Subcellular Localization
min:
: max
Winner_takes_all: plastid, cytosol
Predictor Summary:
Predictor Summary:
- nucleus 2
- cytosol 3
- plastid 3
- 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 |
|---|---|---|---|---|
| KRH19417 | Soybean | endoplasmic reticulum | 79.8 | 80.47 |
| KRH02526 | Soybean | cytosol | 79.52 | 80.19 |
| CDY44841 | Canola | cytosol | 73.73 | 76.59 |
| Bra019446.1-P | Field mustard | cytosol | 73.79 | 75.9 |
| KXG36486 | Sorghum | cytosol | 71.9 | 75.78 |
| AT3G43300.1 | Thale cress | cytosol | 73.9 | 75.54 |
| TraesCS2A01G202900.1 | Wheat | cytosol | 66.22 | 75.08 |
| TraesCS2B01G230000.1 | Wheat | cytosol, golgi | 69.06 | 74.76 |
| Zm00001d006607_P066 | Maize | cytosol | 71.29 | 74.65 |
| HORVU2Hr1G040020.14 | Barley | cytosol | 71.12 | 74.56 |
| Zm00001d021806_P005 | Maize | cytosol | 71.01 | 74.14 |
| Solyc12g017830.1.1 | Tomato | plastid | 72.84 | 73.95 |
| CDY30954 | Canola | extracellular, golgi | 34.28 | 73.95 |
| TraesCS2D01G212800.2 | Wheat | golgi | 70.45 | 73.82 |
| GSMUA_Achr2P14140_001 | Banana | cytosol, extracellular, nucleus | 71.34 | 72.8 |
| GSMUA_Achr4P27650_001 | Banana | cytosol, extracellular, plastid | 71.73 | 71.81 |
| Os07t0564700-01 | Rice | plasma membrane | 11.69 | 61.05 |
| VIT_15s0048g00800.t01 | Wine grape | cytosol | 34.84 | 35.19 |
| VIT_03s0038g04090.t01 | Wine grape | mitochondrion, plasma membrane, plastid | 31.66 | 33.43 |
| VIT_02s0012g01790.t01 | Wine grape | cytosol | 16.03 | 19.59 |
| VIT_11s0016g04100.t01 | Wine grape | cytosol | 14.58 | 18.85 |
Protein Annotations
| Gene3D:1.10.1000.11 | Gene3D:1.10.220.20 | EntrezGene:100249070 | wikigene:100249070 | MapMan:22.3.3.2 | EMBL:AM427313 |
| InterPro:ARM-type_fold | ProteinID:CAN66773 | ProteinID:CAN66773.1 | ProteinID:CCB51355 | ProteinID:CCB51355.1 | InterPro:DCB_dom |
| UniProt:F6HGY7 | EMBL:FN595756 | 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 |
| InterPro:IPR000904 | InterPro:IPR023394 | EntrezGene:LOC100249070 | wikigene:LOC100249070 | InterPro:Mon2_C | PFAM:PF01369 |
| PFAM:PF09324 | PFAM:PF12783 | PFAM:PF16206 | PFAM:PF16213 | PFscan:PS50190 | PANTHER:PTHR10663 |
| PANTHER:PTHR10663:SF312 | SMART:SM00222 | SUPFAM:SSF48371 | SUPFAM:SSF48425 | InterPro:Sec7_C | InterPro:Sec7_C_sf |
| InterPro:Sec7_N | InterPro:Sec7_dom | InterPro:Sec7_dom_sf | TIGR:TC56780 | UniParc:UPI0002107F4E | ArrayExpress:VIT_11s0016g00170 |
| EnsemblPlantsGene:VIT_11s0016g00170 | EnsemblPlants:VIT_11s0016g00170.t01 | unigene:Vvi.393 | RefSeq:XP_003633087 | RefSeq:XP_003633087.1 | RefSeq:XP_010656063.1 |
| SEG:seg | : | : | : | : | : |
Description
No Description!
