Subcellular Localization
min:
: max
Winner_takes_all: mitochondrion
Predictor Summary:
Predictor Summary:
- plastid 1
- mitochondrion 4
- golgi 1
| Predictors | GFP | MS/MS | Papers | ||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| OQU79153 | Sorghum | cytosol | 87.25 | 78.04 |
| EES17188 | Sorghum | cytosol | 86.14 | 75.6 |
| KXG23480 | Sorghum | cytosol | 39.95 | 66.43 |
| OQU76368 | Sorghum | cytosol | 49.87 | 49.49 |
| KXG19141 | Sorghum | cytosol | 50.3 | 47.57 |
| EES02942 | Sorghum | vacuole | 49.79 | 40.3 |
| KXG32488 | Sorghum | cytosol | 16.42 | 38.1 |
| KXG32487 | Sorghum | cytosol | 26.6 | 38.07 |
| KXG29103 | Sorghum | cytosol | 39.86 | 37.13 |
| KXG24524 | Sorghum | endoplasmic reticulum, golgi, plastid | 41.49 | 36.55 |
| KXG38736 | Sorghum | cytosol | 37.98 | 35.52 |
| OQU80806 | Sorghum | cytosol | 31.05 | 31.4 |
| EES14172 | Sorghum | cytosol | 31.14 | 30.56 |
| OQU80781 | Sorghum | cytosol, extracellular, nucleus | 29.08 | 28.6 |
| EES14143 | Sorghum | cytosol | 28.49 | 28.49 |
Protein Annotations
| Gene3D:3.40.50.300 | Gene3D:3.80.10.10 | MapMan:35.1 | UniProt:A0A1Z5R6E8 | GO:GO:0000166 | GO:GO:0003674 |
| GO:GO:0005488 | GO:GO:0043531 | InterPro:IPR032675 | InterPro:LRR_dom_sf | InterPro:NB-ARC | EnsemblPlants:OQU79149 |
| ProteinID:OQU79149 | ProteinID:OQU79149.1 | InterPro:P-loop_NTPase | PFAM:PF00931 | PRINTS:PR00364 | PANTHER:PTHR23155 |
| PANTHER:PTHR23155:SF865 | EnsemblPlantsGene:SORBI_3008G101200 | SUPFAM:SSF52047 | SUPFAM:SSF52058 | SUPFAM:SSF52540 | UniParc:UPI000B8BA291 |
| SEG:seg | : | : | : | : | : |
Description
hypothetical protein
Coordinates
chr8:-:47963015..47967002
Molecular Weight (calculated)
130974.0 Da
IEP (calculated)
6.062
GRAVY (calculated)
-0.176
Length
1169 amino acids
Sequence
(BLAST)
(BLAST)
0001: ATHNRVVFRR RMGNKLRQIL AALEVLITEM HAFSNSQLMV LPIVGMGGLG KTTLAQLVYN DSEVKKHFQL QLWVCVSDNF EVDLIAKSIV EAKENSSSNS
0101: SGKSPLERLK EAVSGKRYLL VLDDVWNRDV NKWGKLKSSL QHGGSGSAVL TTTRDRVVAK LMAGTTHEPY DITGLHPDFI KEIIEARAFS SKKERDAKLV
0201: EMVGDIAKRC AGSPLAATAV GSLLHTKTSV DEWNAVLSKS AICDDETEIL PILKLSYNGL PPHIRQCFAF CAIFPKDYEI DVEKLIQLWM ANGFIPEQHG
0301: VCPEITGKKI FMDLVSRSFF QDVNEVPFEV YDIEDPRVTC KIHDLMHDLA QSSMGRECAT IVAEPSQSDN NFPYSARHLF ISVDKPEEIL NTFMEKGSMA
0401: VQTLVCTRYS YQDLKHLSKY RSIRALRIYR GSFLKPKYLH HLRYLDLSDS DIEALPEEIS ILYNLQTLDL SNCEKLSRLP KEMKYMTGLR HLYIHGCDEL
0501: KSIPSELGHL TSLQTLTCFV AGTGSSCSNV RELRQLDQLG GPLELRQLEN VAEADAKAAH IGNKKDLTRL TLRWTSSPEK EEQDKSTKVV EALKPHDGLK
0601: VLDIYDYRGG MYPTWINTLQ QMVKLTLSDC ENLKELRPLW QLPALKVLSL EGLDSLNCLC SSDALVTPFM ELKELSLYWM PNFETWWVNE LQGEESIFPQ
