Gene Disc\RFP

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General Information

Symbol

Disc\RFP

Species

D. sp.

Name

Red Fluorescent Protein

Annotation symbol

Feature type

engineered_foreign_gene

FlyBase ID

FBgn0044485

Gene Model Status

Not Applicable

Stock availability

2380 publicly available

Also Known As

DsRED, RFP, mRFP, mCherry, Ds-Red

Genomic Location

Chromosome (arm)

Recombination map

Cytogenetic map

Sequence location

Summary Information

Automatically generated summary

See sections below for more information

The gene Red Fluorescent Protein is referred to in FlyBase by the symbol Disc\RFP (FBgn0044485). It is a engineered_foreign_gene from Discosoma sp.. Its molecular function is unknown. The biological processes in which it is involved are not known. 204 alleles are reported. No phenotypic data is available. It has no annotated transcripts. Gene has not been localized to the genome sequence.

Recent Updates

Description

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FB2013_03

Alleles

Disc\RFP[cas.7a]

Disc\RFP[ILF3.UbxPRE]

Disc\RFP[cas.5]

Disc\RFP[ILF395.gypsy.UbxPRE]

Disc\RFP[ILF1kb.gypsy.UbxPRE]

Disc\RFP[cas.7]

Disc\RFP[cas.2]

Disc\RFP[ILF4.2.UbxPRE]

Disc\RFP[cas.1]

Disc\RFP[ILF294.Scer\UAS]

Disc\RFP[CAG250.DsRed2.Scer\UAS]

Disc\RFP[cas.8]

Disc\RFP[cas.5c]

Disc\RFP[ILF294r.UbxPRE]

Disc\RFP[Hsp22.322]

Disc\RFP[cas.5a]

Disc\RFP[CAG100.DsRed2.Scer\UAS]

Disc\RFP[ILF294.UbxPRE]

Disc\RFP[ILF616.UbxPRE]

Disc\RFP[DsRed2.Scer\UAS.cLi]

Disc\RFP[ILF395.UbxPRE]

Disc\RFP[ILF1.UbxPRE]

Disc\RFP[cas.5b]

Disc\RFP[cas.4]

Disc\RFP[ILF3.7.UbxPRE]

Disc\RFP[cas.7b]

Disc\RFP[ILF319.UbxPRE]

Disc\RFP[gypsy\su(Hw)BR.Scer\UAS]

Disc\RFP[mCherry.CRE]

Disc\RFP[ILF2.UbxPRE]

Disc\RFP[ILF9.UbxPRE]

Disc\RFP[cas.6]

Disc\RFP[3xP3.PC]

Disc\RFP[ILF167.UbxPRE]

Disc\RFP[mCherry.NFkappaB]

FB2013_02

All updates

Click here to see a list of all updates to this record from FB2010_08 and on.

Detailed Mapping Data

FlyBase Computed Cytological Location

Cytogenetic map

Evidence for location

Experimentally Determined Cytological Location

Cytogenetic map

Notes

References

Experimentally Determined Recombination Data

Location

Left of (cM)

Right of (cM)

Notes

Gene Model & Products

Comments on Gene Model

Transcript Data

Annotated Transcripts

Name

FlyBase ID

RefSeq ID

Length (nt)

Associated CDS (aa)

Additional Transcript Data & Comments

Reported size (kB)

Comments

External Data

Crossreferences

Polypeptide Data

Annotated Polypeptides

Name

FlyBase ID

Predicted MW (kDa)

Length (aa)

Theoretical pI

RefSeq ID

GenBank protein

Additional Polypeptide Data & Comments

Reported size (kDa)

Comments

External Data

Linkouts

Crossreferences

Sequences Consistent with the Gene Model

DDBJ /
EMBL /
GenBank

DNA sequence

Protein sequence

Name

UniProtKB/Swiss-Prot

UniProtKB/TrEMBL

Mapped Features

Type

Symbol & Location

Additional Notes

References

External Data

Linkouts

Crossreferences

Expression Data

Transcript Expression

Additional Descriptive Data

Marker for

Subcellular Localization

CV Term

Polypeptide Expression

Additional Descriptive Data

Marker for

Subcellular Localization (GO Cellular Component)

CV term

Evidence

References

Expression Deduced from Reporters

High-Throughput Expression Data

Associated Tools

Reference

See Gelbart and Emmert, 2010.10.13 for analysis details and data files for all genes.

