Subcellular Localization
min:
: max
Winner_takes_all: cytosol
Predictor Summary:
Predictor Summary:
- nucleus 1
- cytosol 3
- plastid 1
Predictors | GFP | MS/MS | Papers | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
locus | Identity | Homology Identity |
---|
Ortholog
locus | Homology Species | Location | Identity | Homology Identity |
---|---|---|---|---|
CDX89082 | Canola | cytosol | 98.76 | 98.76 |
Bra014466.1-P | Field mustard | cytosol | 98.64 | 98.64 |
AT3G60860.1 | Thale cress | cytosol | 91.46 | 90.24 |
KRH00582 | Soybean | extracellular, golgi | 10.8 | 79.92 |
VIT_15s0048g00800.t01 | Wine grape | cytosol | 78.18 | 77.74 |
KRH00580 | Soybean | cytosol | 76.71 | 76.11 |
KRH65253 | Soybean | cytosol | 76.09 | 75.53 |
KRH40586 | Soybean | cytosol | 75.86 | 75.22 |
KRH76287 | Soybean | cytosol | 76.65 | 75.0 |
Solyc01g091460.2.1 | Tomato | extracellular | 75.13 | 74.75 |
PGSC0003DMT400033251 | Potato | cytosol | 74.9 | 74.52 |
CDY38039 | Canola | cytosol | 71.11 | 71.76 |
GSMUA_Achr5P18830_001 | Banana | cytosol | 68.74 | 71.03 |
GSMUA_Achr8P19420_001 | Banana | cytosol | 69.3 | 70.38 |
HORVU4Hr1G063180.1 | Barley | plastid | 69.02 | 68.29 |
EER92558 | Sorghum | cytosol | 69.19 | 68.23 |
TraesCS4D01G225300.1 | Wheat | golgi, unclear | 68.91 | 68.18 |
Zm00001d028438_P002 | Maize | plastid | 69.08 | 68.08 |
TraesCS4A01G067400.1 | Wheat | plastid | 68.74 | 68.01 |
TraesCS4B01G224700.1 | Wheat | plastid | 68.0 | 67.28 |
Os03t0246800-02 | Rice | plasma membrane | 25.66 | 63.76 |
KRH00583 | Soybean | endoplasmic reticulum, vacuole | 5.2 | 62.59 |
CDY59102 | Canola | cytosol, mitochondrion, plastid | 46.47 | 48.52 |
CDY54791 | Canola | mitochondrion, nucleus, plastid | 46.35 | 48.41 |
CDX75498 | Canola | mitochondrion, plasma membrane, plastid | 45.34 | 47.51 |
CDX69135 | Canola | plastid | 45.28 | 47.45 |
CDY44841 | Canola | cytosol | 34.26 | 35.03 |
CDY30954 | Canola | extracellular, golgi | 15.32 | 32.53 |
CDX98140 | Canola | cytosol | 18.03 | 22.03 |
CDY36422 | Canola | cytosol | 18.03 | 22.02 |
CDX74452 | Canola | cytosol | 17.35 | 21.42 |
CDY30249 | Canola | cytosol, mitochondrion, peroxisome, plasma membrane | 16.96 | 21.32 |
CDY30953 | Canola | cytosol | 2.32 | 20.92 |
CDX92516 | Canola | cytosol | 15.6 | 20.1 |
CDY58967 | Canola | cytosol | 15.49 | 19.96 |
CDX67432 | Canola | plastid | 17.02 | 18.31 |