0701: VEKLSIDNCK RLTALPKASI IKDTSGGVIN KVWRSAFPAL KKLNLDGMQT FQRWEAVQGE EVTFPRLEKL VIGWCPELTT LPEAPNLSEL EIRGGSQQML
0801: VQVANCIVTA SSLSKLDLWI DDDREAAWLD GDSLIQLVDG KEKQNHNKSP SPLTVMELQG CNVFFSHSSA LALWACLVQL EDLQIWCCDA LVHWPEEVFQ
0901: SLESLRSLRI WQCKNLTGRR RASSEKSTPQ WSSVLLPCLE SLDIQNCQCL VEVPTSVLPE SLKSLSIDGC PKLESIAFSK QLDTSTSSRG GAAAQDDKSA
1001: LIPGSGSCSE ATASTPVPKL SSSTKHHFLP CLESLTIDIC SGLSEILDLP PSIKTLRIRW CRNLQALSGQ LDAIQILEIL ECNGFESLES FLGELALLEE
1101: LYLSRCKSLV SLPNGPQAYS SLRRLTIKSC PGIKLLPQSL QQRLGDLKDE DKKLDAHHYQ ASYLICILF
0101: SGKSPLERLK EAVSGKRYLL VLDDVWNRDV NKWGKLKSSL QHGGSGSAVL TTTRDRVVAK LMAGTTHEPY DITGLHPDFI KEIIEARAFS SKKERDAKLV
0201: EMVGDIAKRC AGSPLAATAV GSLLHTKTSV DEWNAVLSKS AICDDETEIL PILKLSYNGL PPHIRQCFAF CAIFPKDYEI DVEKLIQLWM ANGFIPEQHG
0301: VCPEITGKKI FMDLVSRSFF QDVNEVPFEV YDIEDPRVTC KIHDLMHDLA QSSMGRECAT IVAEPSQSDN NFPYSARHLF ISVDKPEEIL NTFMEKGSMA
0401: VQTLVCTRYS YQDLKHLSKY RSIRALRIYR GSFLKPKYLH HLRYLDLSDS DIEALPEEIS ILYNLQTLDL SNCEKLSRLP KEMKYMTGLR HLYIHGCDEL
0501: KSIPSELGHL TSLQTLTCFV AGTGSSCSNV RELRQLDQLG GPLELRQLEN VAEADAKAAH IGNKKDLTRL TLRWTSSPEK EEQDKSTKVV EALKPHDGLK
0601: VLDIYDYRGG MYPTWINTLQ QMVKLTLSDC ENLKELRPLW QLPALKVLSL EGLDSLNCLC SSDALVTPFM ELKELSLYWM PNFETWWVNE LQGEESIFPQ
0701: VEKLSIDNCK RLTALPKASI IKDTSGGVIN KVWRSAFPAL KKLNLDGMQT FQRWEAVQGE EVTFPRLEKL VIGWCPELTT LPEAPNLSEL EIRGGSQQML
0801: VQVANCIVTA SSLSKLDLWI DDDREAAWLD GDSLIQLVDG KEKQNHNKSP SPLTVMELQG CNVFFSHSSA LALWACLVQL EDLQIWCCDA LVHWPEEVFQ
0901: SLESLRSLRI WQCKNLTGRR RASSEKSTPQ WSSVLLPCLE SLDIQNCQCL VEVPTSVLPE SLKSLSIDGC PKLESIAFSK QLDTSTSSRG GAAAQDDKSA
1001: LIPGSGSCSE ATASTPVPKL SSSTKHHFLP CLESLTIDIC SGLSEILDLP PSIKTLRIRW CRNLQALSGQ LDAIQILEIL ECNGFESLES FLGELALLEE
1101: LYLSRCKSLV SLPNGPQAYS SLRRLTIKSC PGIKLLPQSL QQRLGDLKDE DKKLDAHHYQ ASYLICILF
0001: MANSYLSSCA NVMVERINTS QELVELCKGK SSSALLKRLK VALVTANPVL ADADQRAEHV REVKHWLTGI KDAFFQAEDI LDELQTEALR RRVVAEAGGL
0101: GGLFQNLMAG REAIQKKIEP KMEKVVRLLE HHVKHIEVIG LKEYSETREP QWRQASRSRP DDLPQGRLVG RVEDKLALVN LLLSDDEISI GKPAVISVVG
0201: MPGVGKTTLT EIVFNDYRVT EHFEVKMWIS AGINFNVFTV TKAVLQDITS SAVNTEDLPS LQIQLKKTLS GKRFLLVLDD FWSESDSEWE SFQVAFTDAE
0301: EGSKIVLTTR SEIVSTVAKA EKIYQMKLMT NEECWELISR FAFGNISVGS INQELEGIGK RIAEQCKGLP LAARAIASHL RSKPNPDDWY AVSKNFSSYT
0401: NSILPVLKLS YDSLPPQLKR CFALCSIFPK GHVFDREELV LLWMAIDLLY QPRSSRRLED IGNDYLGDLV AQSFFQRLDI TMTSFVMHDL MNDLAKAVSG
0501: DFCFRLEDDN IPEIPSTTRH FSFSRSQCDA SVAFRSICGA EFLRTILPFN SPTSLESLQL TEKVLNPLLN ALSGLRILSL SHYQITNLPK SLKGLKLLRY
0601: LDLSSTKIKE LPEFVCTLCN LQTLLLSNCR DLTSLPKSIA ELINLRLLDL VGTPLVEMPP GIKKLRSLQK LSNFVIGRLS GAGLHELKEL SHLRGTLRIS
