Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- cytosol 2
- mitochondrion 1
- plasma membrane 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
Inferred distinct locusB in Crop
Inferred from Arabidopsis experimental PPI
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| TraesCS7D01G284100.1 | Wheat | cytosol | 98.98 | 98.47 |
| TraesCS7A01G284900.1 | Wheat | plasma membrane | 89.62 | 98.39 |
| HORVU7Hr1G063020.3 | Barley | cytosol | 97.44 | 94.47 |
| Os08t0564300-04 | Rice | plasma membrane | 81.94 | 83.41 |
| Zm00001d031871_P001 | Maize | cytosol | 85.96 | 83.05 |
| AT2G36910.1 | Thale cress | peroxisome | 72.59 | 77.22 |
| GSMUA_Achr4P12130_001 | Banana | cytosol | 75.88 | 77.06 |
| Solyc09g008240.2.1 | Tomato | peroxisome | 72.95 | 75.95 |
| PGSC0003DMT400009924 | Potato | peroxisome | 73.54 | 75.47 |
| GSMUA_Achr4P04430_001 | Banana | cytosol, peroxisome, plasma membrane | 74.71 | 75.42 |
| KRG96023 | Soybean | cytosol, peroxisome, plasma membrane | 73.46 | 75.06 |
| CDY46744 | Canola | cytosol, peroxisome, plasma membrane | 73.39 | 75.04 |
| KRH32507 | Soybean | cytosol, nucleus, plasma membrane | 73.61 | 74.98 |
| Bra023087.1-P | Field mustard | cytosol, nucleus, plasma membrane | 73.39 | 74.98 |
| KRH67730 | Soybean | cytosol, peroxisome, plasma membrane | 73.46 | 74.89 |
| CDX79704 | Canola | plasma membrane | 73.25 | 74.72 |
| Bra017216.1-P | Field mustard | cytosol, nucleus, plasma membrane | 73.03 | 74.66 |
| KRH19897 | Soybean | cytosol, peroxisome, plasma membrane | 73.03 | 74.5 |
| VIT_08s0007g05060.t01 | Wine grape | cytosol, peroxisome, plasma membrane | 73.68 | 74.45 |
| OQU80682 | Sorghum | plasma membrane | 80.63 | 71.58 |
| TraesCS6B01G145800.1 | Wheat | cytosol | 9.65 | 52.17 |
| TraesCS2B01G341800.2 | Wheat | cytosol, peroxisome, plasma membrane | 48.1 | 52.06 |
| TraesCS2B01G550700.2 | Wheat | plasma membrane | 47.37 | 51.55 |
| TraesCS6B01G291900.1 | Wheat | peroxisome | 44.66 | 48.38 |
| TraesCS1B01G099000.1 | Wheat | cytosol, peroxisome, plasma membrane | 39.69 | 42.59 |
| TraesCS3B01G136800.1 | Wheat | golgi, mitochondrion, peroxisome, plasma membrane, plastid | 38.16 | 41.63 |
| TraesCS3B01G290300.2 | Wheat | peroxisome | 37.94 | 40.96 |
| TraesCS2B01G012300.1 | Wheat | plasma membrane | 37.57 | 40.86 |
| TraesCS3B01G401600.3 | Wheat | cytosol, peroxisome, plasma membrane | 38.16 | 40.85 |
| TraesCS2B01G012200.1 | Wheat | golgi | 32.16 | 40.78 |
| TraesCS3B01G291100.3 | Wheat | peroxisome | 37.28 | 40.35 |
| TraesCS2B01G012100.3 | Wheat | plasma membrane | 36.92 | 40.3 |
| TraesCS3B01G291000.1 | Wheat | peroxisome | 36.99 | 40.22 |
| TraesCS2B01G358200.1 | Wheat | plasma membrane | 36.48 | 39.45 |
| TraesCS4B01G298100.1 | Wheat | mitochondrion, plasma membrane | 37.87 | 39.42 |
| TraesCS1B01G387400.1 | Wheat | peroxisome | 36.33 | 39.29 |
| TraesCS6B01G170700.1 | Wheat | plasma membrane | 35.82 | 39.08 |
| TraesCS7B01G203400.1 | Wheat | peroxisome | 35.82 | 38.95 |
| TraesCS6B01G145600.1 | Wheat | peroxisome | 35.82 | 38.77 |
| TraesCS3B01G607600.1 | Wheat | cytosol, plasma membrane, vacuole | 39.55 | 38.37 |
| TraesCS7B01G203300.1 | Wheat | peroxisome | 34.94 | 37.82 |
| TraesCS4B01G203000.1 | Wheat | cytosol, plasma membrane, plastid | 38.82 | 37.69 |
| TraesCS3B01G290700.1 | Wheat | peroxisome | 28.07 | 36.64 |
Protein Annotations
Description
No Description!