FlyAtlas Anatomy Microarray

modENCODE Anatomy RNA-Seq

modENCODE Development RNA-Seq

modENCODE Cell Lines RNA-Seq

modENCODE Treatments RNA-Seq

Expression Clusters

External Data & Images

Linkouts

Alleles & Phenotypes

Summary of Allele Phenotypes

Other Phenotypes

Allele

gravitaxis defective | progressive, with Scer\GAL4^elav-C155

neuroanatomy defective, with Scer\GAL4^elav-C155

Disc\RFP^{CAG100.DsRed2.Scer\UAS}

short lived, with Scer\GAL4^elav-C155

uncoordinated | adult stage

Phenotype manifest in

Allele

brain | adult stage | progressive, with Scer\GAL4^elav-C155

Disc\RFP^{CAG100.DsRed2.Scer\UAS}

retina, with Scer\GAL4^GMR.PF

Disc\RFP^{CAG100.DsRed2.Scer\UAS}

Classical Alleles ( 17 )

For All Classical Alleles Show

Allele of Disc\RFP	Mutagen	Stocks	Known lesion
Disc\RFP^ap-PyR10	P-element activity	1	Yes
Disc\RFP^{CadN-MI00393-mCh.0}	site specific recombinase	1	Yes
Disc\RFP^{comm-MI00380-mCh.1}	site specific recombinase	1	Yes
Disc\RFP^dac-PyR34a	P-element activity	1	Yes
Disc\RFP^hh-PyR215	P-element activity	1	Yes
Disc\RFP^ptc-PyR68	P-element activity	1	Yes
Disc\RFP^PyR23	P-element activity	1	--
Disc\RFP^PyR30	P-element activity	1	--
Disc\RFP^PyR35	P-element activity	1	--
Disc\RFP^PyR4	P-element activity	1	--
Disc\RFP^{Rfx-MI00053-mCh.1}	site specific recombinase	1	Yes
Disc\RFP^{rhea-MI00296-mCh.0}	site specific recombinase	1	Yes
Disc\RFP^tsh-PyR248	P-element activity	1	Yes
Disc\RFP^{tutl-MI00290-mCh.1}	site specific recombinase	1	Yes
Disc\RFP^{wnd-MI00494-mCh.2}	site specific recombinase	1	Yes
Disc\RFP^MtnD	FLPase recombination SCEI endonuclease I-CreI endonuclease gene targeting by homologous recombination	0	Yes
Disc\RFP^PyR34b	P-element activity	0	Yes

Alleles Carried on Transgenic Constructs ( 222 )

