Subcellular Localization
min:
: max
Winner_takes_all: plastid
Predictor Summary:
Predictor Summary:
- plastid 6
- cytosol 1
- mitochondrion 1
- nucleus 1
| Predictors | GFP | MS/MS | Papers |
|---|---|---|---|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| KRH13998 | Soybean | plastid | 96.34 | 96.73 |
| VIT_03s0038g04090.t01 | Wine grape | mitochondrion, plasma membrane, plastid | 73.56 | 74.38 |
| Solyc01g112350.2.1 | Tomato | extracellular, golgi, plasma membrane | 57.64 | 72.3 |
| AT4G38200.1 | Thale cress | cytosol, mitochondrion, plastid | 68.04 | 69.41 |
| CDY59102 | Canola | cytosol, mitochondrion, plastid | 67.87 | 68.95 |
| CDY54791 | Canola | mitochondrion, nucleus, plastid | 67.64 | 68.71 |
| GSMUA_Achr8P34520_001 | Banana | cytosol | 8.83 | 68.16 |
| Bra033555.1-P | Field mustard | plastid | 66.71 | 68.01 |
| KRH00582 | Soybean | extracellular, golgi | 9.06 | 65.27 |
| CDX69135 | Canola | plastid | 63.22 | 64.45 |
| CDX75498 | Canola | mitochondrion, plasma membrane, plastid | 62.93 | 64.16 |
| Bra011611.1-P | Field mustard | plastid | 62.75 | 63.64 |
| GSMUA_Achr1P09290_001 | Banana | mitochondrion | 61.42 | 63.52 |
| AT4G35380.1 | Thale cress | cytosol, plasma membrane, plastid | 62.06 | 62.6 |
| Zm00001d053688_P002 | Maize | plastid | 61.36 | 62.37 |
| KXG29692 | Sorghum | plastid | 61.36 | 62.3 |
| TraesCS6D01G157000.1 | Wheat | plastid | 60.49 | 61.89 |
| TraesCS6B01G195700.1 | Wheat | plastid | 60.49 | 61.89 |
| TraesCS6A01G168000.1 | Wheat | plastid | 60.43 | 61.83 |
| HORVU6Hr1G034130.6 | Barley | plastid | 60.55 | 61.8 |
| HORVU7Hr1G093440.3 | Barley | plastid | 59.04 | 60.3 |
| TraesCS7D01G392600.1 | Wheat | cytosol, plasma membrane, plastid | 58.63 | 59.74 |
| OQU76719 | Sorghum | plastid | 57.76 | 59.74 |
| TraesCS7A01G398300.1 | Wheat | cytosol, plastid | 58.57 | 59.61 |
| Zm00001d046717_P009 | Maize | plastid | 58.22 | 58.39 |
| TraesCS7B01G299100.1 | Wheat | cytosol | 57.35 | 58.33 |
| Os06t0622800-01 | Rice | plasma membrane | 22.6 | 57.12 |
| KRH00583 | Soybean | endoplasmic reticulum, vacuole | 4.65 | 54.42 |
| Solyc01g112340.2.1 | Tomato | plastid | 12.96 | 53.35 |
| KRH00580 | Soybean | cytosol | 51.31 | 49.52 |
| KRH40586 | Soybean | cytosol | 51.13 | 49.33 |
| KRH65253 | Soybean | cytosol | 50.78 | 49.05 |
| KRH76287 | Soybean | cytosol | 51.19 | 48.73 |
| KRH02526 | Soybean | cytosol | 32.25 | 31.14 |