CDY69502 | Canola | cytosol | 1.75 | 11.7 |
Protein Annotations
Gene3D:1.10.1000.11 | Gene3D:1.10.220.20 | MapMan:22.3.3.2 | GO:A0A078IM04 | UniProt:A0A078IM04 | InterPro:ARM-type_fold |
EnsemblPlants:CDY51011 | ProteinID:CDY51011 | ProteinID:CDY51011.1 | InterPro:DCB_dom | GO:GO:0003674 | GO:GO:0005086 |
GO:GO:0005488 | GO:GO:0005515 | GO:GO:0007154 | GO:GO:0007165 | GO:GO:0008150 | GO:GO:0009987 |
GO:GO:0032012 | GO:GO:0065009 | EnsemblPlantsGene:GSBRNA2T00097999001 | InterPro:IPR000904 | InterPro:IPR023394 | InterPro:Mon2_C |
PFAM:PF01369 | PFAM:PF09324 | PFAM:PF12783 | PFAM:PF16206 | PFAM:PF16213 | PFscan:PS50190 |
PANTHER:PTHR10663 | PANTHER:PTHR10663:SF108 | SMART:SM00222 | SUPFAM:SSF48371 | SUPFAM:SSF48425 | InterPro:Sec7_C |
InterPro:Sec7_C_sf | InterPro:Sec7_N | InterPro:Sec7_dom | InterPro:Sec7_dom_sf | UniParc:UPI0004EE0E38 | SEG:seg |
Description
BnaC04g55240DBnaC04g55240D protein [Source:UniProtKB/TrEMBL;Acc:A0A078IM04]
Coordinates
chrLK032957:+:178..6806
Molecular Weight (calculated)
197172.0 Da
IEP (calculated)
5.229
GRAVY (calculated)
-0.113
Length
1769 amino acids
Sequence
(BLAST)
(BLAST)
0001: MASSEVDSRL SRVVTPALEK IVKNASWRKH SKLATECKSV IERLNSPQKS DPDSSSVPGP LNDGGSVEYS LADSEHIFSP LINACGTGLV KIVEPAIDCI
0101: QTLIAHGYIR GESDPSGGAE SILLFKLIES VCKCHDLGDE AIELPVLKTL LSAINSISLR IHGDCLLLIV RTCYDVYLGS KNVVNQTTAK ASLIQILVIV
0201: FRRMEADSST APIQPIVVAE LMQPVEKSDA DRTMTQFVQG FITKIMQDID GVLNPTMVGS VGQDAALGSS TTVETTNPTD LLDSTDKDML DAKYWEISMY
0301: KSALEGRKGE LADVEAEKDD DLEVQIENKL RRDAFLVFRA LCKLSMKTAP KESSTDPQSM RGKILALELL KILLENAGEI FRTSERFLGA IKQYLCLSLL
0401: KNSASTLMII FQLSCSIFIS LVARFRAGLK AEIGVFFPMI VLRVVENVAL PNFQQKMIVL RFLDKLCLDS QILVDIFLNY DCDVSSSNIF ERMVNGLLKT
0501: AQGAPTATSS TLLPPQEAAM KLEAMKCLVA ILKSMGEWLN KQLRLPVSNS LNKSEALEIE LGPGSPQLAN GNADESAEGS DTYSESPGGT SDALAIEQRR
0601: AYKLELQEGI SLFNRKPTKG IEFLINAGKV GESPEEIAAF LKDASGLNKS LIGDYLGERG ELHLKVMHAY VDSFDFQDME FDEAIRTFLE GFRLPGEAQK
0701: IDRIMEKFAE RYCKCNAKVF TSADTAYVLA YSVIMLNTDA HNPMVKNKMS ADDFIRNNRG IDDGKDLPAD YMRSLYERIT KKEIKMKEDD LNLQQKQSTS
0801: TNRMLGLDGI LNIVIRKQGG DSYVETSDDL MKHMQEQFKE KARKSESTYY AATDVVILRF MIEACWAPML AAFSVPLDQS DDLEVIHLCL GGFHHAIHAT
0901: SLMSMKTHRD AFVTSLAKFT SLHSPADIKQ KNIEAIKAIL KLADEEGNYL QDAWEHILTC VSRFEQLHLL GEGAPPDAAF FASKQNESEK SKQPKLNVLP