For All Alleles Carried on Transgenic Constructs Show

Allele of Disc\RFP	Mutagen	Stocks	Known lesion
Disc\RFP^DsRed2.3xP3	in vitro construct - regulatory fusion	2249	Yes
Disc\RFP^3xP3.PB	in vitro construct - regulatory fusion	55	Yes
Disc\RFP^PyR	in vitro construct - coding region fusion	9	Yes
Disc\RFP^{tdTomato.Ncra\QUAS.T:Uuuu\MyrPalm2,T:Ivir\HA1}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	7	Yes
Disc\RFP^{DsRedT4.Scer\UAS.T:nls-tra}	in vitro construct - regulatory fusion	6	Yes
Disc\RFP^{m.Ubi-p63E.T:Zzzz\nls1}		6	Yes
Disc\RFP^Scer\UAS.cKa	in vitro construct - regulatory fusion	6	Yes
Disc\RFP^{GMR.T:Myr-Src64B}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	5	Yes
Disc\RFP^{DsRed2.Scer\UAS.cHa}	in vitro construct - regulatory fusion	4	Yes
Disc\RFP^Scer\UAS.cWa	in vitro construct - regulatory fusion	4	Yes
Disc\RFP^{Scer\UAS.T:Myr-Src64B}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	4	Yes
Disc\RFP^{mCherry.Scer\UAS.T:Uuuu\nls}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	3	Yes
Disc\RFP^mCherry.sqh	in vitro construct - regulatory fusion	3	Yes
Disc\RFP^{tdTomato.IVS.10xScer\UAS.T:Myr-Src64B}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	3	Yes
Disc\RFP^{Scer\UAS.P\T.T:Hsap\Golgi}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	2	Yes
Disc\RFP^{Scer\UAS.P\T.T:Uuuu\KDEL}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	2	Yes
Disc\RFP^{tdTomato.Scer\UAS}	in vitro construct - regulatory fusion	2	Yes
Disc\RFP^{2xmRFP.Ecol\lexA.T:SV40\nls2}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	1	Yes
Disc\RFP^{dsRNA.mCherry.Scer\UAS.VALIUM20}	in vitro construct - regulatory fusion in vitro construct - RNAi	1	Yes
Disc\RFP^{mCherry.Scer\UAS.VALIUM10}	in vitro construct - regulatory fusion	1	Yes
Disc\RFP^Mhc.F3-580	in vitro construct - regulatory fusion	1	Yes
Disc\RFP^{mα.H-Stinger}	in vitro construct	1	Yes
Disc\RFP^{-Zzzz\B2RT.20XScer\UAS.T:Uuuu\Myr5}	site specific recombinase	0	Yes
Disc\RFP^{-Zzzz\B3RT.20XScer\UAS.T:Uuuu\Myr5}	site specific recombinase	0	Yes
Disc\RFP^{-Zzzz\KDRT.20XScer\UAS.T:Uuuu\Myr5}	site specific recombinase	0	Yes
Disc\RFP^{-Zzzz\RSRT.20XScer\UAS.T:Uuuu\Myr5}	site specific recombinase	0	Yes
Disc\RFP^3xP3.cHa	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^3xP3.PC	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^5xQE		0	Yes
Disc\RFP^Act5C.m.PG	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Act88F.1.3	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Akh.1016.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^AkhR.PB	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^b.HLH54F	in vitro construct - regulatory fusion	0	--
Disc\RFP^bap.3	in vitro construct - regulatory fusion	0	--
Disc\RFP^{CAG100.DsRed2.Scer\UAS}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{CAG250.DsRed2.Scer\UAS}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.1	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.2	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.4	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.5	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.5a	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.5b	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.5c	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.6	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.7	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.7a	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.7b	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cas.8	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^cCa	in vitro construct	0	Yes
Disc\RFP^Cha.7347	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Cherry.Cyp310a1}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Cherry.mirr	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Cherry.Traf4	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Ddc.0.47.APm	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^Ddc.0.47mut	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^Ddc.Gap	in vitro construct - regulatory fusion in vitro construct - deletion	0	Yes
Disc\RFP^Dgut\y.ivCRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Dgut\y.vsCRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{dpp.D-ci.ptc.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{DsRed.Him.T:Uuuu\nls6}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{dsRed.Scer\UAS.ban-sponge}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{DsRed2.Scer\UAS.cLi}		0	Yes
Disc\RFP^{DsRed2.Scer\UAS.T:Uuuu\nls6}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{DsRed2.Scer\UAS}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{DsRed2.αTub84B}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^DsRed2	in vitro construct - amino acid replacement in vitro construct	0	Yes
Disc\RFP^{DsRedT4.apME.680.T:nls-tra}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^DsRedT4.ARE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{DsRedT4.mir-124.T:nls-tra}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^DsRedT4.mRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{DsRedT4.msn.F9}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{DsRedT4.Send1.T:nls5}	in vitro construct - regulatory fusion in vitro construct - amino acid replacement in vitro construct - coding region fusion	0	Yes
Disc\RFP^{DsRedT4.Send2.T:nls5}	in vitro construct - regulatory fusion in vitro construct - amino acid replacement in vitro construct - coding region fusion	0	Yes
Disc\RFP^DsRedT4.TRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^dsRNA.cRa	in vitro construct - RNAi	0	Yes
Disc\RFP^{Dsub\y.5'.Timer}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Ecol\lexAop.T:Uuuu\Myr5}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{fz3.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Gad1.PS	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{gl.5.2.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Gr21a.DsRedT4.T:nls-tra}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^Gr66a.PD	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{gypsy\su(Hw)BR.Scer\UAS}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Hml.Δ.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^hs.dest	in vitro construct	0	Yes
Disc\RFP^{hs.DsRedT4.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^hs.DsRedT4	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^hs.PH	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^Hsp22.322	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^ILF1.UbxPRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF167.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF1kb.gypsy.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^ILF2.UbxPRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF294.Scer\UAS}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF294.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF294r.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF3.7.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^ILF3.UbxPRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF319.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF395.gypsy.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF395.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF4.2.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ILF616.UbxPRE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^ILF9.UbxPRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^kkv.WE1.APm	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^kkv.WE1.GRHm	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^kkv.WE1	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^m.sv.SME	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCh.Scer\UAS.mir-13a.sponge}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCh.Scer\UAS.mir-13b.sponge}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCh.Scer\UAS.mir-2b.sponge}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCh.Scer\UAS.mir-2c.sponge}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCh.Scer\UAS.mir-6.sponge}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCh.Scer\UAS.mir-7.sponge}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCh.Scer\UAS.SCRAMBLE.sponge}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.10x.Scer\UAS}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.10xScer\UAS}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^mCherry.CRE	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.GMR.RMCE}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.hs.Pelican}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.msn.F9mo}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.NFκB}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.NRE.ins}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.-loxN.T:Mmus\pm}	cre recombinase	0	Yes
