Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- nucleus 3
- cytosol 2
- extracellular 1
- endoplasmic reticulum 1
- vacuole 1
- plasma membrane 1
- golgi 1
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| GSMUA_Achr7P02660_001 | Banana | cytosol | 49.4 | 50.38 |
| GSMUA_Achr4P15970_001 | Banana | cytosol | 49.97 | 49.2 |
| TraesCS3A01G436500.1 | Wheat | endoplasmic reticulum, plasma membrane | 33.58 | 34.76 |
| TraesCS3B01G470800.2 | Wheat | cytosol | 33.46 | 34.5 |
| TraesCS3D01G428900.1 | Wheat | cytosol | 32.58 | 34.46 |
| HORVU3Hr1G095420.3 | Barley | cytosol, nucleus | 33.46 | 34.39 |
| Zm00001d011983_P003 | Maize | cytosol | 32.08 | 33.27 |
| KXG34019 | Sorghum | cytosol | 31.89 | 33.12 |
| Zm00001d011981_P007 | Maize | cytosol | 31.45 | 32.39 |
| PGSC0003DMT400028024 | Potato | nucleus | 30.51 | 31.48 |
| Os01t0924600-01 | Rice | plasma membrane | 8.98 | 31.36 |
| Solyc05g015930.2.1 | Tomato | cytosol | 29.76 | 30.7 |
| Solyc05g015920.2.1 | Tomato | nucleus | 30.01 | 30.62 |
| VIT_14s0068g01650.t01 | Wine grape | nucleus | 31.83 | 30.45 |
| KRG94582 | Soybean | cytosol | 30.19 | 29.76 |
| PGSC0003DMT400006082 | Potato | cytosol | 13.56 | 29.59 |
| CDY66147 | Canola | nucleus | 3.14 | 29.59 |
| KRH06906 | Soybean | cytosol | 29.63 | 29.21 |
| AT1G27430.1 | Thale cress | cytosol | 26.55 | 28.35 |
| CDY66146 | Canola | cytosol | 12.74 | 28.0 |
| AT1G24300.1 | Thale cress | cytosol | 25.49 | 27.16 |
| CDY11819 | Canola | cytosol | 17.33 | 24.04 |
| CDY11817 | Canola | cytosol | 17.07 | 23.82 |
| Bra010950.1-P | Field mustard | cytosol | 18.46 | 23.22 |
| Bra010951.1-P | Field mustard | cytosol | 14.38 | 21.62 |
| GSMUA_Achr4P28310_001 | Banana | cytosol | 16.7 | 16.79 |
| GSMUA_Achr2P13140_001 | Banana | cytosol | 17.39 | 16.3 |
Protein Annotations
| EnsemblPlants:GSMUA_AchrUn_randomP00610_001 | EnsemblPlants:GSMUA_AchrUn_randomT00610_001 | EnsemblPlantsGene:GSMUA_AchrUn_randomG00610_001 | Gene3D:3.30.1490.40 | GO:GO:0003674 | GO:GO:0005488 |
| GO:GO:0005515 | InterPro:GYF | InterPro:GYF-like_dom_sf | InterPro:IPR003169 | InterPro:IPR035445 | PANTHER:PTHR14445 |
| PANTHER:PTHR14445:SF41 | PFAM:PF02213 | PFscan:PS50829 | SEG:seg | SMART:SM00444 | SUPFAM:SSF55277 |
| UniParc:UPI000296680F | UniProt:M0U573 | MapMan:35.2 | : | : | : |
Description
GYF domain containing protein, putative, expressed [Source:GMGC_GENE;Acc:GSMUA_AchrUn_randomG00610_001]
Coordinates
