Subcellular Localization
min:
: max
Winner_takes_all: plasma membrane
Predictor Summary:
Predictor Summary:
- mitochondrion 2
- endoplasmic reticulum 1
- plasma membrane 2
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| TraesCS2B01G473000.1 | Wheat | endoplasmic reticulum | 92.06 | 94.4 |
| TraesCS2A01G451300.1 | Wheat | plastid | 92.13 | 89.28 |
| Zm00001d002503_P001 | Maize | plasma membrane | 80.55 | 80.39 |
| Zm00001d026041_P005 | Maize | plasma membrane | 67.86 | 78.07 |
| KXG27008 | Sorghum | plasma membrane | 80.81 | 77.87 |
| KXG26126 | Sorghum | plasma membrane | 71.57 | 73.92 |
| PGSC0003DMT400080270 | Potato | mitochondrion | 50.29 | 67.39 |
| PGSC0003DMT400011214 | Potato | cytosol | 7.22 | 66.87 |
| AT3G60970.1 | Thale cress | endoplasmic reticulum, plasma membrane, vacuole | 45.02 | 65.72 |
| VIT_15s0021g00220.t01 | Wine grape | plasma membrane | 60.57 | 61.66 |
| KRH48930 | Soybean | endoplasmic reticulum | 58.43 | 59.75 |
| PGSC0003DMT400056413 | Potato | mitochondrion | 53.94 | 59.34 |
| CDY64080 | Canola | plasma membrane | 49.84 | 58.43 |
| Solyc10g024420.1.1 | Tomato | golgi, nucleus, plasma membrane | 56.08 | 58.36 |
| KRH66359 | Soybean | plasma membrane | 57.58 | 58.15 |
| Bra003402.1-P | Field mustard | plastid | 56.34 | 57.97 |
| CDX98408 | Canola | plasma membrane | 49.51 | 57.96 |
| AT3G60160.1 | Thale cress | plasma membrane | 56.08 | 57.24 |
| TraesCS1A01G310100.1 | Wheat | cytosol | 25.83 | 52.65 |
| TraesCS5A01G512500.2 | Wheat | endoplasmic reticulum, plasma membrane | 44.83 | 47.81 |
| TraesCS4A01G051100.1 | Wheat | plasma membrane | 44.7 | 46.17 |
| TraesCS3A01G129000.1 | Wheat | plastid | 44.37 | 45.59 |
| TraesCS7A01G119800.1 | Wheat | plasma membrane | 25.24 | 45.27 |
| TraesCS3A01G362500.1 | Wheat | plasma membrane | 41.77 | 44.55 |
| TraesCS2A01G056800.1 | Wheat | plasma membrane | 27.72 | 42.94 |
| TraesCS3A01G393500.1 | Wheat | cytosol, peroxisome, plasma membrane | 39.56 | 41.19 |
| TraesCS7A01G119500.1 | Wheat | cytosol, peroxisome, plasma membrane | 33.44 | 40.47 |
| TraesCS4A01G227600.1 | Wheat | cytosol, golgi, mitochondrion, plasma membrane | 29.99 | 39.57 |
| TraesCS3A01G123000.1 | Wheat | plasma membrane | 36.43 | 38.46 |
| TraesCS7A01G118900.2 | Wheat | plasma membrane | 36.56 | 37.95 |
| TraesCS7A01G358100.1 | Wheat | plasma membrane | 36.04 | 37.64 |
| TraesCS5A01G467600.1 | Wheat | plasma membrane | 36.37 | 37.14 |
| TraesCS2A01G128500.1 | Wheat | plasma membrane | 35.59 | 36.59 |
| TraesCS7A01G119000.1 | Wheat | plasma membrane | 34.81 | 35.69 |
| TraesCS2A01G056900.1 | Wheat | plasma membrane, plastid | 34.48 | 35.64 |
| TraesCS2A01G057100.1 | Wheat | plasma membrane | 34.29 | 35.09 |
| TraesCS1A01G404300.1 | Wheat | plasma membrane | 29.08 | 27.82 |
Protein Annotations
| Gene3D:1.20.1560.10 | MapMan:24.1.3.1.2 | Gene3D:3.40.50.300 | InterPro:AAA+_ATPase | InterPro:ABC1_TM_dom | InterPro:ABC1_TM_sf |
| InterPro:ABC_transporter-like | InterPro:ABC_transporter_CS | ncoils:Coil | 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 | InterPro:P-loop_NTPase | PFAM:PF00005 | PFAM:PF00664 |
| ScanProsite:PS00211 | PFscan:PS50893 | PFscan:PS50929 | PANTHER:PTHR24223 | PANTHER:PTHR24223:SF165 | SMART:SM00382 |
| SUPFAM:SSF52540 | SUPFAM:SSF90123 | TMHMM:TMhelix | EnsemblPlantsGene:TraesCS2A01G451500 | EnsemblPlants:TraesCS2A01G451500.1 | TIGR:cd03244 |
| TIGR:cd03250 | SEG:seg | : | : | : | : |
Description
No Description!
