Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- nucleus 2
- cytosol 2
- mitochondrion 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| Bra018885.1-P | Field mustard | cytosol | 96.93 | 97.32 |
| CDY25197 | Canola | cytosol | 94.44 | 87.54 |
| CDY70026 | Canola | cytosol | 19.64 | 84.12 |
| Os03t0711200-01 | Rice | plasma membrane | 26.25 | 77.17 |
| CDY48864 | Canola | cytosol | 80.07 | 70.98 |
| CDY29353 | Canola | cytosol | 79.95 | 70.73 |
| CDY64591 | Canola | cytosol | 79.72 | 70.53 |
| VIT_03s0063g02260.t01 | Wine grape | cytosol | 71.96 | 61.06 |
| CDY48094 | Canola | cytosol | 46.0 | 58.95 |
| GSMUA_Achr1P22400_001 | Banana | cytosol | 67.32 | 58.92 |
| TraesCS4D01G046100.1 | Wheat | cytosol | 63.21 | 56.73 |
| KXG37740 | Sorghum | cytosol | 63.44 | 56.65 |
| TraesCS4A01G268300.1 | Wheat | cytosol | 63.04 | 56.61 |
| TraesCS4B01G045900.1 | Wheat | cytosol | 63.04 | 56.58 |
| HORVU4Hr1G007450.5 | Barley | cytosol | 62.92 | 56.44 |
| Zm00001d013442_P061 | Maize | cytosol | 63.38 | 55.82 |
| CDY35578 | Canola | cytosol, mitochondrion | 9.33 | 49.54 |
| CDY44616 | Canola | cytosol | 3.13 | 26.21 |
| CDY44615 | Canola | cytosol | 3.13 | 20.45 |
| CDY53049 | Canola | cytosol | 8.98 | 19.07 |
| CDY47220 | Canola | cytosol | 8.98 | 19.07 |
| CDY44613 | Canola | cytosol, nucleus, peroxisome, plastid | 2.55 | 15.88 |
| CDY66849 | Canola | cytosol | 2.38 | 15.47 |
| CDY43786 | Canola | cytosol | 8.98 | 13.81 |
| CDX84486 | Canola | cytosol | 8.98 | 13.81 |
| CDY39828 | Canola | cytosol | 8.75 | 13.34 |
| CDY31337 | Canola | cytosol | 8.57 | 13.17 |
Protein Annotations
| Gene3D:1.10.1070.11 | Gene3D:1.25.40.70 | MapMan:27.5.2.1 | Gene3D:3.30.1010.10 | GO:A0A078GCN1 | UniProt:A0A078GCN1 |
| InterPro:ARM-type_fold | EnsemblPlants:CDY22817 | ProteinID:CDY22817 | ProteinID:CDY22817.1 | GO:GO:0003674 | GO:GO:0003824 |
| GO:GO:0005488 | GO:GO:0005575 | GO:GO:0005622 | GO:GO:0005623 | GO:GO:0006629 | GO:GO:0007154 |
| GO:GO:0007165 | GO:GO:0008150 | GO:GO:0008152 | GO:GO:0009987 | GO:GO:0016301 | GO:GO:0016310 |
| GO:GO:0016740 | GO:GO:0046854 | GO:GO:0048015 | EnsemblPlantsGene:GSBRNA2T00021163001 | InterPro:IPR000403 | InterPro:IPR001263 |
| InterPro:IPR036940 | InterPro:Kinase-like_dom_sf | PFAM:PF00454 | PFAM:PF00613 | InterPro:PI3/4_kinase_CS | InterPro:PI3/4_kinase_cat_dom |
