Subcellular Localization
min:
: max
Winner_takes_all: nucleus
Predictor Summary:
Predictor Summary:
- cytosol 1
- mitochondrion 1
- nucleus 2
| Predictors | GFP | MS/MS | Papers | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|
PPI
No PPI Data
Homology
Paralog
| locus | Identity | Homology Identity |
|---|
Ortholog
| locus | Homology Species | Location | Identity | Homology Identity |
|---|---|---|---|---|
| Zm00001d051590_P001 | Maize | nucleus | 82.92 | 82.2 |
| Zm00001d044165_P001 | Maize | nucleus | 14.74 | 72.37 |
| VIT_04s0023g00980.t01 | Wine grape | nucleus | 38.25 | 37.64 |
| KRH28566 | Soybean | nucleus | 35.3 | 36.47 |
| KRH76897 | Soybean | nucleus | 35.83 | 35.86 |
| Solyc02g089970.2.1 | Tomato | nucleus | 35.23 | 34.86 |
| KRH69981 | Soybean | nucleus | 34.76 | 34.74 |
| Bra039210.1-P | Field mustard | plastid | 7.1 | 34.64 |
| KRH08338 | Soybean | nucleus | 34.63 | 34.56 |
| CDY46064 | Canola | nucleus | 11.32 | 34.35 |
| AT2G23740.2 | Thale cress | nucleus | 31.15 | 33.65 |
| Bra032148.1-P | Field mustard | nucleus | 30.54 | 33.38 |
| CDY39668 | Canola | nucleus | 30.54 | 33.38 |
| CDY62521 | Canola | nucleus | 30.54 | 33.38 |
| Zm00001d006369_P002 | Maize | nucleus | 4.69 | 20.65 |
| Zm00001d051126_P004 | Maize | nucleus | 6.63 | 19.53 |
| Zm00001d049884_P006 | Maize | nucleus | 8.44 | 16.96 |
| Zm00001d031851_P002 | Maize | nucleus | 8.1 | 16.24 |
| Zm00001d010646_P001 | Maize | plastid | 6.83 | 15.64 |
| Zm00001d042272_P003 | Maize | nucleus | 6.97 | 15.48 |
| Zm00001d038541_P002 | Maize | nucleus | 6.9 | 14.88 |
| Zm00001d041005_P001 | Maize | nucleus | 6.83 | 14.59 |
| Zm00001d043135_P003 | Maize | nucleus | 7.37 | 14.12 |
| Zm00001d031858_P001 | Maize | nucleus | 6.16 | 14.11 |
| Zm00001d002938_P001 | Maize | nucleus | 6.7 | 14.06 |
| Zm00001d005445_P001 | Maize | nucleus | 5.09 | 13.31 |
| Zm00001d011956_P002 | Maize | mitochondrion, nucleus, plastid | 6.43 | 13.19 |
| Zm00001d019195_P001 | Maize | nucleus | 6.97 | 12.15 |
| Zm00001d019520_P001 | Maize | nucleus | 4.76 | 10.81 |
| Zm00001d032343_P001 | Maize | plastid | 7.5 | 10.13 |
| Zm00001d005650_P001 | Maize | plastid | 8.1 | 9.3 |
| Zm00001d050267_P001 | Maize | peroxisome | 1.94 | 4.89 |
Protein Annotations
| KEGG:00310+2.1.1.43 | MapMan:12.3.3.7 | Gene3D:2.170.270.10 | Gene3D:3.30.160.60 | UniProt:A0A1D6HHQ4 | ProteinID:AQK74085.1 |
| GO:GO:0003674 | GO:GO:0003676 | GO:GO:0003824 | GO:GO:0005488 | GO:GO:0005515 | GO:GO:0005575 |
