Subcellular Localization
min:
: max
Winner_takes_all: plastid
Predictor Summary:
Predictor Summary:
- plastid 5
- mitochondrion 2
- extracellular 1
- endoplasmic reticulum 1
- vacuole 1
- plasma membrane 1
- golgi 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 |
|---|---|---|---|---|
| Bra013803.1-P | Field mustard | cytosol | 84.41 | 96.09 |
| CDY61008 | Canola | plastid | 87.71 | 85.82 |
| AT4G24450.3 | Thale cress | cytosol | 74.45 | 84.82 |
| GSMUA_Achr9P15680_001 | Banana | cytosol | 44.85 | 50.23 |
| CDY68027 | Canola | cytosol, plastid | 6.25 | 43.54 |
| CDY20604 | Canola | plastid | 40.59 | 43.01 |
| CDY20967 | Canola | plastid | 40.38 | 42.86 |
| CDY34849 | Canola | plastid | 40.59 | 42.83 |
| CDY66790 | Canola | plastid | 40.52 | 42.75 |
| CDY28368 | Canola | nucleus | 9.34 | 35.79 |
| CDY16889 | Canola | cytosol, mitochondrion | 9.27 | 35.16 |
| CDY16527 | Canola | nucleus | 9.07 | 32.75 |
| CDX99058 | Canola | nucleus | 9.41 | 32.46 |
| CDY56650 | Canola | nucleus | 9.27 | 31.76 |
| CDY08936 | Canola | nucleus | 1.3 | 17.92 |
| CDY24839 | Canola | nucleus | 1.3 | 17.92 |
| CDY19771 | Canola | plastid | 14.29 | 17.64 |
| CDX87051 | Canola | plastid | 14.08 | 17.34 |
| CDY65142 | Canola | plastid | 13.94 | 15.44 |
| CDY05529 | Canola | plastid | 13.8 | 15.32 |
Protein Annotations
| Gene3D:1.10.287.190 | MapMan:15.3.5.1.2 | Gene3D:2.30.18.10 | MapMan:3.2.3.1.1 | Gene3D:3.30.1490.20 | Gene3D:3.30.470.20 |
| GO:A0A078J2X4 | UniProt:A0A078J2X4 | InterPro:ATP_grasp_subdomain_1 | EnsemblPlants:CDY56576 | ProteinID:CDY56576 | ProteinID:CDY56576.1 |
| ncoils:Coil | GO:GO:0000166 | GO:GO:0003674 | GO:GO:0003824 | GO:GO:0005488 | GO:GO:0005524 |
| GO:GO:0005575 | GO:GO:0005622 | GO:GO:0005623 | GO:GO:0005634 | GO:GO:0005654 | GO:GO:0005672 |
| GO:GO:0006139 | GO:GO:0006367 | GO:GO:0008150 | GO:GO:0008152 | GO:GO:0009058 | GO:GO:0009987 |
| GO:GO:0016301 | GO:GO:0016310 | GO:GO:0016740 | EnsemblPlantsGene:GSBRNA2T00019755001 | InterPro:IPR009083 | InterPro:IPR009088 |
| InterPro:IPR013815 | PFAM:PD009224 | PFAM:PF01326 | PFAM:PF02268 | PFAM:PF02751 | InterPro:PPDK_PEP-bd |
| PANTHER:PTHR22931 | PANTHER:PTHR22931:SF1 | SUPFAM:SSF47396 | SUPFAM:SSF50784 | SUPFAM:SSF56059 | InterPro:TFIIA_a-hlx |
