras85D^e1B/Ras85D[+] (Yan et al., 2010) Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU has posterior crossvein phenotype, suppressible by Ras85D^e2F/Ras85D[+] (Yan et al., 2010) Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU has wing phenotype, suppressible \| partially by Ras85D^e1B/Ras85D[+], Scer\GAL4^Act.PU (Yan et al., 2010, Yan et al., 2010) Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU has wing vein L2 phenotype, suppressible by Ras85D^e1B/Ras85D[+] (Yan et al., 2010) Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU has wing vein L2 phenotype, suppressible by Ras85D^e2F/Ras85D[+] (Yan et al., 2010) Ras85D^V12.Scer\UAS, Scer\GAL4^Act.PU, scrib⁶⁷³ has eye-antennal disc \| somatic clone phenotype, suppressible \| somatic clone by sds22^Scer\UAS.cJa, Scer\GAL4^Act.PU (Jiang et al., 2011, Jiang et al., 2011) Scer\GAL4^Act.PU, Spn77Ba^{dsRNA.WIZ.Scer\UAS} has tracheal system phenotype, suppressible by MP1^{dsRNA.Scer\UAS.WIZ}, Scer\GAL4^Act.PU (Tang et al., 2008, Tang et al., 2008) Scer\GAL4^Act.PU, Spn77Ba^{dsRNA.WIZ.Scer\UAS} has tracheal system phenotype, suppressible by Scer\GAL4^Act.PU/Sp7^{dsRNA.Scer\UAS.WIZ} (Tang et al., 2008, Tang et al., 2008)
NOT suppressed by
Statement Reference Scer\GAL4^Act.PU, bsk^Scer\UAS.cBa has embryonic/larval fat body \| somatic clone phenotype, non-suppressible by Atg13^Δ81/Atg13^Δ81 (Chang and Neufeld, 2009)
Enhancer of
Statement Reference tsr^S3E.Scer\UAS/Scer\GAL4^Act.PU is an enhancer \| somatic clone of adult olfactory receptor neuron Or59c \| somatic clone phenotype of psidin¹ (Stephan et al., 2012)
NOT Enhancer of
Statement Reference Scer\GAL4^Act.PU/NAA20^KK102646 is a non-enhancer \| somatic clone of adult olfactory receptor neuron Or42a \| somatic clone phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/NAA20^KK102646 is a non-enhancer \| somatic clone of adult olfactory receptor neuron Or42a \| somatic clone phenotype of psidin^IG978 (Stephan et al., 2012) Scer\GAL4^Act.PU/NAA20^KK102646 is a non-enhancer \| somatic clone of adult olfactory receptor neuron Or59c \| somatic clone phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/NAA20^KK102646 is a non-enhancer \| somatic clone of adult olfactory receptor neuron Or59c \| somatic clone phenotype of psidin^IG978 (Stephan et al., 2012)
Suppressor of
Statement Reference dome^{ΔCYT.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor \| somatic clone of eye disc \| somatic clone phenotype of Pc¹⁵ (Classen et al., 2009) dome^{ΔCYT.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor \| somatic clone of eye disc \| somatic clone phenotype of Sce¹ (Classen et al., 2009) flw^{Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU is a suppressor \| somatic clone of eye \| somatic clone phenotype of sds22^e00975 (Jiang et al., 2011) mir-279^{Scer\UAS.T:Disc\RFP}/Scer\GAL4^Act.PU is a suppressor \| partially \| somatic clone of carbon dioxide sensitive neuron \| ectopic \| somatic clone phenotype of pros^IG2227 (Hartl et al., 2011) MP1^{dsRNA.Scer\UAS.WIZ}, Scer\GAL4^Act.PU is a suppressor of tracheal system phenotype of Scer\GAL4^Act.PU, Spn77Ba^{dsRNA.WIZ.Scer\UAS} (Tang et al., 2008, Tang et al., 2008) Ras85D^e1B/Ras85D[+], Scer\GAL4^Act.PU is a suppressor \| partially of wing phenotype of Rabex-5^VDRC.cUa, Scer\GAL4^Act.PU (Yan et al., 2010, Yan et al., 2010) Scer\GAL4^Act.PU/BacA\p35^Scer\UAS.cUa is a suppressor \| partially \| somatic clone of adult olfactory receptor neuron Or59c \| somatic clone phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/Dad^Scer\UAS.cTa is a suppressor of wing vein phenotype of Dd^G0269 (Liu et al., 2011) Scer\GAL4^Act.PU/Dg^{dsRNA.Scer\UAS} is a suppressor \| cell autonomous \| partially \| somatic clone of oocyte associated follicle cell \| somatic clone \| cell autonomous phenotype of Ras85D^ΔC40B (Poulton and Deng, 2006) Scer\GAL4^Act.PU/Dg^{dsRNA.Scer\UAS} is a suppressor \| cell non-autonomous \| partially \| somatic clone of oocyte \| somatic clone \| cell non-autonomous phenotype of Ras85D^ΔC40B (Poulton and Deng, 2006) Scer\GAL4^Act.PU/ex^{CT.Scer\UAS.P\T.T:Avic\GFP-EGFP} is a suppressor of head \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/ex^Scer\UAS.cBa is a suppressor of head \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/ex^{Scer\UAS.P\T.T:Avic\GFP-EGFP} is a suppressor of head \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/Hsap\PANK2^m.Scer\UAS is a suppressor of adult brain phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^m.Scer\UAS is a suppressor of retina phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^m.Scer\UAS is a suppressor of testis phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\SCRIB^{Scer\UAS.T:Avic\GFP-EGFP} is a suppressor of FlyBase_internalproperty type:organism:organism \| third instar larval stage phenotype of scrib¹/scrib^j7B3 (Dow et al., 2003) Scer\GAL4^Act.PU/in::mwh^Scer\UAS.cLa is a suppressor of wing hair \| supernumerary phenotype of in^IH56 (Lu et al., 2010) Scer\GAL4^Act.PU/in::mwh^Scer\UAS.cLa is a suppressor of wing hair \| supernumerary phenotype of mwh¹ (Lu et al., 2010) Scer\GAL4^Act.PU/in::mwh^Scer\UAS.cLa is a suppressor of wing hair phenotype of in^IH56 (Lu et al., 2010) Scer\GAL4^Act.PU/in::mwh^Scer\UAS.cLa is a suppressor of wing hair phenotype of mwh¹ (Lu et al., 2010) Scer\GAL4^Act.PU/LIMK1^JF02063 is a suppressor \| partially \| somatic clone of adult olfactory receptor neuron Or59c \| somatic clone phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/LIMK1^{Scer\UAS.KI.T:Ivir\HA1} is a suppressor \| partially \| somatic clone of adult olfactory receptor neuron Or59c \| somatic clone phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/Mpk2^{DPTD.Scer\UAS.T:Sjap\GST} is a suppressor \| partially of embryonic/larval hindgut \| posterior \| larval stage phenotype of p38b^d27 (Seisenbacher et al., 2011) Scer\GAL4^Act.PU/pros^Scer\UAS.cMa is a suppressor \| partially \| somatic clone of carbon dioxide sensitive neuron \| ectopic \| somatic clone phenotype of mir-279^S096207 (Hartl et al., 2011) Scer\GAL4^Act.PU/RpS6^{dsRNA.Sym.Scer\UAS} is a suppressor of eye phenotype of CycE^JP (Lin et al., 2011) Scer\GAL4^Act.PU/sds22^Scer\UAS.cJa is a suppressor \| somatic clone of eye \| somatic clone phenotype of scrib⁶⁷³ (Jiang et al., 2011) Scer\GAL4^Act.PU/sds22^Scer\UAS.cJa is a suppressor \| somatic clone of eye-antennal disc \| somatic clone phenotype of scrib⁶⁷³ (Jiang et al., 2011) Scer\GAL4^Act.PU/Socs36E^{Scer\UAS.P\T.cCa} is a suppressor \| somatic clone of eye disc \| somatic clone phenotype of Sce¹ (Classen et al., 2009) Scer\GAL4^Act.PU/Sp7^{dsRNA.Scer\UAS.WIZ} is a suppressor of tracheal system phenotype of Scer\GAL4^Act.PU, Spn77Ba^{dsRNA.WIZ.Scer\UAS} (Tang et al., 2008, Tang et al., 2008) Scer\GAL4^Act.PU/tsr^S3A.Scer\UAS is a suppressor \| partially \| somatic clone of adult olfactory receptor neuron Or59c \| somatic clone phenotype of psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/zip^GD1566 is a suppressor \| somatic clone of eye disc \| somatic clone phenotype of sds22^Δ2.8 (Jiang et al., 2011) scramb1^Scer\UAS.cAa/Scer\GAL4^Act.PU is a suppressor of presynaptic active zone phenotype of scramb1^Δ38, scramb2^Δ57 (Acharya et al., 2006) scramb1^Scer\UAS.cAa/Scer\GAL4^Act.PU is a suppressor of synaptic vesicle phenotype of scramb1^Δ38, scramb2^Δ57 (Acharya et al., 2006) sds22^Scer\UAS.cJa, Scer\GAL4^Act.PU is a suppressor \| somatic clone of eye-antennal disc \| somatic clone phenotype of Ras85D^V12.Scer\UAS, Scer\GAL4^Act.PU, scrib⁶⁷³ (Jiang et al., 2011, Jiang et al., 2011) Topors^{dsRNA.Scer\UAS}/Scer\GAL4^Act.PU is a suppressor of adult cuticle phenotype of y² (Capelson and Corces, 2005)
NOT Suppressor of
