Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0153400 |
| Transcript ID | LotjaGi5g1v0153400.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Histone-lysine N-methyltransferase; TAIR: AT5G43990.1 SET-domain containing protein lysine methyltransferase family protein; Swiss-Prot: sp|Q9FNC7|SUVR2_ARATH Probable inactive histone-lysine N-methyltransferase SUVR2; TrEMBL-Plants: tr|A0A0B2PE63|A0A0B2PE63_GLYSO Histone-lysine N-methyltransferase SUVR2; Found in the gene: LotjaGi5g1v0153400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:39928676..39937220) extracted from Lotus japonicus Gifu genome v1.2.
GCAAAAGCAGCAAACAACACTCACCAAAAAAGTGGATGAGTGGAAAATACAAAAAAAAACATATAAAATAGGGAATGTGA AAAGGCTGAAAGTGAAGGTAAAGTGGTGAGTGAGCAGTACACAGCATTGAGAAATGGTCAGCATTTCCATTTGGTGCCCT ATTTTCACCCAGCTCGTCTTTCTCCCTCTCCCTCCCTCCTCACCACAATGATCACCATTCACAAACCCACCTCACTCTAG ATCTTCTCCTCTTTCGCTTCATTCTCATTTCACATTCACATTCACAGTGTTGCTCTCACTCCGCAAAAATCGTCATCGTT TTCAACCCCCTACATTGCTTTCTCTTCTCCCGAGGTTCAAGATCTTCTCTTTTTCGCATTTTACTGTGAAATATAGCATC TGCATGCCTTTGTGTTTGTGTTTTTTCTTGTGGGTCGTTTGTGGTTTTGAGTCGCTTCCAGGTTTTGATTGTTGGACTGA ATTTCTATGTGGTAAAGTTAGTGTCTTTTGTGTTAGAATCTTCCATCCTTGAGGTTTTTAAATAATGGGTATGAATCTGC ATGTGTAACTACTGACTCTGAGAAAAAGGGCTTTTCCAAGTTTTCCTTTTTCAAGAGCTTAATTCAGGGAATGAGGGTGT GTTATTGTGCTTAATTTTTCTTTGGGTTGTCATTTCCCTTTTTGGGTTGGCATTAACACATATTACATGAGGAGCAAGAG TACTTGCTGTCTGTTGCACTAGCTCCTTTGAAATGTGCTAGATGATATGGATAGTGGTTGCTCTGATTATTCAGTTATGT GTTAATTTTATGTGGTGTGCTTTATTTCTCTTTAAACTTCAAGTCAAGGTCCTATCTATGGACATTGGAGCCTCCTAAAA AAGATCTAATTGAAGGAATATGGTGATTGAGAAGTTGAAAGATACCTTCGATTATGATTCCTTTGGAATGTATAGTTTAT TGTAAGAAAGGAGGCCTAGAAAAGGTTTATATTCTGCTAATTTGGTTTCCTTAGAAAGGATTTTGATGGTGTAAGAATCT GTACTGTATCTATGTCAAAATATGAAGTTTGCACGGCATGGCACTTATCTTCTTATTTGTTATCTGGATTTCAATTATAT GTGTCTATTTTTCCATTTCGTTTTGAATAGTTGGGTTACTGATATTTTTTATTTTCCCCTGCTTCTGCTTTCTATGTTAC TACCAGTAGAATCTGTTGGGCATCTAGCTTAATTACTATTTACTAATAAATCATATTTTGTATTTCCTATAATAGAAATC CTTGGAATTGAAGCATTTTACATCTGAGAGCCTGAAGTTAAAGAAGCTGTTGGCTGATTTTAAATGGCGCCTCCCAATCC