| InterPro:TFIIA_b-brl | InterPro:TFIIA_gsu_C | InterPro:TFIIA_gsu_N | UniParc:UPI0004EF4575 | SEG:seg | : |
Description
BnaC01g41540DBnaC01g41540D protein [Source:UniProtKB/TrEMBL;Acc:A0A078J2X4]
Coordinates
chrLK033500:-:15359..24432
Molecular Weight (calculated)
164930.0 Da
IEP (calculated)
8.648
GRAVY (calculated)
-0.272
Length
1456 amino acids
Sequence
(BLAST)
(BLAST)
0001: MSFVLAHIIF FRFNFIKRYK SPNSFSSLKR QIPSQSTNGS SCIHRHPLSF RRRSSIVEEV EIMATFELYR RSTIGMCLTE TLDEMVQSGT LSPELAIQVL
0101: VQFDKSMTEA LESQVKTKVS IKGHLHTYRF CDNVWTFILQ DAMFKNDDRQ ENVSRVKIVA CDSKLLTQCF HQSRREYDSS AMATSKSHSF QLIEGMELEI
0201: TVTGLPNGSS VRTEFHLKNC NRTWILHWGC IYQGNNNWFV PSEHSTKQGA LQTPFVKSGN DYVVILELRD PKVRAVEFVL KDGNRNRWLK QHTGNFRVEI
0301: PWNELHAHHR IPKNLIERRA YTIWDRKGRP QNTALEQQMD YENAIRELQA DLARGISIDD LQANSSIPVE KAVISEPKQK MNLHQPSHRR KHDVQKWLQK
0401: YAEPITKNAS VNSSALAELL KKSVGQENVV SQKSFHVRNY EIAVLQKNVN GDCRLLVATN MAGPTVLHWG VAKSSAGEWL TPPPDVLPEK SKIVHGACQT
0501: YFTDMSSREH SYQLIDINFK RSGFVGIQFV IWSGSHWVNN NGANFAVNLK SLNSTSVKLG VDGKYILKWL LDEIAEREKE AERSLMHRFN IATELTERCK
0601: DEGEGGCIGI MVWMKFMATR HLTWNKNYNV KPREISEALE RFTNLMEKIY LQQPYKREIV RLTMALVGRG GQGDVGQRIR DEILVIQRNN HCKSGMMEEW
0701: HQKLHNNSSA DDVIICEALL NYVRSDFRID AYWKTLKANG ITKERLASYD RPIVSEPRFK SDAKEGLIRD LTMYLKTLKA VHSGADLESA IDTFLSPSKG
0801: HNVFALNGLS PNSVKRLVRE ENTAPLIEKL VDARIELHPA LRAPRARAKD LLFLDIALES CFKTTIEKRL ISLNFNNPPE VVFVICVVLE NLCLSTFNNE
0901: EDCYRVSETY RAHDVEWALQ TKAVLDRLQL VLADRCQHYL RLIQPSANYL GQMLRVDKHG IDVFTEEVVR AGPGAVLSTL VNRFDPCLRK IANLGCWQVI
1001: SSADAYGFLV CVNELITVQS KVYSKPTVII ACKVTGEEEI PDGVVAVLTP SLIDVLSHVS IRARNSKACT IVYICFATCF DQNVLRNLKS KEGREISIHI
1101: NSTGLVISDG NNSDGHVRHI YISSVSHGVI SKRKKFCSNY VISSKEFTSE MVGSKSCNIK FLRERVPSWI KIPTSVALPF GTFECALSDD SNKDVAHKIS
1201: ALKVSLNRGD MTKLKAIQEA VLQMNAPVPL KNELIHKLRS ERMSYHGDES SWNRSWMAIK KVWASKWNER AYISCKKTRV DHDAVCMAVL VQEVICGDYA
1301: FVIHTNNPVT GDPLEIYTEI VKGLGETLVG GYPGRAMSFI TKKTNLKSPT VISYPSKRIG LYSKPSVIFR SDSNNEDLEG YAGAGLYDSV IMDEAEEVVV
1401: DYSREQLIVD KAFQVRLFSA IAEAGNVIET LYGCPQDIEG VVKGGIIYVV QARPQL
0101: VQFDKSMTEA LESQVKTKVS IKGHLHTYRF CDNVWTFILQ DAMFKNDDRQ ENVSRVKIVA CDSKLLTQCF HQSRREYDSS AMATSKSHSF QLIEGMELEI