Statement Reference Hsap\PANK2^{T418M.Scer\UAS}/Scer\GAL4^Act.PU is a non-suppressor of adult brain phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK2^{T418M.Scer\UAS}/Scer\GAL4^Act.PU is a non-suppressor of retina \| adult stage phenotype of fbl¹ (Wu et al., 2009) Hsap\PANK2^{T418M.Scer\UAS}/Scer\GAL4^Act.PU is a non-suppressor of testis phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/app^{dsRNA.Scer\UAS.cMa} is a non-suppressor of head \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/BacA\p35^Scer\UAS.cUa is a non-suppressor \| somatic clone of adult olfactory receptor neuron Or59c \| somatic clone phenotype of psidin^IG978 (Stephan et al., 2012) Scer\GAL4^Act.PU/ex^{linker.Scer\UAS.P\T.T:Avic\GFP-EGFP} is a non-suppressor of head \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011) Scer\GAL4^Act.PU/Hsap\PANK2^{G411R.Scer\UAS} is a non-suppressor of adult brain phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{G411R.Scer\UAS} is a non-suppressor of retina \| adult stage phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{G411R.Scer\UAS} is a non-suppressor of testis phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{S241P.Scer\UAS} is a non-suppressor of adult brain phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{S241P.Scer\UAS} is a non-suppressor of retina \| adult stage phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Hsap\PANK2^{S241P.Scer\UAS} is a non-suppressor of testis phenotype of fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Mpk2^{Scer\UAS.T:Sjap\GST} is a non-suppressor of embryonic/larval hindgut \| posterior \| larval stage phenotype of p38b^d27 (Seisenbacher et al., 2011) Scer\GAL4^Act.PU/PI31^{Scer\UAS.P\T.T:Ivir\HA1} is a non-suppressor of sperm individualization complex phenotype of ntc^ms771 (Bader et al., 2011) Scer\GAL4^Act.PU/Pp1-87B^{Scer\UAS.T:Ivir\HA1} is a non-suppressor \| somatic clone of eye \| somatic clone phenotype of sds22^e00975 (Jiang et al., 2011) Scer\GAL4^Act.PU/wts^{Scer\UAS.T:Hsap\MYC} is a non-suppressor of head \| somatic clone - Minute background phenotype of Df(3L)H99, mop^sfv3 (Gilbert et al., 2011)
Additional Comments
Genetic Interactions
Statement Reference
Xenogenetic Interactions
Statement Reference
Complementation & Rescue Data
Rescues	Aos1^Scer\UAS.cKa/Scer\GAL4^Act.PU rescues Aos1^c06048 (Kanakousaki and Gibson, 2012) DAAM^{Scer\UAS.P\T.cMa}/Scer\GAL4^Act.PU rescues DAAM^Ex1 (Matusek et al., 2006) DAAM^{Scer\UAS.P\T.cMa}/Scer\GAL4^Act.PU rescues DAAM^Ex36 (Matusek et al., 2006) DAAM^{Scer\UAS.P\T.cMa}/Scer\GAL4^Act.PU rescues DAAM^Ex65 (Matusek et al., 2006) DAAM^{Scer\UAS.P\T.cMa}/Scer\GAL4^Act.PU rescues DAAM^Ex68 (Matusek et al., 2006) DAAM^{Scer\UAS.P\T.cMa}/Scer\GAL4^Act.PU rescues DAAM^Ex184 (Matusek et al., 2006) DAAM^{Scer\UAS.P\T.cMa}/Scer\GAL4^Act.PU rescues DAAM^Ex202 (Matusek et al., 2006) DAAM^{Scer\UAS.P\T.cMa}/Scer\GAL4^Act.PU rescues DAAM^Ex249 (Matusek et al., 2006) mir-279^{Scer\UAS.T:Disc\RFP}/Scer\GAL4^Act.PU rescues mir-279^S096207 (Hartl et al., 2011) psidin^Scer\UAS.cKa/Scer\GAL4^Act.PU rescues psidin^85D1/psidin^55D4 (Kim et al., 2011) RecQ4^Scer\UAS.cXa/Scer\GAL4^Act.PU rescues RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/Ada2a^Scer\UAS.cVa rescues Ada2a^d189 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Adgf-A^{Scer\UAS.T:Hsap\MYC} rescues Adgf-A^Karel.3'/Adgf-A^Karel.5' (Dolezal et al., 2005) Scer\GAL4^Act.PU/app^RA.Scer\UAS rescues app^e6 (Matakatsu and Blair, 2008) Scer\GAL4^Act.PU/Ced-12^Scer\UAS.cGa rescues Ced-12^c06760 (Geisbrecht et al., 2008) Scer\GAL4^Act.PU/Cerk^Scer\UAS.cDa rescues Cerk¹ (Dasgupta et al., 2009) Scer\GAL4^Act.PU/CycG^Scer\UAS.cSa rescues CycG^{dsRNA.Scer\UAS} (Salvaing et al., 2008) Scer\GAL4^Act.PU/egh^Scer\UAS.cWa rescues egh^9pp4 (Wandall et al., 2005) Scer\GAL4^Act.PU/Eip93F^Scer\UAS.A rescues Eip93F^unspecified (Mou et al., 2012) Scer\GAL4^Act.PU/Eip93F^Scer\UAS.B rescues Eip93F^unspecified (Mou et al., 2012) Scer\GAL4^Act.PU/fbl^L.Scer\UAS rescues fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Fer1HCH^Scer\UAS.cMa