Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- plastid 2
- cytosol 2
- extracellular 1
- 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 |
|---|---|---|---|---|
| VIT_15s0048g01120.t01 | Wine grape | cytosol | 38.36 | 74.74 |
| VIT_15s0048g01130.t01 | Wine grape | extracellular, mitochondrion, plasma membrane, plastid | 39.85 | 70.81 |
| VIT_15s0048g01180.t01 | Wine grape | extracellular | 36.66 | 70.4 |
| PGSC0003DMT400000380 | Potato | cytosol | 32.99 | 66.12 |
| Solyc01g091920.2.1 | Tomato | extracellular | 33.4 | 64.91 |
| KRH70486 | Soybean | nucleus | 33.06 | 63.08 |
| KRH01628 | Soybean | nucleus | 30.62 | 62.38 |
| GSMUA_Achr8P12040_001 | Banana | extracellular, vacuole | 23.08 | 57.24 |
| Bra033226.1-P | Field mustard | extracellular, plasma membrane | 28.31 | 55.09 |
| AT1G01900.1 | Thale cress | extracellular, plasma membrane | 28.78 | 54.78 |
| CDX90065 | Canola | extracellular, plasma membrane | 27.83 | 54.38 |
| CDY15145 | Canola | extracellular, plasma membrane | 28.31 | 54.3 |
| VIT_09s0002g01040.t01 | Wine grape | extracellular | 24.58 | 46.95 |
| VIT_07s0129g00490.t01 | Wine grape | extracellular | 24.3 | 46.68 |
| VIT_09s0002g01030.t01 | Wine grape | endoplasmic reticulum, extracellular, golgi | 24.71 | 46.19 |
| VIT_07s0005g04410.t01 | Wine grape | extracellular, plasma membrane | 23.96 | 46.08 |
| VIT_11s0016g00960.t01 | Wine grape | extracellular, vacuole | 23.76 | 45.99 |
| VIT_18s0001g09360.t01 | Wine grape | extracellular | 23.83 | 45.88 |
| VIT_16s0022g02200.t01 | Wine grape | extracellular, vacuole | 24.1 | 45.87 |
| VIT_03s0038g02230.t01 | Wine grape | extracellular | 23.76 | 45.22 |
| VIT_00s0878g00010.t01 | Wine grape | cytosol, nucleus | 17.45 | 44.77 |
| VIT_07s0005g00830.t01 | Wine grape | extracellular, plasma membrane | 21.59 | 42.97 |
| VIT_10s0003g02220.t01 | Wine grape | nucleus | 21.52 | 41.01 |
| VIT_19s0015g01420.t01 | Wine grape | extracellular, plasma membrane | 21.25 | 40.76 |
| VIT_00s0454g00010.t01 | Wine grape | extracellular | 19.28 | 40.75 |
| VIT_00s0454g00040.t01 | Wine grape | cytosol, endoplasmic reticulum, extracellular, golgi, plasma membrane, vacuole | 19.08 | 36.07 |
| VIT_00s0454g00030.t01 | Wine grape | extracellular, plasma membrane | 21.86 | 17.28 |
Protein Annotations
| EntrezGene:100255668 | wikigene:100255668 | MapMan:19.4.2.1.1 | Gene3D:2.60.40.2310 | Gene3D:3.30.70.80 | Gene3D:3.40.50.200 |
| Gene3D:3.50.30.30 | ProteinID:CCB61375 | ProteinID:CCB61375.1 | UniProt:F6I358 | EMBL:FN596739 | GO:GO:0003674 |
| GO:GO:0003824 | GO:GO:0004252 | GO:GO:0006508 | GO:GO:0008150 | GO:GO:0008152 | GO:GO:0016787 |
| GO:GO:0019538 | InterPro:IPR036852 | InterPro:IPR037045 | EntrezGene:LOC100255668 | wikigene:LOC100255668 | InterPro:PA_domain |
| PFAM:PF00082 | PFAM:PF02225 | PFAM:PF05922 | PRINTS:PR00723 | ScanProsite:PS00138 | PANTHER:PTHR10795 |
| PANTHER:PTHR10795:SF387 | InterPro:Peptidase_S8/S53_dom | InterPro:Peptidase_S8/S53_dom_sf | InterPro:Peptidase_S8_Ser-AS | InterPro:Peptidase_S8_subtilisin-rel | InterPro:Peptidases_S8_3 |
| MEROPS:S08.092 | InterPro:S8pro/Inhibitor_I9 | InterPro:S8pro/Inhibitor_I9_sf | SUPFAM:SSF52743 | UniParc:UPI0002109EFC | ArrayExpress:VIT_15s0048g01170 |
| EnsemblPlantsGene:VIT_15s0048g01170 | EnsemblPlants:VIT_15s0048g01170.t01 | RefSeq:XP_002272824 | RefSeq:XP_002272824.2 | SEG:seg | : |
Description
No Description!