Coordinates
chr2A:+:700980308..700989556
Molecular Weight (calculated)
171903.0 Da
IEP (calculated)
7.923
GRAVY (calculated)
0.066
Length
1537 amino acids
Sequence
(BLAST)
(BLAST)
0001: MEGGKSQLHS PLLLLLPQRM QEMFLAHTAG LLHDSPNSII SQHMQEWPEI YSPCFWTSTF VYIQLVFITS IMAQFLFKRI RCCRQRLKTA TPESNKHSNQ
0101: EQNNADIKLG LSYQASKVCC LLILATHVLR IFFLQLQGRI SGCKYPPFVL GEGIQVLSWI LLSLAVFSLQ KTKSAKHPLI IRAWLVLSFL QSIISVIFDL
0201: RFSLSDHGYM GFAELMDLFT LVICTYLFAI SVRGKTGITL INSSITEPLL SPSAGQQTET KRTSLYGKAS VLDLVTFSWM TPLFVIGYKK PLDKNDVPDI
0301: DERDYADLLS DSFKRILADV EHRHGLSTLS IYRAMFLFIR RKATLNAVFA ILCACASYVG PSLINDLVKF LGGERKNGLQ KGYLLAVAFL GAKVVETIAE
0401: RQWIFGAQRL GMRLRAALIS HIYQKGLRLS CGARQKHSSG EIINYMSVDI QRITEVMWYT NYIWMLPIQL SLAVYVLHLN LGAGAWAGLA ATLAIMTCNI
0501: PLTRLQKRLQ SEIMAAKDNR MKATTEVLRS MKILKLQAWD TEYLQKLEAL RREEHNWLWK SVRLSAVTTF IFWGSPAFIS SITFGTCILM GIPLTAGTVL
0601: SALATFRMLQ DPIFTLPDLL SVFAQGKVSA DRVAQYLQEE ELKDDAITEV PRSDTDFDVE IDHGAFSWEP ETTSPTITDV NLKVKRGMKV AICGVVGSGK
0701: SSLLSCILGE MPKLAGTVRV SGSRAYVPQT AWILSGNIRD NILFGNPYDR EKYQKVIQAC ALTKDLELFA NGDLTEIGER GINMSGGQKQ RIQIARSVYE
0801: DADIYLFDDP FSAVDAHTGG QLFKDCLMGM LKDKTILYVT HQVEFLPAAD LILVMQNGKI VQKGTFDDLL QQNIGFEAIV GAHSQATESV INAESSSRIL
0901: STENQKLADS DDEFERENHI DDQVEGIIKQ ESAHDVSQGI NEKGRLTQDE EREKGGIGKT IYWAYLTAVH GGALAPIIVA AQSFFQIFQV ASNYWMAWAC
1001: PPTSATTPRV GLGLLFFVYI VLSIGSALCV FGRSMLVSLV GLLTAEKFFK NMLHCILRAP MSFFDSTPTG RILNRVSNDQ SVLDLKMADS LGWCAFSFIQ
1101: ILGTIGVMSQ VAWPVFVIFI PVTAICYVFQ RYYIPTAREL ARLQQIQRAP ILHHSAESLT GAASIRAYGR KDRFSKANIS LVNNHLQPWF HNVSAVEWLC
1201: FRLNMLSNFV FAFSLTLLVS LPEGFINPSI AGLAVTYALN LNGQLSSVTW NICNTENKMI SVERIMQYSR IPSEAPLIVD DHRPPNSWPK DGTINIRNLE
1301: VRYAEHLPSV LRNISCTIPG RKKVGIVGRT GSGKSTLIQS LFRIVEPRQG TIEIDNVDLS KIGLHDLRGR LSIIPQDPTM FEGTVRGNLD PLNEYSDQHV