1001: VLKKKGPGKS QYAATGVLRG SYDSMSFGGK GSRNVRQDQM SSIVSNLNLL EQVGEMNLIF AQSQNLNSEA IIDFVKALCK VSIDELRSPS NPRVFSLTKI
1101: VEIAHYNMNR IRLVWSSIWQ VLSGFFVTIG CSENLSIAIF AMDSLRQLSM KFLEREELAN YNFQNEFMTP FVIVMRRSND VEIRELIIRC VSQMVLSRVN
1201: NVKSGWKSMF MVFTTAAYDD HKNIVFLSFE IIEKIIREYF PYITETETTT FTDCVNCLVA FTNNRFSKDI SLRSIAFLRY CATKLAEGDL KSPSTNKDKE
1301: TSGKTPQSSL HTGKSGKLEN GEIGNSNNQL YFWFPLLAGL SELSFDPRPE IRKSALQILF DTLRNHGHLF SLPLWEKVFE SVLFPIFDYV RHGIDPTGGD
1401: ESPDQGNYGE VDELDHDAWL YETCTLALQL VVDLFVKFYT TVNPLLKKVL MLLVSFIKRP HQSLAGIGIA AFVRLMSDAG VLFSEEKWLE VVSSLKESAK
1501: TTCPDFSYFV SEEYVERSQR NAESVAPIGS DGNEESQTTA IRLYAAISDA KCRAAVQLLL IQAVMEIYNM YRPQLSAKNT LVLFDALHGV ALHANSVNSN
1601: SILRSRLQEL GPMTQMQDPP LLRLENESYQ ICLTFLQNLV TDENKETGEE AEEIESLLVK TCQEVLNFYI ETSSSAKKQP SESSRGSEYR WRIPLGSGKR
1701: RELAARAPLI VATLQAMCTL EEVSFEKNMK SLFPLLASLI SCEHGSSEVQ VALADMLGLS VGPVLLQWC
0101: QTLIAHGYIR GESDPSGGAE SILLFKLIES VCKCHDLGDE AIELPVLKTL LSAINSISLR IHGDCLLLIV RTCYDVYLGS KNVVNQTTAK ASLIQILVIV
0201: FRRMEADSST APIQPIVVAE LMQPVEKSDA DRTMTQFVQG FITKIMQDID GVLNPTMVGS VGQDAALGSS TTVETTNPTD LLDSTDKDML DAKYWEISMY
0301: KSALEGRKGE LADVEAEKDD DLEVQIENKL RRDAFLVFRA LCKLSMKTAP KESSTDPQSM RGKILALELL KILLENAGEI FRTSERFLGA IKQYLCLSLL
0401: KNSASTLMII FQLSCSIFIS LVARFRAGLK AEIGVFFPMI VLRVVENVAL PNFQQKMIVL RFLDKLCLDS QILVDIFLNY DCDVSSSNIF ERMVNGLLKT
0501: AQGAPTATSS TLLPPQEAAM KLEAMKCLVA ILKSMGEWLN KQLRLPVSNS LNKSEALEIE LGPGSPQLAN GNADESAEGS DTYSESPGGT SDALAIEQRR
0601: AYKLELQEGI SLFNRKPTKG IEFLINAGKV GESPEEIAAF LKDASGLNKS LIGDYLGERG ELHLKVMHAY VDSFDFQDME FDEAIRTFLE GFRLPGEAQK
0701: IDRIMEKFAE RYCKCNAKVF TSADTAYVLA YSVIMLNTDA HNPMVKNKMS ADDFIRNNRG IDDGKDLPAD YMRSLYERIT KKEIKMKEDD LNLQQKQSTS
0801: TNRMLGLDGI LNIVIRKQGG DSYVETSDDL MKHMQEQFKE KARKSESTYY AATDVVILRF MIEACWAPML AAFSVPLDQS DDLEVIHLCL GGFHHAIHAT
0901: SLMSMKTHRD AFVTSLAKFT SLHSPADIKQ KNIEAIKAIL KLADEEGNYL QDAWEHILTC VSRFEQLHLL GEGAPPDAAF FASKQNESEK SKQPKLNVLP
1001: VLKKKGPGKS QYAATGVLRG SYDSMSFGGK GSRNVRQDQM SSIVSNLNLL EQVGEMNLIF AQSQNLNSEA IIDFVKALCK VSIDELRSPS NPRVFSLTKI
1101: VEIAHYNMNR IRLVWSSIWQ VLSGFFVTIG CSENLSIAIF AMDSLRQLSM KFLEREELAN YNFQNEFMTP FVIVMRRSND VEIRELIIRC VSQMVLSRVN
1201: NVKSGWKSMF MVFTTAAYDD HKNIVFLSFE IIEKIIREYF PYITETETTT FTDCVNCLVA FTNNRFSKDI SLRSIAFLRY CATKLAEGDL KSPSTNKDKE
1301: TSGKTPQSSL HTGKSGKLEN GEIGNSNNQL YFWFPLLAGL SELSFDPRPE IRKSALQILF DTLRNHGHLF SLPLWEKVFE SVLFPIFDYV RHGIDPTGGD