Coordinates
chr15:-:15292110..15303630
Molecular Weight (calculated)
157398.0 Da
IEP (calculated)
8.134
GRAVY (calculated)
-0.074
Length
1473 amino acids
Sequence
(BLAST)
(BLAST)
0001: MPNETVISMT SKIIFSTRHS PFLPCYNDID GGMKRPVPSR WKGVCEEGTR FTAKNCNMKL IGARAYYKGY EAAAGKIDET VDFRSARDSQ GHGTHTASTA
0101: AGQMIDGASL FGMAKGVAAG MSSTARIAEY KACYSRGCAS SDILAAIDQA VSDGVDVLSL SIGGSSKPYY TDVLAIASLG AVQHGVFVAA AAGNSGPSSS
0201: TVVNAAPWMM TVAASTMDRS FPAIVNLGNG QTFEGESLYS GKSTEQLPLV YGESAGRAIA KYCSSGTLSP ALVKGKIVVC ERGINGGVEK GQEVEKAGGA
0301: GMLLLNTASQ GEEIRVDPHV LPASALGASA SISIRNYTSS GNPTASIVFK GTVFGKPAPV MASFSSRGPA LKEPYVIKPD VTAPGVNILA AWPPTVSPSK
0401: IKSDNRSVLF NVISGTSMSC PHVGGLAAIL KEAHKEWSPA AIKSALMTTA YTLDNKKAPI SDMRPNSPSA TPFAYGSGHV DPEKASKPGL IYDITYVDYL
0501: YYLCSLNYSS SQMATISRGN FSCPTYTVLQ TGDLNYPSFA VLFKRNSENN SAICKRTVTN VGYPRTAYVA QVHEPEGVPI IVKPKVLKFR RAGQKLSYEV
0601: RFADSGKKSN SSDPSFGSLV WVSIKYTVRS PIAVTWKHDL LGGLVPLYRK RKDSGRRLVI VSWGAHRALS FPTFFAYIRC SSLFSFDHSS TLFGTMVYRI
0701: SLLLLVFVAA ATPTASADKQ TYIVHMDKAK ITALDSMLGD SRKWYEEVMD SITELSTEEE GGEEETSPPQ LLYAYETAIT GFAAKLSTKQ LESLNKVEGF
0801: MSAVPDEILS LHTTHSPQFL GLHPWRGLWF APHFTTDVII GVIDSGIWPE HVSFHDWGMP PVPSRWKGVC EEGTNFTSSN CNKKLIGAKA FFQGYESKRK
0901: KINETEDFRS PRDSLGHGTH TASIAAGNVV PGASLFGMGK GFASGMMYSS RIAVYKACYA LGCFASDVLA AIDQAVSDGV DVLSLSLGGP SRPYYSDPVA
1001: IASLGAVQKG VVVAFPAGNS GPSDLSVFNS APWMMTVAAS SMDRSFSTIV KLGNGEIFHG ASLYSGKSTQ QLLLVYNETA GEEGAQLCNG GTLSPDLVKG
1101: KIVVCDRGND SPVERGNAGK GEVVKMAGGA GMLLLNTDEQ GEELIADPHI LPATSLGASA ANSIRKYLTS GNATASIFFK GTAYGNPAPA VAAFSSRGPA
1201: FVEAYVIKPD VTAPGVNILA AWPPTVSPSG LQSDKRSVTF NVLSGTSMSC PHVSGIAALL KSVHKDWSPA AIKSALMTTA YTQNNKWAPI LDLGFNGSES
1301: ANPFAYGSGH VDPMRASNPG LIYDITHEDY LNYLCSLKYT PEQMALVSRE SFTCPNDTVL QPGDLNYPSF AVVFDSDVLN NSATYRRTVT NVGLPCSTYV
