Subcellular Localization
min:
: max
Winner_takes_all: plasma membrane
Predictor Summary:
Predictor Summary:
- nucleus 1
- cytosol 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 |
|---|---|---|---|---|
| OQU87146 | Sorghum | cytosol, plasma membrane | 12.56 | 26.75 |
| OQU87144 | Sorghum | plasma membrane | 20.96 | 20.45 |
| OQU91495 | Sorghum | cytosol, nucleus, plasma membrane | 18.56 | 18.86 |
| OQU85489 | Sorghum | cytosol, peroxisome, plasma membrane | 20.56 | 18.73 |
| KXG32868 | Sorghum | plasma membrane | 21.28 | 18.31 |
| OQU78699 | Sorghum | cytosol, nucleus, plasma membrane | 21.2 | 17.81 |
| EES04730 | Sorghum | mitochondrion | 20.4 | 17.71 |
| KXG22958 | Sorghum | cytosol, nucleus, plasma membrane | 20.88 | 17.17 |
| KXG35386 | Sorghum | cytosol | 2.48 | 16.06 |
| OQU89275 | Sorghum | cytosol | 0.08 | 0.5 |
| EER93921 | Sorghum | cytosol | 0.0 | 0.0 |
| OQU79332 | Sorghum | plastid | 0.0 | 0.0 |
Protein Annotations
| Gene3D:3.40.50.300 | MapMan:35.1 | UniProt:A0A1Z5R7B9 | InterPro:ABC_2_trans | InterPro:ABC_transporter-like | GO:GO:0000166 |
| GO:GO:0003674 | GO:GO:0003824 | GO:GO:0005488 | GO:GO:0005524 | GO:GO:0005575 | GO:GO:0016020 |
| GO:GO:0016021 | GO:GO:0016787 | GO:GO:0016887 | InterPro:IPR003439 | EnsemblPlants:OQU79331 | ProteinID:OQU79331 |
| ProteinID:OQU79331.1 | InterPro:P-loop_NTPase | PFAM:PF00005 | PFAM:PF01061 | PFscan:PS50893 | PANTHER:PTHR19241 |
| PANTHER:PTHR19241:SF458 | EnsemblPlantsGene:SORBI_3008G132500 | SUPFAM:SSF52540 | TMHMM:TMhelix | UniParc:UPI000B8B9C14 | SEG:seg |
Description
hypothetical protein
Coordinates
chr8:-:55908329..55913278
Molecular Weight (calculated)
141539.0 Da
IEP (calculated)
8.130
GRAVY (calculated)
0.144
Length
1250 amino acids
Sequence
(BLAST)
(BLAST)
0001: MVYDQPLTGS DLAMTYDLVN TIRAVCRIQQ SSAVMALNHL SQEAFDLFDR IILLGEGHVL YQGPRQDAVT YFAKIGYMKP SHVESWEFLQ DIAAENGMQY
0101: LLPRLTPRGL EELVECYYSS DHYLDIIRVI GKNKEFSTYW VESEPGIGLS LKESSTLNSI AEHQEMEIVV AKLLNKSGSA TGFESTGNIQ VGDVVTGISI