| InterPro:PI3/4_kinase_cat_sf | InterPro:PI_Kinase | InterPro:PInositide-3_kin_accessory_dom | ScanProsite:PS00915 | PFscan:PS50290 | PFscan:PS51545 |
| PANTHER:PTHR10048 | PANTHER:PTHR10048:SF15 | SMART:SM00145 | SMART:SM00146 | SUPFAM:SSF48371 | SUPFAM:SSF56112 |
| UniParc:UPI0004EF270D | SEG:seg | : | : | : | : |
Description
BnaA06g02600DBnaA06g02600D protein [Source:UniProtKB/TrEMBL;Acc:A0A078GCN1]
Coordinates
chrLK032136:+:311684..321372
Molecular Weight (calculated)
192327.0 Da
IEP (calculated)
6.718
GRAVY (calculated)
-0.061
Length
1726 amino acids
Sequence
(BLAST)
(BLAST)
0001: MLLHQFSTNE KFSPDLEVAS CSGGSFSVFR QQVASFEDES VESLEKQKIT FKLMAHVLDK VKVDLKLCDQ VSSIAWRQLQ SMSAFLKSRR QDWNDQDSVL
0101: KTILDAKLFV YQAAAKMKIK CLVSLETDGK TYKKLAMETL TLLFDAAEAC LTSVWGEMKA CEELFISLLS GIAEMAVAKG RCLLHGLFVR LKPLVLAVCA
0201: QPDIWVRNQR NIFESVSKIC CEIIESVWAT DRALVNTFIV GLASRIHEKS DYEEQAGRER EVPTIPLNVV RLLADISVAV KKPEVADMVF PFFIESLEEG
0301: DTSTPCSLRL QLLDAVSRIA TLGFEKSYRE TVVLMTRGYL REILTVVSVE SKTSEPTSRK EHVETLAAGF LTIANGLMKT KLRADYRHRL LSLCSDVSLA
0401: SESKSGGSGA DMLGPLLPAV AEICSDLDPT SNVEPSLLKL FRNLWFYIAL FGLAPPIVKP QPAGGPYMWN TQWSLAVQRI SQGTPPLVVS SVKWLEDEFE
0501: LNALSSSDSS LGIGNKKAAS TQRTALAIAL GGRVEVSALN TISGVKATYL LAVAILEIIR FTSNGGILNG GSSVSASRSA FSCAFEYLKS PNLTHAVTQC
0601: LTAIVHRAFQ AAISWLEDRI SLTGKDDSIR ESTMNAHACF LIKNMSQRDE HIRDISVNLL NQIRDKFPQV LWSSSCLDSL LFSVHDNAPS MVVNDPAWTA
0701: AVRSLYQKVV REWIYISLSY APCTIQGLLQ DKLCKANTLQ RTQTTTDVVS LLNEIKIGTG ENEIWSGTKT ANIPAVMDAA VAASGENLKA SEAFNLDILG
0801: TGFVNAMYKC KHTGQISGLV RLGNSIGNDT LINSSVRSLQ QIVNTSTNGG NTDKSQFRET CSQATAVLLS NLQAGEPKTD IKGFSRLLRL LCWCPAYILT
0901: SDAMETGVFI WTWLVSAAPQ LGSLVLAELV DAWTWTIDSK RGLFASDVRY YGPAAKLKPQ LSPGEPEDSP DSDPVDQIVA HRLWLGFLID RFEVVRHSSV
1001: EQLLLFGRLL QRSTSLDWCF THHPAATGTF FSLMLLGLKF CSCQKQGNMH KFRHGLELLE DRIYRASLGW FSRQPEWYDV NIPNFCQSEA QSVSIFAQYL
1101: LNERSDFSQS DSKEIAHENG KLAELIVWGK MDNYAVGKEK RKQLLLILCQ HESDRLDVWA QPISSKDSPY SRLKVSSGKW TEHAKTAFLV DPRIAISLVS
1201: RFPANIALKS EVTQLVQAHI VDLRTIPEAL PYFLTPKTVE ENSVLLQQLP HWAACSITQA LEFLTPNYKG HPRVMAYVLR VLESYPPERV TFFMPQLVQS
1301: LRYDEGRLVE GYLLRAAQRS DIFAHILTWH LQGESFQETV KDGAFDKNAS FQAILSEVRQ HIINGFTLKA LDLFNREFDF FEKVTSISGA LFPLPKEERR
1401: AGIRRELEKI RIQGEDLYLP TAPNKLVKGI QIDSGIPLQS AAKVPIMITF NVVDRDGNHN DVKPQACIFK VGDDCRQDVL ALQVISLLRD IFEAVGLNLY