1401: VRVQEPEGVS VRVEPNVLKF RHLNQKLSYR VSFVAERESS SSGEAVFGSL SWVFWKYTVR SPIAVTWQQP EEY
0101: AGQMIDGASL FGMAKGVAAG MSSTARIAEY KACYSRGCAS SDILAAIDQA VSDGVDVLSL SIGGSSKPYY TDVLAIASLG AVQHGVFVAA AAGNSGPSSS
0201: TVVNAAPWMM TVAASTMDRS FPAIVNLGNG QTFEGESLYS GKSTEQLPLV YGESAGRAIA KYCSSGTLSP ALVKGKIVVC ERGINGGVEK GQEVEKAGGA
0301: GMLLLNTASQ GEEIRVDPHV LPASALGASA SISIRNYTSS GNPTASIVFK GTVFGKPAPV MASFSSRGPA LKEPYVIKPD VTAPGVNILA AWPPTVSPSK
0401: IKSDNRSVLF NVISGTSMSC PHVGGLAAIL KEAHKEWSPA AIKSALMTTA YTLDNKKAPI SDMRPNSPSA TPFAYGSGHV DPEKASKPGL IYDITYVDYL
0501: YYLCSLNYSS SQMATISRGN FSCPTYTVLQ TGDLNYPSFA VLFKRNSENN SAICKRTVTN VGYPRTAYVA QVHEPEGVPI IVKPKVLKFR RAGQKLSYEV
0601: RFADSGKKSN SSDPSFGSLV WVSIKYTVRS PIAVTWKHDL LGGLVPLYRK RKDSGRRLVI VSWGAHRALS FPTFFAYIRC SSLFSFDHSS TLFGTMVYRI
0701: SLLLLVFVAA ATPTASADKQ TYIVHMDKAK ITALDSMLGD SRKWYEEVMD SITELSTEEE GGEEETSPPQ LLYAYETAIT GFAAKLSTKQ LESLNKVEGF
0801: MSAVPDEILS LHTTHSPQFL GLHPWRGLWF APHFTTDVII GVIDSGIWPE HVSFHDWGMP PVPSRWKGVC EEGTNFTSSN CNKKLIGAKA FFQGYESKRK
0901: KINETEDFRS PRDSLGHGTH TASIAAGNVV PGASLFGMGK GFASGMMYSS RIAVYKACYA LGCFASDVLA AIDQAVSDGV DVLSLSLGGP SRPYYSDPVA
1001: IASLGAVQKG VVVAFPAGNS GPSDLSVFNS APWMMTVAAS SMDRSFSTIV KLGNGEIFHG ASLYSGKSTQ QLLLVYNETA GEEGAQLCNG GTLSPDLVKG
1101: KIVVCDRGND SPVERGNAGK GEVVKMAGGA GMLLLNTDEQ GEELIADPHI LPATSLGASA ANSIRKYLTS GNATASIFFK GTAYGNPAPA VAAFSSRGPA
1201: FVEAYVIKPD VTAPGVNILA AWPPTVSPSG LQSDKRSVTF NVLSGTSMSC PHVSGIAALL KSVHKDWSPA AIKSALMTTA YTQNNKWAPI LDLGFNGSES
1301: ANPFAYGSGH VDPMRASNPG LIYDITHEDY LNYLCSLKYT PEQMALVSRE SFTCPNDTVL QPGDLNYPSF AVVFDSDVLN NSATYRRTVT NVGLPCSTYV
1401: VRVQEPEGVS VRVEPNVLKF RHLNQKLSYR VSFVAERESS SSGEAVFGSL SWVFWKYTVR SPIAVTWQQP EEY
001: MHRFLLMLLF PFSDNRPMMF FRSFIVFFFL IFFASNVSSR KQTYVIHTVT TSTKHIVTSL FNSLQTENIN DDDFSLPEIH YIYENAMSGF SATLTDDQLD