0701: ELQNVAFASE AKDAGLKRKP FLDGLILKWT VKGSGFVPGS FNALACDQKE VLRMLEPHPH LKTFCIESYQ GGAFPKWLGD SSFFGITSVT LSSCNLCISL
0801: PPVGQLPSLK YLSIEKFNIL QKVGLDFFFG ENNSRGVPFQ SLQILKFYGM PRWDEWICPE LEDGIFPCLQ KLIIQRCPSL RKKFPEGLPS STEVTISDCP
0901: LRAVSGGENS FRRSLTNIPE SPASIPSMSR RELSSPTGNP KSDASTSAQP GFASSSQSND DNEVTSTSSL SSLPKDRQTE DFDQYETQLG SLPQQFEEPA
1001: VISARYSGYI SDIPSTLSPY MSRTSLVPDP KNEGSILPGS SSYQYHQYGI KSSVPSPRSS EAIKPSQYDD DETDMEYLKV TDISHLMELP QNLQSLHIDS
1101: CDGLTSLPEN LTESYPNLHE LLIIACHSLE SFPGSHPPTT LKTLYIRDCK KLNFTESLQP TRSYSQLEYL FIGSSCSNLV NFPLSLFPKL RSLSIRDCES
1201: FKTFSIHAGL GDDRIALESL EIRDCPNLET FPQGGLPTPK LSSMLLSNCK KLQALPEKLF GLTSLLSLFI IKCPEIETIP GGGFPSNLRT LCISLCDKLT
1301: PRIEWGLRDL ENLRNLEIDG GNEDIESFPE EGLLPKSVFS LRISRFENLK TLNRKGFHDT KAIETMEISG CDKLQISIDE DLPPLSCLRI SSCSLLTETF
1401: AEVETEFFKV LNIPYVEIDG EIFS
0101: GGLFQNLMAG REAIQKKIEP KMEKVVRLLE HHVKHIEVIG LKEYSETREP QWRQASRSRP DDLPQGRLVG RVEDKLALVN LLLSDDEISI GKPAVISVVG
0201: MPGVGKTTLT EIVFNDYRVT EHFEVKMWIS AGINFNVFTV TKAVLQDITS SAVNTEDLPS LQIQLKKTLS GKRFLLVLDD FWSESDSEWE SFQVAFTDAE
0301: EGSKIVLTTR SEIVSTVAKA EKIYQMKLMT NEECWELISR FAFGNISVGS INQELEGIGK RIAEQCKGLP LAARAIASHL RSKPNPDDWY AVSKNFSSYT
0401: NSILPVLKLS YDSLPPQLKR CFALCSIFPK GHVFDREELV LLWMAIDLLY QPRSSRRLED IGNDYLGDLV AQSFFQRLDI TMTSFVMHDL MNDLAKAVSG
0501: DFCFRLEDDN IPEIPSTTRH FSFSRSQCDA SVAFRSICGA EFLRTILPFN SPTSLESLQL TEKVLNPLLN ALSGLRILSL SHYQITNLPK SLKGLKLLRY
0601: LDLSSTKIKE LPEFVCTLCN LQTLLLSNCR DLTSLPKSIA ELINLRLLDL VGTPLVEMPP GIKKLRSLQK LSNFVIGRLS GAGLHELKEL SHLRGTLRIS
0701: ELQNVAFASE AKDAGLKRKP FLDGLILKWT VKGSGFVPGS FNALACDQKE VLRMLEPHPH LKTFCIESYQ GGAFPKWLGD SSFFGITSVT LSSCNLCISL
0801: PPVGQLPSLK YLSIEKFNIL QKVGLDFFFG ENNSRGVPFQ SLQILKFYGM PRWDEWICPE LEDGIFPCLQ KLIIQRCPSL RKKFPEGLPS STEVTISDCP
0901: LRAVSGGENS FRRSLTNIPE SPASIPSMSR RELSSPTGNP KSDASTSAQP GFASSSQSND DNEVTSTSSL SSLPKDRQTE DFDQYETQLG SLPQQFEEPA
1001: VISARYSGYI SDIPSTLSPY MSRTSLVPDP KNEGSILPGS SSYQYHQYGI KSSVPSPRSS EAIKPSQYDD DETDMEYLKV TDISHLMELP QNLQSLHIDS
1101: CDGLTSLPEN LTESYPNLHE LLIIACHSLE SFPGSHPPTT LKTLYIRDCK KLNFTESLQP TRSYSQLEYL FIGSSCSNLV NFPLSLFPKL RSLSIRDCES
1201: FKTFSIHAGL GDDRIALESL EIRDCPNLET FPQGGLPTPK LSSMLLSNCK KLQALPEKLF GLTSLLSLFI IKCPEIETIP GGGFPSNLRT LCISLCDKLT
1301: PRIEWGLRDL ENLRNLEIDG GNEDIESFPE EGLLPKSVFS LRISRFENLK TLNRKGFHDT KAIETMEISG CDKLQISIDE DLPPLSCLRI SSCSLLTETF
1401: AEVETEFFKV LNIPYVEIDG EIFS
Arabidopsis Description
Putative disease resistance protein At3g14460 [Source:UniProtKB/Swiss-Prot;Acc:Q9LRR5]
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.