Subcellular Localization
min:
: max
Winner_takes_all: plasma membrane, mitochondrion
Predictor Summary:
Predictor Summary:
- cytosol 1
- mitochondrion 3
- plasma membrane 3
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| VIT_09s0002g05490.t01 | Wine grape | mitochondrion | 80.82 | 98.83 |
| VIT_09s0002g05360.t01 | Wine grape | plasma membrane | 88.36 | 92.81 |
| VIT_09s0002g05380.t01 | Wine grape | cytosol | 8.5 | 89.86 |
| VIT_09s0002g05600.t01 | Wine grape | mitochondrion | 81.52 | 87.93 |
| VIT_09s0002g06940.t01 | Wine grape | cytosol | 13.3 | 86.67 |
| VIT_09s0002g05590.t01 | Wine grape | plasma membrane | 80.5 | 86.59 |
| VIT_09s0002g05540.t01 | Wine grape | extracellular, golgi | 4.41 | 86.25 |
| VIT_09s0002g05570.t01 | Wine grape | plasma membrane | 79.8 | 85.83 |
| VIT_09s0002g05530.t01 | Wine grape | plasma membrane, plastid | 79.73 | 85.47 |
| VIT_09s0002g05440.t01 | Wine grape | cytosol | 6.97 | 85.16 |
| VIT_09s0002g05410.t01 | Wine grape | plasma membrane, plastid | 77.75 | 84.62 |
| VIT_09s0002g05510.t01 | Wine grape | cytosol | 11.0 | 84.31 |
| VIT_09s0018g00900.t01 | Wine grape | mitochondrion | 7.23 | 79.58 |
| VIT_12s0057g00280.t01 | Wine grape | cytosol | 3.13 | 79.03 |
| KRH09796 | Soybean | mitochondrion | 70.2 | 77.0 |
| VIT_02s0012g02770.t01 | Wine grape | cytosol | 4.41 | 75.82 |
| PGSC0003DMT400034124 | Potato | plastid | 69.12 | 75.75 |
| VIT_09s0002g05470.t01 | Wine grape | cytosol | 12.79 | 74.91 |
| VIT_04s0008g04820.t01 | Wine grape | plastid | 65.98 | 72.73 |
| Solyc08g067610.2.1 | Tomato | cytosol, peroxisome, plasma membrane | 67.46 | 72.56 |
| VIT_04s0008g04830.t01 | Wine grape | cytosol, plastid | 34.91 | 71.56 |
| KXG32868 | Sorghum | plasma membrane | 65.6 | 70.61 |
| CDY65846 | Canola | mitochondrion, plastid | 13.24 | 69.46 |
| VIT_09s0002g06930.t01 | Wine grape | mitochondrion | 11.0 | 64.42 |
| VIT_07s0005g02330.t01 | Wine grape | cytosol | 5.95 | 63.27 |
| VIT_13s0074g00690.t01 | Wine grape | cytosol, peroxisome, plasma membrane | 54.48 | 61.83 |
| VIT_11s0016g04540.t01 | Wine grape | cytosol, peroxisome, plasma membrane | 55.82 | 61.44 |
| VIT_09s0002g05390.t01 | Wine grape | cytosol, mitochondrion, nucleus | 7.93 | 61.39 |
| VIT_04s0008g04230.t01 | Wine grape | cytosol, peroxisome, plasma membrane, plastid | 55.18 | 60.73 |
| VIT_06s0061g01480.t01 | Wine grape | plastid | 56.33 | 60.34 |
| VIT_11s0016g04590.t01 | Wine grape | cytosol | 56.78 | 60.12 |
| VIT_13s0074g00700.t01 | Wine grape | plastid | 56.71 | 59.93 |
| VIT_13s0074g00660.t01 | Wine grape | plastid | 56.07 | 59.58 |
| VIT_09s0002g03550.t01 | Wine grape | cytosol, mitochondrion, peroxisome, plasma membrane | 24.62 | 59.41 |
