Subcellular Localization
min:
: max
Winner_takes_all: plasma membrane
Predictor Summary:
Predictor Summary:
- peroxisome 1
- extracellular 1
- endoplasmic reticulum 1
- vacuole 1
- plasma membrane 3
- golgi 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| TraesCS2B01G230600.4 | Wheat | plasma membrane | 97.77 | 99.09 |
| TraesCS2A01G203300.4 | Wheat | plasma membrane | 97.14 | 99.0 |
| HORVU2Hr1G040180.5 | Barley | plasma membrane | 97.23 | 98.55 |
| Os11t0446500-00 | Rice | plasma membrane | 90.45 | 91.76 |
| KXG36585 | Sorghum | plasma membrane | 89.46 | 90.84 |
| Zm00001d021972_P002 | Maize | plasma membrane | 89.02 | 85.58 |
| GSMUA_Achr4P31850_001 | Banana | cytosol | 12.68 | 84.52 |
| GSMUA_Achr4P31840_001 | Banana | endoplasmic reticulum, plasma membrane, vacuole | 30.54 | 80.28 |
| Solyc11g017170.1.1 | Tomato | plasma membrane | 56.16 | 77.37 |
| KRH26968 | Soybean | cytosol, peroxisome, plasma membrane | 75.98 | 76.87 |
| KRH22363 | Soybean | plasma membrane | 75.62 | 76.86 |
| CDX94764 | Canola | plasma membrane | 75.27 | 76.5 |
| Bra033730.1-P | Field mustard | plasma membrane | 75.18 | 76.41 |
| CDY22301 | Canola | plasma membrane | 75.18 | 76.41 |
| AT5G44240.1 | Thale cress | plasma membrane | 75.89 | 74.63 |
| CDX96956 | Canola | plasma membrane | 68.75 | 74.32 |
| PGSC0003DMT400023828 | Potato | plasma membrane | 49.55 | 73.61 |
| VIT_00s0188g00070.t01 | Wine grape | cytosol, nucleus, peroxisome | 15.54 | 72.8 |
| Solyc11g017190.1.1 | Tomato | golgi, peroxisome, plasma membrane | 22.05 | 71.18 |
| TraesCS2D01G276300.1 | Wheat | plasma membrane | 67.77 | 70.87 |
| VIT_18s0075g00840.t01 | Wine grape | cytosol | 8.48 | 64.63 |
| TraesCS4D01G176300.2 | Wheat | plasma membrane | 27.59 | 30.29 |
| TraesCS3D01G193200.1 | Wheat | plasma membrane | 30.36 | 29.23 |
| TraesCS1D01G135500.2 | Wheat | cytosol, mitochondrion, plasma membrane, plastid | 31.25 | 28.11 |
| TraesCS7D01G362300.1 | Wheat | mitochondrion | 30.45 | 28.02 |
| TraesCS7D01G231800.2 | Wheat | mitochondrion | 30.0 | 27.88 |
| TraesCS1D01G004700.2 | Wheat | plasma membrane | 30.62 | 27.09 |
| TraesCS4D01G172400.1 | Wheat | cytosol, plastid | 31.16 | 26.58 |
| TraesCS4D01G176200.1 | Wheat | cytosol, mitochondrion, plasma membrane | 14.11 | 22.28 |
Protein Annotations
| Gene3D:2.70.150.10 | MapMan:24.1.2.4.1.1 | Gene3D:3.40.1110.10 | Gene3D:3.40.50.1000 | MapMan:5.8.2.1.1.1 | InterPro:ATPase_P-typ_P_site |
| InterPro:ATPase_P-typ_TM_dom_sf | InterPro:ATPase_P-typ_cyto_dom_N | InterPro:ATPase_P-typ_transduc_dom_A_sf | GO:GO:0000166 | GO:GO:0000287 | GO:GO:0003674 |
| GO:GO:0003824 | GO:GO:0004012 | GO:GO:0005215 | GO:GO:0005488 | GO:GO:0005524 | GO:GO:0005575 |
| GO:GO:0006810 | GO:GO:0008150 | GO:GO:0009987 | GO:GO:0015914 | GO:GO:0016020 | GO:GO:0016021 |
| GO:GO:0016043 | GO:GO:0016787 | InterPro:HAD-like_sf | InterPro:HAD_sf | InterPro:IPR023214 | InterPro:IPR023299 |
| InterPro:P-type_ATPase_IV | InterPro:P-type_ATPase_N | PFAM:PF00122 | PFAM:PF08282 | PFAM:PF13246 | PFAM:PF16209 |
| PFAM:PF16212 | PRINTS:PR00119 | ScanProsite:PS00154 | PANTHER:PTHR24092 | PANTHER:PTHR24092:SF19 | InterPro:P_typ_ATPase |
| InterPro:P_typ_ATPase_c | SUPFAM:SSF56784 | SUPFAM:SSF81653 | SUPFAM:SSF81660 | SUPFAM:SSF81665 | TIGRFAMs:TIGR01494 |
| TIGRFAMs:TIGR01652 | TMHMM:TMhelix | EnsemblPlantsGene:TraesCS2D01G212400 | EnsemblPlants:TraesCS2D01G212400.1 | : | : |
Description
No Description!