Coordinates
chr11:+:145353..225422
Molecular Weight (calculated)
199542.0 Da
IEP (calculated)
5.744
GRAVY (calculated)
-0.160
Length
1797 amino acids
Sequence
(BLAST)
(BLAST)
0001: MAGAAAGGFI SRAFESMLKE CSGKKYPALH KSIQTYLDST KEVDQHSAFS ETNQAASLTA YGSSSETDAG IAKNEIEANH SRAHTGEGVE RVGRPVGTSG
0101: TITAALAHAG HTLEGAEVEL VLNPLRLAIE TKNLKVLEPA LDCLHKLIAY EHLEGDPGLD GGTNAPLFTD ILNMVCSCVD NSSSDSTILQ VLQVLLTAVA
0201: STKFRVHGEP LLGVIRICYN IALNSKSPIN QATSKAMLTQ MISIIFRRME TDPVCTTSGS AANKEATLAD NLNSEVETSS GDQTEKEMTL GDALSMNQVK
0301: DTALASVEEL QNLAGGADIK GLEAVLDKAV HLEDGKKMTR GIDLESMSIR QRDALLLFRT LCKMGMKEDN DEVTTKTRIL SLELLQGLLE GVSHSFTTNF
0401: HFIDSVKAYL SYALLRASVS QSPVIFQYAT GIFSVLLLRF RESLKGEIGV FFPLIVLRSL DGSDFPVNQR ISVLRMLEKV CKDPQMLVDI YVNYDCDLEA
0501: PNLFERMVTT LSKIAQGTQN ADPNSVAVSQ TTTIKGSSLQ CLVNVLKSLV DWERSHRDKH RKSTQSPEEE LSARESVEIK SREDMPNNFE RAKAHKSTME
0601: AAISEFNRQP GKGIEYLISN RLVENTPASV AQFLRNTPSL DKAMIGDYLG QHEEFPLAVM HAYVDSMKFS GMKFDTAIRE FLRGFRLPGE AQKIDRIMEK
0701: FAERYCADNP DLFKNADTAY VLAYAVIMLN TDAHNPMVWP KMSKSDFIRV NAMNDAEECA PKELLEEIYD SIVKEEIKMK DDAAGIGKGI KQKPEGEERG
0801: RLVSILNLAL PKRKSSVDTK SESEAIIKQT QAIFRNQGAK RGVFYTSQQI ELVRPMVEAV GWPLLATFSV TMEEGDNKPR VLLCMEGFRA GIHITHVIGM
0901: DTMRYAFLTS LVRFTFLHAP KEMRSKNVEA LRTLLALCDS ETNSLQDTWN AVLECVSRLE FITSTPAIAA TVMQASNQIS RDAILQSLRE LAGKPAEQVF
1001: VNSVKLPSDS VVEFFTALCG VSAEELKQTP ARVFSLQKLV EISYYNMARI RLVWARIWSV LANHFISAGS HHDEKIAMYA IDSLRQLGMK YLERAELANF
1101: TFQNDILKPF VILMRNSQSE TIRSLIVDCI VQMIKSKVGS IKSGWRSVFM IFTAAADDEL ESIVESAFEN VEQVILEHFD QVVGDCFMDC VNCLIGFSNN
1201: KSSHRISLKA IALLRICEDR LAEGLIPGGA LKPIDINMDT TFDVTEHYWF PMLAGLSDLT SDPRPEVRSC ALEVLFDLLN ERGHKFSSSF WESIFHRVLF
1301: PIFDHVRDAS KESLVSSGDE WLRETSIHSL QLLCNLFNTF YKEVCFMLPP LLSLLLDCAK KTDQSVVSIS LGALVHLIEV GGHQFSESDW DTLLKSIRDA
1401: SYTTQPLELL NALGFENPKN HAVLARDSEI TKGVSPSPKS VDNIQVDDHQ FDVRDNGKTS PLASPSIVSD GTIKNLNASV VEDHNQEMGF QTNLDGSEGL
1501: PSPSGRAQKA AEVGLHRSQT IGQRIMGNMM DNLFLRSLTS KSKSRVSDAS APPSPPKFPD AVEPDTKDKE ENLLLGTIRG KCVTQLLLLG AIDSIQKKYW