| VIT_09s0002g03640.t01 | Wine grape | cytosol, mitochondrion, peroxisome, plasma membrane | 56.59 | 59.28 |
| VIT_09s0002g03560.t01 | Wine grape | endoplasmic reticulum, golgi, plastid | 16.11 | 59.15 |
| VIT_06s0061g01470.t01 | Wine grape | mitochondrion | 42.26 | 58.91 |
| VIT_09s0002g03570.t01 | Wine grape | plasma membrane | 11.96 | 58.07 |
| VIT_06s0080g00040.t01 | Wine grape | plastid | 55.37 | 57.5 |
| VIT_09s0002g03630.t01 | Wine grape | plasma membrane | 51.02 | 56.6 |
| VIT_04s0043g00970.t01 | Wine grape | mitochondrion | 5.56 | 56.49 |
| VIT_14s0030g00590.t01 | Wine grape | cytosol | 5.95 | 56.36 |
| VIT_05s0020g00680.t01 | Wine grape | plastid | 48.34 | 52.61 |
| VIT_09s0002g03580.t01 | Wine grape | plasma membrane | 22.63 | 51.3 |
| VIT_18s0001g10650.t01 | Wine grape | mitochondrion | 5.5 | 51.19 |
| VIT_09s0002g05450.t01 | Wine grape | mitochondrion | 7.48 | 50.0 |
| VIT_06s0080g00050.t01 | Wine grape | plasma membrane | 4.8 | 45.18 |
| VIT_07s0005g02250.t01 | Wine grape | plasma membrane | 9.34 | 43.98 |
| VIT_07s0005g02320.t01 | Wine grape | endoplasmic reticulum, extracellular, golgi | 5.05 | 43.41 |
| VIT_06s0061g01460.t01 | Wine grape | endoplasmic reticulum, plasma membrane | 3.64 | 41.91 |
| VIT_07s0005g02240.t01 | Wine grape | cytosol, golgi, mitochondrion, nucleus | 10.42 | 34.9 |
| VIT_07s0005g02350.t01 | Wine grape | cytosol, nucleus, peroxisome | 5.43 | 34.55 |
Protein Annotations
| EntrezGene:100258373 | wikigene:100258373 | MapMan:24.1.3.2.2 | Gene3D:3.40.50.300 | InterPro:AAA+_ATPase | InterPro:ABCG_PDR_1 |
| InterPro:ABCG_PDR_2 | InterPro:ABC_2_trans | InterPro:ABC_trans_N | InterPro:ABC_transporter-like | ProteinID:CCB59525 | ProteinID:CCB59525.1 |
| ncoils:Coil | UniProt:F6HX55 | EMBL:FN596494 | GO:GO:0000166 | GO:GO:0003674 | GO:GO:0003824 |
| GO:GO:0005215 | GO:GO:0005488 | GO:GO:0005524 | GO:GO:0005575 | GO:GO:0005623 | GO:GO:0005886 |
| GO:GO:0006810 | GO:GO:0008150 | GO:GO:0016020 | GO:GO:0016021 | GO:GO:0016787 | GO:GO:0016887 |
| GO:GO:0042626 | GO:GO:0055085 | InterPro:IPR003439 | EntrezGene:LOC100258373 | wikigene:LOC100258373 | InterPro:P-loop_NTPase |
| InterPro:PDR_assoc | PFAM:PF00005 | PFAM:PF01061 | PFAM:PF08370 | PFAM:PF14510 | PFscan:PS50893 |
| PANTHER:PTHR19241 | PANTHER:PTHR19241:SF444 | SMART:SM00382 | SUPFAM:SSF52540 | TMHMM:TMhelix | UniParc:UPI000210A4DD |
| ArrayExpress:VIT_09s0002g05400 | EnsemblPlantsGene:VIT_09s0002g05400 | EnsemblPlants:VIT_09s0002g05400.t01 | RefSeq:XP_002285020 | RefSeq:XP_002285020.2 | RefSeq:XP_003632798 |
| RefSeq:XP_003632798.1 | SEG:seg | : | : | : | : |
Description
No Description!
