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 |
|---|---|---|---|---|
| Zm00001d011981_P007 | Maize | cytosol | 84.96 | 84.36 |
| KXG34019 | Sorghum | cytosol | 83.4 | 83.51 |
| Os01t0924600-01 | Rice | plasma membrane | 19.08 | 64.25 |
| TraesCS3B01G470800.2 | Wheat | cytosol | 63.41 | 63.04 |
| TraesCS3D01G428900.1 | Wheat | cytosol | 61.59 | 62.82 |
| HORVU3Hr1G095420.3 | Barley | cytosol, nucleus | 62.63 | 62.06 |
| TraesCS3A01G436500.1 | Wheat | endoplasmic reticulum, plasma membrane | 62.17 | 62.05 |
| CDY66147 | Canola | nucleus | 3.71 | 33.73 |
| GSMUA_AchrUn_... | Banana | cytosol | 33.27 | 32.08 |
| GSMUA_Achr7P02660_001 | Banana | cytosol | 32.36 | 31.82 |
| GSMUA_Achr4P15970_001 | Banana | cytosol | 33.4 | 31.71 |
| PGSC0003DMT400028024 | Potato | nucleus | 29.95 | 29.79 |
| Solyc05g015920.2.1 | Tomato | nucleus | 29.82 | 29.34 |
| Solyc05g015930.2.1 | Tomato | cytosol | 29.3 | 29.15 |
| VIT_14s0068g01650.t01 | Wine grape | nucleus | 30.34 | 27.99 |
| CDY66146 | Canola | cytosol | 13.09 | 27.72 |
| KRG94582 | Soybean | cytosol | 28.65 | 27.23 |
| KRH06906 | Soybean | cytosol | 28.58 | 27.17 |
| AT1G27430.1 | Thale cress | cytosol | 26.37 | 27.14 |
| PGSC0003DMT400006082 | Potato | cytosol | 12.83 | 26.99 |
| AT1G24300.1 | Thale cress | cytosol | 26.17 | 26.89 |
| CDY11817 | Canola | cytosol | 17.51 | 23.56 |
| Bra010950.1-P | Field mustard | cytosol | 19.4 | 23.54 |
| CDY11819 | Canola | cytosol | 17.38 | 23.26 |
| Bra010951.1-P | Field mustard | cytosol | 15.1 | 21.91 |
| Zm00001d018770_P003 | Maize | cytosol | 16.6 | 14.83 |
| Zm00001d034263_P004 | Maize | cytosol | 9.11 | 14.18 |
Protein Annotations
| EntrezGene:100280040 | Gene3D:3.30.1490.40 | MapMan:35.2 | ProteinID:AQK98485.1 | ProteinID:AQK98492.1 | ProteinID:AQK98495.1 |
| ProteinID:AQK98500.1 | ProteinID:AQK98511.1 | ProteinID:AQK98513.1 | ncoils:Coil | GO:GO:0003674 | GO:GO:0005488 |
| GO:GO:0005515 | InterPro:GYF | InterPro:GYF-like_dom_sf | InterPro:IPR003169 | InterPro:IPR035445 | UniProt:K7V9W1 |
| PFAM:PF02213 | PFscan:PS50829 | PANTHER:PTHR14445 | PANTHER:PTHR14445:SF41 | SMART:SM00444 | SUPFAM:SSF55277 |
| UniParc:UPI0002212882 | EnsemblPlantsGene:Zm00001d011983 | EnsemblPlants:Zm00001d011983_P003 | EnsemblPlants:Zm00001d011983_T003 | SEG:seg | : |
Description
GYF domain-containing protein
Coordinates
chr8:+:165872899..165879655