| KRH19417 | Soybean | endoplasmic reticulum | 32.25 | 31.14 |
| KRH31013 | Soybean | cytosol | 16.21 | 22.11 |
| KRH73064 | Soybean | cytosol | 18.42 | 21.54 |
| KRG97867 | Soybean | cytosol | 18.42 | 21.52 |
| KRH15072 | Soybean | cytosol | 18.36 | 21.38 |
| KRG97865 | Soybean | cytosol | 18.25 | 21.32 |
| KRH31014 | Soybean | nucleus | 17.66 | 20.64 |
| KRH39264 | Soybean | cytosol | 15.11 | 18.94 |
| KRH48417 | Soybean | cytosol | 9.7 | 17.23 |
Protein Annotations
| Gene3D:1.10.1000.11 | Gene3D:1.10.220.20 | EntrezGene:100813389 | MapMan:22.3.3.2 | EMBL:ACUP02001296 | InterPro:ARM-type_fold |
| ncoils:Coil | InterPro:DCB_dom | EnsemblPlantsGene:GLYMA_02G312200 | GO:GO:0003674 | GO:GO:0005086 | GO:GO:0005488 |
| GO:GO:0005515 | GO:GO:0007154 | GO:GO:0007165 | GO:GO:0008150 | GO:GO:0009987 | GO:GO:0032012 |
| GO:GO:0065009 | UniProt:I1JJW7 | InterPro:IPR000904 | InterPro:IPR023394 | EnsemblPlants:KRH74111 | ProteinID:KRH74111 |
| ProteinID:KRH74111.1 | InterPro:Mon2_C | PFAM:PF01369 | PFAM:PF09324 | PFAM:PF12783 | PFAM:PF16206 |
| PFAM:PF16213 | PFscan:PS50190 | PANTHER:PTHR10663 | PANTHER:PTHR10663:SF108 | SMART:SM00222 | SUPFAM:SSF48371 |
| SUPFAM:SSF48425 | InterPro:Sec7_C | InterPro:Sec7_C_sf | InterPro:Sec7_N | InterPro:Sec7_dom | InterPro:Sec7_dom_sf |
| UniParc:UPI0002337870 | SEG:seg | : | : | : | : |
Description
hypothetical protein
Coordinates
chr2:-:48540502..48559754
Molecular Weight (calculated)
191024.0 Da
IEP (calculated)
6.127
GRAVY (calculated)
-0.032
Length
1721 amino acids
Sequence
(BLAST)
(BLAST)
0001: MSASQSLGGP SRCGRVVSPS LDKIIKNAAW RKHSHVVSAC KSTLDKLESL SESETSPGDT QSPIPGISSS DADCVLQPLF LALDSAYPKV VEPALECTYK
0101: LFSLGLVCGE INRPDNSSAS QSGVVFNMID AICKSGGLGE DAIELGVLRV LLSAVRSPCV LIRADCLIQI VRTCYNVYLG GVNGTNQICA KSVLAQIMII
0201: VFTRVEKDSM DVFLKRVSVS ELLEFTDKNL NEGNSIHFCQ NFINEIMEAS EGVPLKPLSI SLPLEVQNVQ TPSPKAADET APDKFDNEAG SDGSKIREDG
0301: FLLFKNLCKL SMKFSSQQHP DDRILLRGKI LSLELLKVVM DTGGSIWHVN ERFLNAIKQY LCLSLLKNSA LSAMAIFQLQ CSIFMNLLSK FRSGLKKEIG
0401: MFFPMLILRV LENVLQPSFL QKMTVLNLLD KISQDPQIII DIFVNYDCDV DASNIFERIV NGLLKTALGP PTGSTTALSP AQDITFRHES VKCLVSIIKS
0501: MGAWMDQQIR IGDLDLAKSP ESSSAAENHL ILNVEEGNAS DHELHSDVNS EFSEAATLEQ RRAYKIELQK GISLFNRKPP KGIEFLKSNK KIGSSPEQVA
0601: LFLKNTAGLD ETKIGDYLGE REEFSLKVMH AYVDSFNFKG MDFGEAIRFF LQGFRLPGEA QKIDRIMEKF AERYCKCNPS SFSSADTAYV LAYSVIMLNT
