Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- nucleus 1
- cytosol 3
- plastid 1
- mitochondrion 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| VIT_13s0019g00880.t01 | Wine grape | cytosol | 91.82 | 91.82 |
| KRG89095 | Soybean | nucleus | 78.93 | 80.38 |
| CDX74890 | Canola | cytosol | 71.33 | 78.9 |
| KRH40912 | Soybean | nucleus | 77.51 | 78.83 |
| CDX93302 | Canola | peroxisome | 70.75 | 78.32 |
| CDX91488 | Canola | cytosol | 75.58 | 78.25 |
| Bra005086.1-P | Field mustard | cytosol | 75.64 | 78.21 |
| AT2G38770.1 | Thale cress | cytosol | 75.9 | 78.06 |
| Solyc01g068480.2.1 | Tomato | nucleus | 78.09 | 76.32 |
| GSMUA_Achr6P10420_001 | Banana | endoplasmic reticulum, plasma membrane | 42.53 | 75.34 |
| Bra017100.1-P | Field mustard | cytosol | 48.71 | 73.04 |
| OQU92496 | Sorghum | cytosol | 71.01 | 72.84 |
| TraesCS4A01G149500.1 | Wheat | cytosol, nucleus | 71.91 | 71.17 |
| TraesCS4D01G155600.1 | Wheat | cytosol | 71.78 | 71.09 |
| HORVU4Hr1G035890.1 | Barley | cytosol | 72.04 | 70.36 |
| GSMUA_Achr6P10430_001 | Banana | cytosol | 19.72 | 68.46 |
| Zm00001d029375_P002 | Maize | cytosol | 73.84 | 68.17 |
| Os03t0387000-01 | Rice | cytosol, extracellular | 26.22 | 67.83 |
| TraesCSU01G068900.2 | Wheat | cytosol | 18.81 | 62.8 |
| CDX97748 | Canola | cytosol | 5.15 | 43.01 |
Protein Annotations
| EntrezGene:100260373 | wikigene:100260373 | MapMan:16.4.5.2.3 | Gene3D:3.40.50.300 | EMBL:AM446349 | InterPro:Aquarius_N |
| ProteinID:CAN78648 | ProteinID:CAN78648.1 | ProteinID:CCB55993 | ProteinID:CCB55993.1 | InterPro:CWF11_fam | ncoils:Coil |
| UniProt:F6HMW8 | EMBL:FN595995 | GO:GO:0000398 | GO:GO:0005575 | GO:GO:0005622 | GO:GO:0005623 |
| GO:GO:0005634 | GO:GO:0005681 | GO:GO:0006139 | GO:GO:0008150 | GO:GO:0008152 | GO:GO:0009987 |
| EntrezGene:LOC100260373 | wikigene:LOC100260373 | InterPro:P-loop_NTPase | PFAM:PF13086 | PFAM:PF13087 | PFAM:PF16399 |
| PIRSF:PIRSF038901 | PANTHER:PTHR10887 | PANTHER:PTHR10887:SF5 | SUPFAM:SSF52540 | UniParc:UPI0002108533 | ArrayExpress:VIT_08s0056g01110 |
| EnsemblPlantsGene:VIT_08s0056g01110 | EnsemblPlants:VIT_08s0056g01110.t01 | unigene:Vvi.23420 | RefSeq:XP_002268303 | RefSeq:XP_002268303.2 | RefSeq:XP_010653166.1 |
| RefSeq:XP_019077239.1 | SEG:seg | : | : | : | : |
Description
No Description!