Disc\RFP^{mCherry.Scer\UAS.mir-9aSP}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.Rfabg.CD8.T:Ivir\HA1,T:Hsap\MYC.T:SV5\V5}	in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.Rfabg.hh.T:Ivir\HA1}	in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.Rfabg.T:Ivir\HA1,T:Hsap\LFA3-GPI}	in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.Rfabg.T:Ivir\HA1}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.T:Hsap\CALR}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.T:Hsap\MYC,T:Mmus\2xFYVE}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.Ubx.3'UTR.long.delta.PAS1.T:Uuuu\nls6}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.Scer\UAS.Ubx.3'UTR.short.T:Uuuu\nls6}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.sns.T:nls-tra}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.sqh.T:Btau\GAP43}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{mCherry.sqh.T:Rnor\Gap43}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^Mef2.mb247	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^msn.WE1	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^msn.WE2	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^MtnA.PT	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{mα.DsRedT4.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^nerfin-1.10	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.11	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.12	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.13	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.14	in vitro construct - deletion	0	Yes
Disc\RFP^nerfin-1.15	in vitro construct - deletion	0	Yes
Disc\RFP^nerfin-1.16	in vitro construct - deletion	0	Yes
Disc\RFP^nerfin-1.17	in vitro construct - deletion	0	Yes
Disc\RFP^nerfin-1.18	in vitro construct - deletion	0	Yes
Disc\RFP^nerfin-1.1	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.2	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.3	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.4	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.5	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.6	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.7	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.8	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^nerfin-1.9	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{nerfin-1.inv.229}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{nerfin-1.inv.CAGCTG4}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{nerfin-1.inv.CAGCTG6}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{nerfin-1.ΔCAGCTG1}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^{nerfin-1.ΔCAGCTG2}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^{nerfin-1.ΔCAGCTG3}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^{nerfin-1.ΔCAGCTG4}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^{nerfin-1.ΔCAGCTG5}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^{nerfin-1.ΔCAGCTG6}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^{nerfin-1.ΔCAGCTG7}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^{nerfin-1.ΔCAGCTG8}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^Or22a.8197	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Or82a.DsRedT4.T:nls-tra}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^Orco.PK	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^org-1.HN39		0	Yes
Disc\RFP^Pdf.PR	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^pIZT	in vitro construct	0	Yes
Disc\RFP^{ple.0.995.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{ple.3.0.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^ple.WE1.APm	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^{ple.WE1.CREBm}	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^ple.WE1.EXDm	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^ple.WE1.GRHm	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^ple.WE1.HOXm	in vitro construct - regulatory fusion in vitro construct - site directed mutagenesis	0	Yes
Disc\RFP^ple.WE1	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Rr3.Scer\SceI.RS.Act5C}	in vitro construct - coding region fusion in vitro construct	0	Yes
Disc\RFP^Rr3EJ1.Act5C	SCEI endonuclease	0	Yes
Disc\RFP^{S197Y.Scer\UAS.P\T}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Scer\FRT.tdTomato.Ecol\lexAop.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cAa	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cBa	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cEa	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cGa	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cGb	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cHa	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cKb	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cLa	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cLb	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^Scer\UAS.cUa	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Scer\UAS.DsRed1.SV40.3'UTR}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Scer\UAS.DsRed2.SV40.3'UTR.T:Uuuu\nls6}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{Scer\UAS.P\T.cVa}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Scer\UAS.T:Hsap\CAAX.cSa}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{Scer\UAS.T:Hsap\CAAX}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Scer\UAS.T:Hsap\mito}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{Scer\UAS.T:Uuuu\nls6}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Sox15.1.3wt.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Su(H).ASE.DsRedT4.T:nls-tra}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Su(H).ASE.DsRedT4}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{tdTomato.Ecol\lexAop.T:nls-tra}	FLPase	0	Yes
Disc\RFP^{tdTomato.Scer\UAS.T:Hsap\mito}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{tdTomato.Scer\UAS.T:Uuuu\MyrPalm2,T:Ivir\HA1}	in vitro construct - regulatory fusion in vitro construct - coding region fusion	0	Yes
Disc\RFP^{Tn10\tetO.cHa}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^W177	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^W179	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^y.5'.Timer	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Zzzz\B2RT.20XScer\UAS.T:Uuuu\Myr5}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Zzzz\B3RT.20XScer\UAS.T:Uuuu\Myr5}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Zzzz\KDRT.20XScer\UAS.T:Uuuu\Myr5}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^{Zzzz\RSRT.20XScer\UAS.T:Uuuu\Myr5}	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^αTub84B.PK	in vitro construct - regulatory fusion	0	Yes
Disc\RFP^αTub84B.PS	in vitro construct - regulatory fusion	0	Yes