0701: DAHNNMVKDK MTKADFVRNN RGIDDGKDLP EEYLGAIYDQ IVKNEIKMNA DSSAPQNKQA NSFNRLLGLE GILNLVNWKQ SEEKAVGANG LLIRHIQEQF
0801: KSNSRKSESA YHVVTDVAIL RFMVEVCWGP MLAAFSVTLD QSDDRVATSQ CLQGFRHAVH VTAVMGMQTQ RDAFVTSVAK FTYLHCAGDM KQKNVDAVKA
0901: IISIAIEDGD HLYEAWEHIL TCLSRIEHLQ LLGEGAPSDA TFFTSTNFET EEKALKTLGF SSFKKGTLQN PAMVAVVRGS SYDSTSIGVN ASAILTTEQI
1001: NNFISNLNLL DQIGNFELNH VFAHSQRLNG EAIVAFVKAL CKVSISELQS PTDPRVFGLT KIVEIAHYNM NRIRLVWSRI WNVLSDFFVS VGLSENLSVA
1101: IFAMDSLRQL AMKFLEREEL ANYNFQNEFL RPFVIVMQKS NTTEIRELIV RCISQMVLSR VSNVKSGWKS VFMVFTAAAA DERKNIVLLA FETMEKIVRE
1201: FFPYITETET MTFTDCVRCL LTFTNSRFNS DVSLNAIAFL RFCAVRLADG GLVCNKSSVD GPSVVVANGI SDLQAHTDND DHVSFWNPLL SGLSKLTSDP
1301: RSAIRKSSLE VLFNILKDHG HLFSHTFWNS IFCSVIFPVY NSVSGNKEMN LQEAHCSPSL VSVHTEGSTW DSETYSVAAE CLIDLFATFF DVVRSQLPGV
1401: VSVLTGFIRS PVQGPASTGV AGLVRLTGDL GNRLSAEEWK EIFLCLKEAA MSTVPGFMKV LRTMNNIEVP HISQSSADLE SSSDHDLTND EFDDDNLQTA
1501: TYVVSRTKNH IAMQLLIVQV ATDLYKKHQQ SLSAASIKVL IELYSSIALH AREMNRESIL LKKLQKACSV LEISGPPMVH FENESFQNHL NFLQNIHLHD
1601: HFVHDEIELE QELVAVCETV LDIYLNCAGS SSTFHKSDTM PAPHRKLPLS SAKKEEIAAR TSLVISALQG LAGLKKDSFR RYIPGFFHLL VDLVRSEHTS
1701: GEVQHALSNM FRSSVGQIIM D
0101: LFSLGLVCGE INRPDNSSAS QSGVVFNMID AICKSGGLGE DAIELGVLRV LLSAVRSPCV LIRADCLIQI VRTCYNVYLG GVNGTNQICA KSVLAQIMII
0201: VFTRVEKDSM DVFLKRVSVS ELLEFTDKNL NEGNSIHFCQ NFINEIMEAS EGVPLKPLSI SLPLEVQNVQ TPSPKAADET APDKFDNEAG SDGSKIREDG
0301: FLLFKNLCKL SMKFSSQQHP DDRILLRGKI LSLELLKVVM DTGGSIWHVN ERFLNAIKQY LCLSLLKNSA LSAMAIFQLQ CSIFMNLLSK FRSGLKKEIG
0401: MFFPMLILRV LENVLQPSFL QKMTVLNLLD KISQDPQIII DIFVNYDCDV DASNIFERIV NGLLKTALGP PTGSTTALSP AQDITFRHES VKCLVSIIKS
0501: MGAWMDQQIR IGDLDLAKSP ESSSAAENHL ILNVEEGNAS DHELHSDVNS EFSEAATLEQ RRAYKIELQK GISLFNRKPP KGIEFLKSNK KIGSSPEQVA
0601: LFLKNTAGLD ETKIGDYLGE REEFSLKVMH AYVDSFNFKG MDFGEAIRFF LQGFRLPGEA QKIDRIMEKF AERYCKCNPS SFSSADTAYV LAYSVIMLNT
0701: DAHNNMVKDK MTKADFVRNN RGIDDGKDLP EEYLGAIYDQ IVKNEIKMNA DSSAPQNKQA NSFNRLLGLE GILNLVNWKQ SEEKAVGANG LLIRHIQEQF
0801: KSNSRKSESA YHVVTDVAIL RFMVEVCWGP MLAAFSVTLD QSDDRVATSQ CLQGFRHAVH VTAVMGMQTQ RDAFVTSVAK FTYLHCAGDM KQKNVDAVKA
0901: IISIAIEDGD HLYEAWEHIL TCLSRIEHLQ LLGEGAPSDA TFFTSTNFET EEKALKTLGF SSFKKGTLQN PAMVAVVRGS SYDSTSIGVN ASAILTTEQI
1001: NNFISNLNLL DQIGNFELNH VFAHSQRLNG EAIVAFVKAL CKVSISELQS PTDPRVFGLT KIVEIAHYNM NRIRLVWSRI WNVLSDFFVS VGLSENLSVA