Coordinates
chr9:-:5146167..5160090
Molecular Weight (calculated)
177467.0 Da
IEP (calculated)
7.822
GRAVY (calculated)
-0.036
Length
1564 amino acids
Sequence
(BLAST)
(BLAST)
0001: MSTPKTRRAG SMRWRTPNVE IFSQSTRGED DEDALKWAAL EKLPTYNRDR SLLIFHFRLG NFPYENIYHF KGNEGKDLMV KKNISYHELM RVVEILKNKN
0101: KNGREEMGQP VSLQRIGVDE MWCLAVQRYA EKREEGDAYL IFSFFGLQAS GSLRRNGSSI WRSSGADIFS RSSRDEDDEE ALKWAALEKL PTYNRLRRGL
0201: LMGSEGEASE IDIHNLGFQE KKNLVERLVK VAEEDNEKFL LKLKNRIDRV GIDVPEIEVR FEHLTIDAEA FVGSRALPSF HNFIFSKLEG ILNAVRILPS
0301: KKRKFTILND VSGTIKPRRL TLLLGPPSSG KTTLLLALAG KLDPNLKVMG RVTYNGHGMN EFVPQRTAAY ISQHDTHIGE MTVRETLAFS ARCQGVGDRY
0401: DMLAELSRRE KAANIKPDPD LDVFMKAAAT EGQKENVVTD YTLKILGLDI CADTMVGDEM IRGISGGQRK RVTTGEMLVG PSKALFMDEI STGLDSSTTY
0501: QIINSLKQTI HILNGTAVIS LLQPAPETYN LFDDIILLSD SQIVYQGPRE DVVEFFESMG FKCPARKGVA DFLQEVTSRK DQAQYWARKD VPYSFVTVKE
0601: FAEAFQSFHI GRKVADELAS PFDRAKSHPA ALTTKKYGVR KKELLDANMS REYLLMKRNS FVYIFKLTQL AVMAVIAMTL FLRTEMHKNS TDDGNIYTGA
0701: LFFTVVMIMF NGMAELAMAI AKLPVFYKQR DLLFYPAWAY ALPTWVLRIP ITFVEVGVWV FITYYVIGFD PNVERLFRQY LLLLLVNQMA SGLFRFIAAA
0801: GRNMIVANTF GAFALLMLLA LGGFILSYDN VKKWWIWGYW SSPLMYAQNA IVVNEFLGKS WSKNVTDSTE SLGVTVLKSR GFFTDAHWYW IGAGALLGFI
0901: FVFNIFYTLC LNYLNLFEKP QAVITEESDN AKTATTERGE QMVEAIAEAN HNKKKGMVLP FQPHSITFDD IRYSVDMPEE MKSQGALEDR LELLKGVSGA
1001: FRPGVLTALM GVSGAGKTTL MDVLAGRKTG GYIEGNITIS GYPKKQETFA RISGYCEQND IHSPHVTVHE SLLYSAWLRL PSDVNSETRK MFIEEVMELV
1101: ELTPLRDALV GLPGVNGLST EQRKRLTIAV ELVANPSIIF MDEPTSGLDA RAAAIVMRTV RNTVDTGRTV VCTIHQPSID IFEAFDELLL MKRGGQEIYV
1201: GPLGRHSSHL INYFEGIEGV SKIKDGYNPA TWMLEVTTGA QEGTLGVDFT EIYKNSDLYR RNKDLIKELS QPAPGTKDLY FATQYSQPFF TQFLACLWKQ
1301: RWSYWRNPPY TAVRFLFTTF IALMFGTMFW DLGTERTRQQ DLLNAMGSMY AAVLFLGVQN AQSVQPVVVV ERTVFYRERA AGMYSALPYA FGQALVEIPY
1401: VFAQAVVYGV IVYAMIGFEW TAAKFFWYLF FMFFTLLYFT FYGMMAVAAT PNQHIASIVA AAFYGLWNLF SGFIVPRNRI PVWWRWYYWI CPVAWTLYGL
1501: VTSQFGDIQD TLLDKNQTVE QFLDDYFGFK HDFLGVVAAV VVGFVVLFLF IFAYAIKAFN FQRR
0101: KNGREEMGQP VSLQRIGVDE MWCLAVQRYA EKREEGDAYL IFSFFGLQAS GSLRRNGSSI WRSSGADIFS RSSRDEDDEE ALKWAALEKL PTYNRLRRGL
0201: LMGSEGEASE IDIHNLGFQE KKNLVERLVK VAEEDNEKFL LKLKNRIDRV GIDVPEIEVR FEHLTIDAEA FVGSRALPSF HNFIFSKLEG ILNAVRILPS