AAAAGTTGTAGCGGCCTACCGTGCAATGGCACCTCTTGGGATCACTGAATCACAAGTGAAACCAGCATTAAAGAAACTCC TCAAACTGTATGATAAAAAATGGGAACTTATTGAGGAAGATAACTATAGAGCTCTACTCGATGCTATATTTGATGATGAC GGACCTAAGGTGTATTTCCCACTTGCTAATTTCTTTTTTTGGCTCCACACACTATGATCATCCTGCGAGTACTTACTTCT GTTGGATTTTTATTAACAGGAGCCAGAACAGGTGCCAGAACAGAAAAAGAGAAGCAAGAAAGTTAATGTACATAATATAC ATCATTCCAACATTCTTTTTTGTCTGAGTTAATCTGCATTACTTTATTGGTTTCATGCATATAGCTGATGAAATGTCTTC TGCATTTTCAAACATCCAGGAAGAAGAGATGGAGTATGAAGAAGCGCAGATGCATGTTGAATCAGCCCGACCTTTGAAAA AGCTACGTTTAAGAGGCCAAGAGAGTCAGCCTTTGCATCCTCTGTCAAACAGTTCTCCTAGCTCAGCTGGCCCTTCAGTA AGGAACGATGCACGACCGGTTTCATCACAAGATGGTATTGTTGACAAGGGAAAGCAATCTGTATCTCCCCAAGTTTCTCT CAGAGGGAGAAGACATATATCTGAAAGGGCATCACAAACAGTTGACCAAGGAAAGTTTCTGTTGTCGGACAACCAAATGC CTCATACTCATGCAATGATCATACCCAAGGATGAACCTATTGATGAATTGCCTGATTATGAGCTTCCCATTTCTGTGATT CCTCCTCAACCTGGTATTCAGTGAACTTTTCCTCGATGACAAGTTTCTTGCTGTTTGTTTTTAGTGACTTGACATCCTAA GTATGATTGGCATGCTCCAATTATAGTTTGCGAACCATGGTTTTACTCATTAGGGAAGCAACTTTCTTTTTCTTCCTTTC AAAGTTCAAACAGAACCCAACTGTAGTTTTGTCAAACATGTTATTTGTGGATGAAACTCTGTTTGCAAACCTAAAACCTT GAATTACAATTCAAACATGGTCAACTTTAGTTTATTTGCTTGGTAGTATTGTGAATTAGGCAGAAATATTTTCTTATGGA AATGCAGGAAAATCTTTTAACACCACAGTGCCTCAAAGTAATAAAGAAGTCTATGCTCAAAAAATTGTTTTGGCTGTAAA TCGGCTTTTCACCTGAATCTGAATATTATCCAGCTCTTTAAGTCCCAGCATTTTTGTCATGGTGTTTGACTGTTTGTATA ATTGGATCGCATTAGTTGTTAACTGATAGAACTGAGGCGTTGTGGCCCTGCCATATGCTGTAATTAGCATATGCAACTTG CAATTCTTTACTGAGCTATGACTTATCTAGAAAGTTTGTCATAAGATGCTCTACGGTGGCCGTGCTTATATGTGTAGAAG GAGCAATTTTTCTGGTCTGGCATCTGATTGGTCTTATTTCTAAGTCCAAAACCAAATAGAACGTCACTTCTGTGTCACAC ACATTATTATTACTATTGTTGGATTGCCATTTTTTCTTTTAGTTACTCTGTTGCCAATCCATTTAACATTCGTTCTGTAA TGAGGTTGTTAATTTTTTTTCCCTTATTGAAGATCCATCAAGTTTAAGGGGCTCATCAGTGAAGAATGGTGTAACTGGAA TGAAAGATGGCCATGTTAACGCGGCATCATCACACCGCAGTGATGGAGATATTCTTCATTCGTCGAATGAAGAAGCAACA TCTAATGTAGAGATAGCATCTTCAACTCTGGGAGAAGTGAAACTTTCTCTGAGCTGCAGCTCAGCTCTCTGGGGACCAGA TTTTCATATGCCTAGTCGAGATCATCTTCTAGAAATGCTGGAGGATAAGTGTCTGCGATCATATAAAATCACTGACCCAA AGTTTTCTGTTCAGAACCTGTTGAAAGATATATGTGACTGCATGCTGGAACTCAGATCTAATTCAAATGATGACTCACAA