Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- cytosol 2
- mitochondrion 1
- nucleus 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| Zm00001d021470_P001 | Maize | cytosol | 10.15 | 95.0 |
| OQU89855 | Sorghum | cytosol | 67.59 | 55.4 |
| Zm00001d048354_P001 | Maize | extracellular | 3.24 | 40.27 |
| Zm00001d048353_P001 | Maize | extracellular | 3.21 | 40.0 |
| Zm00001d027541_P001 | Maize | extracellular | 3.21 | 39.82 |
| Zm00001d027540_P001 | Maize | nucleus | 3.17 | 39.56 |
| GSMUA_Achr3P26860_001 | Banana | cytosol | 4.38 | 39.17 |
| Zm00001d027542_P001 | Maize | endoplasmic reticulum | 3.24 | 38.08 |
| Zm00001d042216_P001 | Maize | extracellular, plasma membrane | 2.6 | 33.03 |
| GSMUA_Achr7P03960_001 | Banana | cytosol | 4.52 | 32.9 |
| Zm00001d029801_P002 | Maize | extracellular | 3.28 | 31.19 |
| Zm00001d010870_P001 | Maize | extracellular | 2.42 | 29.06 |
| Zm00001d024839_P001 | Maize | extracellular | 2.28 | 28.7 |
| Zm00001d043344_P001 | Maize | cytosol, endoplasmic reticulum, extracellular, golgi, plasma membrane, vacuole | 2.24 | 28.12 |
| Zm00001d027539_P001 | Maize | extracellular, mitochondrion, plastid | 3.03 | 27.87 |
| Zm00001d012675_P001 | Maize | plastid | 2.03 | 26.64 |
| Zm00001d029799_P002 | Maize | cytosol | 2.49 | 25.55 |
| Os09t0544400-00 | Rice | extracellular, plasma membrane, plastid | 18.55 | 20.21 |
| HORVU5Hr1G085070.43 | Barley | cytosol | 13.92 | 16.39 |
| TraesCS5D01G343100.1 | Wheat | cytosol | 19.84 | 12.99 |
Protein Annotations
| KEGG:00480+2.5.1.18 | KEGG:00980+2.5.1.18 | KEGG:00982+2.5.1.18 | KEGG:00983+2.5.1.18 | Gene3D:1.20.1050.10 | EntrezGene:103633158 |
| MapMan:18.8.1.5 | Gene3D:3.40.30.10 | UniProt:A0A1D6IBB5 | ncoils:Coil | GO:GO:0003674 | GO:GO:0003824 |
| GO:GO:0005488 | GO:GO:0005515 | GO:GO:0016740 | InterPro:GST_C | InterPro:GST_Phi_C | InterPro:Glutathione-S-Trfase_C-like |
| InterPro:Glutathione-S-Trfase_C_sf | InterPro:Glutathione_S-Trfase_N | InterPro:IPR004045 | InterPro:IPR010987 | ProteinID:ONM57239.1 | PFAM:PF00043 |
| PFscan:PS50404 | PFscan:PS50405 | PANTHER:PTHR43900 | SUPFAM:SSF47616 | SUPFAM:SSF52833 | InterPro:Thioredoxin-like_sf |
| UniParc:UPI0004DE7F3B | EnsemblPlantsGene:Zm00001d021469 | EnsemblPlants:Zm00001d021469_P002 | EnsemblPlants:Zm00001d021469_T002 | SEG:seg | : |
Description
Glutathione S-transferase F9
Coordinates
chr7:-:153018015..153030585