Coordinates
chr8:-:1640516..1685138
Molecular Weight (calculated)
177880.0 Da
IEP (calculated)
5.966
GRAVY (calculated)
-0.375
Length
1552 amino acids
Sequence
(BLAST)
(BLAST)
0001: MTKVYGTGAY DFKRHRVAEY PVESANQVAE PKTGSAIPNT ITLLEIQRDR LTKIAEAKWS KAGEDSKPKK PFDPKLVKEI YETELVVSGG RKTVPLQRVM
0101: ILEVSQYLEN YLWPNFDPET ASFEHVMSMI LMVNEKFREN VAAWICFYDR KDVFKAFIEK VLRLKEQGRS LSIAEKTNYL LFMINAFQSL EDEIVSETVL
0201: RLASLQSWLS LSYGRFQMEL CLNTDLIKKW KRMIKREAKE AMKQGDPFDP STMLEAKFLR NIIEEFLEVL DSKVFSHSHG DDEDNELVDA IGFEKVNDAC
0301: ILYCERFMEF LIDLLSQLPT RRYLRPIVSD VAVVAKCHLS ALYTHEKGKL FAQLVDLLQF YEGFEINDHV GTQLNDDEVL QSHYDRLQSF QLLAFKKIPK
0401: LRELALANIG GIHRRADLSK RLSVLSPEEL KDLVCCKLKL VSMKDPWSER VDFLIEVMVS FFEKQQSQKE AINALPLYPN EQIMWDESLV PSINYSGEGC
0501: LALPKLNLQF LTLHDYLLRN FNLFRLESTY EIREDIQEAV PHLLAYINHE GETAFRGWSR MAVPIREFKI TEVKQPNIGE VKPSSVTAAV TFSISSYKAR
0601: MRSEWNALKE HDVLFLLSIR PSFEPLSAEE AAKASVPQRL GLQFVRGCEV IEIRDEEGTL MNDFTGRIKR DEWKPPKGEL RTVIVALDTA QYHMDVGDIA
0701: EKDAEDVYGT FNILMRRKPK ENNFKAILES IRDLMNETCI VPDWLHNIFL GYGNPSAAQW TNMPDLLETV DFKDTFLDAD HLRESFSDYQ VQFINPDGTE
0801: NLHPRPPFRI RLPRTLKGNI HALPGNKKSS TASMNDVSMA DAGSEQEKLI VEAYIPPDPG PYPQDQPKQN SVRFTPTQIV AINSGIQPGL TMVVGPPGTG
0901: KTDTAVQILN VLYHNCPSQR TLIITHSNQA LNDLFEKIMQ RDVPARYLLR LGQGEQELAT DLDFSRQGRV NAMLVRRLEL LSEVERLARS LQLPEDVGYT
1001: CETAGYFWLL HVYSHWEQFL AACSGNEDKP TFVQDRFPFK EFFSNTRPVF TGESFEKDMR AAKGCFRHLK TMFQELEECR AFELLKSTAD RANYLMTKQA
1101: KIVAMTCTHA ALKRKDFLQL GFKYDNLLME ESAQILEIET FIPMLLQRQE DGYARLKRCI LIGDHHQLPP VVKNMAFQKY SHMDQSLFTR FVRLGIPYIE
1201: LNAQGRARPS IAQLYNWRYR ELGDLPYVKE AGIFHKANAG FSYDYQLVDV PDYLGKGETA PSPWFYQNEG EAEYVVSVYM YMRLLGYPAS KISILTTYNG
1301: QKLLIRDVIN RRCIPYDFIG PPSKVTTVDK FQGQQNDFIL LSLVRTRFVG HLRDVRRLVV AMSRARLGLY VFCRRSLFEQ CYELQPTFQL LLQRPDHLAL
1401: NLNETTSFTD RHVADPGLVQ LVSGVEEMSG IVNFKMHQVY QARVMGHQFD QFSAHSGQVA PSLGGWEEQN SQLNSTSQHQ PMDADRPADS HDANGDLPPE
1501: SKSGEATEME VLENRRDGAS SPENNLKEKT DMNGDRGGAP VESSSHDENR ME