1101: IFAMDSLRQL AMKFLEREEL ANYNFQNEFL RPFVIVMQKS NTTEIRELIV RCISQMVLSR VSNVKSGWKS VFMVFTAAAA DERKNIVLLA FETMEKIVRE
1201: FFPYITETET MTFTDCVRCL LTFTNSRFNS DVSLNAIAFL RFCAVRLADG GLVCNKSSVD GPSVVVANGI SDLQAHTDND DHVSFWNPLL SGLSKLTSDP
1301: RSAIRKSSLE VLFNILKDHG HLFSHTFWNS IFCSVIFPVY NSVSGNKEMN LQEAHCSPSL VSVHTEGSTW DSETYSVAAE CLIDLFATFF DVVRSQLPGV
1401: VSVLTGFIRS PVQGPASTGV AGLVRLTGDL GNRLSAEEWK EIFLCLKEAA MSTVPGFMKV LRTMNNIEVP HISQSSADLE SSSDHDLTND EFDDDNLQTA
1501: TYVVSRTKNH IAMQLLIVQV ATDLYKKHQQ SLSAASIKVL IELYSSIALH AREMNRESIL LKKLQKACSV LEISGPPMVH FENESFQNHL NFLQNIHLHD
1601: HFVHDEIELE QELVAVCETV LDIYLNCAGS SSTFHKSDTM PAPHRKLPLS SAKKEEIAAR TSLVISALQG LAGLKKDSFR RYIPGFFHLL VDLVRSEHTS
1701: GEVQHALSNM FRSSVGQIIM D
0001: MSSSQNLGGA TRCGRVIGPS LDKIIKNAAW RKHTFLVSAC KSVLDKLEAL SDSPDPSSPL FGLTTSDADA VLQPLLLSLD TGYAKVIEPA LDCSFKLFSL
0101: SLLRGEVCSS SPDSLLYKLI HAICKVCGIG EESIELAVLR VLLAAVRSPR ILIRGDCLLH LVRTCYNVYL GGFNGTNQIC AKSVLAQIML IVFTRSEANS
0201: MDASLKTVNV NDLLAITDKN VNEGNSVHIC QGFINDVITA GEAAPPPDFA LVQPPEEGAS STEDEGTGSK IREDGFLLFK NLCKLSMKFS SQENTDDQIL
0301: VRGKTLSLEL LKVIIDNGGP IWLSDERFLN AIKQLLCLSL LKNSALSVMS IFQLQCAIFT TLLRKYRSGM KSEVGIFFPM LVLRVLENVL QPSFVQKMTV
0401: LSLLENICHD PNLIIDIFVN FDCDVESPNI FERIVNGLLK TALGPPPGSS TILSPVQDIT FRHESVKCLV SIIKAMGTWM DQQLSVGDSL LPKSLENEAP
0501: ANNHSNSNEE DGTTIDHDFH PDLNPESSDA ATLEQRRAYK IERQKGVTLF NRKPSKGIEF LISSKKVGNS PDEVVSFLRN TTGLNATMIG DYLGEREDFP
0601: MKVMHAYVDS FDFKEMNFGE AIRFFLRGFR LPGEAQKIDR IMEKFAERFC KCNPNSFSSA DTAYVLAYSV IMLNTDAHNI MVKEKMTKAD FIRNNRGIDD
0701: GKDLPEEYLG ALYDQVVINE IKMSSDSSAP ESRQSNGLNK LLGLDGILNL VYWTQTEEKA VGANGLLIKD IQEKFRSKSG KSESAYHVVT DVAILRFMVE
0801: VSWGPMLAAF SVTLDQSDDR LAAVECLRGF RYAVHVTAVM GMQTQRDAFV TSMAKFTNLH CAGDMKQKNV DAVKAIISIA IEDGNHLQDA WEHILTCLSR
0901: IEHLQLLGEG APSDASYFAS TETEEKKALG FPNLKKKGAL QNPVMMAVVR GGSYDSSTIG PNMPGLVKQD QINNFIANLN LLDQIGSFQL NNVYAHSQRL
1001: KTEAIVAFVK ALCKVSMSEL QSPTDPRVFS LTKLVEIAHY NMNRIRLVWS RIWSILSDFF VSVGLSENLS VAIFVMDSLR QLSMKFLERE ELANYNFQNE
1101: FLRPFVIVMQ KSSSAEIREL IVRCISQMVL SRVSNVKSGW KSVFKVFTTA AADERKNIVL LAFETMEKIV REYFSYITET EATTFTDCVR CLITFTNSTF
1201: TSDVSLNAIA FLRFCALKLA DGGLVWNEKG RSSSPSTPVT DDHSPSTQNF MDADENISYW VPLLTGLSKL TSDSRSAIRK SSLEVLFNIL KDHGHIFSRT
1301: FWIGVFSSVI YPIFNSVWGE NDLLSKDEHS SFPSTFSSHP SEVSWDAETS AMAAQYLVDL FVSFFTVIRS QLSSVVSLLA GLIRSPAQGP TVAGVGALLR