1501: LFPYGVLPTG AGRGIIEVVP NTRSRSQMGE STDGGLYEIF QEEFGPVGSP SFETARGNFL TSSAGYAVAS LLLQPKDRHN GNLLFDNMGR LVHIDFGFIF
1601: GTSPGGNMRF ESAHFKLSHE MTQLLDPSGD MKSETWHQFV SLCVQGYLAA RRYMEGIIST VEMMVESGLP CFSRGNPIEK LRKRFHPEMS EREAAHFMIN
1701: VCTDAYNKWT TFGYDLIQYL QQGIEK
0101: KTILDAKLFV YQAAAKMKIK CLVSLETDGK TYKKLAMETL TLLFDAAEAC LTSVWGEMKA CEELFISLLS GIAEMAVAKG RCLLHGLFVR LKPLVLAVCA
0201: QPDIWVRNQR NIFESVSKIC CEIIESVWAT DRALVNTFIV GLASRIHEKS DYEEQAGRER EVPTIPLNVV RLLADISVAV KKPEVADMVF PFFIESLEEG
0301: DTSTPCSLRL QLLDAVSRIA TLGFEKSYRE TVVLMTRGYL REILTVVSVE SKTSEPTSRK EHVETLAAGF LTIANGLMKT KLRADYRHRL LSLCSDVSLA
0401: SESKSGGSGA DMLGPLLPAV AEICSDLDPT SNVEPSLLKL FRNLWFYIAL FGLAPPIVKP QPAGGPYMWN TQWSLAVQRI SQGTPPLVVS SVKWLEDEFE
0501: LNALSSSDSS LGIGNKKAAS TQRTALAIAL GGRVEVSALN TISGVKATYL LAVAILEIIR FTSNGGILNG GSSVSASRSA FSCAFEYLKS PNLTHAVTQC
0601: LTAIVHRAFQ AAISWLEDRI SLTGKDDSIR ESTMNAHACF LIKNMSQRDE HIRDISVNLL NQIRDKFPQV LWSSSCLDSL LFSVHDNAPS MVVNDPAWTA
0701: AVRSLYQKVV REWIYISLSY APCTIQGLLQ DKLCKANTLQ RTQTTTDVVS LLNEIKIGTG ENEIWSGTKT ANIPAVMDAA VAASGENLKA SEAFNLDILG
0801: TGFVNAMYKC KHTGQISGLV RLGNSIGNDT LINSSVRSLQ QIVNTSTNGG NTDKSQFRET CSQATAVLLS NLQAGEPKTD IKGFSRLLRL LCWCPAYILT
0901: SDAMETGVFI WTWLVSAAPQ LGSLVLAELV DAWTWTIDSK RGLFASDVRY YGPAAKLKPQ LSPGEPEDSP DSDPVDQIVA HRLWLGFLID RFEVVRHSSV
1001: EQLLLFGRLL QRSTSLDWCF THHPAATGTF FSLMLLGLKF CSCQKQGNMH KFRHGLELLE DRIYRASLGW FSRQPEWYDV NIPNFCQSEA QSVSIFAQYL
1101: LNERSDFSQS DSKEIAHENG KLAELIVWGK MDNYAVGKEK RKQLLLILCQ HESDRLDVWA QPISSKDSPY SRLKVSSGKW TEHAKTAFLV DPRIAISLVS
1201: RFPANIALKS EVTQLVQAHI VDLRTIPEAL PYFLTPKTVE ENSVLLQQLP HWAACSITQA LEFLTPNYKG HPRVMAYVLR VLESYPPERV TFFMPQLVQS
1301: LRYDEGRLVE GYLLRAAQRS DIFAHILTWH LQGESFQETV KDGAFDKNAS FQAILSEVRQ HIINGFTLKA LDLFNREFDF FEKVTSISGA LFPLPKEERR
1401: AGIRRELEKI RIQGEDLYLP TAPNKLVKGI QIDSGIPLQS AAKVPIMITF NVVDRDGNHN DVKPQACIFK VGDDCRQDVL ALQVISLLRD IFEAVGLNLY
1501: LFPYGVLPTG AGRGIIEVVP NTRSRSQMGE STDGGLYEIF QEEFGPVGSP SFETARGNFL TSSAGYAVAS LLLQPKDRHN GNLLFDNMGR LVHIDFGFIF
1601: GTSPGGNMRF ESAHFKLSHE MTQLLDPSGD MKSETWHQFV SLCVQGYLAA RRYMEGIIST VEMMVESGLP CFSRGNPIEK LRKRFHPEMS EREAAHFMIN
1701: VCTDAYNKWT TFGYDLIQYL QQGIEK
0001: MEALTELCDI IAKNPKQFSE KLAWICGRCP QTEWLLAESP RVSRSHLNAV LAVARIISKN PESIDNRAKS VVNEFLSAIP ASFRRSFWPH SFPSQLISSF