0101: ILEVSQYLEN YLWPNFDPET ASFEHVMSMI LMVNEKFREN VAAWICFYDR KDVFKAFIEK VLRLKEQGRS LSIAEKTNYL LFMINAFQSL EDEIVSETVL
0201: RLASLQSWLS LSYGRFQMEL CLNTDLIKKW KRMIKREAKE AMKQGDPFDP STMLEAKFLR NIIEEFLEVL DSKVFSHSHG DDEDNELVDA IGFEKVNDAC
0301: ILYCERFMEF LIDLLSQLPT RRYLRPIVSD VAVVAKCHLS ALYTHEKGKL FAQLVDLLQF YEGFEINDHV GTQLNDDEVL QSHYDRLQSF QLLAFKKIPK
0401: LRELALANIG GIHRRADLSK RLSVLSPEEL KDLVCCKLKL VSMKDPWSER VDFLIEVMVS FFEKQQSQKE AINALPLYPN EQIMWDESLV PSINYSGEGC
0501: LALPKLNLQF LTLHDYLLRN FNLFRLESTY EIREDIQEAV PHLLAYINHE GETAFRGWSR MAVPIREFKI TEVKQPNIGE VKPSSVTAAV TFSISSYKAR
0601: MRSEWNALKE HDVLFLLSIR PSFEPLSAEE AAKASVPQRL GLQFVRGCEV IEIRDEEGTL MNDFTGRIKR DEWKPPKGEL RTVIVALDTA QYHMDVGDIA
0701: EKDAEDVYGT FNILMRRKPK ENNFKAILES IRDLMNETCI VPDWLHNIFL GYGNPSAAQW TNMPDLLETV DFKDTFLDAD HLRESFSDYQ VQFINPDGTE
0801: NLHPRPPFRI RLPRTLKGNI HALPGNKKSS TASMNDVSMA DAGSEQEKLI VEAYIPPDPG PYPQDQPKQN SVRFTPTQIV AINSGIQPGL TMVVGPPGTG
0901: KTDTAVQILN VLYHNCPSQR TLIITHSNQA LNDLFEKIMQ RDVPARYLLR LGQGEQELAT DLDFSRQGRV NAMLVRRLEL LSEVERLARS LQLPEDVGYT
1001: CETAGYFWLL HVYSHWEQFL AACSGNEDKP TFVQDRFPFK EFFSNTRPVF TGESFEKDMR AAKGCFRHLK TMFQELEECR AFELLKSTAD RANYLMTKQA
1101: KIVAMTCTHA ALKRKDFLQL GFKYDNLLME ESAQILEIET FIPMLLQRQE DGYARLKRCI LIGDHHQLPP VVKNMAFQKY SHMDQSLFTR FVRLGIPYIE
1201: LNAQGRARPS IAQLYNWRYR ELGDLPYVKE AGIFHKANAG FSYDYQLVDV PDYLGKGETA PSPWFYQNEG EAEYVVSVYM YMRLLGYPAS KISILTTYNG
1301: QKLLIRDVIN RRCIPYDFIG PPSKVTTVDK FQGQQNDFIL LSLVRTRFVG HLRDVRRLVV AMSRARLGLY VFCRRSLFEQ CYELQPTFQL LLQRPDHLAL
1401: NLNETTSFTD RHVADPGLVQ LVSGVEEMSG IVNFKMHQVY QARVMGHQFD QFSAHSGQVA PSLGGWEEQN SQLNSTSQHQ PMDADRPADS HDANGDLPPE
1501: SKSGEATEME VLENRRDGAS SPENNLKEKT DMNGDRGGAP VESSSHDENR ME
0001: MTKVYGTGTY DFKRHRVAEY PLELPSHPAE KPLESKPGSN LPSSITLSEI QQDRLTKIAE ESWIKTGGKL PEKPFDPEVV KEIYVTELKV TSGRKPVPLQ
0101: RVMILEVSQY LENYLWPNFD PETATFEHVM SMILMINEKF RENVAAWICF HDRDDLFKKF LQKVLRLKEG RDLTIAEKTN YLVFMINAFQ SLEDAVVNEI