Molecular Weight (calculated)
170576.0 Da
IEP (calculated)
6.314
GRAVY (calculated)
-0.876
Length
1536 amino acids
Sequence
(BLAST)
(BLAST)
0001: MAERKLDRPS ALGKGGLSLG IEEDRAAAAM GFVDHSKDQH HLDNSIPLSP QWLYAKPADG KISLPHGSSL EPAEKEARML EGTADRKERR RNVFDADSGL
0101: RWLEEERETS LLGRRERKKD VDRDVDNRKI DRRSDNVSAR DNTDPRTAPS SERWNDGSTR SLGNEGRRDA KWSSRWGPDD KEKDSRSDKK VDAEKDETHA
0201: DKQAFTGRLL SESDSRDKWR PRHRQESHSV GTATYRAAPG FGSEKGRVKD SSNVGFAAGR GRGNPNSVAS FNRPSSAGSI GAPAVHGKFA KTAVSFRYPR
0301: GKLLDIYRQK NMMSSFDDAH MKLDEIPSIT LSIAAKPLAF VAPDTVEEAL LEDIRKGKVI SSEGINGTGN KERAKELEEP ASGIDDDKGK ASFAIAGLGQ
0401: EGSSGLISVN DAFYVEGTLP SGVSTSLPKK SLEGNAFSNQ HRITDTQEGL KTAEIKENVD HDLGTKLPDD SNTLFDVPSF EHLQEPPKPY QSNNMDTKVG
0501: GHAIYPEELT LYYLDPQGGV QGPFLGADII SWYEDGYFGL ELPVRLSQFS DDVPFRPLVE VMPHLVQKPQ SRIPVPCDGN SESLESSQSK FESSVRSASS
0601: VRGDQLSNWD TESNAVDPKR GDHEESIPSR SGWLSSPETG KDISNTSNRQ QHIPESVNQD AEEVLYTGRP NSSMGQSLRD LENDHADFQL TPHDPHSVVG
0701: EANLPQHNVP RDSDLSPLGL LWSELEGHPK QPLSSNVLGV NERRNSKPTT PKDILPVNMR QGPLSRMNEV SSVRDEWPAN FGRLDNMNGP NISGRIPQVE
0801: AEHHLNFDGH LLLQQIRREQ QQHQQRQEQL MARSNLEFSG AFPGQVFDSL HQHRQPMNQQ LPDVEHLLRV QFELEQQQQH QLQQEQHQRQ LQQQRQAQFL
0901: QRQQQQQQQQ MILEQLLQQQ LQGSNFGPTN MVDQVLLREH VFNELHQQPH HLQRQHDAAI EQLIQAKFGH GLHREHHNDM LDVLSRSNQR QMLPLEQQIL
1001: LGLQHEHEQQ LQSQQLANAL RQHSGREEEM HLSGVWPMDD AAQFIRSGTS PNQRHGCFDL LENLQRSSSF DHHDHLDRSL SLQERLHMGG LGIHSLERSD
1101: SLPGGGPGPN TDVINALSRH HGLGQLETHG DVYPLGQMPM LPSGVHPQQH RHQEQLPGSH IGRRERHWSD ANGQLQNSLM QSSHINQLQM EVEKQRRNVE
1201: MNLSVDNPHA WAALMNKERN AEQDLSDMIH KKLALQSQQS LGFPDVSVAA SFGHKDHFVQ PVAENPLKSV DMLSFEESLS ERSLYAKSGQ LAQEGSANLG
1301: TLPNSIENTG NFNLRPGSGS MFEQKHFLGI DDVQSDFSET TGGRTSANQL VGSVNELTRG KRQGSSASLA GDDTNFSEEA VSKWSDSGMS KGSSHSLLKR
1401: STSQHSTTSQ SVSADLSVIR LKKAGLASSD ENKMESGLAS VAQGMEGCVI SNKETGAYGM PSATNNPDAS GQSFSEALKS SRKPQLQYDA SESADGGPGG
1501: KGAKKKTKKG KQIDPSLLGF KVHSNRIMMG EIVRDD
0101: RWLEEERETS LLGRRERKKD VDRDVDNRKI DRRSDNVSAR DNTDPRTAPS SERWNDGSTR SLGNEGRRDA KWSSRWGPDD KEKDSRSDKK VDAEKDETHA
0201: DKQAFTGRLL SESDSRDKWR PRHRQESHSV GTATYRAAPG FGSEKGRVKD SSNVGFAAGR GRGNPNSVAS FNRPSSAGSI GAPAVHGKFA KTAVSFRYPR
0301: GKLLDIYRQK NMMSSFDDAH MKLDEIPSIT LSIAAKPLAF VAPDTVEEAL LEDIRKGKVI SSEGINGTGN KERAKELEEP ASGIDDDKGK ASFAIAGLGQ
0401: EGSSGLISVN DAFYVEGTLP SGVSTSLPKK SLEGNAFSNQ HRITDTQEGL KTAEIKENVD HDLGTKLPDD SNTLFDVPSF EHLQEPPKPY QSNNMDTKVG