0201: TVTGLPNGSS VRTEFHLKNC NRTWILHWGC IYQGNNNWFV PSEHSTKQGA LQTPFVKSGN DYVVILELRD PKVRAVEFVL KDGNRNRWLK QHTGNFRVEI
0301: PWNELHAHHR IPKNLIERRA YTIWDRKGRP QNTALEQQMD YENAIRELQA DLARGISIDD LQANSSIPVE KAVISEPKQK MNLHQPSHRR KHDVQKWLQK
0401: YAEPITKNAS VNSSALAELL KKSVGQENVV SQKSFHVRNY EIAVLQKNVN GDCRLLVATN MAGPTVLHWG VAKSSAGEWL TPPPDVLPEK SKIVHGACQT
0501: YFTDMSSREH SYQLIDINFK RSGFVGIQFV IWSGSHWVNN NGANFAVNLK SLNSTSVKLG VDGKYILKWL LDEIAEREKE AERSLMHRFN IATELTERCK
0601: DEGEGGCIGI MVWMKFMATR HLTWNKNYNV KPREISEALE RFTNLMEKIY LQQPYKREIV RLTMALVGRG GQGDVGQRIR DEILVIQRNN HCKSGMMEEW
0701: HQKLHNNSSA DDVIICEALL NYVRSDFRID AYWKTLKANG ITKERLASYD RPIVSEPRFK SDAKEGLIRD LTMYLKTLKA VHSGADLESA IDTFLSPSKG
0801: HNVFALNGLS PNSVKRLVRE ENTAPLIEKL VDARIELHPA LRAPRARAKD LLFLDIALES CFKTTIEKRL ISLNFNNPPE VVFVICVVLE NLCLSTFNNE
0901: EDCYRVSETY RAHDVEWALQ TKAVLDRLQL VLADRCQHYL RLIQPSANYL GQMLRVDKHG IDVFTEEVVR AGPGAVLSTL VNRFDPCLRK IANLGCWQVI
1001: SSADAYGFLV CVNELITVQS KVYSKPTVII ACKVTGEEEI PDGVVAVLTP SLIDVLSHVS IRARNSKACT IVYICFATCF DQNVLRNLKS KEGREISIHI
1101: NSTGLVISDG NNSDGHVRHI YISSVSHGVI SKRKKFCSNY VISSKEFTSE MVGSKSCNIK FLRERVPSWI KIPTSVALPF GTFECALSDD SNKDVAHKIS
1201: ALKVSLNRGD MTKLKAIQEA VLQMNAPVPL KNELIHKLRS ERMSYHGDES SWNRSWMAIK KVWASKWNER AYISCKKTRV DHDAVCMAVL VQEVICGDYA
1301: FVIHTNNPVT GDPLEIYTEI VKGLGETLVG GYPGRAMSFI TKKTNLKSPT VISYPSKRIG LYSKPSVIFR SDSNNEDLEG YAGAGLYDSV IMDEAEEVVV
1401: DYSREQLIVD KAFQVRLFSA IAEAGNVIET LYGCPQDIEG VVKGGIIYVV QARPQL
0001: MATSKSQQFQ LIEGMELQIT VTGLPNGSSV RAEFHLKNCT RAWILHWGCI YQGNNHWYIP SEHSSKQGAL QTTFVKSGDA YVVILELRDP RVRAIEFVLK
0101: DGSHNRWLRQ HNGNFRVEIP WNDLHAHHRI PKTLIERRAH KIWDRKGRPQ SSAREQQIDY DNAVRELHAE LARGISLDEL QANSTVPVEK EETSEPHHTM
0201: IQSYRRKHDV QKWLQKYTEP INRSGSVKSS ALAELSKRSV GQENLVSQKS FHVRNYEITV LQRDVKGDCR LWIATNMAGP TVLHWGVAKS SAGEWLIPPP
0301: DVLPEKSKFV HGACQTQFTD MSSREHSYQF IDINLKRGGF VGIQFVIWSG GYWVNNNGAN FVVNLKSADS TSGKLDVDEK YVLKWLLDEI SEREKEAERS
0401: LMHRFNIATE LTERCKDEGE GGCIGIMVWM RFMATRHLTW NKNYNVKPRE ISEALERFTN LMEKIYLQQP NKREIVRLTM ALVGRGGQGD VGQRIRDEIL
0501: VIQRNNHCKS GMMEEWHQKL HNNSSADDVI ICEALLNYVR SDFRIDAYWQ TLQTNGLTKE RLASYDRPIV SEPRFRSDSK EGLIRDLTMY LKTLKAVHSG
0601: ADLESAIDTF LSPSKGHHVF AVNGLSPKLQ DLLNLVKRLV REENTEPLIE KLVDARIQLH PALRAPRTRA KDLLFLDIAL ESCFKTTIEK RLISLNFNNP