rescues Fer1HCH⁰⁰⁴⁵¹ (Missirlis et al., 2007) Scer\GAL4^Act.PU/Fer1HCH^Scer\UAS.cMa rescues Fer1HCH^G00188/Fer1HCH⁰⁰⁴⁵¹ (Missirlis et al., 2007) Scer\GAL4^Act.PU/Fer2LCH^Scer\UAS.cMa rescues Fer2LCH⁰⁰⁰³⁵ (Missirlis et al., 2007) Scer\GAL4^Act.PU/fry^{Scer\UAS.T:Hsap\MYC.T:Avic\GFP} rescues fry²/fry¹ (Fang et al., 2010) Scer\GAL4^Act.PU/Hcf^{Scer\UAS.T:Uuuu\T7,T:Zzzz\FLAG} rescues Hcf^HR1 (Rodriguez-Jato et al., 2011) Scer\GAL4^Act.PU/HSPC300^Scer\UAS.cQa rescues Df(2R)HSPC300^Δ96.1 (Qurashi et al., 2007) Scer\GAL4^Act.PU/HSPC300^Scer\UAS.cQa rescues HSPC300^Δ54.3 (Qurashi et al., 2007) Scer\GAL4^Act.PU/kibra^{Scer\UAS.P\T.cYa} rescues kibra^del (Yu et al., 2010) Scer\GAL4^Act.PU/lid^{C1296A.Scer\UAS.P\T} rescues lid¹⁰⁴²⁴ (Li et al., 2010) Scer\GAL4^Act.PU/lid^{Scer\UAS.P\T.cSa} rescues lid¹⁰⁴²⁴ (Li et al., 2010) Scer\GAL4^Act.PU/Met^Scer\UAS.cBa rescues Met^W3 (Barry et al., 2008) Scer\GAL4^Act.PU/mgr^Scer\UAS.cDa rescues mgr^l4/mgr¹ (Delgehyr et al., 2012) Scer\GAL4^Act.PU/Mob4^{Scer\UAS.C.T:Disc\RFP-mCherry} rescues Mob4^EYΔL3 (Schulte, 2011.9.16) Scer\GAL4^Act.PU/Mob4^Scer\UAS.cSa rescues Mob4^EYΔL3 (Schulte et al., 2010) Scer\GAL4^Act.PU/Mob4^{Scer\UAS.N.T:Disc\RFP-mCherry} rescues Mob4^EYΔL3 (Schulte, 2011.9.16) Scer\GAL4^Act.PU/p38b^{Scer\UAS.T:Sjap\GST} rescues p38b^d27 (Seisenbacher et al., 2011) Scer\GAL4^Act.PU/pros^Scer\UAS.cMa rescues pros^IG2227 (Hartl et al., 2011) Scer\GAL4^Act.PU/psidin^{S678A.Scer\UAS.T:Ivir\HA1} rescues psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/psidin^{Scer\UAS.T:Ivir\HA1} rescues psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU/psidin^{Scer\UAS.T:Ivir\HA1} rescues psidin^IG978 (Stephan et al., 2012) Scer\GAL4^Act.PU/Ras85D^Scer\UAS.cKa rescues Ras85D^KP (Wu et al., 2009) Scer\GAL4^Act.PU/RecQ4^{FL.Scer\UAS.T:Zzzz\FLAG} rescues RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/RecQ4^{Δ868-1207.Scer\UAS.T:Zzzz\FLAG} rescues RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/RecQ4^{Δ868-1579.Scer\UAS.T:Zzzz\FLAG} rescues RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/RecQ4^{Δ1234-1579.Scer\UAS.T:Zzzz\FLAG} rescues RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/Slob^Scer\UAS.cSa rescues Slob^mut-IP1 (Ma et al., 2011) Scer\GAL4^Act.PU/Smn^{Scer\UAS.T:Zzzz\FLAG} rescues Smn^f05960 (Chang et al., 2008) Scer\GAL4^Act.PU/Uba2^Scer\UAS.cKa rescues Uba2^N2 (Kanakousaki and Gibson, 2012) Spn77Ba^{Scer\UAS.P\T.T:Ivir\HA1}/Scer\GAL4^Act.PU rescues Spn77Ba^W7 (Tang et al., 2008) twf^Scer\UAS.cWa/Scer\GAL4^Act.PU rescues twf¹¹⁰ (Wang et al., 2010)
Partially rescues	ft^Scer\UAS.cMa/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) ft^{Δ5-C.Scer\UAS}/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) ft^{Δ9-C.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) ft^{ΔECD2.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) ft^{ΔECDΔ1-5.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) ft^{ΔECDΔ4-C.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) ft^{ΔECDΔ5-6.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) ft^{ΔECDΔ6-C.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) ft^{ΔECDΔN-2.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) psidin^{IG978.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues psidin¹ (Stephan et al., 2012) psidin^{S678D.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues psidin¹ (Stephan et al., 2012) Scer\GAL4^Act.PU, mam^Scer\UAS.cAa, Scer\GAL4^tub.PU partially rescues mam⁸ (Vied and Kalderon, 2009) Scer\GAL4^Act.PU/Ada2a::Ada2b^{2a2b.Scer\UAS} partially rescues Ada2b^d842 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Ada2a::Ada2b^{2bM.2a.Scer\UAS} partially rescues Ada2a^d189 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Ada2a::Ada2b^{2bS.2a.Scer\UAS} partially rescues Ada2a^d189 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Ada2b^Scer\UAS.cVa partially rescues Ada2b^d842 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/flr^{Scer\UAS.T:Avic\GFP} partially rescues flr⁵/flr⁶ (Ren et al., 2007) Scer\GAL4^Act.PU/ft^{Δ6-C.