0501: GHAIYPEELT LYYLDPQGGV QGPFLGADII SWYEDGYFGL ELPVRLSQFS DDVPFRPLVE VMPHLVQKPQ SRIPVPCDGN SESLESSQSK FESSVRSASS
0601: VRGDQLSNWD TESNAVDPKR GDHEESIPSR SGWLSSPETG KDISNTSNRQ QHIPESVNQD AEEVLYTGRP NSSMGQSLRD LENDHADFQL TPHDPHSVVG
0701: EANLPQHNVP RDSDLSPLGL LWSELEGHPK QPLSSNVLGV NERRNSKPTT PKDILPVNMR QGPLSRMNEV SSVRDEWPAN FGRLDNMNGP NISGRIPQVE
0801: AEHHLNFDGH LLLQQIRREQ QQHQQRQEQL MARSNLEFSG AFPGQVFDSL HQHRQPMNQQ LPDVEHLLRV QFELEQQQQH QLQQEQHQRQ LQQQRQAQFL
0901: QRQQQQQQQQ MILEQLLQQQ LQGSNFGPTN MVDQVLLREH VFNELHQQPH HLQRQHDAAI EQLIQAKFGH GLHREHHNDM LDVLSRSNQR QMLPLEQQIL
1001: LGLQHEHEQQ LQSQQLANAL RQHSGREEEM HLSGVWPMDD AAQFIRSGTS PNQRHGCFDL LENLQRSSSF DHHDHLDRSL SLQERLHMGG LGIHSLERSD
1101: SLPGGGPGPN TDVINALSRH HGLGQLETHG DVYPLGQMPM LPSGVHPQQH RHQEQLPGSH IGRRERHWSD ANGQLQNSLM QSSHINQLQM EVEKQRRNVE
1201: MNLSVDNPHA WAALMNKERN AEQDLSDMIH KKLALQSQQS LGFPDVSVAA SFGHKDHFVQ PVAENPLKSV DMLSFEESLS ERSLYAKSGQ LAQEGSANLG
1301: TLPNSIENTG NFNLRPGSGS MFEQKHFLGI DDVQSDFSET TGGRTSANQL VGSVNELTRG KRQGSSASLA GDDTNFSEEA VSKWSDSGMS KGSSHSLLKR
1401: STSQHSTTSQ SVSADLSVIR LKKAGLASSD ENKMESGLAS VAQGMEGCVI SNKETGAYGM PSATNNPDAS GQSFSEALKS SRKPQLQYDA SESADGGPGG
1501: KGAKKKTKKG KQIDPSLLGF KVHSNRIMMG EIVRDD
0001: MAEGKFDLPD DLILSKSSDQ LKELASDNSI PLSPQWLYTK SSESKMDVRS PTPMPMGNPS DPNLKDAWRL DAPEDKKDWK KIVSENETNR RWREEERETG
0101: LLGARKVDRR KTERRIDNVS SRETGEVKTT AASDRWNDVN SRAAVHEPRR DNKWSSRWGP DDKEKEARCE KVEINKDKEE PQSESQSVVS NVRATSERDS
0201: DPRDKWRPRH RMESQSGVPT SYRTAPGFGL DRGRAEGPNL GFTVGRGRAS TIGRGSSTSL IGAGSASAPV FRYPRGKLLD MYRKQKPDPS LGRIPTEMDE
0301: VASITQVALI EPLAFIAPDT EEEASINGIW KGRIISSEVY TSSGEESLGE NSLLKCRIPE SGETKVDGAL LGFMNGDNGS MKNNDSGLLG SHNGGLGAAS
0401: SVPRLNSVAS ESYGSFGAGY QVSHGSPEAV RSVFTKSPVL DGSESVVGSF EQDYMGKLQQ PDVEVDQSEA AMPPEDFLFL YIDPQGVIQG PFIGSDIISW
0501: FEQGFFGTDL QVRLANAPEG TPFQDLGRVM SYLKTESAHA HISNQESELE ETRLKANSDT GLSIAPVAES NDSSSMNGTS RSFSVYNNPS AQDNFQRKSE
0601: SEFYATPPHT EDRSFLDFST QDEEIVFPGR AGVSGYASVK SSTSMHDAFM EVSGQSAIPV ESTKAATQKQ HENKLHPFGV LWSELESSNV PVNLLPNRSY
0701: DAMGEPTGAI DNRPIDSRRN TQVDPNMSLD GLASNRMSQF EHLSNRFNLG DQLSSNQHNQ QQFQNRDMLS HSHIGDQAQD LDYLITLQLQ QQQKIQLQQQ
0801: QKIQLQQQQK IQLQQQQKMQ LQQHQLEQEH QLHQKLLQEQ QQSHARQLHY QQILQGQTPD SRFGQSHDFP RSNNVDQMLL EHQLMNELQK SSGHPSQNFA
0901: PYIEQLAAGN FGQLPHEGHQ RELLEQLLST KMQSQYGPMQ SPYGQLQSEP TRSLEYQLLQ QEQLMQLANG VRHNTLLEEQ RHIDPLWPSD HNDQLLRSHP