Aneuploid Aberrations

Transgenic Constructs & Insertions

Transgenic Constructs

Type of construct

Name

Expression data

Insertions

Type of insertions

Name

Expression data

Gene Ontology: Function, Process & Cellular Component ( 0 unique terms )

Terms Based on Experimental Evidence ( 0 terms )

Terms Based on Predictions or Assertions ( 0 terms )

Sequence Ontology: Class of Gene

engineered_foreign_gene

Interactions & Pathways

Summary of Physical Interactions

Summary of Genetic Interactions

Interacts with

Please look at the allele data for full details of the genetic interactions

Disc\RFP allele

Gene

References

External Data

Linkouts

Orthologs

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

Human Orthologs (0)

Gene

OMIM

HGNC

AAA Orthologs (0) based on analysis using Dmel annotation version 4.3

No orthologs identified

Stocks & Reagents

Stocks Listed in FlyBase ( 2380 )

35522

36328

30556

6282

w^*; P{UAS-AUG-DsRed}A

30910

w^*; P{UASp-RFP.KDEL}8

30908

w^*; P{UASp-RFP.Golgi}5

7118

w¹¹¹⁸; P{UAS-myr-mRFP}1

7120

P{GMR-myr-mRFP}3, w¹¹¹⁸

7121

w¹¹¹⁸; P{GMR-myr-mRFP}7

30907

w^*; P{UASp-RFP.Golgi}10

36327

w^*; P{UAS-tdTom.S}2/CyO

Kyoto

108716

w^*; P{UAS-AUG-DsRed}A

More stocks available...

Genomic Clones ( 0 )

cDNA Clones ( 0 )

cDNA Clones, Fully Sequenced

BDGP DGC clones

Other clones

cDNA Clones, End Sequenced (ESTs)

BDGP DGC clones

Other clones

RNAi & Array Information

Linkouts

Antibody Information

Other Information

Discoverer

Etymology

Identification

Relationship to Other Genes

Source for database identity of

Source for database merge of

Additional comments

Other Comments

Tag or Foreign Gene Data

Foreign sequence; species == Discosoma sp.; gene == 'drFP583'; UniProt:Q9U6Y8.

External Crossreferences & Linkouts

Sequence Crossreferences

Other Crossreferences

Linkouts

Synonyms & Secondary IDs ( 16 )

Reported As

Symbol Synonym

Cherry

(Rauzi et al., 2010)

Disc\RFP

(FlyBase, 1992-)

DsRED

(Ghabrial and Krasnow, 2006, Hoe et al., 2011)

Ds-Red

(Kramps et al., 2002)

dsRed

(Shang et al., 2007, Egli et al., 2006, Sanyal, 2009, Bechstedt et al., 2010, Richardson et al., 2007, Dobi et al., 2011)

ds-red

(Roy et al., 2007)

dsRED

(Skora and Spradling, 2010)

dsRed2

(Meyer and Aberle, 2006)

mCherry

(Diegelmann et al., 2008, Kakihara et al., 2008, Martin et al., 2010, Abreu-Blanco et al., 2011, Housden et al., 2012)

mRFP

(Zelhof et al., 2006, Yamamoto, 2006, Shalaby et al., 2009, Merdes, 2010.2.24, Bosveld et al., 2012, Kawahashi and Hayashi, 2010)