Molecular Weight (calculated)
300046.0 Da
IEP (calculated)
4.532
GRAVY (calculated)
-0.947
Length
2808 amino acids
Sequence
(BLAST)
(BLAST)
0001: MEGLRIGAPI VQVYHEKSFI LPDVSRVLAC LYEKDVKFET HTASYRSLLR LQASSHAPVP FYDGPTFLEE SREICRYIAE KYENQGYSFL LGKDALERAS
0101: VEQWLHNEEH AFNPPSRALF CHLAFPLGEE DDDIDVHTRK LEEVLEVYEQ RLSDSEFLVG NKFTLADLVH LPNSHYIKAS NKFLYLYDSR KNVRRWWDAI
0201: SDRSSWKEVL RYMKNVEEKN KQEELKKQQQ QQEEAPSTDP IRVDSRKQSR TEPRTILVPP ADNESSASIV PRTKKPLPGD HLVSTQQGKS RKNVHQYPSQ
0301: DSELATSHSV PQEPMSMELV QERERTTRRP YTDQSQDVFK EAKVAKSTPS SAKPMYPQQP APTSGHGEVE DTWDKGVKGR ETVPDRQQML QKWAGTAREQ
0401: VSDRWKASPP SRQAAAEDVR GATGDTTQSA DVLDTSKKSR GAYEEAKGPG SVKEEKTSSI YKKKPLVAQD SQEQAQTIPA GEKTDSSIQK HQQASDAPNT
0501: FVEKLNASEP ARVKTHSDFS AEQPYRKDTT DDQKVIPPLS TRELTSQVQP PSKPSYDEKP TPMSQQKSDK QRVEPPIQIE AEISGVQHAS PSFPRASMDD
0601: RATIGDKFAM QSIIDERVGE PTQMQTSSPD AHPASLPTKR ETPEGHEIGD LGLASTPGGQ ISEAKKVGDD PDTVHGDVYY VNLSTQDVGK DAFKEPTVTD
0701: SLPSSAQPIQ KSAITPSRQT QVEEARDKSM QSRETIPEQH KMVERKTGTP GEQLSERQKE IRPSRQSAAE DAPISDAIQP PDILDTPKKS RATFEEYIGP
0801: GSTLPKAQIL DAQDSQVTKG ESTVPTTDQR KDWKYEKDDE TIVTEEKSLS TERSREMFQE SASTAPKTHL TDSGGSNALE KTSSVYHKGP LVAQDSQEEA
0901: QVIPADEKVD GSASEHHESS GTPYSYNEKL SASAPARGDI HDGHSAEEQH KNYTADDQKV APSLSNKEPA SQVQPASEPL QRAVPDGDLP SKSFTIDQWQ
1001: RMAASLHGVI MDSADDEAAI SLNNDQKSRP MNQEAAPSSQ SVNQMAKQSG EQRVEPPVPI VVEASDVRRA APSLPEAART DVATISDKFT EQSNIDERVG
1101: KPKQMQAPIT SAHPASKGTL RRTPDSHEAG ELLSTYEGQR LEAAKASQDP ATIHEDVYDA SLSTNDVAVD KKTATDHAIG DEVVTRSLHD QQTPRPASTQ
1201: AQPTAEAPQD SDSFQYVRTG DVGKTELAKP TVTDQEATAP AAGPTSVDPQ RANIIPAGVA HSEQKSTPPD KGSARVAQPP TPVEPIKEDG NVSAANYTNE
1301: LQMSFQQQAR SSAPTTIGIP ASDTQSVIGK IQVVTPDKHG TDDSGKPFDL NQGHVSHASQ AILGQEELTS PQGARVFPTS DTQQNFAASD EKSDKASKSF
1401: DSAEPREEDT DAATADQTTV PPTDVTRQVT ISTPDASDSV SRDQESSPDD SQTRNLGSPL IASQEEASRA GGEGSTPEVH STIVDEKKTL PSSQAQSSST
1501: GPDSIQIGGD ARLSDAGVPA TSSIEKQEAE PPAETQAPTS KGLQDSGSIE SPRQALTDQT VAPAMNSVAP SDSPEGPNSS RSVQTPYQQA ITKGDTVVTA
1601: ADQAENMQTI TYQQAITPVP YTAKPSFPGA QDASRQETIP DEGPMENYSP KPGAQTQPPA ATLDVSPYAS SKVKSTGQGA KPPTGHQASS PETQLGSSQP
1701: GEDAPAVQKI AASDEKSATA SKPFDSAEPR EEDTDAATAD QMTVPPTNVT RQVTSSTPDV GDTLSRDKES SPDDDQIRNL GSPLIASQEE ASRAGGEGST
1801: PKVHSAIVDE ERTLPSRHDA QTSSTETDST QIDGDARLSG VGMPATSSME KQEAEPPTET QEPTSKGLQD SRNIESPRQA STYKTVTPAM NSAAPSDALE