chrchrUn_random:+:2813723..2830284
Molecular Weight (calculated)
177944.0 Da
IEP (calculated)
6.118
GRAVY (calculated)
-0.758
Length
1593 amino acids
Sequence
(BLAST)
(BLAST)
0001: MLQFVSSDLY VLHGADQVTS ENSIPLSPQW LYAKASDSKV ILQGGCQDTR PPNSASSGTL PDIIQKDMWR LDGSQDKKEW IRNASDVDFS RRWREEERET
0101: SLLGRKERKK EGDRETEYRK SDRRPDNILL RESADSRSSP SSDKFYEVPN RGTGNENRRD SKWSSRWGPE DKENEMRTEK KVDAEKEDSH VEKQFFIASF
0201: RPLSGSDSRD KWRPRHRQDV YSGGSSVIRA APGFGLERVS TEDSNMGFAR GRGRSDSVTG LQFGRSSAAG PIGATPVNKA EFRYPRGKLL DIYRKQKMTV
0301: IDATPVRFVE VPPITESSFV TPLAFVIPDA EEEVLLKDIW KGKVMSSEAS SSWERMARDN KIGIGDGDKT LIEKKHARRG PFTNSEELNS DHEERKAVNT
0401: MINLVGFNGL TIKIADHEVF HDKPVSVSNI TNSQINDGQI EVVNVDDESS HVDILKDIKL EGQDLTVSDF NAKLPDESYP LFDSSFVEAI PRINKLKSSK
0501: AEMNLSEQGT PEELSLFYMD PQGDIQGPFL GADIISWFEQ GFFGTDLPVC LSDAPDGTPF QPLGEVMPHL KLEFHSGPDI CSGEKSEPLD ATRSDLESCI
0601: PSSHDTGGSS TTNNQRRALS WYSLDHHGKH DVPENEAFTD PNRNSLSFPS SGTPPGATGG HIFHDLTGRD AEVVLYKGRS MSDMGKQSGK FANDHIALSR
0701: SPNNHHYMVP EAGNTSFASE HIPRENNLDP FGLLWSELEG TQQKLPLSSN IAGSAENLIG NCDSSRNSFP FGLNQTHLNI IPDMFDANNM SQIEAESSHF
0801: GLEQRLLFQQ LQMKELQQQC LLAHQNAEFS GTLLDQVHGP MHQHHHVHQQ PVEDLERMLK FQFEQLRHLD MLQQQHQLHQ QQTQLHEHQI QLLQHRLHHE
0901: PQPQQSQQQM YLERLLHRQL LEAGFGTSNI DPHGINMFDQ VRFRQQLLKE SQQSHNLSLH HDSAIDQHIQ ANLGLNIQRQ SHSGLLDILS HSSQRQVPPI
1001: EQQFLLGLQL DKLQAQLSSP ASTKLSAMEE ERHIGGVWSV GESGQFIRTA LGPHQDFSAR SSQSEFMQAA KGPLFEQRSH VQPNILFHER MQRGPYEQGS
1101: HPIDRLHMHA GTPGPNLELI NALARVQGLD AHEHLNHLHT SGEVGQLPSS VHSHQNQIAN DLTGASMDVS ERHWFEPNRQ LSADLMESHL KHLPIEAEKK
1201: RGISINHSVK DPNVWASFVG NDGSSGHELR DLLHQEMLLQ SQQPLGVYST PSSNEHGDSS WLYSQHGPEH SFNLDMDRVG LSGSMSEGSL FSEVRQPRNE
1301: QLINKNLEGS ANDIESSRRP SLRSGSATLI EQKHFLSDTD YIEREKFVTS LGDASLQSFD FYNLKEVENR KMQGLKGSSR TQSALNMQDS GVMQAIGGGH
1401: EEVNVDKLFR HDLSSKAARG LSFYNYETGT DNAHIEGMGN NMISGDISKG DDNSFLADTC DPHSTSSIAG SDLASKKSAK AKNPTNGSSE GGCLNFGGNS
1501: TSHVSETSMS NKKDLRFRRT SSSSDADVAE PSFSDMLKST KKTMPDPESL EVVSSGKSAK KKGKKGRQID PSLLGFKVHS NRILMGEIQR PDD
0101: SLLGRKERKK EGDRETEYRK SDRRPDNILL RESADSRSSP SSDKFYEVPN RGTGNENRRD SKWSSRWGPE DKENEMRTEK KVDAEKEDSH VEKQFFIASF
0201: RPLSGSDSRD KWRPRHRQDV YSGGSSVIRA APGFGLERVS TEDSNMGFAR GRGRSDSVTG LQFGRSSAAG PIGATPVNKA EFRYPRGKLL DIYRKQKMTV
0301: IDATPVRFVE VPPITESSFV TPLAFVIPDA EEEVLLKDIW KGKVMSSEAS SSWERMARDN KIGIGDGDKT LIEKKHARRG PFTNSEELNS DHEERKAVNT