0101: YCDFLSYLSC AADLSPEFGT EVARFTGEVV IAAIAPSSGD SDGDPAISKA FLVALSQHFP SILQSDGDKL ITMLLDQFVL NRAPASPKEQ RQQNSANSET
0201: DTSSSQGSPI STNRYPSGKT EMASPGDEVA SHGSNLSSKS SSSVVMNGGS IVWKSGVDQL SFGFSEGSGG ANPVFRQQVA SFEDESIESL EKQEIAFRLI
0301: THILDKVKID SKLQDQVRFI AKRQLQSMSA FLKSRKRDWN EQGQVLKTRV NAKLSVYQAA AKMKIKSLVS LETDGKTSKR LVLETLALLL DAADACLTSV
0401: WRKMKACEEL FDSLLSGIAK IAVARGGQPL RVLLIRLKPL VLAVCALPDQ GAMLESIFKT SCVIIESAWA KDRAPVDNFI MGLASSIRER NDYEEQVDRE
0501: KQVPAVQLNV IRLLADLNVA VKKPEVADMI LPLFIESLEE GDASTPSFLR LQLLDAVSRI ATLGFDKSYR ETVVLMTRSY LSKLSSVGSV ESKTSAPEAT
0601: TERVETLPAG FLTIASGLMD TKLRSDYRHR LLSLCSDVGL AAESKSGGSG VDFLGPLLPA VAEICSDFDP TMDVEPSLLK LFRNLWFYIA LFGLAPPIVK
0701: TPTPPLKSTS NSVNSVGSMS ATALQAVGGP YMWDNQWALA VQRIAQGTPP LVVSSVKWLE DELELNALHN PGSRRGNGNE KVASTQRLAL STALGGRVDV
0801: AAMNTISGVK ATYLLAVAFL EIIRFISNGG ILNGESSVSA SRSAFSCVFE YLKTPNLTPA VSQCLTAIVH RAFETAVSWL EDRISLTGKD ARNRELTTYA
0901: HACFLIKSMS QRDEHVRDIS VNLLTQLRDK FPQVLWHSSC LDSLLFSVHD NTPSTVVNDP AWTAAVRSLY QKVVREWIII SLSYAPCTSQ GLLQDKLCKA
1001: NTWQRAQTTT DVVSLLSEIK IGTGKNELWS GIRTANIPAV MAAAAAASGA NLKVSEAFNL EVLGTGVVSA TVKCNHAGEI AGMRRLYNSI GGFQSGSTPS
1101: GFGGGLQRLI SGAFSQAPQP EDDSFNEMLI ARFVRLLQQF VNTAEKGGEV EKSQFRETCS QATALLLSNL GGESKTNVEG FSQLLRLLCW CPAYISTPDA
1201: METGIFIWTW LVSAAPQLVS LVLAELVDAW IWTIDTKRGL FASDVRYSGP AAKLRPHLSP GEPEDPPESD PVDQIVAHRL WLGFLIDRFE VVRHNSAEQL
1301: LLLGRMLQRS TDLEWCFTRH PAAAGTFFSL MLLGLKFCSC QTQGNMQKFR SGLQLLEDRI YRTSLGWFAH QPEWYDVNIP NFCHSEALSV SVFVHFLSNE
1401: LSESSQSDSK GKPRESGNLI DVTDQYHPVW GEMDNYTLGK EKRKQLLLML CQHEADRLDV WAQPISSKDS PYSRLKISSE KWTEYAKTAF SVDPRIALSV
1501: ASRFPANASV KSEVTQLVQT NIVDLRTIPE ALPYFVTPKN VEENSVLLQQ LPHWAACSIT QALEFLTPAY KGHPRVMAYV LRVLESYPPE RVTFFMPQLV
1601: QSLRYDDGRL VEGYLLRATQ RSDIFAHILI WHLQGEDVQE TPKDGSIDKN AAFQEILPQV RQHIIDGFSP NALDMFTREF DFFDKVTSIS GVLFPLPKEE
1701: RRAGIRRELE KIEMQGDDLY LPTAPNKLVR GIRVDSGIPL QSAAKVPIMI TFNVIDRDGD HSDVKPQACI FKVGDDCRQD VLALQVISLL RDIFQAAGLN
1801: LYLFPYGVLP TGAERGIIEV VPNTRSRSQM GETTDGGLYE IFQQDYGPVG STTFETAREN FLISSAGYAV ASLLLQPKDR HNGNLLFDDV GRLVHIDFGF
1901: ILETSPGGNM RFESAHFKLS HEMTQLLDPS GVMKSKTWHQ FVSLCVKGYL AARRQMDGII STVQMMLESG LPCFSRGDPI GNLRKRFHPE MSEREAAHFM
2001: IHVCTDAYNK WTTAGYDLIQ YLQQGIEK
0101: YCDFLSYLSC AADLSPEFGT EVARFTGEVV IAAIAPSSGD SDGDPAISKA FLVALSQHFP SILQSDGDKL ITMLLDQFVL NRAPASPKEQ RQQNSANSET