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{Δ7-C.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{Δ8-C.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECD.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ1-3.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ1-C.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ2-C.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ3-4.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ3-5.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ5-C.Scer\UAS} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ7-C.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ8-C.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔ9-C.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔN-1.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔN-4.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔICD.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔN-1.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔN-2.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔN-4.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔN-5.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔN-6.Scer\UAS.T:Ivir\HA1} partially rescues ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/Lapsyn^Scer\UAS.cGa partially rescues Df(2R)Exel6072/Lapsyn^zg1 (Guan et al., 2011) Scer\GAL4^Act.PU/Lapsyn^Scer\UAS.cGa partially rescues Lapsyn^zg1 (Guan et al., 2011) Scer\GAL4^Act.PU/lid^{ΔC5HC2.Scer\UAS.P\T} partially rescues lid¹⁰⁴²⁴ (Li et al., 2010) Scer\GAL4^Act.PU/lid^{ΔPHD1.Scer\UAS.P\T} partially rescues lid¹⁰⁴²⁴ (Li et al., 2010) Scer\GAL4^Act.PU/mwh^Scer\UAS.cYa partially rescues mwh^unspecified (Yan et al., 2008) Scer\GAL4^Act.PU/p38b^{Scer\UAS.EPSV.T:Sjap\GST} partially rescues p38b^d27 (Seisenbacher et al., 2011) Scer\GAL4^Act.PU/RecQ4^{Δ1234-1579.Scer\UAS.T:Zzzz\FLAG} partially rescues RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/sha^{Scer\UAS.T:Avic\GFP} partially rescues sha^VB13 (Ren et al., 2006) Scer\GAL4^Act.PU/Smn^{Scer\UAS.T:Zzzz\FLAG} partially rescues Smn^73Ao (Chang et al., 2008) Stat92E^{Scer\UAS.P\T.T:Ivir\HA1}/Scer\GAL4^Act.PU partially rescues Stat92E^85C9 (Ekas et al., 2010)
Fails to rescue	Ada2a::Ada2b^{2bL.2a.Scer\UAS}/Scer\GAL4^Act.PU fails to rescue Ada2a^d189 (Vamos and Boros, 2012) Ada2a::Ada2b^{2bL.2a.Scer\UAS}/Scer\GAL4^Act.PU fails to rescue Ada2b^d842 (Vamos and Boros, 2012) ft^{ICD.Scer\UAS.T:Ivir\HA1}/Scer\GAL4^Act.PU fails to rescue ft⁸/ft^G-rv (Matakatsu and Blair, 2012) lid^{ΔPHD3.Scer\UAS.P\T}/Scer\GAL4^Act.PU fails to rescue lid¹⁰⁴²⁴ (Li et al., 2010) Scer\GAL4^Act.PU, mam^N.Scer\UAS, Scer\GAL4^tub.PU fails to rescue mam⁸ (Vied and Kalderon, 2009) Scer\GAL4^Act.PU/Ada2a::Ada2b^{2a2b.Scer\UAS} fails to rescue Ada2a^d189 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Ada2a::Ada2b^{2bM.2a.Scer\UAS} fails to rescue Ada2b^d842 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Ada2a::Ada2b^{2bS.2a.Scer\UAS} fails to rescue Ada2b^d842 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Ada2a^Scer\UAS.cVa fails to rescue Ada2b^d842 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Ada2b^Scer\UAS.cVa fails to rescue Ada2a^d189 (Vamos and Boros, 2012) Scer\GAL4^Act.PU/Adgf-A^{mut.Scer\UAS.T:Hsap\MYC} fails to rescue Adgf-A^Karel.3'/Adgf-A^Karel.5' (Dolezal et al., 2005) Scer\GAL4^Act.PU/fbl^S1.Scer\UAS fails to rescue fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/fbl^S2.Scer\UAS fails to rescue fbl¹ (Wu et al., 2009) Scer\GAL4^Act.PU/Fer1HCH^mut.Scer\UAS fails to rescue Fer1HCH⁰⁰⁴⁵¹ (Missirlis et al., 2007) Scer\GAL4^Act.PU/Fer1HCH^mut.Scer\UAS fails to rescue Fer1HCH^G00188/Fer1HCH⁰⁰⁴⁵¹ (Missirlis et al., 2007) Scer\GAL4^Act.PU/fry^{1637.Scer\UAS.T:Hsap\MYC} fails to rescue fry²/fry¹ (Fang et al., 2010) Scer\GAL4^Act.PU/ft^{ΔECDΔICD.Scer\UAS.T:Ivir\HA1} fails