0301: KKRKFTILND VSGTIKPRRL TLLLGPPSSG KTTLLLALAG KLDPNLKVMG RVTYNGHGMN EFVPQRTAAY ISQHDTHIGE MTVRETLAFS ARCQGVGDRY
0401: DMLAELSRRE KAANIKPDPD LDVFMKAAAT EGQKENVVTD YTLKILGLDI CADTMVGDEM IRGISGGQRK RVTTGEMLVG PSKALFMDEI STGLDSSTTY
0501: QIINSLKQTI HILNGTAVIS LLQPAPETYN LFDDIILLSD SQIVYQGPRE DVVEFFESMG FKCPARKGVA DFLQEVTSRK DQAQYWARKD VPYSFVTVKE
0601: FAEAFQSFHI GRKVADELAS PFDRAKSHPA ALTTKKYGVR KKELLDANMS REYLLMKRNS FVYIFKLTQL AVMAVIAMTL FLRTEMHKNS TDDGNIYTGA
0701: LFFTVVMIMF NGMAELAMAI AKLPVFYKQR DLLFYPAWAY ALPTWVLRIP ITFVEVGVWV FITYYVIGFD PNVERLFRQY LLLLLVNQMA SGLFRFIAAA
0801: GRNMIVANTF GAFALLMLLA LGGFILSYDN VKKWWIWGYW SSPLMYAQNA IVVNEFLGKS WSKNVTDSTE SLGVTVLKSR GFFTDAHWYW IGAGALLGFI
0901: FVFNIFYTLC LNYLNLFEKP QAVITEESDN AKTATTERGE QMVEAIAEAN HNKKKGMVLP FQPHSITFDD IRYSVDMPEE MKSQGALEDR LELLKGVSGA
1001: FRPGVLTALM GVSGAGKTTL MDVLAGRKTG GYIEGNITIS GYPKKQETFA RISGYCEQND IHSPHVTVHE SLLYSAWLRL PSDVNSETRK MFIEEVMELV
1101: ELTPLRDALV GLPGVNGLST EQRKRLTIAV ELVANPSIIF MDEPTSGLDA RAAAIVMRTV RNTVDTGRTV VCTIHQPSID IFEAFDELLL MKRGGQEIYV
1201: GPLGRHSSHL INYFEGIEGV SKIKDGYNPA TWMLEVTTGA QEGTLGVDFT EIYKNSDLYR RNKDLIKELS QPAPGTKDLY FATQYSQPFF TQFLACLWKQ
1301: RWSYWRNPPY TAVRFLFTTF IALMFGTMFW DLGTERTRQQ DLLNAMGSMY AAVLFLGVQN AQSVQPVVVV ERTVFYRERA AGMYSALPYA FGQALVEIPY
1401: VFAQAVVYGV IVYAMIGFEW TAAKFFWYLF FMFFTLLYFT FYGMMAVAAT PNQHIASIVA AAFYGLWNLF SGFIVPRNRI PVWWRWYYWI CPVAWTLYGL
1501: VTSQFGDIQD TLLDKNQTVE QFLDDYFGFK HDFLGVVAAV VVGFVVLFLF IFAYAIKAFN FQRR
0001: MEGTSFHQAS NSMRRNSSVW KKDSGREIFS RSSREEDDEE ALRWAALEKL PTFDRLRKGI LTASHAGGPI NEIDIQKLGF QDTKKLLERL IKVGDDEHEK
0101: LLWKLKKRID RVGIDLPTIE VRFDHLKVEA EVHVGGRALP TFVNFISNFA DKFLNTLHLV PNRKKKFTIL NDVSGIVKPG RMALLLGPPS SGKTTLLLAL
0201: AGKLDQELKQ TGRVTYNGHG MNEFVPQRTA AYIGQNDVHI GEMTVRETFA YAARFQGVGS RYDMLTELAR REKEANIKPD PDIDIFMKAM STAGEKTNVM
0301: TDYILKILGL EVCADTMVGD DMLRGISGGQ KKRVTTGEML VGPSRALFMD EISTGLDSST TYQIVNSLRN YVHIFNGTAL ISLLQPAPET FNLFDDIILI
0401: AEGEIIYEGP RDHVVEFFET MGFKCPPRKG VADFLQEVTS KKDQMQYWAR RDEPYRFIRV REFAEAFQSF HVGRRIGDEL ALPFDKTKSH PAALTTKKYG
0501: VGIKELVKTS FSREYLLMKR NSFVYYFKFG QLLVMAFLTM TLFFRTEMQK KTEVDGSLYT GALFFILMML MFNGMSELSM TIAKLPVFYK QRDLLFYPAW
0601: VYSLPPWLLK IPISFMEAAL TTFITYYVIG FDPNVGRLFK QYILLVLMNQ MASALFKMVA ALGRNMIVAN TFGAFAMLVF FALGGVVLSR DDIKKWWIWG