0201: VLSLAGLQSW HSLSYGRFQM ELCLQPDLIK KWKRSSKKWA AEAKSKGEKF DLSSSPEANF VRGLIEEFVE VLDHGVFADE VDDTAGSQLV DDSSVLYCER
0301: FMEFLIDMLN QLPTRRYLRP LVADIAVVAK CRLSALYKHE KGKLFAQLVD LLQFYEKFEI KDHDGTQLTD DEALQFHYDR FMAFQLLAFK KIPKLQDLSL
0401: ANIGSIHKSS DLRRRLSVLS LEDLRDVVCS KLKLVSRHDP WADSKDFLTE VVVSSFEKQQ SQKEAINALP LYPNEQIMWD ESVIPSINYS GEGCLALPKL
0501: NLQFLTLHDY LLRNFNLFRL ESTYEIREDI QEAVPHLLAH INNEGDTAFR GWSRMAVPIN DFKIAQVKQP NIGEEKPSSV TAEVTFSIKS YRTQIRSEWN
0601: SLKEHDVLFL LCIRPSFEPL GPEEADKATV PQRLGLQYVR GCEIIDIRDE EGNLMNDFTG RVKRDEWKPP KGEMRTVTVA LDAAQYHIDV TDIAEKGAED
0701: VYGTFNVLMR RKPKENNFKA ILESIRDLMN EYCIVPEWLH NVFLGYGNPS AAQWPNMPNL LEIVDFKDTF LNANHLSESF SDYEVSFINA EGAEALDPSP
0801: PFRITLPKTL KGNGAISGNK ISEVNPADNV NMVDASPKEK LIVEAYTPPD PGPYPQDQPK QNSVKFTPTQ VGAIISGIQP GLTMVVGPPG TGKTDTAVQI
0901: LNVLYHNCPS QRTLIITHSN QALNDLFEKI MERDVPARYL LRLGQGEQEL ATDLDFSRQG RVNAMLVRRL ELLSEVERLA RSLQLPEDVG YTCETAGYFW
1001: LLHVYSRWEL FLAACAGNED NQSFVRDRFP FKDFFSDTPK PVFNGESFEK DMRAAKGCFS HLKTVFQELE ECRAFELLKS TADRANYLMT KQAKIVAMTC
1101: THAALKRRDF LQLGFKYDNL LMEESAQILE IETFIPMLLQ RQEDGHARLK RCILIGDHHQ LPPVVKNMAF QKYSHMDQSL FTRFVRLGIP YIELNAQGRA
1201: RPSLAKLYNW RYRDLGDLSI VKEAPIFQRA NAGFSYEYQL VNVPDYEGRG ESTPSPWFYQ NQGEAEYIVS VYIYMRLLGY PANKISILTT YNGQKLLIRD
1301: VINRRCVPYP FIGPPSKVTT VDKFQGQQND FILLSLVRTR FVGHLRDVRR LVVAMSRARL GLYVFCRRSL FEQCYELQPT FQLLLQRPDR LGLNFNENTA
1401: YTDRVVEEVE NSYLVHDVEE MAHIVDDRMN KFYQAQGAYE QYQNNMAQME DGNHDMESDS VVDGDESEKN MQQLNQSPDI DGELSKEVVG MEVDNNGFSS
1501: ENGKADEKN
0101: RVMILEVSQY LENYLWPNFD PETATFEHVM SMILMINEKF RENVAAWICF HDRDDLFKKF LQKVLRLKEG RDLTIAEKTN YLVFMINAFQ SLEDAVVNEI
0201: VLSLAGLQSW HSLSYGRFQM ELCLQPDLIK KWKRSSKKWA AEAKSKGEKF DLSSSPEANF VRGLIEEFVE VLDHGVFADE VDDTAGSQLV DDSSVLYCER
0301: FMEFLIDMLN QLPTRRYLRP LVADIAVVAK CRLSALYKHE KGKLFAQLVD LLQFYEKFEI KDHDGTQLTD DEALQFHYDR FMAFQLLAFK KIPKLQDLSL
0401: ANIGSIHKSS DLRRRLSVLS LEDLRDVVCS KLKLVSRHDP WADSKDFLTE VVVSSFEKQQ SQKEAINALP LYPNEQIMWD ESVIPSINYS GEGCLALPKL