101: TVKNTKGFIS AYPDELLSLH TTYSHEFLGL EFGIGLWNET SLSSDVIIGL VDTGISPEHV SFRDTHMTPV PSRWRGSCDE GTNFSSSECN KKIIGASAFY
201: KGYESIVGKI NETTDFRSTR DAQGHGTHTA STAAGDIVPK ANYFGQAKGL ASGMRFTSRI AAYKACWALG CASTDVIAAI DRAILDGVDV ISLSLGGSSR
301: PFYVDPIAIA GFGAMQKNIF VSCSAGNSGP TASTVSNGAP WLMTVAASYT DRTFPAIVRI GNRKSLVGSS LYKGKSLKNL PLAFNRTAGE ESGAVFCIRD
401: SLKRELVEGK IVICLRGASG RTAKGEEVKR SGGAAMLLVS TEAEGEELLA DPHVLPAVSL GFSDGKTLLN YLAGAANATA SVRFRGTAYG ATAPMVAAFS
501: SRGPSVAGPE IAKPDIAAPG LNILAGWSPF SSPSLLRSDP RRVQFNIISG TSMACPHISG IAALIKSVHG DWSPAMIKSA IMTTARITDN RNRPIGDRGA
601: AGAESAATAF AFGAGNVDPT RAVDPGLVYD TSTVDYLNYL CSLNYTSERI LLFSGTNYTC ASNAVVLSPG DLNYPSFAVN LVNGANLKTV RYKRTVTNVG
701: SPTCEYMVHV EEPKGVKVRV EPKVLKFQKA RERLSYTVTY DAEASRNSSS SSFGVLVWIC DKYNVRSPIA VTWE
101: TVKNTKGFIS AYPDELLSLH TTYSHEFLGL EFGIGLWNET SLSSDVIIGL VDTGISPEHV SFRDTHMTPV PSRWRGSCDE GTNFSSSECN KKIIGASAFY
201: KGYESIVGKI NETTDFRSTR DAQGHGTHTA STAAGDIVPK ANYFGQAKGL ASGMRFTSRI AAYKACWALG CASTDVIAAI DRAILDGVDV ISLSLGGSSR
301: PFYVDPIAIA GFGAMQKNIF VSCSAGNSGP TASTVSNGAP WLMTVAASYT DRTFPAIVRI GNRKSLVGSS LYKGKSLKNL PLAFNRTAGE ESGAVFCIRD
401: SLKRELVEGK IVICLRGASG RTAKGEEVKR SGGAAMLLVS TEAEGEELLA DPHVLPAVSL GFSDGKTLLN YLAGAANATA SVRFRGTAYG ATAPMVAAFS
501: SRGPSVAGPE IAKPDIAAPG LNILAGWSPF SSPSLLRSDP RRVQFNIISG TSMACPHISG IAALIKSVHG DWSPAMIKSA IMTTARITDN RNRPIGDRGA
601: AGAESAATAF AFGAGNVDPT RAVDPGLVYD TSTVDYLNYL CSLNYTSERI LLFSGTNYTC ASNAVVLSPG DLNYPSFAVN LVNGANLKTV RYKRTVTNVG
701: SPTCEYMVHV EEPKGVKVRV EPKVLKFQKA RERLSYTVTY DAEASRNSSS SSFGVLVWIC DKYNVRSPIA VTWE
Arabidopsis Description
SBTI1.1SBTI1.1 [Source:UniProtKB/TrEMBL;Acc:A0A178W900]
SUBAcon: [plasma membrane,extracellular]
SUBAcon: [plasma membrane,extracellular]
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.