1601: SKLNRSQKVT MMEILLAVLE FAASYNSYTN LRMRMHHIPA ERPPLNLLRQ ELAGTCIYLD ILQKTTSGLN NKKEEHLESN GSQGDSSFTE NFNADEKLVG
1701: IAEEKLVSFC GQILREASDL QSTVGETTNM DIHRVLELRS PIIVKVLKSM SFMNNQIFRR HLREFYPLIT KLVCCDQMDV RGALGDLFST QLNALLP
0101: TITAALAHAG HTLEGAEVEL VLNPLRLAIE TKNLKVLEPA LDCLHKLIAY EHLEGDPGLD GGTNAPLFTD ILNMVCSCVD NSSSDSTILQ VLQVLLTAVA
0201: STKFRVHGEP LLGVIRICYN IALNSKSPIN QATSKAMLTQ MISIIFRRME TDPVCTTSGS AANKEATLAD NLNSEVETSS GDQTEKEMTL GDALSMNQVK
0301: DTALASVEEL QNLAGGADIK GLEAVLDKAV HLEDGKKMTR GIDLESMSIR QRDALLLFRT LCKMGMKEDN DEVTTKTRIL SLELLQGLLE GVSHSFTTNF
0401: HFIDSVKAYL SYALLRASVS QSPVIFQYAT GIFSVLLLRF RESLKGEIGV FFPLIVLRSL DGSDFPVNQR ISVLRMLEKV CKDPQMLVDI YVNYDCDLEA
0501: PNLFERMVTT LSKIAQGTQN ADPNSVAVSQ TTTIKGSSLQ CLVNVLKSLV DWERSHRDKH RKSTQSPEEE LSARESVEIK SREDMPNNFE RAKAHKSTME
0601: AAISEFNRQP GKGIEYLISN RLVENTPASV AQFLRNTPSL DKAMIGDYLG QHEEFPLAVM HAYVDSMKFS GMKFDTAIRE FLRGFRLPGE AQKIDRIMEK
0701: FAERYCADNP DLFKNADTAY VLAYAVIMLN TDAHNPMVWP KMSKSDFIRV NAMNDAEECA PKELLEEIYD SIVKEEIKMK DDAAGIGKGI KQKPEGEERG
0801: RLVSILNLAL PKRKSSVDTK SESEAIIKQT QAIFRNQGAK RGVFYTSQQI ELVRPMVEAV GWPLLATFSV TMEEGDNKPR VLLCMEGFRA GIHITHVIGM
0901: DTMRYAFLTS LVRFTFLHAP KEMRSKNVEA LRTLLALCDS ETNSLQDTWN AVLECVSRLE FITSTPAIAA TVMQASNQIS RDAILQSLRE LAGKPAEQVF
1001: VNSVKLPSDS VVEFFTALCG VSAEELKQTP ARVFSLQKLV EISYYNMARI RLVWARIWSV LANHFISAGS HHDEKIAMYA IDSLRQLGMK YLERAELANF
1101: TFQNDILKPF VILMRNSQSE TIRSLIVDCI VQMIKSKVGS IKSGWRSVFM IFTAAADDEL ESIVESAFEN VEQVILEHFD QVVGDCFMDC VNCLIGFSNN
1201: KSSHRISLKA IALLRICEDR LAEGLIPGGA LKPIDINMDT TFDVTEHYWF PMLAGLSDLT SDPRPEVRSC ALEVLFDLLN ERGHKFSSSF WESIFHRVLF
1301: PIFDHVRDAS KESLVSSGDE WLRETSIHSL QLLCNLFNTF YKEVCFMLPP LLSLLLDCAK KTDQSVVSIS LGALVHLIEV GGHQFSESDW DTLLKSIRDA
1401: SYTTQPLELL NALGFENPKN HAVLARDSEI TKGVSPSPKS VDNIQVDDHQ FDVRDNGKTS PLASPSIVSD GTIKNLNASV VEDHNQEMGF QTNLDGSEGL
1501: PSPSGRAQKA AEVGLHRSQT IGQRIMGNMM DNLFLRSLTS KSKSRVSDAS APPSPPKFPD AVEPDTKDKE ENLLLGTIRG KCVTQLLLLG AIDSIQKKYW
1601: SKLNRSQKVT MMEILLAVLE FAASYNSYTN LRMRMHHIPA ERPPLNLLRQ ELAGTCIYLD ILQKTTSGLN NKKEEHLESN GSQGDSSFTE NFNADEKLVG