1901: GTEPGPNSSR SVQTPLSTGP TKGDTVVSAA DQAKDMHTIP YQQDITPSSN TGKPPFQGAQ DASRQEIIPD DGPVGNYSPK PGAQTQPPAA ILDVSPYALS
2001: KAKSTGQGAK TPTGHQASSP GTQLGSSQTQ GKDTPEEQNI AASDENSANT SKSFDSAEPR GEDIDAATAD QTTVPPANVT RQVISSTPDA SKTLVRDLES
2101: SRDNGQIRNL GSPLIASQEA ASRAGHTSDD GSTPEVHSTI VDEKKTLPSS QEKSSSTGPN STQIGGDARV LATSSIEKQE AEPPAGTQAP ASKGLQDSGN
2201: IKSPRQALTD QIVTPAKNSA APSDALEGTE PGPNSSRSVQ TPLSTGPTKG DTVVTAADEA KDMETITYQQ AITPVSDTAK PPFPGAQDAS RHGSVPDDEP
2301: VGNYSPKQTQ PPAEILDVSP YSLSKAKSTG QGAKTPTGHQ ASSPETQLGS SQTQGEAAPA EQKFAASDEK SAKASKSFDS AEPREDTDAA TTDQTIVPPT
2401: NVTQVTSSTP DASDTLSRVQ ESSPHDGQIR NLGNPLIASQ EEASRAGGEG SLEVHSNIVD EKKTLPSSQA QSSSTGSDST QMGGDAGLSD AGVPATSSIE
2501: KQEAEPPART QAPTSKGLQD IGNIESQGQA LTDQTVAPKM NSAAASDAPE GTELGPNSSR SVQTPFSTEP AEGETNSTNE ESKSQQKVGQ FGTQSFKDNN
2601: KEADGTVRSN ISRSTEELQE PPSRPKGESS EEPENQQLAD QAIVKPLEGN EQQAEQTKPH ETAIAEDSEN TNLKNNRISQ VETLDSSGKQ ASVFQQLGKN
2701: TKDALNSTED APGDGKAVSK SEHSSRSEES KVQLQSEDKA RVPGTDAPSL ETGHPSNGGL QANSYQDNSS QSQEEASNKS VEQSSGIRNK DNDSSRLDDS
2801: TGSTKTES
0101: VEQWLHNEEH AFNPPSRALF CHLAFPLGEE DDDIDVHTRK LEEVLEVYEQ RLSDSEFLVG NKFTLADLVH LPNSHYIKAS NKFLYLYDSR KNVRRWWDAI
0201: SDRSSWKEVL RYMKNVEEKN KQEELKKQQQ QQEEAPSTDP IRVDSRKQSR TEPRTILVPP ADNESSASIV PRTKKPLPGD HLVSTQQGKS RKNVHQYPSQ
0301: DSELATSHSV PQEPMSMELV QERERTTRRP YTDQSQDVFK EAKVAKSTPS SAKPMYPQQP APTSGHGEVE DTWDKGVKGR ETVPDRQQML QKWAGTAREQ
0401: VSDRWKASPP SRQAAAEDVR GATGDTTQSA DVLDTSKKSR GAYEEAKGPG SVKEEKTSSI YKKKPLVAQD SQEQAQTIPA GEKTDSSIQK HQQASDAPNT
0501: FVEKLNASEP ARVKTHSDFS AEQPYRKDTT DDQKVIPPLS TRELTSQVQP PSKPSYDEKP TPMSQQKSDK QRVEPPIQIE AEISGVQHAS PSFPRASMDD
0601: RATIGDKFAM QSIIDERVGE PTQMQTSSPD AHPASLPTKR ETPEGHEIGD LGLASTPGGQ ISEAKKVGDD PDTVHGDVYY VNLSTQDVGK DAFKEPTVTD
0701: SLPSSAQPIQ KSAITPSRQT QVEEARDKSM QSRETIPEQH KMVERKTGTP GEQLSERQKE IRPSRQSAAE DAPISDAIQP PDILDTPKKS RATFEEYIGP
0801: GSTLPKAQIL DAQDSQVTKG ESTVPTTDQR KDWKYEKDDE TIVTEEKSLS TERSREMFQE SASTAPKTHL TDSGGSNALE KTSSVYHKGP LVAQDSQEEA
0901: QVIPADEKVD GSASEHHESS GTPYSYNEKL SASAPARGDI HDGHSAEEQH KNYTADDQKV APSLSNKEPA SQVQPASEPL QRAVPDGDLP SKSFTIDQWQ
1001: RMAASLHGVI MDSADDEAAI SLNNDQKSRP MNQEAAPSSQ SVNQMAKQSG EQRVEPPVPI VVEASDVRRA APSLPEAART DVATISDKFT EQSNIDERVG
1101: KPKQMQAPIT SAHPASKGTL RRTPDSHEAG ELLSTYEGQR LEAAKASQDP ATIHEDVYDA SLSTNDVAVD KKTATDHAIG DEVVTRSLHD QQTPRPASTQ
1201: AQPTAEAPQD SDSFQYVRTG DVGKTELAKP TVTDQEATAP AAGPTSVDPQ RANIIPAGVA HSEQKSTPPD KGSARVAQPP TPVEPIKEDG NVSAANYTNE