0401: MINLVGFNGL TIKIADHEVF HDKPVSVSNI TNSQINDGQI EVVNVDDESS HVDILKDIKL EGQDLTVSDF NAKLPDESYP LFDSSFVEAI PRINKLKSSK
0501: AEMNLSEQGT PEELSLFYMD PQGDIQGPFL GADIISWFEQ GFFGTDLPVC LSDAPDGTPF QPLGEVMPHL KLEFHSGPDI CSGEKSEPLD ATRSDLESCI
0601: PSSHDTGGSS TTNNQRRALS WYSLDHHGKH DVPENEAFTD PNRNSLSFPS SGTPPGATGG HIFHDLTGRD AEVVLYKGRS MSDMGKQSGK FANDHIALSR
0701: SPNNHHYMVP EAGNTSFASE HIPRENNLDP FGLLWSELEG TQQKLPLSSN IAGSAENLIG NCDSSRNSFP FGLNQTHLNI IPDMFDANNM SQIEAESSHF
0801: GLEQRLLFQQ LQMKELQQQC LLAHQNAEFS GTLLDQVHGP MHQHHHVHQQ PVEDLERMLK FQFEQLRHLD MLQQQHQLHQ QQTQLHEHQI QLLQHRLHHE
0901: PQPQQSQQQM YLERLLHRQL LEAGFGTSNI DPHGINMFDQ VRFRQQLLKE SQQSHNLSLH HDSAIDQHIQ ANLGLNIQRQ SHSGLLDILS HSSQRQVPPI
1001: EQQFLLGLQL DKLQAQLSSP ASTKLSAMEE ERHIGGVWSV GESGQFIRTA LGPHQDFSAR SSQSEFMQAA KGPLFEQRSH VQPNILFHER MQRGPYEQGS
1101: HPIDRLHMHA GTPGPNLELI NALARVQGLD AHEHLNHLHT SGEVGQLPSS VHSHQNQIAN DLTGASMDVS ERHWFEPNRQ LSADLMESHL KHLPIEAEKK
1201: RGISINHSVK DPNVWASFVG NDGSSGHELR DLLHQEMLLQ SQQPLGVYST PSSNEHGDSS WLYSQHGPEH SFNLDMDRVG LSGSMSEGSL FSEVRQPRNE
1301: QLINKNLEGS ANDIESSRRP SLRSGSATLI EQKHFLSDTD YIEREKFVTS LGDASLQSFD FYNLKEVENR KMQGLKGSSR TQSALNMQDS GVMQAIGGGH
1401: EEVNVDKLFR HDLSSKAARG LSFYNYETGT DNAHIEGMGN NMISGDISKG DDNSFLADTC DPHSTSSIAG SDLASKKSAK AKNPTNGSSE GGCLNFGGNS
1501: TSHVSETSMS NKKDLRFRRT SSSSDADVAE PSFSDMLKST KKTMPDPESL EVVSSGKSAK KKGKKGRQID PSLLGFKVHS NRILMGEIQR PDD
0001: MAEGKFDLPD DLIFSKSSDQ LKELASDNSI PLSPQWLYTK SSEYKMDVRS PTPVPMGNPS DPNPKDAWRL DAPEDKKDWK KIVHENETSR RWREEERETG
0101: LLGARKVDRR KTERRIDSVS SRETGDIKNA AASDRWNDVN SRAAVHEPRR DNKWSSRWGP DDKEKEARCE KVDINKDKEE PQSESQSVVS NVRATSERDS
0201: DTRDKWRPRH RMESQSGGPS SYRAAPGFGL DRGRAEGPNL GFTVGRGRAS TIGRGSSTSL IGAGSALSPV FRYPRGKLLD MYRKQKPDSS LGRILTEMDE
0301: VASITQVALI EPLAFIAPDA EEEANLNGIW KGRIISSEVY TSSGEESLGG NSLLKCRIPE SGETKVDGAL LGFMNGDNGS MKNNDSGLLG SHNGGLGAAS
0401: SVPRLNSVAS ESYGSGGAGY QLSHGSPEAV RSVFTKSSVL DGSESVVGSF EQAYTGKLQQ PDTEVDHSEG AMPPEEFLFL YIDPQGVIQG PFIGSDIISW
0501: FEQGFFGTDL QVRLASAPEG TPFQDLGRVM SYIKAESVHA HISDQKSELE ETSLKANSEA GGSVAHVAES NDSSSLTGIS RSFSVYNNPS GQDNFQRKSE
0601: SEVYGRPPHA EDQSFLDFSA QDEEIVFPGR ARVSGYASSV KSSTSMHDAL MEFSGHSDIP VEVTTAATRN QNENKLHPFG VLWSELEGGS TPVNPLPNRS
0701: SGAMGEPSCS IENRPINSRR NSQIDPNISL DALSGNRMSQ FEHESNFFNH GDQLPSNQHH QQHFQNRDML SHLHIGDQDL EHLITLQLQQ QQKIQMQQQQ
0801: KIQLQQQQKI QLQQHQLEQE HQLHQKLLQE QQQSHARQLH FQQILQGQTP DTRFGQSHDF PRSNSVDQML LEQQMLNELQ KSSGHPSQNF APYIEQHAAG