| GO:GO:0005622 | GO:GO:0005623 | GO:GO:0005634 | GO:GO:0008150 | GO:GO:0008152 | GO:GO:0008168 |
| GO:GO:0016740 | GO:GO:0032259 | InterPro:IPR001214 | InterPro:IPR003616 | InterPro:IPR013087 | PFAM:PF00856 |
| PFAM:PF11722 | ScanProsite:PS00028 | PFscan:PS50157 | PFscan:PS50280 | PFscan:PS50868 | PANTHER:PTHR22884 |
| PANTHER:PTHR22884:SF296 | InterPro:Post-SET_dom | InterPro:SET_dom | SMART:SM00317 | SMART:SM00355 | SUPFAM:SSF82199 |
| UniParc:UPI0008424DAF | EnsemblPlantsGene:Zm00001d017798 | EnsemblPlants:Zm00001d017798_P002 | EnsemblPlants:Zm00001d017798_T002 | InterPro:Znf_C2H2_type | InterPro:Znf_CCCH-type_TRM13 |
Description
Histone-lysine N-methyltransferase SUVR5
Coordinates
chr5:+:207066204..207098182
Molecular Weight (calculated)
167820.0 Da
IEP (calculated)
6.694
GRAVY (calculated)
-0.538
Length
1493 amino acids
Sequence
(BLAST)
(BLAST)
0001: MLMDPPVMQM DCKLKNDVDK TSSIDYDRKV TISHDDYGWA GSDVKPKDDI VCNPVEVSNA CQTGINEVLD SASKNSPLNL GDLPQGAELR NKNGDSSYSN
0101: VKLQLNSSAG NNNGLQTDDD NFTKQYFGKK DMHHRQEEMH PSSNTVSLPT SCRLNGDATP SEEEKIAEDR VKVDGNVDAV IKEVETDLVG CHAHQKEFQC
0201: TLQDLSEIAC SIDLVHNTSS PQGENKKPVS PLNGMGHYVD NNSCNGDTNY KGEELNMGDA GDEDHAIALW VKWRGKWQTG IRCCRVDCPL PTLRAKPTHD
0301: RKSYVVVFFP RTKTYSWVDM LLVLPIEECP LPLVNGTHRK WRKLVKDLNI PRRFNMQNLA VFMINLIDEL HIEAVVDDAR KATTWKEFAL EASCCRDYTD
0401: LGKMLLKFQN MILPDYISYE WLQNSFKMWN QKCMNAHDAE TIEMLCESLH GNKLKELRNA SVQPELIPEW NRWKQELIKQ YFSLHPAGNV GNFEKNNCYD
0501: DPALDQQGSR KRPKLEVRRG EIQISHMGEA DYRTPTEDPN QNNLPGNSVM HENVGALGST DQNNSVTLPG SFGTNENTIS SSANAALQNA RLDLDSFKSS
0601: RQCSAHIEAK GRQCGRWAND GDIYCCVHQS MHFLDHSSRE DKALTIEAPL CSGMTNMGRK CKHRAQYGST FCKKHRLQTN LDAMHPENLL DPSEVLHMGE
0701: EPPNKWVEEI SKSQAMYSID LETDKKVQDA VKVKLMTIVS IENSGEKGAM EKADMCVAST SITNTDDTSL CIGIHSHDSI VECQDYAMQH TLYCEKHLPR
0801: FLKRARNGKS RLVSKDIFVN LLKGCTSRKD KICLHQACEF LYWFLRNNLS HQHTSLASEH MPQILAEVSK NPDVGEFLLK LISTEREKLA NIWGFDTNRS
0901: KQIYSENKEG SLVLHKEGTN LSSGPKCKIC AHQFSDDEAL GLHWTTVHKK EARWLFREGT NGLSLYDSHN IEDANGSQKF ICRLCGLKFD LQPDLGRHHK
1001: VAHMDSDVVG HSSLGRGKYQ LNRGRHYYSA FKKSLRPTST LKKRSSSGIE KNFKFQSSAL TSQIIQSETS SFGKLQDFQC SDVAQTLFSK IQKTRPHPSN
1101: LDILSVARTV CCKTSLAAAL EVKYGSLPEN IFVKAAKLCS DNGIQIDWHQ EVFICPKGCK SRYNSNALLP MQLTAVDFPE APSVDPLNDD EMWAMEEYHY
1201: VLDSKHFGWK PKNESVVLYE DISFGREKVP IVCVIDMDAK DSLGMKPEEL LSHGSSVPWQ GFHYITKRLM DSSLINSENS MPGCACSHPE CSPEKCGHVS
1301: LFDGVYASLV DINGTPIHGR FAYDENSKII LQKGLLVKLE LFRTENKGWA IRAAEPIPQG TFVCEYIGEV VKADKTMKNA ESVSSKSGCN YLFDIASQID