0201: NEEPMQYLVT GPMFDQQQHL DQVFSNLLHA RGHIRLQLER PDHKSNEDEL RWEKFKRPYV QPWWKSTRTL IQRQLRILKQ LQMLSILRII QACILGIFAG
0301: TLFYKFGGQY NLQHMNSVRA LGFVTSMSIL LINMPQLPLY MLQRPTFYKH RDQRFFRTSS YVVAHCISNL PQAFTEAFCY SVCVYFLAGL TLENNGVAFI
0401: DYLVLMFLVA YFGSSFFFFL SAVAPIPEAA NALAGLIVSI FLLFSGFVIF PSNIPQYWKW LMHINPIRWA NMSFCDRQFS YGYKDFCNKY LNQLTFCKEN
0501: PEMATGKAYL IYAELLTAVS VKPWVPYIIL IGWTLLALLM ALIFLNKVEF SQISQSVPQI NQRKLSKNYL YDVEIYSSST ESYMEASIES GRYKFLESPK
0601: LASSSTTVIS EDENVSVRSW REEFRVKIDP EQLTIPVTLM TLSFLDLSFV RCGKVTKEEA TEFENVSGCA RPGIMLALVG GANGSVATLL KCLSGRTPLG
0701: GSFTGDIQVN GTKPCADFSR RVGYAERLDA HQPYLTIRES LEFSANLRLT NSISKARRHM HVELVLDQLG LQYYANNLVG SLRDGTGKTF EVAKKLTIAV
0801: ELAANPSILF LEEPLSGLDS SGTSAILSIL SKLPVCGQSV IATFNYPNTR ALSHFHQVII LTQEGRQAYF GPVGLNCHEI LGYFTAIPRV PHYLQTQNPI
0901: SFVMGVTGLG IPRKKLAVID FADEFQKSHL YEVAMKVINA AMKNNKHGNE KDNNMRSISY NYPASFTSQI GLVLLRTQRF LWRNVNYTYS RFTGCVMIGL
1001: LMGSLYFKIK YEDTYEVTSR SLYIYMQTIL IGVISANNVI PQIGTDKLAY FREMRSKMYL PIIYPVSWVI SEIPYFLIAT LAFVGIGNGM AGIATQTAAD
1101: FLAYWSVLCL FTLCMTYFGM MITFLAPSPI LAAFLVSIIT SLWISTSGVV VLFSDIRFYK WMYWTNPFQY VMNVLTVISF YCDTSKCKRQ CQCPQLPDGS
1201: YVWERIAHIR SLSAKMISTD VVTLAGMNIM FAVLAFLFFT VLKHNSAHAH
0101: LLPRLTPRGL EELVECYYSS DHYLDIIRVI GKNKEFSTYW VESEPGIGLS LKESSTLNSI AEHQEMEIVV AKLLNKSGSA TGFESTGNIQ VGDVVTGISI
0201: NEEPMQYLVT GPMFDQQQHL DQVFSNLLHA RGHIRLQLER PDHKSNEDEL RWEKFKRPYV QPWWKSTRTL IQRQLRILKQ LQMLSILRII QACILGIFAG
0301: TLFYKFGGQY NLQHMNSVRA LGFVTSMSIL LINMPQLPLY MLQRPTFYKH RDQRFFRTSS YVVAHCISNL PQAFTEAFCY SVCVYFLAGL TLENNGVAFI
0401: DYLVLMFLVA YFGSSFFFFL SAVAPIPEAA NALAGLIVSI FLLFSGFVIF PSNIPQYWKW LMHINPIRWA NMSFCDRQFS YGYKDFCNKY LNQLTFCKEN
0501: PEMATGKAYL IYAELLTAVS VKPWVPYIIL IGWTLLALLM ALIFLNKVEF SQISQSVPQI NQRKLSKNYL YDVEIYSSST ESYMEASIES GRYKFLESPK
0601: LASSSTTVIS EDENVSVRSW REEFRVKIDP EQLTIPVTLM TLSFLDLSFV RCGKVTKEEA TEFENVSGCA RPGIMLALVG GANGSVATLL KCLSGRTPLG
0701: GSFTGDIQVN GTKPCADFSR RVGYAERLDA HQPYLTIRES LEFSANLRLT NSISKARRHM HVELVLDQLG LQYYANNLVG SLRDGTGKTF EVAKKLTIAV