0501: NLQFLTLHDY LLRNFNLFRL ESTYEIREDI QEAVPHLLAH INNEGDTAFR GWSRMAVPIN DFKIAQVKQP NIGEEKPSSV TAEVTFSIKS YRTQIRSEWN
0601: SLKEHDVLFL LCIRPSFEPL GPEEADKATV PQRLGLQYVR GCEIIDIRDE EGNLMNDFTG RVKRDEWKPP KGEMRTVTVA LDAAQYHIDV TDIAEKGAED
0701: VYGTFNVLMR RKPKENNFKA ILESIRDLMN EYCIVPEWLH NVFLGYGNPS AAQWPNMPNL LEIVDFKDTF LNANHLSESF SDYEVSFINA EGAEALDPSP
0801: PFRITLPKTL KGNGAISGNK ISEVNPADNV NMVDASPKEK LIVEAYTPPD PGPYPQDQPK QNSVKFTPTQ VGAIISGIQP GLTMVVGPPG TGKTDTAVQI
0901: LNVLYHNCPS QRTLIITHSN QALNDLFEKI MERDVPARYL LRLGQGEQEL ATDLDFSRQG RVNAMLVRRL ELLSEVERLA RSLQLPEDVG YTCETAGYFW
1001: LLHVYSRWEL FLAACAGNED NQSFVRDRFP FKDFFSDTPK PVFNGESFEK DMRAAKGCFS HLKTVFQELE ECRAFELLKS TADRANYLMT KQAKIVAMTC
1101: THAALKRRDF LQLGFKYDNL LMEESAQILE IETFIPMLLQ RQEDGHARLK RCILIGDHHQ LPPVVKNMAF QKYSHMDQSL FTRFVRLGIP YIELNAQGRA
1201: RPSLAKLYNW RYRDLGDLSI VKEAPIFQRA NAGFSYEYQL VNVPDYEGRG ESTPSPWFYQ NQGEAEYIVS VYIYMRLLGY PANKISILTT YNGQKLLIRD
1301: VINRRCVPYP FIGPPSKVTT VDKFQGQQND FILLSLVRTR FVGHLRDVRR LVVAMSRARL GLYVFCRRSL FEQCYELQPT FQLLLQRPDR LGLNFNENTA
1401: YTDRVVEEVE NSYLVHDVEE MAHIVDDRMN KFYQAQGAYE QYQNNMAQME DGNHDMESDS VVDGDESEKN MQQLNQSPDI DGELSKEVVG MEVDNNGFSS
1501: ENGKADEKN
Arabidopsis Description
EMB2765P-loop containing nucleoside triphosphate hydrolases superfamily protein [Source:UniProtKB/TrEMBL;Acc:Q8L5Y4]
SUBAcon: [cytosol]
SUBAcon: [cytosol]
Hydropathy Plot
About CropPAL
The Protein Annotated Locations Database (CropPAL) houses large scale proteomic and GFP localization data from published experimental studies in Soybean (Glycine max), Maize (Zea mays), Wheat (Triticum aestivum), Barley (Hordeum vulgare), Rice (Oryza sativa), Field mustard (Brassica rapa), Canola (Brassica napus), Sorghum (Sorghum bicolor), Potato (Solanum tuberosum), Tomato (Solanum lycopersicum), Banana (Musa acuminata) and Wine grape (Vitis vinifera) as well as precomputed predictions for protein subcellular localizations using protein sequences.