Subcellular Localization
min:
: max
Winner_takes_all: plasma membrane
Predictor Summary:
Predictor Summary:
- nucleus 1
- endoplasmic reticulum 2
- extracellular 1
- vacuole 1
- plasma membrane 3
- golgi 1
- plastid 1
| Predictors | GFP | MS/MS | Papers |
|---|---|---|---|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| OQU80926 | Sorghum | plasma membrane | 91.0 | 90.01 |
| Zm00001d031447_P003 | Maize | plastid | 87.72 | 85.96 |
| KXG19351 | Sorghum | plasma membrane | 85.27 | 84.23 |
| TraesCS7D01G114300.1 | Wheat | endoplasmic reticulum, plasma membrane, vacuole | 56.41 | 80.21 |
| TraesCS7B01G016500.1 | Wheat | plasma membrane | 80.22 | 79.41 |
| Os06t0158900-00 | Rice | plasma membrane | 80.08 | 79.16 |
| TraesCS7D01G116300.2 | Wheat | plasma membrane | 79.81 | 79.0 |
| TraesCSU01G093100.1 | Wheat | plasma membrane | 79.74 | 78.93 |
| TraesCS7A01G119800.1 | Wheat | plasma membrane | 45.98 | 78.65 |
| TraesCS7A01G119500.1 | Wheat | cytosol, peroxisome, plasma membrane | 67.94 | 78.43 |
| TraesCS7D01G115900.1 | Wheat | plasma membrane | 68.76 | 78.02 |
| TraesCSU01G159700.1 | Wheat | cytosol, peroxisome, plasma membrane | 67.46 | 77.87 |
| TraesCS2B01G529000.2 | Wheat | plasma membrane | 68.55 | 77.67 |
| HORVU7Hr1G024960.12 | Barley | golgi | 78.31 | 77.31 |
| TraesCS7A01G118900.2 | Wheat | plasma membrane | 77.69 | 76.91 |
| TraesCS2B01G150600.1 | Wheat | plasma membrane | 74.56 | 72.82 |
| TraesCS2D01G131000.1 | Wheat | plastid | 74.42 | 72.78 |
| TraesCS2A01G128500.1 | Wheat | plasma membrane | 73.74 | 72.31 |
| TraesCS7A01G119000.1 | Wheat | plasma membrane | 73.4 | 71.78 |
| HORVU2Hr1G022560.5 | Barley | mitochondrion | 73.33 | 70.12 |
| KRG91620 | Soybean | plasma membrane | 59.0 | 69.76 |
| GSMUA_Achr10P... | Banana | plasma membrane | 55.59 | 66.8 |
| CDX71911 | Canola | plasma membrane | 52.32 | 66.12 |
| CDY06021 | Canola | plasma membrane | 52.39 | 65.98 |
| VIT_16s0050g02480.t01 | Wine grape | plasma membrane | 63.78 | 63.18 |
| KRH35194 | Soybean | endoplasmic reticulum, nucleus, plasma membrane | 63.1 | 62.54 |
| PGSC0003DMT400023487 | Potato | plasma membrane | 62.28 | 62.28 |
| Solyc03g007530.2.1 | Tomato | plasma membrane | 62.07 | 62.03 |
| VIT_16s0050g02280.t01 | Wine grape | cytosol, golgi, plasma membrane | 54.64 | 61.38 |
| Solyc06g036490.1.1 | Tomato | plastid | 49.11 | 60.35 |