to rescue ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔN-5.Scer\UAS.T:Ivir\HA1} fails to rescue ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/ft^{ΔECDΔN-6.Scer\UAS.T:Ivir\HA1} fails to rescue ft⁸/ft^G-rv (Matakatsu and Blair, 2012) Scer\GAL4^Act.PU/lid^{JmjC.mut.Scer\UAS.P\T} fails to rescue lid¹⁰⁴²⁴ (Li et al., 2010) Scer\GAL4^Act.PU/lid^{ΔARID.Scer\UAS.P\T} fails to rescue lid¹⁰⁴²⁴ (Li et al., 2010) Scer\GAL4^Act.PU/lid^{ΔJmjN.Scer\UAS.P\T} fails to rescue lid¹⁰⁴²⁴ (Li et al., 2010) Scer\GAL4^Act.PU/p38b^{AGF.Scer\UAS.T:Sjap\GST} fails to rescue p38b^d27 (Seisenbacher et al., 2011) Scer\GAL4^Act.PU/p38b^{KR.Scer\UAS.T:Sjap\GST} fails to rescue p38b^d27 (Seisenbacher et al., 2011) Scer\GAL4^Act.PU/RecQ4^{Δ1-807.Scer\UAS.T:Zzzz\FLAG} fails to rescue RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/RecQ4^{Δ1-1207.Scer\UAS.T:Zzzz\FLAG} fails to rescue RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/RecQ4^{Δ868-1207.Scer\UAS.T:Zzzz\FLAG} fails to rescue RecQ4¹⁴ (Xu et al., 2009) Scer\GAL4^Act.PU/RecQ4^{Δ868-1579.Scer\UAS.T:Zzzz\FLAG} fails to rescue RecQ4¹⁴ (Xu et al., 2009)
Comments
Stocks ( 0 )

Notes on Origin
Discoverer

Comments
	Carried in plasmid "pAct-Gal4", transfected into S2 cells and used as a driver construct. (Hernandez et al., 2004) Carried in a plasmid and transfected into S2 cells. (Rothenberg et al., 2003)
External Crossreferences & Linkouts
Other Crossreferences

Linkouts

Synonyms & Secondary IDs ( 4 )
Reported As
Symbol Synonym	GAL4 (Chabu and Doe, 2009) Scer\GAL4^Act.PU Scer\GAL4^Act
Name Synonym	Actin promoter construct of Unknown
Secondary FlyBase IDs

References ( 180 )

Generate a list of	All references relating to this allele ( 180 )

List References by type	Research paper ( 175 ) Supplementary material ( 3 ) Personal communication to FlyBase ( 2 )
Recent research papers ( 61 )
	Azzam and Liu, 2013, PLoS Genet. 9(2): e1003256 Only One Isoform of Drosophila melanogaster CTP Synthase Forms the Cytoophidium. [FBrf0220954] Chen et al., 2013, Neuropharmacology 67: 25--31 Mutations in Bacchus reveal a tyramine-dependent nuclear regulator for acute ethanol sensitivity in Drosophila. [FBrf0220671] Hermle et al., 2013, EMBO J. 32(2): 245--259 Drosophila ATP6AP2/VhaPRR functions both as a novel planar cell polarity core protein and a regulator of endosomal trafficking. [FBrf0220613] Broderick et al., 2012, PLoS ONE 7(9): e44567 Drosophila ninjurin a induces nonapoptotic cell death. [FBrf0219544] Carroll et al., 2012, Development 139(3): 612--621 The extracellular loops of Smoothened play a regulatory role in control of Hedgehog pathway activation. [FBrf0217120] 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] Chawla and Sokol, 2012, Development 139(10): 1788--1797 Hormonal activation of let-7-C microRNAs via EcR is required for adult Drosophila melanogaster morphology and function. [FBrf0218077] Delgehyr et al., 2012, Proc. Natl. Acad. Sci. U.S.A. 109(15): 5729--5734 Drosophila Mgr, a Prefoldin subunit cooperating with von Hippel Lindau to regulate tubulin stability. [FBrf0218047] Domanitskaya and Schüpbach, 2012, J. Cell Sci. 125(2): 399--410 CoREST acts as a positive regulator of Notch signaling in the follicle cells of Drosophila melanogaster. [FBrf0217558] Fischer et al., 2012, PLoS ONE 7(8): e42349 fussel (fuss) - A Negative Regulator of BMP Signaling in Drosophila melanogaster. [FBrf0219160] Fletcher et al., 2012, Curr. Biol. 22(12): 1116--1122 Positive feedback and mutual antagonism combine to polarize crumbs in the Drosophila follicle cell epithelium. [FBrf0218646] Kametaka et al., 2012, J. Cell Sci. 125(3): 634--648 AP-1 clathrin adaptor and CG8538/Aftiphilin are involved in Notch signaling during eye development in Drosophila melanogaster. [FBrf0217589] Kanakousaki and Gibson, 2012, Development 139(15): 2751--2762 A differential requirement for SUMOylation in proliferating and non-proliferating cells during