1301: LQMSFQQQAR SSAPTTIGIP ASDTQSVIGK IQVVTPDKHG TDDSGKPFDL NQGHVSHASQ AILGQEELTS PQGARVFPTS DTQQNFAASD EKSDKASKSF
1401: DSAEPREEDT DAATADQTTV PPTDVTRQVT ISTPDASDSV SRDQESSPDD SQTRNLGSPL IASQEEASRA GGEGSTPEVH STIVDEKKTL PSSQAQSSST
1501: GPDSIQIGGD ARLSDAGVPA TSSIEKQEAE PPAETQAPTS KGLQDSGSIE SPRQALTDQT VAPAMNSVAP SDSPEGPNSS RSVQTPYQQA ITKGDTVVTA
1601: ADQAENMQTI TYQQAITPVP YTAKPSFPGA QDASRQETIP DEGPMENYSP KPGAQTQPPA ATLDVSPYAS SKVKSTGQGA KPPTGHQASS PETQLGSSQP
1701: GEDAPAVQKI AASDEKSATA SKPFDSAEPR EEDTDAATAD QMTVPPTNVT RQVTSSTPDV GDTLSRDKES SPDDDQIRNL GSPLIASQEE ASRAGGEGST
1801: PKVHSAIVDE ERTLPSRHDA QTSSTETDST QIDGDARLSG VGMPATSSME KQEAEPPTET QEPTSKGLQD SRNIESPRQA STYKTVTPAM NSAAPSDALE
1901: GTEPGPNSSR SVQTPLSTGP TKGDTVVSAA DQAKDMHTIP YQQDITPSSN TGKPPFQGAQ DASRQEIIPD DGPVGNYSPK PGAQTQPPAA ILDVSPYALS
2001: KAKSTGQGAK TPTGHQASSP GTQLGSSQTQ GKDTPEEQNI AASDENSANT SKSFDSAEPR GEDIDAATAD QTTVPPANVT RQVISSTPDA SKTLVRDLES
2101: SRDNGQIRNL GSPLIASQEA ASRAGHTSDD GSTPEVHSTI VDEKKTLPSS QEKSSSTGPN STQIGGDARV LATSSIEKQE AEPPAGTQAP ASKGLQDSGN
2201: IKSPRQALTD QIVTPAKNSA APSDALEGTE PGPNSSRSVQ TPLSTGPTKG DTVVTAADEA KDMETITYQQ AITPVSDTAK PPFPGAQDAS RHGSVPDDEP
2301: VGNYSPKQTQ PPAEILDVSP YSLSKAKSTG QGAKTPTGHQ ASSPETQLGS SQTQGEAAPA EQKFAASDEK SAKASKSFDS AEPREDTDAA TTDQTIVPPT
2401: NVTQVTSSTP DASDTLSRVQ ESSPHDGQIR NLGNPLIASQ EEASRAGGEG SLEVHSNIVD EKKTLPSSQA QSSSTGSDST QMGGDAGLSD AGVPATSSIE
2501: KQEAEPPART QAPTSKGLQD IGNIESQGQA LTDQTVAPKM NSAAASDAPE GTELGPNSSR SVQTPFSTEP AEGETNSTNE ESKSQQKVGQ FGTQSFKDNN
2601: KEADGTVRSN ISRSTEELQE PPSRPKGESS EEPENQQLAD QAIVKPLEGN EQQAEQTKPH ETAIAEDSEN TNLKNNRISQ VETLDSSGKQ ASVFQQLGKN
2701: TKDALNSTED APGDGKAVSK SEHSSRSEES KVQLQSEDKA RVPGTDAPSL ETGHPSNGGL QANSYQDNSS QSQEEASNKS VEQSSGIRNK DNDSSRLDDS
2801: TGSTKTES
001: MVLTIYAPLF ASSKRAVVTL VEKGVSFETV NVDLMKGEQR QPEYLAIQPF GKIPVLVDGD YKIFESRAIM RYIAEKYRSQ GPDLLGKTIE ERGQVEQWLD
101: VEATSYHPPL LALTLNIVFA PLMGFPADEK VIKESEEKLA EVLDVYEAQL SKNEYLAGDF VSLADLAHLP FTEYLVGPIG KAHLIKDRKH VSAWWDKISS
201: RAAWKEVSAK YSLPV
101: VEATSYHPPL LALTLNIVFA PLMGFPADEK VIKESEEKLA EVLDVYEAQL SKNEYLAGDF VSLADLAHLP FTEYLVGPIG KAHLIKDRKH VSAWWDKISS
201: RAAWKEVSAK YSLPV
Arabidopsis Description
GSTF10Glutathione S-transferase F10 [Source:UniProtKB/Swiss-Prot;Acc:P42761]
SUBAcon: [endoplasmic reticulum,vacuole]
SUBAcon: [endoplasmic reticulum,vacuole]
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.