Name Synonym

Red Fluorescent Protein

red fluorescent protein

(Millard et al., 2007, Chung et al., 2007)

red-fluorescent protein

(Schnakenberg et al., 2011)

Red fluorescent protein

(Akimoto et al., 2005)

Secondary FlyBase IDs

References ( 267 )

Generate a list of

All references relating to this gene ( 267 )

List References by type

Research paper ( 235 )
Supplementary material ( 14 )
Review ( 2 )
Personal communication to FlyBase ( 14 )
FlyBase analysis ( 2 )

Recent research papers ( 78 )

Uchino et al., 2013, Dev. Biol. 373(1): 216--227: Loss of Drosophila A-type lamin C initially causes tendon abnormality including disintegration of cytoskeleton and nuclear lamina in muscular defects. [FBrf0220052]
Ahmad et al., 2012, Dev. Cell 23(1): 97--111: Two forkhead transcription factors regulate the division of cardiac progenitor cells by a polo-dependent pathway. [FBrf0218973]
Bejarano et al., 2012, Development 139(15): 2821--2831: A genome-wide transgenic resource for conditional expression of Drosophila microRNAs. [FBrf0218840]
Chatterjee and Bohmann, 2012, PLoS ONE 7(4): e34063: A Versatile ΦC31 Based Reporter System for Measuring AP-1 and Nrf2 Signaling in Drosophila and in Tissue Culture. [FBrf0218067]
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]
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]
Davidson and Duronio, 2012, PLoS Genet. 8(8): e1002831: S phase-coupled e2f1 destruction ensures homeostasis in proliferating tissues. [FBrf0219273]
Frizzell et al., 2012, RNA 18(8): 1475--1486: Drosophila mutants show NMD pathway activity is reduced, but not eliminated, in the absence of Smg6. [FBrf0218868]
Förster and Luschnig, 2012, Nat. Cell Biol. 14(5): 526--534: Src42A-dependent polarized cell shape changes mediate epithelial tube elongation in Drosophila. [FBrf0218206]
Housden et al., 2012, G3 (Bethesda) 2(1): 79--82: Drosophila Reporter Vectors Compatible with ΦC31 Integrase Transgenesis Techniques and Their Use to Generate New Notch Reporter Fly Lines. [FBrf0217660]
Inagaki et al., 2012, Cell 148(3): 583--595: Visualizing Neuromodulation In Vivo: TANGO-Mapping of Dopamine Signaling Reveals Appetite Control of Sugar Sensing. [FBrf0217362]
Jean et al., 2012, Mol. Biol. Cell 23(14): 2723--2740: Sbf/MTMR13 coordinates PI(3)P and Rab21 regulation in endocytic control of cellular remodeling. [FBrf0218866]
Kim et al., 2012, Nature 483(7388): 209--212: The role of Drosophila Piezo in mechanical nociception. [FBrf0217681]
Kuzin et al., 2012, Gene Expr. Patterns 12(7-8): 261--272: The cis-regulatory dynamics of the Drosophila CNS determinant castor are controlled by multiple sub-pattern enhancers. [FBrf0219381]
Legent et al., 2012, Genetics 190(2): 601--616: A screen for x-linked mutations affecting Drosophila photoreceptor differentiation identifies casein kinase 1α as an essential negative regulator of wingless signaling. [FBrf0217484]
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]
Lutas et al., 2012, G3 (Bethesda) 2(1): 59--69: Genetic analysis in Drosophila reveals a role for the mitochondrial protein p32 in synaptic transmission. [FBrf0217628]
Metzger et al., 2012, Nature 484(7392): 120--124: MAP and kinesin-dependent nuclear positioning is required for skeletal muscle function. [FBrf0218014]
Mortimer et al., 2012, PLoS Pathog. 8(7): e1002819: Mgat1-dependent N-glycosylation of Membrane Components Primes Drosophila melanogaster Blood Cells for the Cellular Encapsulation Response. [FBrf0218977]
Nakazawa et al., 2012, Dev. Dyn. 241(5): 965--974: A novel Cre/loxP system for mosaic gene expression in the Drosophila embryo. [FBrf0218072]
Prieto-Godino et al., 2012, PLoS Biol. 10(10): e1001400: Embryonic origin of olfactory circuitry in Drosophila: contact and activity-mediated interactions pattern connectivity in the antennal lobe. [FBrf0219665]