Drosophila development. [FBrf0218825] Maeng et al., 2012, Mol. Cells 33(5): 457--463 The BTB/POZ-ZF transcription factor dPLZF is involved in Ras/ERK signaling during Drosophila wing development. [FBrf0218378] Matakatsu and Blair, 2012, Development 139(8): 1498--1508 Separating planar cell polarity and Hippo pathway activities of the protocadherins Fat and Dachsous. [FBrf0217773] McDermott et al., 2012, Biol. Open 1(5): 488--497 Drosophila Syncrip binds the gurken mRNA localisation signal and regulates localised transcripts during axis specification. [FBrf0218722] Mou et al., 2012, Proc. Natl. Acad. Sci. U.S.A. 109(8): 2949--2954 Control of target gene specificity during metamorphosis by the steroid response gene E93. [FBrf0217473] Mulligan et al., 2012, Proc. Natl. Acad. Sci. U.S.A. 109(2): 370--377 Secreted Wingless-interacting molecule (Swim) promotes long-range signaling by maintaining Wingless solubility. [FBrf0217131] Nakamoto et al., 2012, Immunity 36(4): 658--667 Virus recognition by toll-7 activates antiviral autophagy in Drosophila. [FBrf0218107] Petrova et al., 2012, Dis. Model Mech. 5(4): 553--561 Flower-deficient mice have reduced susceptibility to skin papilloma formation. [FBrf0218659] Rincon-Arano et al., 2012, Cell 151(6): 1214--1228 UpSET Recruits HDAC Complexes and Restricts Chromatin Accessibility and Acetylation at Promoter Regions. [FBrf0220189] Rudolf et al., 2012, Europ. J. Cell Biol. 91(3): 192--203 The syncytial visceral and somatic musculature develops independently of β3-Tubulin during Drosophila embryogenesis, while maternally supplied β1-Tubulin is stable until the early steps of myoblast fusion. [FBrf0217503] Stephan et al., 2012, J. Neurosci. 32(46): 16080--16094 Drosophila Psidin Regulates Olfactory Neuron Number and Axon Targeting through Two Distinct Molecular Mechanisms. [FBrf0220017] Suyari et al., 2012, Gene 495(2): 104--114 Differential requirement for the N-terminal catalytic domain of the DNA polymerase ε p255 subunit in the mitotic cell cycle and the endocycle. [FBrf0217428] Tanenhaus et al., 2012, PLoS ONE 7(10): e45130 In Vivo Circadian Oscillation of dCREB2 and NF-κB Activity in the Drosophila Nervous System. [FBrf0219734] Urwyler et al., 2012, Biol. Open 1(10): 994--1005 Drosophila sosie functions with β(H)-Spectrin and actin organizers in cell migration, epithelial morphogenesis and cortical stability. [FBrf0220121] Vamos and Boros, 2012, FEBS Lett. 586(19): 3279--3286 The C-terminal domains of ADA2 proteins determine selective incorporation into GCN5-containing complexes that target histone H3 or H4 for acetylation. [FBrf0219600] Weng et al., 2012, Dev. Neurobiol. 72(11): 1376--1390 Changes in Notch signaling coordinates maintenance and differentiation of the Drosophila larval optic lobe neuroepithelia. [FBrf0219799] Bader et al., 2011, Cell 145(3): 371--382 A conserved f box regulatory complex controls proteasome activity in Drosophila. [FBrf0213568] Chan et al., 2011, Curr. Biol. 21(20): 1704--1715 Systematic discovery of rab GTPases with synaptic functions in Drosophila. [FBrf0216517] Dufourt et al., 2011, DNA Res. 18(6): 451--461 Polycomb group-dependent, heterochromatin protein 1-independent, chromatin structures silence retrotransposons in somatic tissues outside ovaries. [FBrf0216699] Eivers et al., 2011, Sci. Signal. 4(194): ra68 Phosphorylation of Mad Controls Competition Between Wingless and BMP Signaling. [FBrf0216411] Gilbert et al., 2011, Dev. Cell 20(5): 700--712 A Screen for Conditional Growth Suppressor Genes Identifies the Drosophila Homolog of HD-PTP as a Regulator of the Oncoprotein Yorkie. [FBrf0213686] Gosnell and Christensen, 2011, BMC Mol. Biol. 12: 13 Drosophila Ctf4 is essential for efficient DNA replication and normal cell cycle progression. [FBrf0213597] Guan et al., 2011, Learn. Mem. 18(4): 191--206 Altered gene regulation and synaptic morphology in Drosophila learning and memory mutants. [FBrf0213277] 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] Hartl et al., 2011, J. Neurosci. 