0701: YWISPIMYGQ NAILANEFFG HSWSRAVENS SETLGVTFLK SRGFLPHAYW YWIGTGALLG FVVLFNFGFT LALTFLNSLG KPQAVIAEEP ASDETELQSA
0801: RSEGVVEAGA NKKRGMVLPF EPHSITFDNV VYSVDMPQEM IEQGTQEDRL VLLKGVNGAF RPGVLTALMG VSGAGKTTLM DVLAGRKTGG YIDGNITISG
0901: YPKNQQTFAR ISGYCEQTDI HSPHVTVYES LVYSAWLRLP KEVDKNKRKI FIEEVMELVE LTPLRQALVG LPGESGLSTE QRKRLTIAVE LVANPSIIFM
1001: DEPTSGLDAR AAAIVMRTVR NTVDTGRTVV CTIHQPSIDI FEAFDELFLL KRGGEEIYVG PLGHESTHLI NYFESIQGIN KITEGYNPAT WMLEVSTTSQ
1101: EAALGVDFAQ VYKNSELYKR NKELIKELSQ PAPGSKDLYF PTQYSQSFLT QCMASLWKQH WSYWRNPPYT AVRFLFTIGI ALMFGTMFWD LGGKTKTRQD
1201: LSNAMGSMYT AVLFLGLQNA ASVQPVVNVE RTVFYREQAA GMYSAMPYAF AQVLQKNIIE SEIYDFSLRK PQIQTSICSR FSSRSHTFSC KR
0101: LLWKLKKRID RVGIDLPTIE VRFDHLKVEA EVHVGGRALP TFVNFISNFA DKFLNTLHLV PNRKKKFTIL NDVSGIVKPG RMALLLGPPS SGKTTLLLAL
0201: AGKLDQELKQ TGRVTYNGHG MNEFVPQRTA AYIGQNDVHI GEMTVRETFA YAARFQGVGS RYDMLTELAR REKEANIKPD PDIDIFMKAM STAGEKTNVM
0301: TDYILKILGL EVCADTMVGD DMLRGISGGQ KKRVTTGEML VGPSRALFMD EISTGLDSST TYQIVNSLRN YVHIFNGTAL ISLLQPAPET FNLFDDIILI
0401: AEGEIIYEGP RDHVVEFFET MGFKCPPRKG VADFLQEVTS KKDQMQYWAR RDEPYRFIRV REFAEAFQSF HVGRRIGDEL ALPFDKTKSH PAALTTKKYG
0501: VGIKELVKTS FSREYLLMKR NSFVYYFKFG QLLVMAFLTM TLFFRTEMQK KTEVDGSLYT GALFFILMML MFNGMSELSM TIAKLPVFYK QRDLLFYPAW
0601: VYSLPPWLLK IPISFMEAAL TTFITYYVIG FDPNVGRLFK QYILLVLMNQ MASALFKMVA ALGRNMIVAN TFGAFAMLVF FALGGVVLSR DDIKKWWIWG
0701: YWISPIMYGQ NAILANEFFG HSWSRAVENS SETLGVTFLK SRGFLPHAYW YWIGTGALLG FVVLFNFGFT LALTFLNSLG KPQAVIAEEP ASDETELQSA
0801: RSEGVVEAGA NKKRGMVLPF EPHSITFDNV VYSVDMPQEM IEQGTQEDRL VLLKGVNGAF RPGVLTALMG VSGAGKTTLM DVLAGRKTGG YIDGNITISG
0901: YPKNQQTFAR ISGYCEQTDI HSPHVTVYES LVYSAWLRLP KEVDKNKRKI FIEEVMELVE LTPLRQALVG LPGESGLSTE QRKRLTIAVE LVANPSIIFM
1001: DEPTSGLDAR AAAIVMRTVR NTVDTGRTVV CTIHQPSIDI FEAFDELFLL KRGGEEIYVG PLGHESTHLI NYFESIQGIN KITEGYNPAT WMLEVSTTSQ
1101: EAALGVDFAQ VYKNSELYKR NKELIKELSQ PAPGSKDLYF PTQYSQSFLT QCMASLWKQH WSYWRNPPYT AVRFLFTIGI ALMFGTMFWD LGGKTKTRQD
1201: LSNAMGSMYT AVLFLGLQNA ASVQPVVNVE RTVFYREQAA GMYSAMPYAF AQVLQKNIIE SEIYDFSLRK PQIQTSICSR FSSRSHTFSC KR
Arabidopsis Description
ABCG40ABC transporter G family member 40 [Source:UniProtKB/Swiss-Prot;Acc:Q9M9E1]
SUBAcon: [plastid]
SUBAcon: [plastid]
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.