Subcellular Localization
min:
: max
Winner_takes_all: plasma membrane
Predictor Summary:
Predictor Summary:
- peroxisome 1
- mitochondrion 1
- plasma membrane 2
| Predictors | GFP | MS/MS | Papers | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| TraesCS4D01G176300.2 | Wheat | plasma membrane | 89.74 | 98.63 |
| TraesCS4A01G130300.1 | Wheat | plasma membrane | 98.39 | 98.31 |
| HORVU4Hr1G051450.4 | Barley | plasma membrane | 97.06 | 97.06 |
| Zm00001d028987_P001 | Maize | plasma membrane | 71.28 | 87.42 |
| Os03t0326100-01 | Rice | peroxisome | 36.49 | 85.21 |
| Bra009410.1-P | Field mustard | plasma membrane | 65.3 | 66.55 |
| CDX70183 | Canola | plasma membrane | 65.3 | 66.55 |
| TraesCS3B01G218800.1 | Wheat | plasma membrane | 68.06 | 65.66 |
| CDX80929 | Canola | peroxisome | 65.12 | 64.6 |
| CDX98803 | Canola | peroxisome | 65.74 | 63.64 |
| Bra005828.1-P | Field mustard | cytosol, peroxisome, plasma membrane | 64.94 | 63.3 |
| CDY11318 | Canola | peroxisome | 64.94 | 63.3 |
| AT5G04930.1 | Thale cress | peroxisome | 65.12 | 63.04 |
| Solyc01g096930.2.1 | Tomato | plastid | 65.57 | 62.71 |
| PGSC0003DMT400070787 | Potato | plastid | 65.39 | 62.6 |
| KRH13093 | Soybean | plasma membrane, plastid | 65.03 | 61.73 |
| KRH44746 | Soybean | plasma membrane, plastid | 64.85 | 61.56 |
| VIT_13s0047g01210.t01 | Wine grape | plasma membrane | 67.26 | 61.45 |
| KRH57832 | Soybean | mitochondrion, plasma membrane | 17.66 | 59.82 |
| KRH62754 | Soybean | plastid | 64.14 | 59.77 |
| KRH56288 | Soybean | plastid | 64.5 | 58.92 |
| TraesCS4B01G170400.1 | Wheat | cytosol, plastid | 58.07 | 49.58 |
| TraesCS4B01G174200.1 | Wheat | plasma membrane | 29.71 | 49.55 |
| TraesCS7B01G130000.1 | Wheat | mitochondrion | 35.95 | 33.5 |
| TraesCS1B01G001800.2 | Wheat | plasma membrane | 37.2 | 32.91 |
| TraesCS2B01G230600.4 | Wheat | plasma membrane | 30.87 | 31.31 |
| TraesCS7B01G267000.2 | Wheat | mitochondrion | 34.97 | 31.24 |
| TraesCS1B01G154200.5 | Wheat | cytosol, mitochondrion, plasma membrane, plastid | 34.61 | 31.16 |
| TraesCS2B01G294800.1 | Wheat | plasma membrane | 30.06 | 31.03 |
Protein Annotations
| 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:PF13246 | PFAM:PF16209 | PFAM:PF16212 | PRINTS:PR00119 |
| ScanProsite:PS00154 | PANTHER:PTHR24092 | PANTHER:PTHR24092:SF74 | InterPro:P_typ_ATPase | InterPro:P_typ_ATPase_c | SUPFAM:SSF56784 |
| SUPFAM:SSF81653 | SUPFAM:SSF81660 | SUPFAM:SSF81665 | TIGRFAMs:TIGR01494 | TIGRFAMs:TIGR01652 | TMHMM:TMhelix |
| EnsemblPlantsGene:TraesCS4B01G174300 | EnsemblPlants:TraesCS4B01G174300.1 | TIGR:cd02073 | SEG:seg | : | : |
Description
No Description!