1701: IAEEKLVSFC GQILREASDL QSTVGETTNM DIHRVLELRS PIIVKVLKSM SFMNNQIFRR HLREFYPLIT KLVCCDQMDV RGALGDLFST QLNALLP
0001: MAAGGFLTRA FDTMLKESGG KKFPDLQKAI QAYQDGSKVV TQAAPSSIVE SSQAEGGGEK TGVEADEPQK VTSAEVAQQA SQSKSETINV SLANAGHTLG
0101: GAEVELVLKP LRLAFETKNL KIFDAALDCL HKLIAYDHLE GDPGLDGGKN SAPFTDILNM VCSCVDNSSP DSTVLQVLKV LLTAVASGKF KVHGEPLLGV
0201: IRVCYNIALN SKSPINQATS KAMLTQMISI VFRRMETDIV SASSTVSQEE HVSGDTSSPK NEEITAADEN EKEMTLGDAL TQAKDTTLAS VEELHTLVGG
0301: ADIKGLEAAL DKAVHLEDGK KIKRGIELES MSIGQRDALL VFRTLCKMGM KEDSDEVTTK TRILSLELLQ GMLEGVSHSF TKNFHFIDSV KAYLSYALLR
0401: ASVSQSSVIF QYASGIFSVL LLRFRDSLKG EIGIFFPIIV LRSLDNSECP NDQKMGVLRM LEKVCKDPQM LVDVYVNYDC DLEAPNLFER MVTTLSKIAQ
0501: GSQSADPNPA MASQTASVKG SSLQCLVNVL KSLVDWEKIR REAENSTRNA NEDSASTGEP IETKSREDVP SNFEKAKAHK STMEAAISEF NRNSVKGVEY
0601: LIANKLVERN PASVAQFLRS TSSLSKVMIG DYLGQHEEFP LAVMHAYVDS MKFSEMKFHS AIREFLKGFR LPGEAQKIDR IMEKFAERYC ADNPGLFKNA
0701: DTAYVLAYAV IMLNTDAHNP MVWPKMSKSD FTRMNATNDP EDCAPTELLE EIYDSIVQEE IKLKDDDTMK KLSSQRPGGE ERGGLVSILN LGLPKRISAA
0801: DAKSETEDIV RKTQEIFRKH GVKRGVFHTV EQVDIIRPMV EAVGWPLLAA FSVTMEVGDN KPRILLCMEG FKAGIHIAYV LGMDTMRYAF LTSLVRFTFL
0901: HAPKEMRSKN VEALRILLGL CDSEPDTLQD TWNAVLECVS RLEFIISTPG IAATVMHGSN QISRDGVVQS LKELAGRPAE QVFVNSVKLP SESVVEFFTA
1001: LCGVSAEELK QSPARVFSLQ KLVEISYYNI ARIRMVWARI WSVLAEHFVS AGSHHDEKIA MYAIDSLRQL GMKYLERAEL TNFTFQNDIL KPFVIIMRNT
1101: QSQTIRSLIV DCIVQMIKSK VGSIKSGWRS VFMIFTAAAD DEVESIVEKS FENVEQVILE HFDQVIGDCF MDCVNCLIRF ANNKASDRIS LKAIALLRIC
1201: EDRLAEGLIP GGVLKPVDGN EDETFDVTEH YWFPMLAGLS DLTSDYRPEV RNCALEVLFD LLNERGNKFS TPFWESIFHR ILFPIFDHVS HAGKESLISS
1301: GDVKFRETSI HSLQLLCNLF NTFYKEVCFM LPPLLSLLLD CAKKSDQTVV SISLGALVHL IEVGGHQFSE GDWDMLLKSI RDASYTTQPL ELLNALSFDN
1401: PKKNLVLAGD IEADASDSPR VDRNPDDIKD NGKVSAQASP RIGTHGTSLE SGIPPKADGS EGRPSSSGRA QKDVDDVNLQ RSQTFGQRFM DNLFLRNLTS
1501: QPKSSVAEVT VPSSPYKHED PTEPDSREEE SPALGAIRGK CITQLLLLGA INSIQQKYWS NLKTPQKIAI MDILFSFIEF ASSYNSYSNL RTRMNHIPTE
1601: RPPLNLLRQE LEGTTIYLDV LQKTTSGLAD DASNSEDRLE GAAEEKLVSF CEQVLKETSD LQSTLGETTN MDVHRVLELR SPVIVKVLEG MCFMNNTIFR