0801: ELAANPSILF LEEPLSGLDS SGTSAILSIL SKLPVCGQSV IATFNYPNTR ALSHFHQVII LTQEGRQAYF GPVGLNCHEI LGYFTAIPRV PHYLQTQNPI
0901: SFVMGVTGLG IPRKKLAVID FADEFQKSHL YEVAMKVINA AMKNNKHGNE KDNNMRSISY NYPASFTSQI GLVLLRTQRF LWRNVNYTYS RFTGCVMIGL
1001: LMGSLYFKIK YEDTYEVTSR SLYIYMQTIL IGVISANNVI PQIGTDKLAY FREMRSKMYL PIIYPVSWVI SEIPYFLIAT LAFVGIGNGM AGIATQTAAD
1101: FLAYWSVLCL FTLCMTYFGM MITFLAPSPI LAAFLVSIIT SLWISTSGVV VLFSDIRFYK WMYWTNPFQY VMNVLTVISF YCDTSKCKRQ CQCPQLPDGS
1201: YVWERIAHIR SLSAKMISTD VVTLAGMNIM FAVLAFLFFT VLKHNSAHAH
0001: MGSSFRSSSS RNEHEDGGDE AEHALQWAEI QRLPTFKRLR SSLVDKYGEG TEKGKKVVDV TKLGAMERHL MIEKLIKHIE NDNLKLLKKI RRRMERVGVE
0101: FPSIEVRYEH LGVEAACEVV EGKALPTLWN SLKHVFLDLL KLSGVRTNEA NIKILTDVSG IISPGRLTLL LGPPGCGKTT LLKALSGNLE NNLKCYGEIS
0201: YNGHGLNEVV PQKTSAYISQ HDLHIAEMTT RETIDFSARC QGVGSRTDIM MEVSKREKDG GIIPDPEIDA YMKAISVKGL KRSLQTDYIL KILGLDICAE
0301: TLVGNAMKRG ISGGQKKRLT TAEMIVGPTK ALFMDEITNG LDSSTAFQII KSLQQVAHIT NATVFVSLLQ PAPESYDLFD DIVLMAEGKI VYHGPRDDVL
0401: KFFEECGFQC PERKGVADFL QEVISKKDQG QYWLHQNLPH SFVSVDTLSK RFKDLEIGRK IEEALSKPYD ISKTHKDALS FNVYSLPKWE LFRACISREF
0501: LLMKRNYFVY LFKTFQLVLA AIITMTVFIR TRMDIDIIHG NSYMSCLFFA TVVLLVDGIP ELSMTVQRLS VFYKQKQLCF YPAWAYAIPA TVLKIPLSFF
0601: ESLVWTCLTY YVIGYTPEPY RFFRQFMILF AVHFTSISMF RCIAAIFQTG VAAMTAGSFV MLITFVFAGF AIPYTDMPGW LKWGFWVNPI SYAEIGLSVN
0701: EFLAPRWQKM QPTNVTLGRT ILESRGLNYD DYMYWVSLSA LLGLTIIFNT IFTLALSFLK SPTSSRPMIS QDKLSELQGT KDSSVKKNKP LDSSIKTNED
0801: PGKMILPFKP LTITFQDLNY YVDVPVEMKG QGYNEKKLQL LSEITGAFRP GVLTALMGIS GAGKTTLLDV LAGRKTSGYI EGEIRISGFL KVQETFARVS
0901: GYCEQTDIHS PSITVEESLI YSAWLRLVPE INPQTKIRFV KQVLETIELE EIKDALVGVA GVSGLSTEQR KRLTVAVELV ANPSIIFMDE PTTGLDARAA
1001: AIVMRAVKNV AETGRTIVCT IHQPSIHIFE AFDELVLLKR GGRMIYSGPL GQHSSCVIEY FQNIPGVAKI RDKYNPATWM LEVTSESVET ELDMDFAKIY
1101: NESDLYKNNS ELVKELSKPD HGSSDLHFKR TFAQNWWEQF KSCLWKMSLS YWRSPSYNLM RIGHTFISSF IFGLLFWNQG KKIDTQQNLF TVLGAIYGLV