| KRH08764 | Soybean | plasma membrane | 60.85 | 60.23 |
| AT3G59140.1 | Thale cress | plasma membrane | 58.32 | 58.84 |
| Bra007434.1-P | Field mustard | golgi, plasma membrane, plastid | 57.71 | 58.3 |
| VIT_02s0025g00930.t01 | Wine grape | plasma membrane | 55.59 | 58.09 |
| KRH08755 | Soybean | plasma membrane | 58.53 | 57.09 |
| PGSC0003DMT400018927 | Potato | plasma membrane | 48.77 | 56.61 |
| VIT_02s0025g00970.t01 | Wine grape | plasma membrane | 57.09 | 56.17 |
| PGSC0003DMT400074333 | Potato | mitochondrion | 58.94 | 55.96 |
| VIT_02s0025g00950.t01 | Wine grape | plasma membrane | 56.14 | 55.68 |
| Solyc08g081890.2.1 | Tomato | endoplasmic reticulum, nucleus, plasma membrane | 54.5 | 54.02 |
| KXG31741 | Sorghum | plasma membrane | 37.04 | 43.34 |
| EES17847 | Sorghum | endoplasmic reticulum, plasma membrane, vacuole | 38.61 | 43.14 |
| KXG20196 | Sorghum | plasma membrane | 41.06 | 40.21 |
| OQU92792 | Sorghum | plasma membrane | 37.38 | 39.97 |
| OQU93255 | Sorghum | plasma membrane | 40.79 | 39.55 |
| OQU86956 | Sorghum | plasma membrane | 36.08 | 36.58 |
| KXG40096 | Sorghum | plasma membrane | 37.65 | 36.53 |
| KXG32483 | Sorghum | plasma membrane | 37.65 | 36.51 |
| KXG26126 | Sorghum | plasma membrane | 35.81 | 35.28 |
| KXG27008 | Sorghum | plasma membrane | 36.77 | 33.79 |
| EES10452 | Sorghum | plastid | 35.61 | 33.7 |
| EER89345 | Sorghum | plasma membrane | 26.94 | 26.96 |
| EES12878 | Sorghum | plasma membrane | 29.4 | 26.49 |
Protein Annotations
| Gene3D:1.20.1560.10 | MapMan:24.1.3.1.2 | Gene3D:3.40.50.300 | UniProt:A0A1B6PIZ4 | InterPro:AAA+_ATPase | InterPro:ABC1_TM_dom |
| InterPro:ABC1_TM_sf | InterPro:ABC_transporter-like | InterPro:ABC_transporter_CS | GO:GO:0000166 | GO:GO:0003674 | GO:GO:0003824 |
| GO:GO:0005215 | GO:GO:0005488 | GO:GO:0005524 | GO:GO:0005575 | 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 | InterPro:IPR011527 | InterPro:IPR036640 | EnsemblPlants:KXG25638 | ProteinID:KXG25638 | ProteinID:KXG25638.1 |
| InterPro:P-loop_NTPase | PFAM:PF00005 | PFAM:PF00664 | ScanProsite:PS00211 | PFscan:PS50893 | PFscan:PS50929 |
| PANTHER:PTHR24223 | PANTHER:PTHR24223:SF192 | SMART:SM00382 | EnsemblPlantsGene:SORBI_3007G210600 | SUPFAM:SSF52540 | SUPFAM:SSF90123 |
| TMHMM:TMhelix | UniParc:UPI00081ADE32 | SEG:seg | : | : | : |