Coordinates
chr7B:+:277205384..277210718
Molecular Weight (calculated)
147966.0 Da
IEP (calculated)
8.072
GRAVY (calculated)
0.061
Length
1368 amino acids
Sequence
(BLAST)
(BLAST)
0001: MSSDPEEIKA RVVVHGADAD ADADAEWARP ELEAFHLPST SQPPHLFHPP HPEPEAAEQS TPAPAVAAAT TNNASGSPPP PRSPPPAPLE TEQLPPNAKP
0101: PADEKPPPPA PAAALRDLFR FADGLDRVLM AVGTLGALVH GCSLPVFLRF FADLVDSFGS HADDPDTMVR LVVRYAFYFL VVGAAIWASS WAEISCWMWT
0201: GERQSTRMRI RYLQAALKQD VSFFDTDVRT SDVIYAINAD AVIVQDAISE KLGNLIHYMA TFVAGFVVGF TAAWQLALVT LAVVPLIAVI GGLTAATMGK
0301: LSSKSQDALS SASNIAEQAL SQIRIVQSFV GEQRVAQAYS AALAVAQSIG YRNGFAKGLG LGGTYFTVFC CYALLLWYGG HLVRGHHTNG GLAIATMFSV
0401: MIGGLALGQS APSMAAFAKA RVAAAKIFRI IDHTPGVTKE GVELESVTGR LELRNVEFAY PSRPDTPILR RFSLSVPAGK TIALVGSSGS GKSTVVSLIE
0501: RFYDPSSGQI MLDGVELKDL KLRWLRSQIG LVSQEPALFA TSIRENLLLG REEASQVEME EAARVANAHS FIIKLPDGYD TQVGERGLQL SGGQRQRIAI
0601: ARAMLKNPAI LLLDEATSAL DSESEKLVQE ALDRFMIGRT TLVIAHRLST IRKADLVAVL QAGAVSEMGA HDDLMARGDS GAYAKLIRMQ EQAHEAALVS
0701: ARRSSARPSS ARNSVSSPIM MRNSSYGRSP YSRRLSDFST ADFSLSVIHD PAAHRMGMGM EKLAFRAQAS SFWRLAKMNS PEWGYALAGS VGSMVCGSFS
0801: AIFAYILSAV LSIYYTPDPR HMDREITKYC YLLIGMSSAA LLFNTVQHLF WDTVGENLTK RVREKMLTAV LRNEMAWFDM EANASAHIAA RLALDAQNVR
0901: SAIGDRISII VQNSALMLVA CTAGFVLQWR LALVLLAVFP LVVGATVLQK MFMKGFSGDL EGAHAKATQI AGEAVANVRT VAAFNSEDKI TRLFEANLQR
1001: PLRRCFWKGQ IAGIGYGVAQ FLLYASYALG LWYAAWLVKH GISDFSKTIR VFMVLMVSAN GAAETLTLAP DFIKGGRAMQ SVFETIDRKT EIEPDDVDAA
1101: AVPERPRGDV ELKHVDFSYP SRPDIQVFRD LSLRARAGRT LALVGPSGCG KSSVLALIQR FYEPSSGRVL LDGKDIRKYN LKALRRVVAM VPQEPFLFAG
1201: TIHDNIAYGR EGATEAEVVE AATQANAHKF VSALPEGYKT CVGERGVQLS GGQRQRIAIA RALVKQAAIM LLDEATSALD AESERCVQEA LDRAGSGSGR
1301: TTIVVAHRLA TVRNAHTIAV IDDGKVVEQG SHSHLLNHHP DGCYARMLQF QRLTPHTLAV PGPSASNV
0101: PADEKPPPPA PAAALRDLFR FADGLDRVLM AVGTLGALVH GCSLPVFLRF FADLVDSFGS HADDPDTMVR LVVRYAFYFL VVGAAIWASS WAEISCWMWT
0201: GERQSTRMRI RYLQAALKQD VSFFDTDVRT SDVIYAINAD AVIVQDAISE KLGNLIHYMA TFVAGFVVGF TAAWQLALVT LAVVPLIAVI GGLTAATMGK
0301: LSSKSQDALS SASNIAEQAL SQIRIVQSFV GEQRVAQAYS AALAVAQSIG YRNGFAKGLG LGGTYFTVFC CYALLLWYGG HLVRGHHTNG GLAIATMFSV