1201: LFVGINNCTS ALQYFETERN VMYRERFAGM YSAFAYALAQ VVTEIPYIFI QSAEFVIVIY PMIGFYASFS KVFWSLYAMF CNLLCFNYLA MFLISITPNF
1301: MVAAILQSLF FTTFNIFAGF LIPKPQIPKW WVWFYYITPT SWTLNLFFSS QYGDIHQKIN AFGETKTVAS FLEDYFGFHH DRLMITAIIL IAFPIALATM
1401: YAFFVAKLNF QKR
0101: FPSIEVRYEH LGVEAACEVV EGKALPTLWN SLKHVFLDLL KLSGVRTNEA NIKILTDVSG IISPGRLTLL LGPPGCGKTT LLKALSGNLE NNLKCYGEIS
0201: YNGHGLNEVV PQKTSAYISQ HDLHIAEMTT RETIDFSARC QGVGSRTDIM MEVSKREKDG GIIPDPEIDA YMKAISVKGL KRSLQTDYIL KILGLDICAE
0301: TLVGNAMKRG ISGGQKKRLT TAEMIVGPTK ALFMDEITNG LDSSTAFQII KSLQQVAHIT NATVFVSLLQ PAPESYDLFD DIVLMAEGKI VYHGPRDDVL
0401: KFFEECGFQC PERKGVADFL QEVISKKDQG QYWLHQNLPH SFVSVDTLSK RFKDLEIGRK IEEALSKPYD ISKTHKDALS FNVYSLPKWE LFRACISREF
0501: LLMKRNYFVY LFKTFQLVLA AIITMTVFIR TRMDIDIIHG NSYMSCLFFA TVVLLVDGIP ELSMTVQRLS VFYKQKQLCF YPAWAYAIPA TVLKIPLSFF
0601: ESLVWTCLTY YVIGYTPEPY RFFRQFMILF AVHFTSISMF RCIAAIFQTG VAAMTAGSFV MLITFVFAGF AIPYTDMPGW LKWGFWVNPI SYAEIGLSVN
0701: EFLAPRWQKM QPTNVTLGRT ILESRGLNYD DYMYWVSLSA LLGLTIIFNT IFTLALSFLK SPTSSRPMIS QDKLSELQGT KDSSVKKNKP LDSSIKTNED
0801: PGKMILPFKP LTITFQDLNY YVDVPVEMKG QGYNEKKLQL LSEITGAFRP GVLTALMGIS GAGKTTLLDV LAGRKTSGYI EGEIRISGFL KVQETFARVS
0901: GYCEQTDIHS PSITVEESLI YSAWLRLVPE INPQTKIRFV KQVLETIELE EIKDALVGVA GVSGLSTEQR KRLTVAVELV ANPSIIFMDE PTTGLDARAA
1001: AIVMRAVKNV AETGRTIVCT IHQPSIHIFE AFDELVLLKR GGRMIYSGPL GQHSSCVIEY FQNIPGVAKI RDKYNPATWM LEVTSESVET ELDMDFAKIY
1101: NESDLYKNNS ELVKELSKPD HGSSDLHFKR TFAQNWWEQF KSCLWKMSLS YWRSPSYNLM RIGHTFISSF IFGLLFWNQG KKIDTQQNLF TVLGAIYGLV
1201: LFVGINNCTS ALQYFETERN VMYRERFAGM YSAFAYALAQ VVTEIPYIFI QSAEFVIVIY PMIGFYASFS KVFWSLYAMF CNLLCFNYLA MFLISITPNF
1301: MVAAILQSLF FTTFNIFAGF LIPKPQIPKW WVWFYYITPT SWTLNLFFSS QYGDIHQKIN AFGETKTVAS FLEDYFGFHH DRLMITAIIL IAFPIALATM
1401: YAFFVAKLNF QKR
Arabidopsis Description
PDR5pleiotropic drug resistance 5 [Source:TAIR;Acc:AT2G37280]
SUBAcon: [plasma membrane,nucleus,cytosol]
SUBAcon: [plasma membrane,nucleus,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.