Coordinates
chr2D:-:170611588..170625165
Molecular Weight (calculated)
126271.0 Da
IEP (calculated)
6.235
GRAVY (calculated)
0.037
Length
1120 amino acids
Sequence
(BLAST)
(BLAST)
0001: MKRFVYINDE SYQNDYCDNQ ISNTKYTLWN FLPKNLWEQF RFVFSISIHS VMTSEMRFMN QYFLLIACLQ LWSLITPVNP ASTWGPLIVI FAVSATKEAW
0101: DDYNRYISDK QANEKKVWIV KNGARKHIRA QDIRVGNIVW IRENEEVPCD LVLTGTSEPQ GICHVETAAL DGEIDLKTRV IPTTCIGLDS EQLHKIKGVI
0201: ECPIPDKDIR RFDANIRLFP PFIDNDICPL TINNTLLQSC YLRNTEWACG VAVYTGNETK LGMSRGVPEP KLTAMDAMID KLTGAIFLFQ LAVVVVLGSA
0301: GNVWKDTEAR KQWYVKYDDD EPWYQILVIP LRFELLCSIM IPISIKVSLD FVKSMYAKFI DWDEEIYDQE TDTPAHAANT AISEDLGQVE YILTDKTGTL
0401: TENKMIFRRC CIAGTLYGNE SGDALKDIEL LNAVADNSPH VIKFLTVMAL CNTVIPIKSP SGTISYKAQS QDEDALVNAA SNLHVVLVSK NGNNAEIHFN
0501: RRVIQYEILD ILEFTSDRKR MSIVISDSQS GKIFLLSKGA DEAILPLAYC GQQIKTFVDA VDKYAQLGLR TLCLGWRELS LEEYLEWSRL FKEANSALVD
0601: REWKVAEVCQ KLEHTLDILG ISAIEDRLQD GVPETIEILR QSGINFWMLT GDKQSTAIQI ALLCNLISSE PKGQLLYING KTEDEVARSL ERVLLTMRIT
0701: SSEPKELAFV VDGWALEIIL TRYKEAFTEL AVLSKTAICC RVTPSQKAQL VKLLKSCDYR TLAIGDGGND VRMIQQAHIG VGISGREGLQ AARAADYSIG
0801: KFRFLKRLIL VHGRYSYNRT AFLSQYSFYK SLLICFIQIL FSFVSGIAGT SLFNSVSLMA YNVFYTSIPV LTTVLDKDLS EKTVTQNPEI LLYCQAGRLL
0901: NPSTFAGWFG RSLYHAIVVF LITIHAYANE KSEMEELSMV ALSGSIWLQA FVVTLEMSSF TFLQFLAIWG NFAAFYVINL CISTIPTAGM YTIMFRLCRQ
1001: PSYWITMLLI SGVGMGPVLA LKYFRYTYSP SAINILQKAE RSRGPMYTLV NLESQLRSEQ GNSTNSILTA PVKNKNSVYE PLLSDSPMAS RRSLASSSFD
1101: IFQPAQSRVP AAYPRNIKTS
0101: DDYNRYISDK QANEKKVWIV KNGARKHIRA QDIRVGNIVW IRENEEVPCD LVLTGTSEPQ GICHVETAAL DGEIDLKTRV IPTTCIGLDS EQLHKIKGVI
0201: ECPIPDKDIR RFDANIRLFP PFIDNDICPL TINNTLLQSC YLRNTEWACG VAVYTGNETK LGMSRGVPEP KLTAMDAMID KLTGAIFLFQ LAVVVVLGSA