Rajan and Perrimon, 2012, Cell 151(1): 123--137: Drosophila cytokine unpaired 2 regulates physiological homeostasis by remotely controlling insulin secretion. [FBrf0219535]
Reim et al., 2012, Dev. Biol. 368(1): 28--43: The FGF8-related signals Pyramus and Thisbe promote pathfinding, substrate adhesion, and survival of migrating longitudinal gut muscle founder cells. [FBrf0218673]
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]
Schottenfeld-Roames and Ghabrial, 2012, Nat. Cell Biol. 14(4): 386--393: Whacked and Rab35 polarize dynein-motor-complex-dependent seamless tube growth. [FBrf0217936]
Sieber and Thummel, 2012, Cell Metab. 15(1): 122--127: Coordination of Triacylglycerol and Cholesterol Homeostasis by DHR96 and the Drosophila LipA Homolog magro. [FBrf0217166]
Starostina et al., 2012, J. Neurosci. 32(13): 4665--4674: A Drosophila DEG/ENaC Subunit Functions Specifically in Gustatory Neurons Required for Male Courtship Behavior. [FBrf0217925]
Sun et al., 2012, G3 (Bethesda) 2(5): 551--553: Simplified insertion of transgenes onto balancer chromosomes via Recombinase-Mediated Cassette Exchange. [FBrf0218264]
Sun et al., 2012, PLoS Genet. 8(2): e1002515: Neurophysiological Defects and Neuronal Gene Deregulation in Drosophila mir-124 Mutants. [FBrf0217508]
Susic-Jung et al., 2012, Dev. Biol. 370(1): 86--97: Multinucleated smooth muscles and mononucleated as well as multinucleated striated muscles develop during establishment of the male reproductive organs of Drosophila melanogaster. [FBrf0219326]
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]
Weiss et al., 2012, Genetics 190(2): 581--600: Huntingtin Aggregation Kinetics and Their Pathological Role in a Drosophila Huntington's Disease Model. [FBrf0217529]
Abreu-Blanco et al., 2011, J. Cell Biol. 193(3): 455--464: Cell wound repair in Drosophila occurs through three distinct phases of membrane and cytoskeletal remodeling. [FBrf0213583]
Abuin et al., 2011, Neuron 69(1): 44--60: Functional architecture of olfactory ionotropic glutamate receptors. [FBrf0212725]
Akhouayri et al., 2011, PLoS Pathog. 7(10): e1002319: Toll-8/tollo negatively regulates antimicrobial response in the Drosophila respiratory epithelium. [FBrf0216452]
Becam et al., 2011, Development 138(17): 3781--3789: Notch-mediated repression of bantam miRNA contributes to boundary formation in the Drosophila wing. [FBrf0214603]
Benhra et al., 2011, Curr. Biol. 21(1): 87--95: AP-1 Controls the Trafficking of Notch and Sanpodo toward E-Cadherin Junctions in Sensory Organ Precursors. [FBrf0212697]
Chan et al., 2011, Curr. Biol. 21(20): 1704--1715: Systematic discovery of rab GTPases with synaptic functions in Drosophila. [FBrf0216517]
Chan et al., 2011, Genetics 188(1): 33--44: Insect Population Control by Homing Endonuclease-Based Gene Drive: An Evaluation in Drosophila melanogaster. [FBrf0213627]
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]
Dobi et al., 2011, Fly 5(2): 68--75: Characterization of early steps in muscle morphogenesis in a Drosophila primary culture system. [FBrf0213797]
Estes et al., 2011, Hum. Mol. Genet. 20(12): 2308--2321: Wild-type and A315T mutant TDP-43 exert differential neurotoxicity in a Drosophila model of ALS. [FBrf0213802]
Galindo et al., 2011, Dev. Biol. 353(2): 396--410: Control of Distal-less expression in the Drosophila appendages by functional 3' enhancers. [FBrf0213529]
Geiger et al., 2011, PLoS ONE 6(11): e28349: Hole-in-One Mutant Phenotypes Link EGFR/ERK Signaling to Epithelial Tissue Repair in Drosophila. [FBrf0216857]
Ghabrial et al., 2011, PLoS Genet. 7(7): e1002087: A systematic screen for tube morphogenesis and branching genes in the Drosophila tracheal system. [FBrf0214368]
Haralalka et al., 2011, Development 138(8): 1551--1562: Asymmetric Mbc, active Rac1 and F-actin foci in the fusion-competent myoblasts during myoblast fusion in Drosophila. [FBrf0213340]
Hoe et al., 2011, Aging 3(3): 237--261: Ubiquitin over-expression phenotypes and ubiquitin gene molecular misreading during aging in Drosophila melanogaster. [FBrf0213373]