1401: WETLDKCQLG DIVRQSPKKL DSTVVGNGEN WSVGQRQLFC LGRVLLKRSN VLVPDEATAS VDSSTDAIIQ QTLREEFGDC TVLTVAHRIH TVIDSDLILV
1501: FSEGRIIEYD TPSRLLEDKN SEFLRLIKEY SQRSKGF
0101: EQNNADIKLG LSYQASKVCC LLILATHVLR IFFLQLQGRI SGCKYPPFVL GEGIQVLSWI LLSLAVFSLQ KTKSAKHPLI IRAWLVLSFL QSIISVIFDL
0201: RFSLSDHGYM GFAELMDLFT LVICTYLFAI SVRGKTGITL INSSITEPLL SPSAGQQTET KRTSLYGKAS VLDLVTFSWM TPLFVIGYKK PLDKNDVPDI
0301: DERDYADLLS DSFKRILADV EHRHGLSTLS IYRAMFLFIR RKATLNAVFA ILCACASYVG PSLINDLVKF LGGERKNGLQ KGYLLAVAFL GAKVVETIAE
0401: RQWIFGAQRL GMRLRAALIS HIYQKGLRLS CGARQKHSSG EIINYMSVDI QRITEVMWYT NYIWMLPIQL SLAVYVLHLN LGAGAWAGLA ATLAIMTCNI
0501: PLTRLQKRLQ SEIMAAKDNR MKATTEVLRS MKILKLQAWD TEYLQKLEAL RREEHNWLWK SVRLSAVTTF IFWGSPAFIS SITFGTCILM GIPLTAGTVL
0601: SALATFRMLQ DPIFTLPDLL SVFAQGKVSA DRVAQYLQEE ELKDDAITEV PRSDTDFDVE IDHGAFSWEP ETTSPTITDV NLKVKRGMKV AICGVVGSGK
0701: SSLLSCILGE MPKLAGTVRV SGSRAYVPQT AWILSGNIRD NILFGNPYDR EKYQKVIQAC ALTKDLELFA NGDLTEIGER GINMSGGQKQ RIQIARSVYE
0801: DADIYLFDDP FSAVDAHTGG QLFKDCLMGM LKDKTILYVT HQVEFLPAAD LILVMQNGKI VQKGTFDDLL QQNIGFEAIV GAHSQATESV INAESSSRIL
0901: STENQKLADS DDEFERENHI DDQVEGIIKQ ESAHDVSQGI NEKGRLTQDE EREKGGIGKT IYWAYLTAVH GGALAPIIVA AQSFFQIFQV ASNYWMAWAC
1001: PPTSATTPRV GLGLLFFVYI VLSIGSALCV FGRSMLVSLV GLLTAEKFFK NMLHCILRAP MSFFDSTPTG RILNRVSNDQ SVLDLKMADS LGWCAFSFIQ
1101: ILGTIGVMSQ VAWPVFVIFI PVTAICYVFQ RYYIPTAREL ARLQQIQRAP ILHHSAESLT GAASIRAYGR KDRFSKANIS LVNNHLQPWF HNVSAVEWLC
1201: FRLNMLSNFV FAFSLTLLVS LPEGFINPSI AGLAVTYALN LNGQLSSVTW NICNTENKMI SVERIMQYSR IPSEAPLIVD DHRPPNSWPK DGTINIRNLE
1301: VRYAEHLPSV LRNISCTIPG RKKVGIVGRT GSGKSTLIQS LFRIVEPRQG TIEIDNVDLS KIGLHDLRGR LSIIPQDPTM FEGTVRGNLD PLNEYSDQHV
1401: WETLDKCQLG DIVRQSPKKL DSTVVGNGEN WSVGQRQLFC LGRVLLKRSN VLVPDEATAS VDSSTDAIIQ QTLREEFGDC TVLTVAHRIH TVIDSDLILV