0401: MIGGLALGQS APSMAAFAKA RVAAAKIFRI IDHTPGVTKE GVELESVTGR LELRNVEFAY PSRPDTPILR RFSLSVPAGK TIALVGSSGS GKSTVVSLIE
0501: RFYDPSSGQI MLDGVELKDL KLRWLRSQIG LVSQEPALFA TSIRENLLLG REEASQVEME EAARVANAHS FIIKLPDGYD TQVGERGLQL SGGQRQRIAI
0601: ARAMLKNPAI LLLDEATSAL DSESEKLVQE ALDRFMIGRT TLVIAHRLST IRKADLVAVL QAGAVSEMGA HDDLMARGDS GAYAKLIRMQ EQAHEAALVS
0701: ARRSSARPSS ARNSVSSPIM MRNSSYGRSP YSRRLSDFST ADFSLSVIHD PAAHRMGMGM EKLAFRAQAS SFWRLAKMNS PEWGYALAGS VGSMVCGSFS
0801: AIFAYILSAV LSIYYTPDPR HMDREITKYC YLLIGMSSAA LLFNTVQHLF WDTVGENLTK RVREKMLTAV LRNEMAWFDM EANASAHIAA RLALDAQNVR
0901: SAIGDRISII VQNSALMLVA CTAGFVLQWR LALVLLAVFP LVVGATVLQK MFMKGFSGDL EGAHAKATQI AGEAVANVRT VAAFNSEDKI TRLFEANLQR
1001: PLRRCFWKGQ IAGIGYGVAQ FLLYASYALG LWYAAWLVKH GISDFSKTIR VFMVLMVSAN GAAETLTLAP DFIKGGRAMQ SVFETIDRKT EIEPDDVDAA
1101: AVPERPRGDV ELKHVDFSYP SRPDIQVFRD LSLRARAGRT LALVGPSGCG KSSVLALIQR FYEPSSGRVL LDGKDIRKYN LKALRRVVAM VPQEPFLFAG
1201: TIHDNIAYGR EGATEAEVVE AATQANAHKF VSALPEGYKT CVGERGVQLS GGQRQRIAIA RALVKQAAIM LLDEATSALD AESERCVQEA LDRAGSGSGR
1301: TTIVVAHRLA TVRNAHTIAV IDDGKVVEQG SHSHLLNHHP DGCYARMLQF QRLTPHTLAV PGPSASNV
0001: MDNDGGAPPP PPTLVVEEPK KAEIRGVAFK ELFRFADGLD YVLMGIGSVG AFVHGCSLPL FLRFFADLVN SFGSNSNNVE KMMEEVLKYA LYFLVVGAAI
0101: WASSWAEISC WMWSGERQTT KMRIKYLEAA LNQDIQFFDT EVRTSDVVFA INTDAVMVQD AISEKLGNFI HYMATFVSGF IVGFTAVWQL ALVTLAVVPL
0201: IAVIGGIHTT TLSKLSNKSQ ESLSQAGNIV EQTVVQIRVV MAFVGESRAS QAYSSALKIA QKLGYKTGLA KGMGLGATYF VVFCCYALLL WYGGYLVRHH
0301: LTNGGLAIAT MFAVMIGGLA LGQSAPSMAA FAKAKVAAAK IFRIIDHKPT IERNSESGVE LDSVTGLVEL KNVDFSYPSR PDVKILNNFC LSVPAGKTIA
0401: LVGSSGSGKS TVVSLIERFY DPNSGQVLLD GQDLKTLKLR WLRQQIGLVS QEPALFATSI KENILLGRPD ADQVEIEEAA RVANAHSFII KLPDGFDTQV
0501: GERGLQLSGG QKQRIAIARA MLKNPAILLL DEATSALDSE SEKLVQEALD RFMIGRTTLI IAHRLSTIRK ADLVAVLQQG SVSEIGTHDE LFSKGENGVY
0601: AKLIKMQEAA HETAMSNARK SSARPSSARN SVSSPIMTRN SSYGRSPYSR RLSDFSTSDF SLSIDASSYP NYRNEKLAFK DQANSFWRLA KMNSPEWKYA
0701: LLGSVGSVIC GSLSAFFAYV LSAVLSVYYN PDHEYMIKQI DKYCYLLIGL SSAALVFNTL QHSFWDIVGE NLTKRVREKM LSAVLKNEMA WFDQEENESA