Kuzin et al., 2011, Mech. Dev. 128(3-4): 165--177: Functional analysis of conserved sequences within a temporally restricted neural precursor cell enhancer. [FBrf0213297]
Kwon et al., 2011, J. Neurosci. 31(43): 15300--15309: Molecular and cellular organization of the taste system in the Drosophila larva. [FBrf0216529]
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]
Li et al., 2011, PLoS ONE 6(8): e23075: Hyperphosphorylation as a Defense Mechanism to Reduce TDP-43 Aggregation. [FBrf0214718]
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, Mol. Cell. Biol. 31(13): 2729--2741: A Barrier-Only Boundary Element Delimits the Formation of Facultative Heterochromatin in Drosophila melanogaster and Vertebrates. [FBrf0213867]
Morante et al., 2011, Development 138(4): 687--693: Cell migration in Drosophila optic lobe neurons is controlled by eyeless/Pax6. [FBrf0212874]
Nern et al., 2011, Proc. Natl. Acad. Sci. U.S.A. 108(34): 14198--14203: Multiple new site-specific recombinases for use in manipulating animal genomes. [FBrf0214794]
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]
Ozdemir et al., 2011, Genome Res. 21(4): 566--577: High resolution mapping of Twist to DNA in Drosophila embryos: Efficient functional analysis and evolutionary conservation. [FBrf0213359]
Park et al., 2011, PLoS Genet. 7(8): e1002241: Specification of Drosophila corpora cardiaca neuroendocrine cells from mesoderm is regulated by Notch signaling. [FBrf0215231]
Parker et al., 2011, Sci. Signal. 4(176): ra38: The cis-Regulatory Logic of Hedgehog Gradient Responses: Key Roles for Gli Binding Affinity, Competition, and Cooperativity. [FBrf0213871]
Petersen and Stowers, 2011, PLoS ONE 6(9): e24531: A Gateway MultiSite Recombination Cloning Toolkit. [FBrf0215584]
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]
Rodal et al., 2011, J. Cell Biol. 193(1): 201--217: A presynaptic endosomal trafficking pathway controls synaptic growth signaling. [FBrf0213353]
Rotkopf et al., 2011, Development 138(13): 2729--2739: The WASp-based actin polymerization machinery is required in somatic support cells for spermatid maturation and release. [FBrf0213892]
Schnakenberg et al., 2011, PLoS Biol. 9(11): e1001192: Sperm-storage defects and live birth in Drosophila females lacking spermathecal secretory cells. [FBrf0216767]
Song et al., 2011, J. Genet. Genomics 38(1): 1--11: TRIM-9 functions in the UNC-6/UNC-40 pathway to regulate ventral guidance. [FBrf0213082]
Stowers, 2011, Fly 5(4): 371--378: An efficient method for recombineering GAL4 and QF drivers. [FBrf0216432]
Venken et al., 2011, Nat. Methods 8(9): 737--743: MiMIC: a highly versatile transposon insertion resource for engineering Drosophila melanogaster genes. [FBrf0216331]
Vermehren-Schmaedick et al., 2011, J. Comp. Physiol. A, Neuroethol. Sens. Neural. Behav. Physiol. 197(7): 717--727: Drosophila gustatory preference behaviors require the atypical soluble guanylyl cyclases. [FBrf0214366]
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]
Weiss et al., 2011, Neuron 69(2): 258--272: The Molecular and Cellular Basis of Bitter Taste in Drosophila. [FBrf0212834]
Wright et al., 2011, Cell. Signal. 23(5): 920--927: Differential activities of the Drosophila JAK/STAT pathway ligands Upd, Upd2 and Upd3. [FBrf0213113]
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]
Yang et al., 2011, Neuron 72(2): 285--299: Nak regulates localization of clathrin sites in higher-order dendrites to promote local dendrite growth. [FBrf0216477]
Zettl et al., 2011, Cell 145(1): 79--91: Rhomboid Family Pseudoproteases Use the ER Quality Control Machinery to Regulate Intercellular Signaling. [FBrf0213387]

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Recent reviews (0)

All reviews listed in FlyBase were published before 2011

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