1401: ESPDQGNYGE VDELDHDAWL YETCTLALQL VVDLFVKFYT TVNPLLKKVL MLLVSFIKRP HQSLAGIGIA AFVRLMSDAG VLFSEEKWLE VVSSLKESAK
1501: TTCPDFSYFV SEEYVERSQR NAESVAPIGS DGNEESQTTA IRLYAAISDA KCRAAVQLLL IQAVMEIYNM YRPQLSAKNT LVLFDALHGV ALHANSVNSN
1601: SILRSRLQEL GPMTQMQDPP LLRLENESYQ ICLTFLQNLV TDENKETGEE AEEIESLLVK TCQEVLNFYI ETSSSAKKQP SESSRGSEYR WRIPLGSGKR
1701: RELAARAPLI VATLQAMCTL EEVSFEKNMK SLFPLLASLI SCEHGSSEVQ VALADMLGLS VGPVLLQWC
0001: MASSEADSRL SRVVTPALEK IVKNASWRKH SKLANECKAV IERLNSLQKS PPPSSSAATD SESESSVPGP LNDGGSIEYS LADSELIFSP LINACGTGLA
0101: KIIEPAIDCI QKLIAHGYIR GESDPSGGAE SLLLFKLIDS VCKCHDLGDE SIELPVLKTL LSAINSISLR IHGKCLLLVV RTCYDIYLGS KNVVNQTTAK
0201: ASLIQILVIV FRRMEADSST VPIQPIVVAE LMEPLEKSDA DGTMTQFVQG FITKIMQDID GVLNPTMSGS GSGSGSGGQD GAYGTTTVET TNPTDLLDST
0301: DKDMLDAKYW EISMYKSALE GRKGELTDGD AERDDDLEVQ IENKLRRDAC LVFRALCKLS MKAPPKESSA DPQSMRGKIL ALELLKILLE NAGAVFRTSE
0401: KFSADIKQFL CLSLLKNSAS TLMIIFQLSC SIFISLVARF RAGLKAEIGV FFPMIVLRVV ENVAQPNFQQ KMIVLRFLDK LCLDSQILVD IFLNYDCDVN
0501: SSNIFERMVN GLLKTAQGVP PGTATTLMPP QEAAMKLEAM KCLVAILKSM GDWLNKQLRL PVSNSLNKSD VIEIDLGPGS PQLANGNADE SADGSDTYSE
0601: SSGGTSDALA IEQRRAYKLE LQEGISLFNR KPTKGIEFLI NAGKVGESPE EIAGFLKDAS GLNKTLIGDY LGEREDLALK VMHAYVDSFD FRGMEFDEAI
0701: RTFLEGFRLP GEAQKIDRIM EKFAERYCKC NPKVFTSADS AYVLAYSVIM LNTDAHNPMV KNKMSADDFI RNNRGIDDGK DLPADYMRSL YERITKHEIK
0801: MKEDDLRLQQ KQYANSNRML GLDGILNIVI RKQWGDSYAE TSDDLMKHMQ EQFKEKARKS ESTYYAATDV VILRFMIEAC WAPMLAAFSV PLDQSDDLIV
0901: INICLEGFHH AIHATSLMSM KTHRDAFVTS LAKFTSLHSP ADIKQRNIEA IKAILRLADE EGNYLQDAWE HILTCVSRFE QLHLLGEGAP PDATFFASKQ
1001: NESEKSKQPK QYILPVLKRK GPGKSQYAAT GVLRGSYDSM SLGGKGSKNV RQEQMSSIVS NLNLLEQVGE MNQVFSQSQK LNSEAIIDFV KALCKVSMDE
1101: LRSPSNPRVF SLTKIVEIAH YNMNRIRLVW SSIWQVLSGF FVTIGCSENL SIAIFAMDSL RQLSMKFLER EELANYNFQN EFMTPFVIVM RRSNDVEIRE
1201: LIIRCVSQMV LSRVNNVKSG WKSMFMVFTT AAYDDHKNIV FLSFEIIEKI IREYFPYITE TETTTFTDCV NCLVAFTNNR FSKDISLSSI AFLRYCATKL
1301: AEGDLNSPST NKYKGTSGKI PQSSLHSGKS GKQENGEIVN NNHLYFWFPL LSGLSELSFD PRPEIRKSAL QIMFDTLRNH GHLFSLPLWE KVFESVLFPI
1401: FDYVRHSIDP SGEDESADQG SSGGEVDELD HDAWLYETCT LALQLVVDLF VKFYTTVNPL LEKVLMLLVS FIKRPHQSLA GIGIAAFVRL MSDADGLFSE
1501: EKWLEVVSAL KEAAKTTCPD FSYFLSEEYV ARSQRSALNI QNSNAESAAP TATDGNEESQ RTATHLYAAI SDAKCRAAVQ LLLIQAVMEI YNMYRPQLSA