1401: LADELGDRFS ENEWKEIFLA VNEAASLTLS SFMKTLRTMD DIPDEDTLSD QDFSNEDDID EDSLQTMSYV VARTKSHITV QLQVVQVVTD LYRIHQQSLL
1501: ASHVTVILEI LSSISSHAHQ LNSDLILQKK VRRACSILEL SEPPMLHFEN DTFQNYLDIL QAIVTNNPGV SLELNVESQL MTVCMQILKM YLKCTLFQGD
1601: ELEETRQPKN WILPMGAASK EEAAARSPLV VAVLKALREL KRDSFKRYAP NFFPLLVELV RSEHSSSQVP QVLSTVFHTC MGAMMDE
0101: SLLRGEVCSS SPDSLLYKLI HAICKVCGIG EESIELAVLR VLLAAVRSPR ILIRGDCLLH LVRTCYNVYL GGFNGTNQIC AKSVLAQIML IVFTRSEANS
0201: MDASLKTVNV NDLLAITDKN VNEGNSVHIC QGFINDVITA GEAAPPPDFA LVQPPEEGAS STEDEGTGSK IREDGFLLFK NLCKLSMKFS SQENTDDQIL
0301: VRGKTLSLEL LKVIIDNGGP IWLSDERFLN AIKQLLCLSL LKNSALSVMS IFQLQCAIFT TLLRKYRSGM KSEVGIFFPM LVLRVLENVL QPSFVQKMTV
0401: LSLLENICHD PNLIIDIFVN FDCDVESPNI FERIVNGLLK TALGPPPGSS TILSPVQDIT FRHESVKCLV SIIKAMGTWM DQQLSVGDSL LPKSLENEAP
0501: ANNHSNSNEE DGTTIDHDFH PDLNPESSDA ATLEQRRAYK IERQKGVTLF NRKPSKGIEF LISSKKVGNS PDEVVSFLRN TTGLNATMIG DYLGEREDFP
0601: MKVMHAYVDS FDFKEMNFGE AIRFFLRGFR LPGEAQKIDR IMEKFAERFC KCNPNSFSSA DTAYVLAYSV IMLNTDAHNI MVKEKMTKAD FIRNNRGIDD
0701: GKDLPEEYLG ALYDQVVINE IKMSSDSSAP ESRQSNGLNK LLGLDGILNL VYWTQTEEKA VGANGLLIKD IQEKFRSKSG KSESAYHVVT DVAILRFMVE
0801: VSWGPMLAAF SVTLDQSDDR LAAVECLRGF RYAVHVTAVM GMQTQRDAFV TSMAKFTNLH CAGDMKQKNV DAVKAIISIA IEDGNHLQDA WEHILTCLSR
0901: IEHLQLLGEG APSDASYFAS TETEEKKALG FPNLKKKGAL QNPVMMAVVR GGSYDSSTIG PNMPGLVKQD QINNFIANLN LLDQIGSFQL NNVYAHSQRL
1001: KTEAIVAFVK ALCKVSMSEL QSPTDPRVFS LTKLVEIAHY NMNRIRLVWS RIWSILSDFF VSVGLSENLS VAIFVMDSLR QLSMKFLERE ELANYNFQNE
1101: FLRPFVIVMQ KSSSAEIREL IVRCISQMVL SRVSNVKSGW KSVFKVFTTA AADERKNIVL LAFETMEKIV REYFSYITET EATTFTDCVR CLITFTNSTF
1201: TSDVSLNAIA FLRFCALKLA DGGLVWNEKG RSSSPSTPVT DDHSPSTQNF MDADENISYW VPLLTGLSKL TSDSRSAIRK SSLEVLFNIL KDHGHIFSRT
1301: FWIGVFSSVI YPIFNSVWGE NDLLSKDEHS SFPSTFSSHP SEVSWDAETS AMAAQYLVDL FVSFFTVIRS QLSSVVSLLA GLIRSPAQGP TVAGVGALLR
1401: LADELGDRFS ENEWKEIFLA VNEAASLTLS SFMKTLRTMD DIPDEDTLSD QDFSNEDDID EDSLQTMSYV VARTKSHITV QLQVVQVVTD LYRIHQQSLL
1501: ASHVTVILEI LSSISSHAHQ LNSDLILQKK VRRACSILEL SEPPMLHFEN DTFQNYLDIL QAIVTNNPGV SLELNVESQL MTVCMQILKM YLKCTLFQGD
1601: ELEETRQPKN WILPMGAASK EEAAARSPLV VAVLKALREL KRDSFKRYAP NFFPLLVELV RSEHSSSQVP QVLSTVFHTC MGAMMDE
Arabidopsis Description
BIG1Brefeldin A-inhibited guanine nucleotide-exchange protein 1 [Source:UniProtKB/Swiss-Prot;Acc:F4JSZ5]
SUBAcon: [mitochondrion,plastid,cytosol]
SUBAcon: [mitochondrion,plastid,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.