1001: GIQRSRSSTG FRQLDFHQQQ QRPPFEDQFG QLERNLLYQQ QLRQELFEQG LPFERSASLP VSVSGMNLDP VNGLGLSQGL ELRDATTHMQ IGNSTLGFNH
1101: QNPRIPIGEP HFSQLESMEG RWSGADTQVV GDWAESQLHR SNIDAEHHKM RSESRRMGED SNSWMLGGTT EDRSKQLFME LLHQRPGHQS AESPSMNRGQ
1201: SFDRMAPSGL TPGIQTLGGY SDHGGSHNAP STFGARAFSD EQINRSSGDR NNMGSLHRNN SLLSGIIDGG RSTQNETQAF SNMYAMNKDA NDIKTWNNVP
1301: PKNEGMGRMM SFEAQDRMGK QAVLDSLVHG ELPVVTPGQQ SSLNISDQYS DNLVGEDRRK DRLVVPSHGQ NSVLLKRPPS SHSSSSHEGL IERISDTASR
1401: TAASSYSGIE GGVRRESGAA GNKGSTSEAT SFSEMLKKSN SMKKVAAESN DVTEGSKGGG GKKKGKKGRQ IDPALLGFKV TSNRIMGEIH RADDF
0101: LLGARKVDRR KTERRIDNVS SRETGEVKTT AASDRWNDVN SRAAVHEPRR DNKWSSRWGP DDKEKEARCE KVEINKDKEE PQSESQSVVS NVRATSERDS
0201: DPRDKWRPRH RMESQSGVPT SYRTAPGFGL DRGRAEGPNL GFTVGRGRAS TIGRGSSTSL IGAGSASAPV FRYPRGKLLD MYRKQKPDPS LGRIPTEMDE
0301: VASITQVALI EPLAFIAPDT EEEASINGIW KGRIISSEVY TSSGEESLGE NSLLKCRIPE SGETKVDGAL LGFMNGDNGS MKNNDSGLLG SHNGGLGAAS
0401: SVPRLNSVAS ESYGSFGAGY QVSHGSPEAV RSVFTKSPVL DGSESVVGSF EQDYMGKLQQ PDVEVDQSEA AMPPEDFLFL YIDPQGVIQG PFIGSDIISW
0501: FEQGFFGTDL QVRLANAPEG TPFQDLGRVM SYLKTESAHA HISNQESELE ETRLKANSDT GLSIAPVAES NDSSSMNGTS RSFSVYNNPS AQDNFQRKSE
0601: SEFYATPPHT EDRSFLDFST QDEEIVFPGR AGVSGYASVK SSTSMHDAFM EVSGQSAIPV ESTKAATQKQ HENKLHPFGV LWSELESSNV PVNLLPNRSY
0701: DAMGEPTGAI DNRPIDSRRN TQVDPNMSLD GLASNRMSQF EHLSNRFNLG DQLSSNQHNQ QQFQNRDMLS HSHIGDQAQD LDYLITLQLQ QQQKIQLQQQ
0801: QKIQLQQQQK IQLQQQQKMQ LQQHQLEQEH QLHQKLLQEQ QQSHARQLHY QQILQGQTPD SRFGQSHDFP RSNNVDQMLL EHQLMNELQK SSGHPSQNFA
0901: PYIEQLAAGN FGQLPHEGHQ RELLEQLLST KMQSQYGPMQ SPYGQLQSEP TRSLEYQLLQ QEQLMQLANG VRHNTLLEEQ RHIDPLWPSD HNDQLLRSHP
1001: GIQRSRSSTG FRQLDFHQQQ QRPPFEDQFG QLERNLLYQQ QLRQELFEQG LPFERSASLP VSVSGMNLDP VNGLGLSQGL ELRDATTHMQ IGNSTLGFNH
1101: QNPRIPIGEP HFSQLESMEG RWSGADTQVV GDWAESQLHR SNIDAEHHKM RSESRRMGED SNSWMLGGTT EDRSKQLFME LLHQRPGHQS AESPSMNRGQ
1201: SFDRMAPSGL TPGIQTLGGY SDHGGSHNAP STFGARAFSD EQINRSSGDR NNMGSLHRNN SLLSGIIDGG RSTQNETQAF SNMYAMNKDA NDIKTWNNVP
1301: PKNEGMGRMM SFEAQDRMGK QAVLDSLVHG ELPVVTPGQQ SSLNISDQYS DNLVGEDRRK DRLVVPSHGQ NSVLLKRPPS SHSSSSHEGL IERISDTASR
1401: TAASSYSGIE GGVRRESGAA GNKGSTSEAT SFSEMLKKSN SMKKVAAESN DVTEGSKGGG GKKKGKKGRQ IDPALLGFKV TSNRIMGEIH RADDF
Arabidopsis Description
GYF domain-containing protein [Source:UniProtKB/TrEMBL;Acc:F4I983]
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.