0301: GNVWKDTEAR KQWYVKYDDD EPWYQILVIP LRFELLCSIM IPISIKVSLD FVKSMYAKFI DWDEEIYDQE TDTPAHAANT AISEDLGQVE YILTDKTGTL
0401: TENKMIFRRC CIAGTLYGNE SGDALKDIEL LNAVADNSPH VIKFLTVMAL CNTVIPIKSP SGTISYKAQS QDEDALVNAA SNLHVVLVSK NGNNAEIHFN
0501: RRVIQYEILD ILEFTSDRKR MSIVISDSQS GKIFLLSKGA DEAILPLAYC GQQIKTFVDA VDKYAQLGLR TLCLGWRELS LEEYLEWSRL FKEANSALVD
0601: REWKVAEVCQ KLEHTLDILG ISAIEDRLQD GVPETIEILR QSGINFWMLT GDKQSTAIQI ALLCNLISSE PKGQLLYING KTEDEVARSL ERVLLTMRIT
0701: SSEPKELAFV VDGWALEIIL TRYKEAFTEL AVLSKTAICC RVTPSQKAQL VKLLKSCDYR TLAIGDGGND VRMIQQAHIG VGISGREGLQ AARAADYSIG
0801: KFRFLKRLIL VHGRYSYNRT AFLSQYSFYK SLLICFIQIL FSFVSGIAGT SLFNSVSLMA YNVFYTSIPV LTTVLDKDLS EKTVTQNPEI LLYCQAGRLL
0901: NPSTFAGWFG RSLYHAIVVF LITIHAYANE KSEMEELSMV ALSGSIWLQA FVVTLEMSSF TFLQFLAIWG NFAAFYVINL CISTIPTAGM YTIMFRLCRQ
1001: PSYWITMLLI SGVGMGPVLA LKYFRYTYSP SAINILQKAE RSRGPMYTLV NLESQLRSEQ GNSTNSILTA PVKNKNSVYE PLLSDSPMAS RRSLASSSFD
1101: IFQPAQSRVP AAYPRNIKTS
0001: MKRFVYINDD EASKELCCDN RISNRKYTLW NFLPKNLWEQ FSRFMNQYFL LIACLQLWSL ITPVNPASTW GPLIFIFAVS ASKEAWDDYH RYLSDKKANE
0101: KEVWIVKQGI KKHIQAQDIQ VGNIVWLREN DEVPCDLVLL GTSDPQGVCY VETAALDGET DLKTRVIPSA CVGIDLELLH KMKGVIECPV PDKDIRRFDA
0201: NMRLFPPFID NDVCSLTIKN TLLQSCYLRN TEWACGVSVY TGNQTKLGMS RGIAEPKLTA MDAMIDKLTG AIFVFQIVVV LVLGIAGNVW KDTEARKQWY
0301: VQYPEEAPWY ELLVIPLRFE LLCSIMIPIS IKVSLDLVKG LYAKFIEWDV EMIDQETGTA SYAANTAISE DLGQVEYILT DKTGTLTDNK MIFRRCCIGG
0401: IFYGNENGDA LKDAQLLNAI TSGSTDVIRF LTVMAICNTV LPVQSKAGDI VYKAQSQDED ALVIAASKLH MVFVGKNANL LEIRFNGSVI RYEVLEILEF
0501: TSDRKRMSVV VKDCQNGKII LLSKGADEAI LPYARAGQQT RTIGDAVEHY SQLGLRTLCL AWRELEENEY LEWSVKFKEA SSLLVDREWR IAEVCQRLEH
0601: DLYILGVTAI EDRLQDGVPE TIETLRKAGI NFWMLTGDKQ NTAIQIALSC NFISPEPKGQ LLMIDGKTEE DVSRSLERVL LTMRITASEP KDVAFVIDGW