Description
hypothetical protein
Coordinates
chr7:+:63951300..63958648
Molecular Weight (calculated)
163740.0 Da
IEP (calculated)
7.881
GRAVY (calculated)
0.248
Length
1466 amino acids
Sequence
(BLAST)
(BLAST)
0001: MAVMCGSPFC SKEASASCGC KEILNSSTCT NHVVATGIAA LIIVILALQL LVRIPKSRPF SWQLVALSSQ MQLVAVVFNG CLGLIYLGLA LWMLGTNFSQ
0101: HASVYLPHRW LVNLSQGFSL SLISFAFSIR AQFLGATFFR VWSVLLTTYA AFVCCTSVVY IVADKVLTIK ACLDVLSLPG ALLFLVYEIW HVKEDETHDD
0201: TADSQSHVTP FAKAGIFSVM TFWWLNTMMK MGYEKPLEEK DMPFLGPSDQ AYSQYLMFLE NLNRKKQLQA HGNPSVFWTI ISCHKSAILV SGFALLKVLT
0301: LSLGPVLLKA FINVSLGKGS FKYEGYILAA ALFVTKCCES LSQRQWYFRT RRLGLQVRSF LSAAIYKKQQ KLSSSSKLKH SSGEIINYVT VDAYRIGEFP
0401: YWFHQTWTTS IQLCIALWIL YNAVGLAMIT SLVVIVITVI CNAPLAKSQH KFQSKLMEAQ DVRLKAMSES LIHMKLYAWE THFRKVIEGL REIEIKWLSA
0501: FLLRKSYNGL LFWISPVLVS SATFLTCYLL KIPLDASNVF TFVATLRLVQ DPIRQMPDVI GVVIQAKVAF TRITKFLDAP ELNGQVRKKY CVAEEYPIVM
0601: NSCSFSWDEN PSKPTLKNIH LVVKSGEKVA ICGEVGSGKS TLLAAILGEV PKTEGMIQVC GKIGYVSQNA WIQSGTVQDN ILFGSLMDRQ RYQETLDRCS
0701: LVKDLEMLPY GDHTQIGERG VNLSGGQKQR VQLARALYQN TDIYLLDDPF SAVDAHTATS LFNEFLMGAL SDKTVLLVTH QVDFLHVFDS VLLMSDGEII
0801: RSAPYQDLLA YCQEFQLLVN VHKDTIGVSD LNRVGPHRAN EILIKGSIDI LHGSECKESL KPSPADQLIK TEEREMGDTG LRPYILYLRQ NKGFFNASLG
0901: ILGHIIFLCG QISQNSWMAA NVQNLDVSRL KLISVYIAIG IFTVFFLLFR SLALVFLGVQ TSRSLFSQLL NSLFHAPMSF FDSTPLGRIL SRVRKLKQIV
1001: HLPEIYWVVS SDLSIVDLDV PFGFMFAAGA IINAYSNLGV LAVVTWQVLF VSVPMIILAI RLQRYYLASA KELMRINGIT KSALVNHLGE SVAGAITIRA
1101: FEEEDRFFEK NLELVDKNAG SYFYNFAATE WLIQRLETMS AAVLSFSALI MALLPPGTFS SGFVGMALSY GLSLNNSFVF SIQNQCQLAN QIISVERVNQ
1201: YMLIPSEAAE IIEENRPSPN WPQVGRVDLR DLKIRYRQDA PLVLHGITCT FEGGDKIGIV GRTGSGKTTL IGALFRLVEP TGGKIIIDSV DIITIGLHDL
1301: RSRLGIIPQD PTLFQGTIRY NLDPLGQFSD QLIWELLEAV QEKEQGLDSL VVEDGSNWSM GQRQLFCLGR ALLRRCRILV LDEATASIDN ATDAILQKTI
1401: RTDFRDCTVI TVAHRIPTVM DCSMVLAMSD GKAVEYDKPT KLMETEGSLF RDLVKEYWSY TSNGNI
0101: HASVYLPHRW LVNLSQGFSL SLISFAFSIR AQFLGATFFR VWSVLLTTYA AFVCCTSVVY IVADKVLTIK ACLDVLSLPG ALLFLVYEIW HVKEDETHDD
0201: TADSQSHVTP FAKAGIFSVM TFWWLNTMMK MGYEKPLEEK DMPFLGPSDQ AYSQYLMFLE NLNRKKQLQA HGNPSVFWTI ISCHKSAILV SGFALLKVLT
0301: LSLGPVLLKA FINVSLGKGS FKYEGYILAA ALFVTKCCES LSQRQWYFRT RRLGLQVRSF LSAAIYKKQQ KLSSSSKLKH SSGEIINYVT VDAYRIGEFP
0401: YWFHQTWTTS IQLCIALWIL YNAVGLAMIT SLVVIVITVI CNAPLAKSQH KFQSKLMEAQ DVRLKAMSES LIHMKLYAWE THFRKVIEGL REIEIKWLSA