1401: RERLRTVGAI EYLIDATRSG NVSRYINHSC SPNLSTRLVL VESKDCQLAH IGLFANQDIA VGEELAYDYR QKLVAGDGCF CHCGGTNCRG RVY
0101: VKLQLNSSAG NNNGLQTDDD NFTKQYFGKK DMHHRQEEMH PSSNTVSLPT SCRLNGDATP SEEEKIAEDR VKVDGNVDAV IKEVETDLVG CHAHQKEFQC
0201: TLQDLSEIAC SIDLVHNTSS PQGENKKPVS PLNGMGHYVD NNSCNGDTNY KGEELNMGDA GDEDHAIALW VKWRGKWQTG IRCCRVDCPL PTLRAKPTHD
0301: RKSYVVVFFP RTKTYSWVDM LLVLPIEECP LPLVNGTHRK WRKLVKDLNI PRRFNMQNLA VFMINLIDEL HIEAVVDDAR KATTWKEFAL EASCCRDYTD
0401: LGKMLLKFQN MILPDYISYE WLQNSFKMWN QKCMNAHDAE TIEMLCESLH GNKLKELRNA SVQPELIPEW NRWKQELIKQ YFSLHPAGNV GNFEKNNCYD
0501: DPALDQQGSR KRPKLEVRRG EIQISHMGEA DYRTPTEDPN QNNLPGNSVM HENVGALGST DQNNSVTLPG SFGTNENTIS SSANAALQNA RLDLDSFKSS
0601: RQCSAHIEAK GRQCGRWAND GDIYCCVHQS MHFLDHSSRE DKALTIEAPL CSGMTNMGRK CKHRAQYGST FCKKHRLQTN LDAMHPENLL DPSEVLHMGE
0701: EPPNKWVEEI SKSQAMYSID LETDKKVQDA VKVKLMTIVS IENSGEKGAM EKADMCVAST SITNTDDTSL CIGIHSHDSI VECQDYAMQH TLYCEKHLPR
0801: FLKRARNGKS RLVSKDIFVN LLKGCTSRKD KICLHQACEF LYWFLRNNLS HQHTSLASEH MPQILAEVSK NPDVGEFLLK LISTEREKLA NIWGFDTNRS
0901: KQIYSENKEG SLVLHKEGTN LSSGPKCKIC AHQFSDDEAL GLHWTTVHKK EARWLFREGT NGLSLYDSHN IEDANGSQKF ICRLCGLKFD LQPDLGRHHK
1001: VAHMDSDVVG HSSLGRGKYQ LNRGRHYYSA FKKSLRPTST LKKRSSSGIE KNFKFQSSAL TSQIIQSETS SFGKLQDFQC SDVAQTLFSK IQKTRPHPSN
1101: LDILSVARTV CCKTSLAAAL EVKYGSLPEN IFVKAAKLCS DNGIQIDWHQ EVFICPKGCK SRYNSNALLP MQLTAVDFPE APSVDPLNDD EMWAMEEYHY
1201: VLDSKHFGWK PKNESVVLYE DISFGREKVP IVCVIDMDAK DSLGMKPEEL LSHGSSVPWQ GFHYITKRLM DSSLINSENS MPGCACSHPE CSPEKCGHVS
1301: LFDGVYASLV DINGTPIHGR FAYDENSKII LQKGLLVKLE LFRTENKGWA IRAAEPIPQG TFVCEYIGEV VKADKTMKNA ESVSSKSGCN YLFDIASQID
1401: RERLRTVGAI EYLIDATRSG NVSRYINHSC SPNLSTRLVL VESKDCQLAH IGLFANQDIA VGEELAYDYR QKLVAGDGCF CHCGGTNCRG RVY
0001: MEVKMDELVL DVDVEEATGS ELLVKSEPEA DLNAVKSSTD LVTVTGPIGK NGEGESSPSE PKWLQQDEPI ALWVKWRGKW QAGIRCAKAD WPLTTLRGKP
0101: THDRKKYCVI FFPHTKNYSW ADMQLVRSIN EFPDPIAYKS HKIGLKLVKD LTAARRYIMR KLTVGMFNIV DQFPSEVVSE AARDIIIWKE FAMEATRSTS
0201: YHDLGIMLVK LHSMILQRYM DPIWLENSFP LWVQKCNNAV NAESIELLNE WNEVKSLSES PMQPMLLSEW KTWKHDIAKW FSISRRGVGE IAQPDSKSVF
0301: NSDVQASRKR PKLEIRRAET TNATHMESDT SPQGLSAIDS EFFSSRGNTN SPETMKEENP VMNTPENGLD LWDGIVVEAG GSQFMKTKET NGLSHPQDQH
0401: INESVLKKPF GSGNKSQQCI AFIESKGRQC VRWANEGDVY CCVHLASRFT TKSMKNEGSP AVEAPMCGGV TVLGTKCKHR SLPGFLYCKK HRPHTGMVKP
0501: DDSSSFLVKR KVSEIMSTLE TNQCQDLVPF GEPEGPSFEK QEPHGATSFT EMFEHCSQED NLCIGSCSEN SYISCSEFST KHSLYCEQHL PNWLKRARNG
0601: KSRIISKEVF VDLLRGCLSR EEKLALHQAC DIFYKLFKSV LSLRNSVPME VQIDWAKTEA SRNADAGVGE FLMKLVSNER ERLTRIWGFA TGADEEDVSL