0701: ALEIALKHHR KDFVELAILS RTAICCRVTP SQKAQLVEIL KSCDYRTLAI GDGGNDVRMI QQADIGVGIS GREGLQAARA ADYSIGRFRF LKRLILVHGR
0801: YSYNRTAFLS QYSFYKSLLI CFIQIFFSFI SGVSGTSLFN SVSLMAYNVF YTSVPVLVSV IDKDLSEASV MQHPQILFYC QAGRLLNPST FAGWFGRSLF
0901: HAIIVFVITI HAYAYEKSEM EELGMVALSG CIWLQAFVVA QETNSFTVLQ HLSIWGNLVG FYAINFLFSA IPSSGMYTIM FRLCSQPSYW ITMFLIVGAG
1001: MGPIFALKYF RYTYRPSKIN ILQQAERMGG PILTLGNIET QPRTIEKDLS PISITQPKNR SPVYEPLLSD SPNATRRSFG PGTPFEFFQS QSRLSSSSGY
1101: TRNCKDN
0101: KEVWIVKQGI KKHIQAQDIQ VGNIVWLREN DEVPCDLVLL GTSDPQGVCY VETAALDGET DLKTRVIPSA CVGIDLELLH KMKGVIECPV PDKDIRRFDA
0201: NMRLFPPFID NDVCSLTIKN TLLQSCYLRN TEWACGVSVY TGNQTKLGMS RGIAEPKLTA MDAMIDKLTG AIFVFQIVVV LVLGIAGNVW KDTEARKQWY
0301: VQYPEEAPWY ELLVIPLRFE LLCSIMIPIS IKVSLDLVKG LYAKFIEWDV EMIDQETGTA SYAANTAISE DLGQVEYILT DKTGTLTDNK MIFRRCCIGG
0401: IFYGNENGDA LKDAQLLNAI TSGSTDVIRF LTVMAICNTV LPVQSKAGDI VYKAQSQDED ALVIAASKLH MVFVGKNANL LEIRFNGSVI RYEVLEILEF
0501: TSDRKRMSVV VKDCQNGKII LLSKGADEAI LPYARAGQQT RTIGDAVEHY SQLGLRTLCL AWRELEENEY LEWSVKFKEA SSLLVDREWR IAEVCQRLEH
0601: DLYILGVTAI EDRLQDGVPE TIETLRKAGI NFWMLTGDKQ NTAIQIALSC NFISPEPKGQ LLMIDGKTEE DVSRSLERVL LTMRITASEP KDVAFVIDGW
0701: ALEIALKHHR KDFVELAILS RTAICCRVTP SQKAQLVEIL KSCDYRTLAI GDGGNDVRMI QQADIGVGIS GREGLQAARA ADYSIGRFRF LKRLILVHGR
0801: YSYNRTAFLS QYSFYKSLLI CFIQIFFSFI SGVSGTSLFN SVSLMAYNVF YTSVPVLVSV IDKDLSEASV MQHPQILFYC QAGRLLNPST FAGWFGRSLF
0901: HAIIVFVITI HAYAYEKSEM EELGMVALSG CIWLQAFVVA QETNSFTVLQ HLSIWGNLVG FYAINFLFSA IPSSGMYTIM FRLCSQPSYW ITMFLIVGAG
1001: MGPIFALKYF RYTYRPSKIN ILQQAERMGG PILTLGNIET QPRTIEKDLS PISITQPKNR SPVYEPLLSD SPNATRRSFG PGTPFEFFQS QSRLSSSSGY
1101: TRNCKDN
Arabidopsis Description
ALA2Phospholipid-transporting ATPase [Source:UniProtKB/TrEMBL;Acc:F4K8T6]
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.