0501: FLLRKSYNGL LFWISPVLVS SATFLTCYLL KIPLDASNVF TFVATLRLVQ DPIRQMPDVI GVVIQAKVAF TRITKFLDAP ELNGQVRKKY CVAEEYPIVM
0601: NSCSFSWDEN PSKPTLKNIH LVVKSGEKVA ICGEVGSGKS TLLAAILGEV PKTEGMIQVC GKIGYVSQNA WIQSGTVQDN ILFGSLMDRQ RYQETLDRCS
0701: LVKDLEMLPY GDHTQIGERG VNLSGGQKQR VQLARALYQN TDIYLLDDPF SAVDAHTATS LFNEFLMGAL SDKTVLLVTH QVDFLHVFDS VLLMSDGEII
0801: RSAPYQDLLA YCQEFQLLVN VHKDTIGVSD LNRVGPHRAN EILIKGSIDI LHGSECKESL KPSPADQLIK TEEREMGDTG LRPYILYLRQ NKGFFNASLG
0901: ILGHIIFLCG QISQNSWMAA NVQNLDVSRL KLISVYIAIG IFTVFFLLFR SLALVFLGVQ TSRSLFSQLL NSLFHAPMSF FDSTPLGRIL SRVRKLKQIV
1001: HLPEIYWVVS SDLSIVDLDV PFGFMFAAGA IINAYSNLGV LAVVTWQVLF VSVPMIILAI RLQRYYLASA KELMRINGIT KSALVNHLGE SVAGAITIRA
1101: FEEEDRFFEK NLELVDKNAG SYFYNFAATE WLIQRLETMS AAVLSFSALI MALLPPGTFS SGFVGMALSY GLSLNNSFVF SIQNQCQLAN QIISVERVNQ
1201: YMLIPSEAAE IIEENRPSPN WPQVGRVDLR DLKIRYRQDA PLVLHGITCT FEGGDKIGIV GRTGSGKTTL IGALFRLVEP TGGKIIIDSV DIITIGLHDL
1301: RSRLGIIPQD PTLFQGTIRY NLDPLGQFSD QLIWELLEAV QEKEQGLDSL VVEDGSNWSM GQRQLFCLGR ALLRRCRILV LDEATASIDN ATDAILQKTI
1401: RTDFRDCTVI TVAHRIPTVM DCSMVLAMSD GKAVEYDKPT KLMETEGSLF RDLVKEYWSY TSNGNI
0001: MIENYWTSFC GNHHTSSNCT VRFLQICFGI TLSFLTLCIC LFHKEPPKRI HQFFCLRLVS ALFNGIIGSL DLVLGIWVLR ENHSKPLILW LVILIQGFTW
0101: LFINLIICVR GTRIRKSSLR LLSIFSFFYG LVSSCLSVNN AVFGDELAVR TILDVLLLPG SVLLLLSAYK GYRFDESGES SLYEPLNAGD SNGFSEKADF
0201: DNRVSQFAKA GLFSTLSFWW LNSLIKRGNV KDLEEEDIPE LRKEERAETC YSLFEENLIE QKRRLGSSCQ PSILKVTVLC VWRELLTSGF FAFMKIVAVS
0301: AGPLLLNAFI LVAEGNASFR YEGLVLAVLL FFSKMIESLS QRQWYFRCRI VGLRVRSLLT AAINKKQLRL NNSSRLIHSG SEIMNYATVD AYRIGEFPYW
0401: FHQLWTTSFQ LLIALGILFH SVGVATFSAL AVIILTVLCN APIAKLQNKF QSELMTSQDE RLKACNESLV NMKVLKLYAW ESHFKKVIEK LRNIELKSLK
0501: AVQMRKAYNA VLFWSSPVFV SAATFATCYF LDIPLRASNV FTFVATLRLV QDPVRMIPDV IGVTIQAKVA FSRIATFLEA PELQGGERRR KQRSEGNQNA
0601: IIIKSASFSW EEKGSTKPNL RNVSLEVKFG EKVAVCGEVG SGKSTLLAAI LGETPCVSGT IDFYGTIAYV SQTAWIQTGT IRDNILFGGV MDEHRYRETI
0701: QKSSLDKDLE LLPDGDQTEI GERGVNLSGG QKQRIQLARA LYQDADIYLL DDPFSAVDAH TASSLFQEYV MDALAGKAVL LVTHQVDFLP AFDSVLLMSD
0801: GEITEADTYQ ELLARSRDFQ DLVNAHRETA GSERVVAVEN PTKPVKEINR VISSQSKVLK PSRLIKQEER EKGDTGLRPY IQYMNQNKGY IFFFIASLAQ
0901: VTFAVGQILQ NSWMAANVDN PQVSTLKLIL VYLLIGLCSV LCLMVRSVCV VIMCMKSSAS LFSQLLNSLF RAPMSFYDST PLGRILSRVS SDLSIVDLDV