0701: SEYPNRLLAI TNTCDDDDDK EKWSFSGFAC AICLDSFVRR KLLEIHVEER HHVQFAEKCM LLQCIPCGSH FGDKEQLLVH VQAVHPSECK SLTVASECNL
0801: TNGEFSQKPE AGSSQIVVSQ NNENTSGVHK FVCKFCGLKF NLLPDLGRHH QAEHMGPSLV GSRGPKKGIR FNTYRMKSGR LSRPNKFKKS LGAVSYRIRN
0901: RAGVNMKRRM QGSKSLGTEG NTEAGVSPPL DDSRNFDGVT DAHCSVVSDI LLSKVQKAKH RPNNLDILSA ARSACCRVSV ETSLEAKFGD LPDRIYLKAA
1001: KLCGEQGVQV QWHQEGYICS NGCKPVKDPN LLHPLIPRQE NDRFGIAVDA GQHSNIELEV DECHCIMEAH HFSKRPFGNT AVLCKDISFG KESVPICVVD
1101: DDLWNSEKPY EMPWECFTYV TNSILHPSMD LVKENLQLRC SCRSSVCSPV TCDHVYLFGN DFEDARDIYG KSMRCRFPYD GKQRIILEEG YPVYECNKFC
1201: GCSRTCQNRV LQNGIRAKLE VFRTESKGWG LRACEHILRG TFVCEYIGEV LDQQEANKRR NQYGNGDCSY ILDIDANIND IGRLMEEELD YAIDATTHGN
1301: ISRFINHSCS PNLVNHQVIV ESMESPLAHI GLYASMDIAA GEEITRDYGR RPVPSEQENE HPCHCKATNC RGLLS
0101: THDRKKYCVI FFPHTKNYSW ADMQLVRSIN EFPDPIAYKS HKIGLKLVKD LTAARRYIMR KLTVGMFNIV DQFPSEVVSE AARDIIIWKE FAMEATRSTS
0201: YHDLGIMLVK LHSMILQRYM DPIWLENSFP LWVQKCNNAV NAESIELLNE WNEVKSLSES PMQPMLLSEW KTWKHDIAKW FSISRRGVGE IAQPDSKSVF
0301: NSDVQASRKR PKLEIRRAET TNATHMESDT SPQGLSAIDS EFFSSRGNTN SPETMKEENP VMNTPENGLD LWDGIVVEAG GSQFMKTKET NGLSHPQDQH
0401: INESVLKKPF GSGNKSQQCI AFIESKGRQC VRWANEGDVY CCVHLASRFT TKSMKNEGSP AVEAPMCGGV TVLGTKCKHR SLPGFLYCKK HRPHTGMVKP
0501: DDSSSFLVKR KVSEIMSTLE TNQCQDLVPF GEPEGPSFEK QEPHGATSFT EMFEHCSQED NLCIGSCSEN SYISCSEFST KHSLYCEQHL PNWLKRARNG
0601: KSRIISKEVF VDLLRGCLSR EEKLALHQAC DIFYKLFKSV LSLRNSVPME VQIDWAKTEA SRNADAGVGE FLMKLVSNER ERLTRIWGFA TGADEEDVSL
0701: SEYPNRLLAI TNTCDDDDDK EKWSFSGFAC AICLDSFVRR KLLEIHVEER HHVQFAEKCM LLQCIPCGSH FGDKEQLLVH VQAVHPSECK SLTVASECNL
0801: TNGEFSQKPE AGSSQIVVSQ NNENTSGVHK FVCKFCGLKF NLLPDLGRHH QAEHMGPSLV GSRGPKKGIR FNTYRMKSGR LSRPNKFKKS LGAVSYRIRN
0901: RAGVNMKRRM QGSKSLGTEG NTEAGVSPPL DDSRNFDGVT DAHCSVVSDI LLSKVQKAKH RPNNLDILSA ARSACCRVSV ETSLEAKFGD LPDRIYLKAA
1001: KLCGEQGVQV QWHQEGYICS NGCKPVKDPN LLHPLIPRQE NDRFGIAVDA GQHSNIELEV DECHCIMEAH HFSKRPFGNT AVLCKDISFG KESVPICVVD
1101: DDLWNSEKPY EMPWECFTYV TNSILHPSMD LVKENLQLRC SCRSSVCSPV TCDHVYLFGN DFEDARDIYG KSMRCRFPYD GKQRIILEEG YPVYECNKFC
1201: GCSRTCQNRV LQNGIRAKLE VFRTESKGWG LRACEHILRG TFVCEYIGEV LDQQEANKRR NQYGNGDCSY ILDIDANIND IGRLMEEELD YAIDATTHGN
1301: ISRFINHSCS PNLVNHQVIV ESMESPLAHI GLYASMDIAA GEEITRDYGR RPVPSEQENE HPCHCKATNC RGLLS
Arabidopsis Description
SUVR5Histone-lysine N-methyltransferase SUVR5 [Source:UniProtKB/Swiss-Prot;Acc:O64827]
SUBAcon: [nucleus]
SUBAcon: [nucleus]
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.