1601: KNTLVLVDAL HGVALHAHGI NSNTILRSRL QELGPMTQMQ DPPLLRLENE SYQICLTFLQ NLVADKTKKE EEEEEEEIES LLVNICQEVL NFYIETSSSA
1701: KKLQSESSRA SEYRWRIPLG SGKRRELSAR APLIVATLQA MCTLDEASFE KNLKCLFPLL ANLISCEHGS NEVQTALADM LGLSVGPVLL QWC
0101: KIIEPAIDCI QKLIAHGYIR GESDPSGGAE SLLLFKLIDS VCKCHDLGDE SIELPVLKTL LSAINSISLR IHGKCLLLVV RTCYDIYLGS KNVVNQTTAK
0201: ASLIQILVIV FRRMEADSST VPIQPIVVAE LMEPLEKSDA DGTMTQFVQG FITKIMQDID GVLNPTMSGS GSGSGSGGQD GAYGTTTVET TNPTDLLDST
0301: DKDMLDAKYW EISMYKSALE GRKGELTDGD AERDDDLEVQ IENKLRRDAC LVFRALCKLS MKAPPKESSA DPQSMRGKIL ALELLKILLE NAGAVFRTSE
0401: KFSADIKQFL CLSLLKNSAS TLMIIFQLSC SIFISLVARF RAGLKAEIGV FFPMIVLRVV ENVAQPNFQQ KMIVLRFLDK LCLDSQILVD IFLNYDCDVN
0501: SSNIFERMVN GLLKTAQGVP PGTATTLMPP QEAAMKLEAM KCLVAILKSM GDWLNKQLRL PVSNSLNKSD VIEIDLGPGS PQLANGNADE SADGSDTYSE
0601: SSGGTSDALA IEQRRAYKLE LQEGISLFNR KPTKGIEFLI NAGKVGESPE EIAGFLKDAS GLNKTLIGDY LGEREDLALK VMHAYVDSFD FRGMEFDEAI
0701: RTFLEGFRLP GEAQKIDRIM EKFAERYCKC NPKVFTSADS AYVLAYSVIM LNTDAHNPMV KNKMSADDFI RNNRGIDDGK DLPADYMRSL YERITKHEIK
0801: MKEDDLRLQQ KQYANSNRML GLDGILNIVI RKQWGDSYAE TSDDLMKHMQ EQFKEKARKS ESTYYAATDV VILRFMIEAC WAPMLAAFSV PLDQSDDLIV
0901: INICLEGFHH AIHATSLMSM KTHRDAFVTS LAKFTSLHSP ADIKQRNIEA IKAILRLADE EGNYLQDAWE HILTCVSRFE QLHLLGEGAP PDATFFASKQ
1001: NESEKSKQPK QYILPVLKRK GPGKSQYAAT GVLRGSYDSM SLGGKGSKNV RQEQMSSIVS NLNLLEQVGE MNQVFSQSQK LNSEAIIDFV KALCKVSMDE
1101: LRSPSNPRVF SLTKIVEIAH YNMNRIRLVW SSIWQVLSGF FVTIGCSENL SIAIFAMDSL RQLSMKFLER EELANYNFQN EFMTPFVIVM RRSNDVEIRE
1201: LIIRCVSQMV LSRVNNVKSG WKSMFMVFTT AAYDDHKNIV FLSFEIIEKI IREYFPYITE TETTTFTDCV NCLVAFTNNR FSKDISLSSI AFLRYCATKL
1301: AEGDLNSPST NKYKGTSGKI PQSSLHSGKS GKQENGEIVN NNHLYFWFPL LSGLSELSFD PRPEIRKSAL QIMFDTLRNH GHLFSLPLWE KVFESVLFPI
1401: FDYVRHSIDP SGEDESADQG SSGGEVDELD HDAWLYETCT LALQLVVDLF VKFYTTVNPL LEKVLMLLVS FIKRPHQSLA GIGIAAFVRL MSDADGLFSE
1501: EKWLEVVSAL KEAAKTTCPD FSYFLSEEYV ARSQRSALNI QNSNAESAAP TATDGNEESQ RTATHLYAAI SDAKCRAAVQ LLLIQAVMEI YNMYRPQLSA
1601: KNTLVLVDAL HGVALHAHGI NSNTILRSRL QELGPMTQMQ DPPLLRLENE SYQICLTFLQ NLVADKTKKE EEEEEEEIES LLVNICQEVL NFYIETSSSA
1701: KKLQSESSRA SEYRWRIPLG SGKRRELSAR APLIVATLQA MCTLDEASFE KNLKCLFPLL ANLISCEHGS NEVQTALADM LGLSVGPVLL QWC
Arabidopsis Description
BIG2Brefeldin A-inhibited guanine nucleotide-exchange protein 2 [Source:UniProtKB/Swiss-Prot;Acc:Q9LZX8]
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.