0201: DTSSSQGSPI STNRYPSGKT EMASPGDEVA SHGSNLSSKS SSSVVMNGGS IVWKSGVDQL SFGFSEGSGG ANPVFRQQVA SFEDESIESL EKQEIAFRLI
0301: THILDKVKID SKLQDQVRFI AKRQLQSMSA FLKSRKRDWN EQGQVLKTRV NAKLSVYQAA AKMKIKSLVS LETDGKTSKR LVLETLALLL DAADACLTSV
0401: WRKMKACEEL FDSLLSGIAK IAVARGGQPL RVLLIRLKPL VLAVCALPDQ GAMLESIFKT SCVIIESAWA KDRAPVDNFI MGLASSIRER NDYEEQVDRE
0501: KQVPAVQLNV IRLLADLNVA VKKPEVADMI LPLFIESLEE GDASTPSFLR LQLLDAVSRI ATLGFDKSYR ETVVLMTRSY LSKLSSVGSV ESKTSAPEAT
0601: TERVETLPAG FLTIASGLMD TKLRSDYRHR LLSLCSDVGL AAESKSGGSG VDFLGPLLPA VAEICSDFDP TMDVEPSLLK LFRNLWFYIA LFGLAPPIVK
0701: TPTPPLKSTS NSVNSVGSMS ATALQAVGGP YMWDNQWALA VQRIAQGTPP LVVSSVKWLE DELELNALHN PGSRRGNGNE KVASTQRLAL STALGGRVDV
0801: AAMNTISGVK ATYLLAVAFL EIIRFISNGG ILNGESSVSA SRSAFSCVFE YLKTPNLTPA VSQCLTAIVH RAFETAVSWL EDRISLTGKD ARNRELTTYA
0901: HACFLIKSMS QRDEHVRDIS VNLLTQLRDK FPQVLWHSSC LDSLLFSVHD NTPSTVVNDP AWTAAVRSLY QKVVREWIII SLSYAPCTSQ GLLQDKLCKA
1001: NTWQRAQTTT DVVSLLSEIK IGTGKNELWS GIRTANIPAV MAAAAAASGA NLKVSEAFNL EVLGTGVVSA TVKCNHAGEI AGMRRLYNSI GGFQSGSTPS
1101: GFGGGLQRLI SGAFSQAPQP EDDSFNEMLI ARFVRLLQQF VNTAEKGGEV EKSQFRETCS QATALLLSNL GGESKTNVEG FSQLLRLLCW CPAYISTPDA
1201: METGIFIWTW LVSAAPQLVS LVLAELVDAW IWTIDTKRGL FASDVRYSGP AAKLRPHLSP GEPEDPPESD PVDQIVAHRL WLGFLIDRFE VVRHNSAEQL
1301: LLLGRMLQRS TDLEWCFTRH PAAAGTFFSL MLLGLKFCSC QTQGNMQKFR SGLQLLEDRI YRTSLGWFAH QPEWYDVNIP NFCHSEALSV SVFVHFLSNE
1401: LSESSQSDSK GKPRESGNLI DVTDQYHPVW GEMDNYTLGK EKRKQLLLML CQHEADRLDV WAQPISSKDS PYSRLKISSE KWTEYAKTAF SVDPRIALSV
1501: ASRFPANASV KSEVTQLVQT NIVDLRTIPE ALPYFVTPKN VEENSVLLQQ LPHWAACSIT QALEFLTPAY KGHPRVMAYV LRVLESYPPE RVTFFMPQLV
1601: QSLRYDDGRL VEGYLLRATQ RSDIFAHILI WHLQGEDVQE TPKDGSIDKN AAFQEILPQV RQHIIDGFSP NALDMFTREF DFFDKVTSIS GVLFPLPKEE
1701: RRAGIRRELE KIEMQGDDLY LPTAPNKLVR GIRVDSGIPL QSAAKVPIMI TFNVIDRDGD HSDVKPQACI FKVGDDCRQD VLALQVISLL RDIFQAAGLN
1801: LYLFPYGVLP TGAERGIIEV VPNTRSRSQM GETTDGGLYE IFQQDYGPVG STTFETAREN FLISSAGYAV ASLLLQPKDR HNGNLLFDDV GRLVHIDFGF
1901: ILETSPGGNM RFESAHFKLS HEMTQLLDPS GVMKSKTWHQ FVSLCVKGYL AARRQMDGII STVQMMLESG LPCFSRGDPI GNLRKRFHPE MSEREAAHFM
2001: IHVCTDAYNK WTTAGYDLIQ YLQQGIEK
Arabidopsis Description
PI4KA1Phosphatidylinositol 4-kinase alpha 1 [Source:UniProtKB/Swiss-Prot;Acc:Q9SXA1]
SUBAcon: [cytosol]
SUBAcon: [cytosol]
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.