1501: FSEGRIIEYD TPSRLLEDKN SEFLRLIKEY SQRSKGF
0001: MFKPFGFAAE TGSHLLTTQW LQLGNSLCLK ERISIAMQVT FLAFFLIHLA LKWFGVVRNR GSNDVEEDLK KQSITVKQSF SYNISLLCSV SILGTHCFIL
0101: LLLFRDSVVS RCDSSVSVFS AEVSQSFSWL FVSVVVVKIR ERRLVKFPWM LRSWWLCSFI LSFSFDAHFI TAKHEPLEFQ DYADLTGLLA SLFLLAVSIR
0201: GKTGFHLLES SGNTEPLLLG DQTEQNKKDS YSSSSPYGNA TLFQRITFSW INPLFSLGYK RPLEKDDVPD IDVKDSARFC SHAFDQKLKT TKEKEGPGNA
0301: FFYNSVLRYV WRKAAINAVF AVVNASTAYI GPYLINDFVE FLSEKQSQSL NHGYLLALGF LTAKIVETVT QRQWIFGARQ LGLRLRAALI SHIYQKGLVL
0401: SSQSRQSHTS GEIINYMSVD VQRITDFIWY VNNIWMLPIQ IFSAIYILQK HLGLGALAAL VTTLMVMACN YPLTRLQRNY QSDIMNAKDD RMKATSEILK
0501: NMKILKLQAW DNQFLNKVKT LRKKEYDCLW KSLRLQAFTT FILWGAPSLI SVVTFVTCML MGVKLTAGAV LSALATFQML QSPIFGLPDL LSALVQSKVS
0601: ADRIASYLQQ SETQKDAVEY CSKDHTELSV EIENGAFSWE PESSRPTLDD IELKVKSGMK VAVCGAVGSG KSSLLSSILG EIQKLKGTVR VSGKQAYVPQ
0701: SPWILSGTIR DNILFGSMYE SEKYERTVKA CALIKDFELF SNGDLTEIGE RGINMSGGQK QRIQIARAVY QNADIYLLDD PFSAVDAHTG RELFEDCLMG
0801: ILKDKTVLYV THQVEFLPAA DLILVMQNGR VMQAGKFEEL LKQNIGFEVL VGAHNEALDS ILSIEKSSRN FKEGSKDDTA SIAESLQTHC DSEHNISTEN
0901: KKKEAKLVQD EETEKGVIGK EVYLAYLTTV KGGLLVPFII LAQSCFQMLQ IASNYWMAWT APPTAESIPK LGMGRILLVY ALLAAGSSLC VLARTILVAI
1001: GGLSTAETFF SRMLCSIFRA PMSFFDSTPT GRILNRASTD QSVLDLEMAV KLGWCAFSII QIVGTIFVMS QVAWQVCVIF IPVAVACVFY QRYYTPTARE
1101: LSRMSGVERA PILHHFAESL AGATTIRAFD QRDRFISSNL VLIDSHSRPW FHVASAMEWL SFRLNLLSHF VFAFSLVLLV TLPEGVINPS IAGLGVTYGL
1201: SLNVLQATVI WNICNAENKM ISVERILQYS KIPSEAPLVI DGHRPLDNWP NVGSIVFRDL QVRYAEHFPA VLKNITCEFP GGKKIGVVGR TGSGKSTLIQ
1301: ALFRIVEPSQ GTIVIDNVDI TKIGLHDLRS RLGIIPQDPA LFDGTIRLNL DPLAQYTDHE IWEAIDKCQL GDVIRAKDER LDATVVENGE NWSVGQRQLV
1401: CLGRVLLKKS NILVLDEATA SVDSATDGVI QKIINQEFKD RTVVTIAHRI HTVIESDLVL VLSDGRIAEF DSPAKLLQRE DSFFSKLIKE YSLRSNHFAG
1501: SNDLLS