Coordinates
chr4B:+:382205984..382210668
Molecular Weight (calculated)
125041.0 Da
IEP (calculated)
6.842
GRAVY (calculated)
0.047
Length
1121 amino acids
Sequence
(BLAST)
(BLAST)
0001: MAEDHGSSRH MSSMSMSHKE LGDDDARVVH VGDAERTNER LQFAGNAVRT AKYSPLTFLP RNLFEQFHRL AYVYFLVIAV LNQLPQLAVF GRGASVMPLA
0101: FVLAVTAVKD AYEDWRRHRS DRAENNRIAA VLSPGVGAQF VPIEWKHVRV GDVVRVGANE SPPADMVLLA TSDTTGVAYV QTLNLDGESN LKTRYAKQET
0201: LTTPLEHLAG AVVRCERPNR NIYGFQANLE LQGEGHRIPL GPSNIVLRGC DLKNTSWAVG VVVYAGRETK AMLNNAGTPT KRSRLETHMN RETLFLSGIL
0301: IVLCSVVATL SGVWLRTHQT DLELAQFFHK KDYLKVGKEG NENYNYYGIA AQIVFNFLMA VIVFQIMIPI SLYISMELVR LGQAYFMIRD AKLYDVSSDS
0401: RFQCRALNIN EDLGQVKCVF SDKTGTLTQN KMEFRCASID GVDYSDVARQ RPVEGEPAWA PKMPVKVDRE VMELVRNGGA TEQGMNAGEF FLALATCNTI
0501: VPLIIDGPDP KKKVIDYQGE SPDEQALVSA AAAYGFVLVE RSSGHIVIDV LGQKQRFDVL GLHEFDSDRK RMSVIIGCPD KTIKLFVKGA DSSMFGIIDK
0601: TLNPDVVQAT EKHLHSYSSV GLRTLVIGVR ELSQSEFQEW QMAYEKASTA LLGRGNLLRS VAANIERNMR LLGASGVEDK LQDGVPEAIE KLREAGIKVW
0701: VLTGDKQETA ISIGYSCKLL TRDMTQIVIN SNSRESCRKS LDDAISMVNK LRSLSTDSQS RVPLALIIDG NSLVYIFDTD REEKLFEVAI ACDVVLCCRV
0801: APLQKAGIVD LIKKRTSDMT LAIGDGANDV SMIQMADVGI GISGQEGRQA VMASDFAMGQ FRFLVPLLLV HGHWNYQRMS YMILYNFYRN ATFVFVLFWY
0901: VLYTGYTLST AINEWSSVLY SVVYTSAPTV IVAILDKDLS RRTLLKYPQL YGAGQREESY NLRLFIFIMV DSVWQSVAVF FIPYLAYKNS AIDSASLGDL
1001: WTLCVVILVN IHLAMDVIRW TWITHAAIWG SIVATWICVI IIDSIPTLPG FWAIYEVMGT ALFWALLLAV IVVGMIPHFA AKAIREHFMP NDIQIAREME
1101: KSRDSRDANH PEVQMSTSTR A
0101: FVLAVTAVKD AYEDWRRHRS DRAENNRIAA VLSPGVGAQF VPIEWKHVRV GDVVRVGANE SPPADMVLLA TSDTTGVAYV QTLNLDGESN LKTRYAKQET
0201: LTTPLEHLAG AVVRCERPNR NIYGFQANLE LQGEGHRIPL GPSNIVLRGC DLKNTSWAVG VVVYAGRETK AMLNNAGTPT KRSRLETHMN RETLFLSGIL
0301: IVLCSVVATL SGVWLRTHQT DLELAQFFHK KDYLKVGKEG NENYNYYGIA AQIVFNFLMA VIVFQIMIPI SLYISMELVR LGQAYFMIRD AKLYDVSSDS
0401: RFQCRALNIN EDLGQVKCVF SDKTGTLTQN KMEFRCASID GVDYSDVARQ RPVEGEPAWA PKMPVKVDRE VMELVRNGGA TEQGMNAGEF FLALATCNTI
0501: VPLIIDGPDP KKKVIDYQGE SPDEQALVSA AAAYGFVLVE RSSGHIVIDV LGQKQRFDVL GLHEFDSDRK RMSVIIGCPD KTIKLFVKGA DSSMFGIIDK
0601: TLNPDVVQAT EKHLHSYSSV GLRTLVIGVR ELSQSEFQEW QMAYEKASTA LLGRGNLLRS VAANIERNMR LLGASGVEDK LQDGVPEAIE KLREAGIKVW
0701: VLTGDKQETA ISIGYSCKLL TRDMTQIVIN SNSRESCRKS LDDAISMVNK LRSLSTDSQS RVPLALIIDG NSLVYIFDTD REEKLFEVAI ACDVVLCCRV
0801: APLQKAGIVD LIKKRTSDMT LAIGDGANDV SMIQMADVGI GISGQEGRQA VMASDFAMGQ FRFLVPLLLV HGHWNYQRMS YMILYNFYRN ATFVFVLFWY
0901: VLYTGYTLST AINEWSSVLY SVVYTSAPTV IVAILDKDLS RRTLLKYPQL YGAGQREESY NLRLFIFIMV DSVWQSVAVF FIPYLAYKNS AIDSASLGDL
1001: WTLCVVILVN IHLAMDVIRW TWITHAAIWG SIVATWICVI IIDSIPTLPG FWAIYEVMGT ALFWALLLAV IVVGMIPHFA AKAIREHFMP NDIQIAREME
1101: KSRDSRDANH PEVQMSTSTR A