1001: PFGLIFVVAS SVNTGCSLGV LAIVTWQVLF VSVPMVYLAF RLQKYYFQTA KELMRINGTT RSYVANHLAE SVAGAITIRA FDEEERFFKK SLTLIDTNAS
1101: PFFHSFAANE WLIQRLETVS AIVLASTAFC MILLPTGTFS SGFIGMALSY GLSLNMGLVY SVQNQCYLAN WIISVERLNQ YTHLTPEAPE VIEETRPPVN
1201: WPVTGRVEIS DLQIRYRRES PLVLKGISCT FEGGHKIGIV GRTGSGKTTL ISALFRLVEP VGGKIVVDGV DISKIGVHDL RSRFGIIPQD PTLFNGTVRF
1301: NLDPLCQHSD AEIWEVLGKC QLKEVVQEKE NGLDSLVVED GSNWSMGQRQ LFCLGRAVLR RSRVLVLDEA TASIDNATDL ILQKTIRREF ADCTVITVAH
1401: RIPTVMDCTM VLSISDGRIV EYDEPMKLMK DENSLFGKLV KEYWSHYNSA DSR
0101: LFINLIICVR GTRIRKSSLR LLSIFSFFYG LVSSCLSVNN AVFGDELAVR TILDVLLLPG SVLLLLSAYK GYRFDESGES SLYEPLNAGD SNGFSEKADF
0201: DNRVSQFAKA GLFSTLSFWW LNSLIKRGNV KDLEEEDIPE LRKEERAETC YSLFEENLIE QKRRLGSSCQ PSILKVTVLC VWRELLTSGF FAFMKIVAVS
0301: AGPLLLNAFI LVAEGNASFR YEGLVLAVLL FFSKMIESLS QRQWYFRCRI VGLRVRSLLT AAINKKQLRL NNSSRLIHSG SEIMNYATVD AYRIGEFPYW
0401: FHQLWTTSFQ LLIALGILFH SVGVATFSAL AVIILTVLCN APIAKLQNKF QSELMTSQDE RLKACNESLV NMKVLKLYAW ESHFKKVIEK LRNIELKSLK
0501: AVQMRKAYNA VLFWSSPVFV SAATFATCYF LDIPLRASNV FTFVATLRLV QDPVRMIPDV IGVTIQAKVA FSRIATFLEA PELQGGERRR KQRSEGNQNA
0601: IIIKSASFSW EEKGSTKPNL RNVSLEVKFG EKVAVCGEVG SGKSTLLAAI LGETPCVSGT IDFYGTIAYV SQTAWIQTGT IRDNILFGGV MDEHRYRETI
0701: QKSSLDKDLE LLPDGDQTEI GERGVNLSGG QKQRIQLARA LYQDADIYLL DDPFSAVDAH TASSLFQEYV MDALAGKAVL LVTHQVDFLP AFDSVLLMSD
0801: GEITEADTYQ ELLARSRDFQ DLVNAHRETA GSERVVAVEN PTKPVKEINR VISSQSKVLK PSRLIKQEER EKGDTGLRPY IQYMNQNKGY IFFFIASLAQ
0901: VTFAVGQILQ NSWMAANVDN PQVSTLKLIL VYLLIGLCSV LCLMVRSVCV VIMCMKSSAS LFSQLLNSLF RAPMSFYDST PLGRILSRVS SDLSIVDLDV
1001: PFGLIFVVAS SVNTGCSLGV LAIVTWQVLF VSVPMVYLAF RLQKYYFQTA KELMRINGTT RSYVANHLAE SVAGAITIRA FDEEERFFKK SLTLIDTNAS
1101: PFFHSFAANE WLIQRLETVS AIVLASTAFC MILLPTGTFS SGFIGMALSY GLSLNMGLVY SVQNQCYLAN WIISVERLNQ YTHLTPEAPE VIEETRPPVN
1201: WPVTGRVEIS DLQIRYRRES PLVLKGISCT FEGGHKIGIV GRTGSGKTTL ISALFRLVEP VGGKIVVDGV DISKIGVHDL RSRFGIIPQD PTLFNGTVRF
1301: NLDPLCQHSD AEIWEVLGKC QLKEVVQEKE NGLDSLVVED GSNWSMGQRQ LFCLGRAVLR RSRVLVLDEA TASIDNATDL ILQKTIRREF ADCTVITVAH
1401: RIPTVMDCTM VLSISDGRIV EYDEPMKLMK DENSLFGKLV KEYWSHYNSA DSR
Arabidopsis Description
ABCC10ABC transporter C family member 10 [Source:UniProtKB/Swiss-Prot;Acc:Q9LYS2]
SUBAcon: [plasma membrane]
SUBAcon: [plasma membrane]
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.