1701: KHMREFYPLL TRLVCCEQME IRGALANLFK AQLKPLLQQ
0101: GAEVELVLKP LRLAFETKNL KIFDAALDCL HKLIAYDHLE GDPGLDGGKN SAPFTDILNM VCSCVDNSSP DSTVLQVLKV LLTAVASGKF KVHGEPLLGV
0201: IRVCYNIALN SKSPINQATS KAMLTQMISI VFRRMETDIV SASSTVSQEE HVSGDTSSPK NEEITAADEN EKEMTLGDAL TQAKDTTLAS VEELHTLVGG
0301: ADIKGLEAAL DKAVHLEDGK KIKRGIELES MSIGQRDALL VFRTLCKMGM KEDSDEVTTK TRILSLELLQ GMLEGVSHSF TKNFHFIDSV KAYLSYALLR
0401: ASVSQSSVIF QYASGIFSVL LLRFRDSLKG EIGIFFPIIV LRSLDNSECP NDQKMGVLRM LEKVCKDPQM LVDVYVNYDC DLEAPNLFER MVTTLSKIAQ
0501: GSQSADPNPA MASQTASVKG SSLQCLVNVL KSLVDWEKIR REAENSTRNA NEDSASTGEP IETKSREDVP SNFEKAKAHK STMEAAISEF NRNSVKGVEY
0601: LIANKLVERN PASVAQFLRS TSSLSKVMIG DYLGQHEEFP LAVMHAYVDS MKFSEMKFHS AIREFLKGFR LPGEAQKIDR IMEKFAERYC ADNPGLFKNA
0701: DTAYVLAYAV IMLNTDAHNP MVWPKMSKSD FTRMNATNDP EDCAPTELLE EIYDSIVQEE IKLKDDDTMK KLSSQRPGGE ERGGLVSILN LGLPKRISAA
0801: DAKSETEDIV RKTQEIFRKH GVKRGVFHTV EQVDIIRPMV EAVGWPLLAA FSVTMEVGDN KPRILLCMEG FKAGIHIAYV LGMDTMRYAF LTSLVRFTFL
0901: HAPKEMRSKN VEALRILLGL CDSEPDTLQD TWNAVLECVS RLEFIISTPG IAATVMHGSN QISRDGVVQS LKELAGRPAE QVFVNSVKLP SESVVEFFTA
1001: LCGVSAEELK QSPARVFSLQ KLVEISYYNI ARIRMVWARI WSVLAEHFVS AGSHHDEKIA MYAIDSLRQL GMKYLERAEL TNFTFQNDIL KPFVIIMRNT
1101: QSQTIRSLIV DCIVQMIKSK VGSIKSGWRS VFMIFTAAAD DEVESIVEKS FENVEQVILE HFDQVIGDCF MDCVNCLIRF ANNKASDRIS LKAIALLRIC
1201: EDRLAEGLIP GGVLKPVDGN EDETFDVTEH YWFPMLAGLS DLTSDYRPEV RNCALEVLFD LLNERGNKFS TPFWESIFHR ILFPIFDHVS HAGKESLISS
1301: GDVKFRETSI HSLQLLCNLF NTFYKEVCFM LPPLLSLLLD CAKKSDQTVV SISLGALVHL IEVGGHQFSE GDWDMLLKSI RDASYTTQPL ELLNALSFDN
1401: PKKNLVLAGD IEADASDSPR VDRNPDDIKD NGKVSAQASP RIGTHGTSLE SGIPPKADGS EGRPSSSGRA QKDVDDVNLQ RSQTFGQRFM DNLFLRNLTS
1501: QPKSSVAEVT VPSSPYKHED PTEPDSREEE SPALGAIRGK CITQLLLLGA INSIQQKYWS NLKTPQKIAI MDILFSFIEF ASSYNSYSNL RTRMNHIPTE
1601: RPPLNLLRQE LEGTTIYLDV LQKTTSGLAD DASNSEDRLE GAAEEKLVSF CEQVLKETSD LQSTLGETTN MDVHRVLELR SPVIVKVLEG MCFMNNTIFR
1701: KHMREFYPLL TRLVCCEQME IRGALANLFK AQLKPLLQQ
Arabidopsis Description
ATMIN7HOPM interactor 7 [Source:TAIR;Acc:AT3G43300]
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.