31(44): 15660--15673 A New Prospero and microRNA-279 Pathway Restricts CO2 Receptor Neuron Formation. [FBrf0216631] Hua et al., 2011, Biol. Chem. 392(10): 919--926 Toxicity of Alzheimer's disease-associated Aβ peptide is ameliorated in a Drosophila model by tight control of zinc and copper availability. [FBrf0215055] Jiang et al., 2011, Oncogene 30(29): 3248--3260 Sds22/PP1 links epithelial integrity and tumor suppression via regulation of myosin II and JNK signaling. [FBrf0214488] Kamimura et al., 2011, Glycobiology 21(5): 607--618 In vivo manipulation of heparan sulfate structure and its effect on Drosophila development. [FBrf0213406] Kim et al., 2011, Genes Dev. 25(7): 730--741 Psidin, a conserved protein that regulates protrusion dynamics and cell migration. [FBrf0213388] König et al., 2011, EMBO J. 30(8): 1549--1562 Ecdysteroids affect Drosophila ovarian stem cell niche formation and early germline differentiation. [FBrf0213531] 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] 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] Liu et al., 2011, Dev. Growth Differ. 53(6): 822--841 Negative modulation of bone morphogenetic protein signaling by Dullard during wing vein formation in Drosophila. [FBrf0214664] Ma et al., 2011, J. Gen. Physiol. 137(2): 225--238 Slob, a Slowpoke channel-binding protein, modulates synaptic transmission. [FBrf0212896] Mariappa et al., 2011, Sci. Signal. 4(204): ra89 Protein O-GlcNAcylation Is Required for Fibroblast Growth Factor Signaling in Drosophila. [FBrf0217579] McElwain et al., 2011, PLoS ONE 6(11): e26993 A suppressor/enhancer screen in Drosophila reveals a role for wnt-mediated lipid metabolism in primordial germ cell migration. [FBrf0216663] Miśkiewicz et al., 2011, Neuron 72(5): 776--788 ELP3 Controls Active Zone Morphology by Acetylating the ELKS Family Member Bruchpilot. [FBrf0216903] Nakayama et al., 2011, PLoS ONE 6(8): e22984 Drosophila carrying pex3 or pex16 mutations are models of zellweger syndrome that reflect its symptoms associated with the absence of peroxisomes. [FBrf0214614] Navarro et al., 2011, PLoS ONE 6(7): e21017 Overexpression of human and fly frataxins in Drosophila provokes deleterious effects at biochemical, physiological and developmental levels. [FBrf0214483] Ohsawa et al., 2011, Dev. Cell 20(3): 315--328 Elimination of Oncogenic Neighbors by JNK-Mediated Engulfment in Drosophila. [FBrf0213219] Olson et al., 2011, EMBO Rep. 12(10): 1047--1054 Yan, an ETS-domain transcription factor, negatively modulates the Wingless pathway in the Drosophila eye. [FBrf0216277] Resnik-Docampo and de Celis, 2011, PLoS ONE 6(1): e14528 MAP4K3 Is a Component of the TORC1 Signalling Complex that Modulates Cell Growth and Viability in Drosophila melanogaster. [FBrf0212911] Rodriguez-Jato et al., 2011, PLoS ONE 6(12): e27479 Drosophila melanogaster dHCF Interacts with both PcG and TrxG Epigenetic Regulators. [FBrf0216958] Rodriguez, 2011, PLoS ONE 6(4): e18418 Drosophila TIEG Is a Modulator of Different Signalling Pathways Involved in Wing Patterning and Cell Proliferation. [FBrf0213463] Seisenbacher et al., 2011, PLoS Genet. 7(8): e1002168 MK2-Dependent p38b Signalling Protects Drosophila Hindgut Enterocytes against JNK-Induced Apoptosis under Chronic Stress. [FBrf0214607] 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] Wright et al., 2011, Cell. Signal. 23(5): 920--927 Differential activities of the Drosophila JAK/STAT pathway ligands Upd, Upd2 and Upd3. [FBrf0213113] Yuan et al., 2011, Mol. Biol. Cell 22(1): 33--43 CDase is a pan-ceramidase in Drosophila. [FBrf0212735] Zhang et al., 2011, Chromosoma 120(1): 97--108 Drosophila melanogaster heterochromatin protein HP1b plays important roles in transcriptional activation and development. [FBrf0212898] Show all research papers ...

Allele Scer\GAL4Act.PU

Allele Scer\GAL4^Act.PU