0801: RIAARLALDA NNVRSAIGDR ISVIVQNTAL MLVACTAGFV LQWRLALVLV AVFPVVVAAT VLQKMFMTGF SGDLEAAHAK GTQLAGEAIA NVRTVAAFNS
0901: EAKIVRLYTA NLEPPLKRCF WKGQIAGSGY GVAQFCLYAS YALGLWYASW LVKHGISDFS KTIRVFMVLM VSANGAAETL TLAPDFIKGG QAMRSVFELL
1001: DRKTEIEPDD PDTTPVPDRL RGEVELKHID FSYPSRPDIQ IFRDLSLRAR AGKTLALVGP SGCGKSSVIS LIQRFYEPSS GRVMIDGKDI RKYNLKAIRK
1101: HIAIVPQEPC LFGTTIYENI AYGHECATEA EIIQAATLAS AHKFISALPE GYKTYVGERG VQLSGGQKQR IAIARALVRK AEIMLLDEAT SALDAESERS
1201: VQEALDQACS GRTSIVVAHR LSTIRNAHVI AVIDDGKVAE QGSHSHLLKN HPDGIYARMI QLQRFTHTQV IGMTSGSSSR VKEDDA
0101: WASSWAEISC WMWSGERQTT KMRIKYLEAA LNQDIQFFDT EVRTSDVVFA INTDAVMVQD AISEKLGNFI HYMATFVSGF IVGFTAVWQL ALVTLAVVPL
0201: IAVIGGIHTT TLSKLSNKSQ ESLSQAGNIV EQTVVQIRVV MAFVGESRAS QAYSSALKIA QKLGYKTGLA KGMGLGATYF VVFCCYALLL WYGGYLVRHH
0301: LTNGGLAIAT MFAVMIGGLA LGQSAPSMAA FAKAKVAAAK IFRIIDHKPT IERNSESGVE LDSVTGLVEL KNVDFSYPSR PDVKILNNFC LSVPAGKTIA
0401: LVGSSGSGKS TVVSLIERFY DPNSGQVLLD GQDLKTLKLR WLRQQIGLVS QEPALFATSI KENILLGRPD ADQVEIEEAA RVANAHSFII KLPDGFDTQV
0501: GERGLQLSGG QKQRIAIARA MLKNPAILLL DEATSALDSE SEKLVQEALD RFMIGRTTLI IAHRLSTIRK ADLVAVLQQG SVSEIGTHDE LFSKGENGVY
0601: AKLIKMQEAA HETAMSNARK SSARPSSARN SVSSPIMTRN SSYGRSPYSR RLSDFSTSDF SLSIDASSYP NYRNEKLAFK DQANSFWRLA KMNSPEWKYA
0701: LLGSVGSVIC GSLSAFFAYV LSAVLSVYYN PDHEYMIKQI DKYCYLLIGL SSAALVFNTL QHSFWDIVGE NLTKRVREKM LSAVLKNEMA WFDQEENESA
0801: RIAARLALDA NNVRSAIGDR ISVIVQNTAL MLVACTAGFV LQWRLALVLV AVFPVVVAAT VLQKMFMTGF SGDLEAAHAK GTQLAGEAIA NVRTVAAFNS
0901: EAKIVRLYTA NLEPPLKRCF WKGQIAGSGY GVAQFCLYAS YALGLWYASW LVKHGISDFS KTIRVFMVLM VSANGAAETL TLAPDFIKGG QAMRSVFELL
1001: DRKTEIEPDD PDTTPVPDRL RGEVELKHID FSYPSRPDIQ IFRDLSLRAR AGKTLALVGP SGCGKSSVIS LIQRFYEPSS GRVMIDGKDI RKYNLKAIRK
1101: HIAIVPQEPC LFGTTIYENI AYGHECATEA EIIQAATLAS AHKFISALPE GYKTYVGERG VQLSGGQKQR IAIARALVRK AEIMLLDEAT SALDAESERS
1201: VQEALDQACS GRTSIVVAHR LSTIRNAHVI AVIDDGKVAE QGSHSHLLKN HPDGIYARMI QLQRFTHTQV IGMTSGSSSR VKEDDA
Arabidopsis Description
ABCB1ABC transporter B family member 1 [Source:UniProtKB/Swiss-Prot;Acc:Q9ZR72]
SUBAcon: [peroxisome]
SUBAcon: [peroxisome]
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.