0701: PEIIYVICVV LENLCLSIVN NEEIIFCTKD WYRVSEAYRP HDVQWALQTK AVLDRLQLVL ADRCQHYFTI IQPTAKYLGQ LLRVDKHGID VFTEEVIRAG
0801: PGAVLSTLVN RFDPSLRKIA NLGCWQVISS ADAYGFVVCV NELIVVQNKF YSKPTVIIAS KVTGEEEIPA GVVAVLTPSM IDVLSHVSIR ARNSKICFAT
0901: CFDQNVLSNL KSKEGRAISI HTKSTGLVIS DGNNSDVSVR HIFISSVPRG VISKGKKFCG HYVISSKEFT DERVGSKSYN IKFLRERVPS WIKIPTSAAL
1001: PFGTFENILS DDSNKDVARR ISVLKDSLNR GDLTKLKSIQ EAILQMSAPM ALRNELITKL RSERMPYLGD ESGWNRSWVA IKKVWASKWN ERAYVSCKKN
1101: KLDHDAVCMA VLIQEVICGD YAFVIHTNNP VSGDSSEIYT EIVKGLGETL VGAYPGRAMS FITKKTNLKS PTVISYPSKR IGLYSKPSII FRSDSNNEDL
1201: EGNAGAGLYD SVIMDEAEEV VVDYSREPLI MDKSFRVRLF SAIAEAGNVI ESIYGCPQDI EGVVKGGHIY IVQARPQV
0101: DGSHNRWLRQ HNGNFRVEIP WNDLHAHHRI PKTLIERRAH KIWDRKGRPQ SSAREQQIDY DNAVRELHAE LARGISLDEL QANSTVPVEK EETSEPHHTM
0201: IQSYRRKHDV QKWLQKYTEP INRSGSVKSS ALAELSKRSV GQENLVSQKS FHVRNYEITV LQRDVKGDCR LWIATNMAGP TVLHWGVAKS SAGEWLIPPP
0301: DVLPEKSKFV HGACQTQFTD MSSREHSYQF IDINLKRGGF VGIQFVIWSG GYWVNNNGAN FVVNLKSADS TSGKLDVDEK YVLKWLLDEI SEREKEAERS
0401: LMHRFNIATE LTERCKDEGE GGCIGIMVWM RFMATRHLTW NKNYNVKPRE ISEALERFTN LMEKIYLQQP NKREIVRLTM ALVGRGGQGD VGQRIRDEIL
0501: VIQRNNHCKS GMMEEWHQKL HNNSSADDVI ICEALLNYVR SDFRIDAYWQ TLQTNGLTKE RLASYDRPIV SEPRFRSDSK EGLIRDLTMY LKTLKAVHSG
0601: ADLESAIDTF LSPSKGHHVF AVNGLSPKLQ DLLNLVKRLV REENTEPLIE KLVDARIQLH PALRAPRTRA KDLLFLDIAL ESCFKTTIEK RLISLNFNNP
0701: PEIIYVICVV LENLCLSIVN NEEIIFCTKD WYRVSEAYRP HDVQWALQTK AVLDRLQLVL ADRCQHYFTI IQPTAKYLGQ LLRVDKHGID VFTEEVIRAG
0801: PGAVLSTLVN RFDPSLRKIA NLGCWQVISS ADAYGFVVCV NELIVVQNKF YSKPTVIIAS KVTGEEEIPA GVVAVLTPSM IDVLSHVSIR ARNSKICFAT
0901: CFDQNVLSNL KSKEGRAISI HTKSTGLVIS DGNNSDVSVR HIFISSVPRG VISKGKKFCG HYVISSKEFT DERVGSKSYN IKFLRERVPS WIKIPTSAAL
1001: PFGTFENILS DDSNKDVARR ISVLKDSLNR GDLTKLKSIQ EAILQMSAPM ALRNELITKL RSERMPYLGD ESGWNRSWVA IKKVWASKWN ERAYVSCKKN
1101: KLDHDAVCMA VLIQEVICGD YAFVIHTNNP VSGDSSEIYT EIVKGLGETL VGAYPGRAMS FITKKTNLKS PTVISYPSKR IGLYSKPSII FRSDSNNEDL
1201: EGNAGAGLYD SVIMDEAEEV VVDYSREPLI MDKSFRVRLF SAIAEAGNVI ESIYGCPQDI EGVVKGGHIY IVQARPQV
Arabidopsis Description
GWD2Alpha-glucan water dikinase 2 [Source:UniProtKB/Swiss-Prot;Acc:Q9STV0]
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.