0001: MDPRKSIDKP PHHDPILGVS SRWSVSSKDN KEVTFGDLGS KRIRHGSAGA DSEMLSMSQK EIKDEDARLI YINDPDRTNE RFEFTGNSIK TAKYSVFTFL
0101: PRNLFEQFHR VAYIYFLVIA VLNQLPQLAV FGRGASIMPL AFVLLVSAIK DAYEDFRRHR SDRVENNRLA LVFEDHQFRE KKWKHIRVGE VIKVQSNQTL
0201: PCDMVLLATS DPTGVVYVQT TNLDGESNLK TRYAKQETLL KAADMESFNG FIKCEKPNRN IYGFQANMEI DGRRLSLGPS NIILRGCELK NTAWALGVVV
0301: YAGGETKAML NNSGAPSKRS RLETRMNLEI ILLSLFLIVL CTIAAATAAV WLRTHRDDLD TILFYRRKDY SERPGGKNYK YYGWGWEIFF TFFMAVIVYQ
0401: IMIPISLYIS MELVRIGQAY FMTNDDQMYD ESSDSSFQCR ALNINEDLGQ IKYLFSDKTG TLTDNKMEFQ CACIEGVDYS DREPADSEHP GYSIEVDGII
0501: LKPKMRVRVD PVLLQLTKTG KATEEAKRAN EFFLSLAACN TIVPIVSNTS DPNVKLVDYQ GESPDEQALV YAAAAYGFLL IERTSGHIVI NVRGETQRFN
0601: VLGLHEFDSD RKRMSVILGC PDMSVKLFVK GADSSMFGVM DESYGGVIHE TKIQLHAYSS DGLRTLVVGM RELNDSEFEQ WHSSFEAAST ALIGRAGLLR
0701: KVAGNIETNL RIVGATAIED KLQRGVPEAI ESLRIAGIKV WVLTGDKQET AISIGFSSRL LTRNMRQIVI NSNSLDSCRR SLEEANASIA SNDESDNVAL
0801: IIDGTSLIYV LDNDLEDVLF QVACKCSAIL CCRVAPFQKA GIVALVKNRT SDMTLAIGDG ANDVSMIQMA DVGVGISGQE GRQAVMASDF AMGQFRFLVP
0901: LLLVHGHWNY QRMGYMILYN FYRNAVFVLI LFWYVLFTCY TLTTAITEWS SVLYSVIYTA IPTIIIGILD KDLGRQTLLD HPQLYGVGQR AEGYSTTLFW
1001: YTMIDTIWQS AAIFFIPMFA YWGSTIDTSS LGDLWTIAAV VVVNLHLAMD VIRWNWITHA AIWGSIVAAC ICVIVIDVIP TLPGYWAIFQ VGKTWMFWFC
1101: LLAIVVTSLL PRFAIKFLVE YYRPSDVRIA REAEKLGTFR ESQPVGVEMN LIQDPPRR
0101: PRNLFEQFHR VAYIYFLVIA VLNQLPQLAV FGRGASIMPL AFVLLVSAIK DAYEDFRRHR SDRVENNRLA LVFEDHQFRE KKWKHIRVGE VIKVQSNQTL
0201: PCDMVLLATS DPTGVVYVQT TNLDGESNLK TRYAKQETLL KAADMESFNG FIKCEKPNRN IYGFQANMEI DGRRLSLGPS NIILRGCELK NTAWALGVVV
0301: YAGGETKAML NNSGAPSKRS RLETRMNLEI ILLSLFLIVL CTIAAATAAV WLRTHRDDLD TILFYRRKDY SERPGGKNYK YYGWGWEIFF TFFMAVIVYQ
0401: IMIPISLYIS MELVRIGQAY FMTNDDQMYD ESSDSSFQCR ALNINEDLGQ IKYLFSDKTG TLTDNKMEFQ CACIEGVDYS DREPADSEHP GYSIEVDGII
0501: LKPKMRVRVD PVLLQLTKTG KATEEAKRAN EFFLSLAACN TIVPIVSNTS DPNVKLVDYQ GESPDEQALV YAAAAYGFLL IERTSGHIVI NVRGETQRFN
0601: VLGLHEFDSD RKRMSVILGC PDMSVKLFVK GADSSMFGVM DESYGGVIHE TKIQLHAYSS DGLRTLVVGM RELNDSEFEQ WHSSFEAAST ALIGRAGLLR
0701: KVAGNIETNL RIVGATAIED KLQRGVPEAI ESLRIAGIKV WVLTGDKQET AISIGFSSRL LTRNMRQIVI NSNSLDSCRR SLEEANASIA SNDESDNVAL
0801: IIDGTSLIYV LDNDLEDVLF QVACKCSAIL CCRVAPFQKA GIVALVKNRT SDMTLAIGDG ANDVSMIQMA DVGVGISGQE GRQAVMASDF AMGQFRFLVP
0901: LLLVHGHWNY QRMGYMILYN FYRNAVFVLI LFWYVLFTCY TLTTAITEWS SVLYSVIYTA IPTIIIGILD KDLGRQTLLD HPQLYGVGQR AEGYSTTLFW
1001: YTMIDTIWQS AAIFFIPMFA YWGSTIDTSS LGDLWTIAAV VVVNLHLAMD VIRWNWITHA AIWGSIVAAC ICVIVIDVIP TLPGYWAIFQ VGKTWMFWFC
1101: LLAIVVTSLL PRFAIKFLVE YYRPSDVRIA REAEKLGTFR ESQPVGVEMN LIQDPPRR
Arabidopsis Description
ALA1Phospholipid-transporting ATPase [Source:UniProtKB/TrEMBL;Acc:A0A178UBN1]
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.