0101: LLLFRDSVVS RCDSSVSVFS AEVSQSFSWL FVSVVVVKIR ERRLVKFPWM LRSWWLCSFI LSFSFDAHFI TAKHEPLEFQ DYADLTGLLA SLFLLAVSIR
0201: GKTGFHLLES SGNTEPLLLG DQTEQNKKDS YSSSSPYGNA TLFQRITFSW INPLFSLGYK RPLEKDDVPD IDVKDSARFC SHAFDQKLKT TKEKEGPGNA
0301: FFYNSVLRYV WRKAAINAVF AVVNASTAYI GPYLINDFVE FLSEKQSQSL NHGYLLALGF LTAKIVETVT QRQWIFGARQ LGLRLRAALI SHIYQKGLVL
0401: SSQSRQSHTS GEIINYMSVD VQRITDFIWY VNNIWMLPIQ IFSAIYILQK HLGLGALAAL VTTLMVMACN YPLTRLQRNY QSDIMNAKDD RMKATSEILK
0501: NMKILKLQAW DNQFLNKVKT LRKKEYDCLW KSLRLQAFTT FILWGAPSLI SVVTFVTCML MGVKLTAGAV LSALATFQML QSPIFGLPDL LSALVQSKVS
0601: ADRIASYLQQ SETQKDAVEY CSKDHTELSV EIENGAFSWE PESSRPTLDD IELKVKSGMK VAVCGAVGSG KSSLLSSILG EIQKLKGTVR VSGKQAYVPQ
0701: SPWILSGTIR DNILFGSMYE SEKYERTVKA CALIKDFELF SNGDLTEIGE RGINMSGGQK QRIQIARAVY QNADIYLLDD PFSAVDAHTG RELFEDCLMG
0801: ILKDKTVLYV THQVEFLPAA DLILVMQNGR VMQAGKFEEL LKQNIGFEVL VGAHNEALDS ILSIEKSSRN FKEGSKDDTA SIAESLQTHC DSEHNISTEN
0901: KKKEAKLVQD EETEKGVIGK EVYLAYLTTV KGGLLVPFII LAQSCFQMLQ IASNYWMAWT APPTAESIPK LGMGRILLVY ALLAAGSSLC VLARTILVAI
1001: GGLSTAETFF SRMLCSIFRA PMSFFDSTPT GRILNRASTD QSVLDLEMAV KLGWCAFSII QIVGTIFVMS QVAWQVCVIF IPVAVACVFY QRYYTPTARE
1101: LSRMSGVERA PILHHFAESL AGATTIRAFD QRDRFISSNL VLIDSHSRPW FHVASAMEWL SFRLNLLSHF VFAFSLVLLV TLPEGVINPS IAGLGVTYGL
1201: SLNVLQATVI WNICNAENKM ISVERILQYS KIPSEAPLVI DGHRPLDNWP NVGSIVFRDL QVRYAEHFPA VLKNITCEFP GGKKIGVVGR TGSGKSTLIQ
1301: ALFRIVEPSQ GTIVIDNVDI TKIGLHDLRS RLGIIPQDPA LFDGTIRLNL DPLAQYTDHE IWEAIDKCQL GDVIRAKDER LDATVVENGE NWSVGQRQLV
1401: CLGRVLLKKS NILVLDEATA SVDSATDGVI QKIINQEFKD RTVVTIAHRI HTVIESDLVL VLSDGRIAEF DSPAKLLQRE DSFFSKLIKE YSLRSNHFAG
1501: SNDLLS
Arabidopsis Description
ABCC9ABC transporter C family member 9 [Source:UniProtKB/Swiss-Prot;Acc:Q9M1C7]
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.