0901: NFGRFTHEGH QRELLEQLFS TQMQSQYGQK QSQYGQMQSQ HGQLQSEPIR SLEYQLLQQE QLMQLANGVR HNTLLEEQRH IDPLWPSDHS DQLLRTHPGI
1001: HRSHSSAGFR PLDFHQQQQR PHFEDQFSQL ERNRSYQQQL RLELLEHGLP FERSASGLNL DAVNGLGLSQ GLELRDATAH MQSSGRLGNS TPGFSHQNPR
1101: IPLGESHFSH LEPTEGRWSG ADTQLAGDWA ESQFRRSNMD TEHDKMRSEI RRLGEDPNSW MVGGSTDDKS KQLFMELLHQ RPGHQSAESP NMNRGYPYDR
1201: MVPSGLTPGI QTLGGLSDHG GNQNVSSAFG DRSFSDEQVN RVPGYGNNMG SLHHNSSLLS GIIDAGRSTQ NETQAFSNMF GMNKDANDIN TWNNVPPKNE
1301: GMGRMMSYDA QDRMGKQAVL DSLIQEELPV GTPGQQSSFN ISDRYSDNLV GEDRRKDRLV VPSHGQNSVL LKRPPSSHSS SSHEGLLERM SDTASRAAAS
1401: SYSGIEGGVR RESGAAGNKG STSEAASFSE MLKKSNSMKK VAAESTDATE GSKGGGGKKK GKKGRQIDPA LLGFKVTSNR ILMGEIHRAD DF
0101: LLGARKVDRR KTERRIDSVS SRETGDIKNA AASDRWNDVN SRAAVHEPRR DNKWSSRWGP DDKEKEARCE KVDINKDKEE PQSESQSVVS NVRATSERDS
0201: DTRDKWRPRH RMESQSGGPS SYRAAPGFGL DRGRAEGPNL GFTVGRGRAS TIGRGSSTSL IGAGSALSPV FRYPRGKLLD MYRKQKPDSS LGRILTEMDE
0301: VASITQVALI EPLAFIAPDA EEEANLNGIW KGRIISSEVY TSSGEESLGG NSLLKCRIPE SGETKVDGAL LGFMNGDNGS MKNNDSGLLG SHNGGLGAAS
0401: SVPRLNSVAS ESYGSGGAGY QLSHGSPEAV RSVFTKSSVL DGSESVVGSF EQAYTGKLQQ PDTEVDHSEG AMPPEEFLFL YIDPQGVIQG PFIGSDIISW
0501: FEQGFFGTDL QVRLASAPEG TPFQDLGRVM SYIKAESVHA HISDQKSELE ETSLKANSEA GGSVAHVAES NDSSSLTGIS RSFSVYNNPS GQDNFQRKSE
0601: SEVYGRPPHA EDQSFLDFSA QDEEIVFPGR ARVSGYASSV KSSTSMHDAL MEFSGHSDIP VEVTTAATRN QNENKLHPFG VLWSELEGGS TPVNPLPNRS
0701: SGAMGEPSCS IENRPINSRR NSQIDPNISL DALSGNRMSQ FEHESNFFNH GDQLPSNQHH QQHFQNRDML SHLHIGDQDL EHLITLQLQQ QQKIQMQQQQ
0801: KIQLQQQQKI QLQQHQLEQE HQLHQKLLQE QQQSHARQLH FQQILQGQTP DTRFGQSHDF PRSNSVDQML LEQQMLNELQ KSSGHPSQNF APYIEQHAAG
0901: NFGRFTHEGH QRELLEQLFS TQMQSQYGQK QSQYGQMQSQ HGQLQSEPIR SLEYQLLQQE QLMQLANGVR HNTLLEEQRH IDPLWPSDHS DQLLRTHPGI
1001: HRSHSSAGFR PLDFHQQQQR PHFEDQFSQL ERNRSYQQQL RLELLEHGLP FERSASGLNL DAVNGLGLSQ GLELRDATAH MQSSGRLGNS TPGFSHQNPR
1101: IPLGESHFSH LEPTEGRWSG ADTQLAGDWA ESQFRRSNMD TEHDKMRSEI RRLGEDPNSW MVGGSTDDKS KQLFMELLHQ RPGHQSAESP NMNRGYPYDR
1201: MVPSGLTPGI QTLGGLSDHG GNQNVSSAFG DRSFSDEQVN RVPGYGNNMG SLHHNSSLLS GIIDAGRSTQ NETQAFSNMF GMNKDANDIN TWNNVPPKNE
1301: GMGRMMSYDA QDRMGKQAVL DSLIQEELPV GTPGQQSSFN ISDRYSDNLV GEDRRKDRLV VPSHGQNSVL LKRPPSSHSS SSHEGLLERM SDTASRAAAS
1401: SYSGIEGGVR RESGAAGNKG STSEAASFSE MLKKSNSMKK VAAESTDATE GSKGGGGKKK GKKGRQIDPA LLGFKVTSNR ILMGEIHRAD DF
Arabidopsis Description
GYF domain-containing protein [Source:UniProtKB/TrEMBL;Acc:F4HSW8]
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.