GAATGTTCTTTAACAAGGGTTGATACATTAAAGGAATCTGAGGCACATGGCACTAGTGTTGGGGAAAATAAAAATCTGGA CGTGTTTACTCATTCATCAAATGGATCAATCAATATTAAGTCATCTGCAAATATTGTTTCACCCCGAAGTCCCTTTTCTT TAGCTGACCTGAATGGTCTGGATGATACCATAGCAGTTACGAATATTTTTTCACAAAATGATGTCAGAAAGGAGTTGGAG GATCCAAATTCACGTAGTTTAGTGGTTGTTCCTCAGCATCAGCTTACAGAAGATAATATTAGGTCATTTCATGATGTTAA TGATCTTACCAAAGGAGAAGAAAATGTTCAAATTTCATGGGTGAATGAAGCTACTAATGATTTCCTACCGTGTTTTAACT ACATGCCCCAAAACCTTGTTTTCAAAGATGCTTGTGTTAACATTTCTCTATCTTGTATCGGGGGTGAGGATTGTTGTTCA ACATGTCACGGCAATTGTGTCTTGTCGTCTACACCCTGTGCCTGTGCGAATAAAACTGGGGGTGAATTTGCATACACAGC TCAAGGCCTACTGAAGGAAGAGTTTTTGGAAGAGTGCATTGCCATCGGTCGCAACCCTCGTCAACATGACTTCTATTGCA AGGATTGCCCACTTGAAAGATACAAGACTGAGGGCTGTTTAGAACCATGTAAAGGACACTTAAAGAGGAAGTTTATTAAA GAATGCTGGAGCAAATGTGGCTGTGGTAAACTATGTGGAAATCGGGTTACCCAACGAGGAATTACTAGCAATTTGCAGGT GGGGTGTTTAAGAAATCTTTGCCACTAGTAAATAAATACATTTTCTTGAATCTTGATGCTTGGCTTATATTCTTATGTTG CTTCTTAGTATAACATTATCACAATGTTTTCTCTAATAATATCCGGATCTCAGGTATTTTTCACTTCAGAAGGAAAAGGA TGGGGTCTTCGCACCTTAGAGGACCTGCCAAAAGGTGCATTTGTGTGTGAGTTTGTTGGAGAGATTTTAACCATTAAAGA GTTGCATGAGAGGAGCATGAAATGCACTGAAAACGGGAAACACACTTACCCCATTTTGCTAGATGCGGATTGGGATTCTG TATTTGTAAAAGATGAAAAAGCTCTATGCTTGGATGCAACATCCTTTGGTAACACTGCTAGGTTTATCAATCACAGGTAT CAACTCTCTCACCTATGGTTTCAGATTCGACAATTAGGGTTCAAGTGTAGGGTAAGCAAGCAAGCAATTAATTCAGACAT TCATGGTTGCAAAATGTTGAAAGTCAATCCTACAGCTCTAAATTTGGTTGTCATGTTTTAAACAGATAACTTGTGCTTTG TAGTTTATCCAGTATAAATGATGGTTTTGTTCTAATACAATTTCTTACTGCTATTTTTCAATGGACATGATTACGTGGTC ATGCTTTTTCCTGATGTAGGAAAAAACTGAAGCCAAGCTTGCTTTCTTTTTTCTTTCCTGGATGCTTGTTTGTACTATTT GGCATTTGCCTATTATATATAGATTTGGTATTTCCAAAAAAAAAATCATTCATGCAACTGTTTGTTCTATATTCACATGA GGAAAAATTATACTTATTTTGAATTTGGATGCTTCATAGGATAACAAAATGACCATCCTAAGAAAAAATCAGAAGGAACA AATTCAACTCAAGCAATGAACAAAAAAGGCGAATATGAGAAAAATTACTTGAGTTTTTAGAAGTAGTTTATATATATATA TATATATCTTTTTAATTTATAACTTCTAATTATCTGAAGAGCAAAGGAAACTTTTTTTATGTAATTGTTATGCATGAGAA TTAATTAATTCTCTGTAGACTGAAGTTATGAAATACAAAATCTGAAAAAGAATTAGGATAGAAGGGGTCCAAATTAACTA AGTACTGATAAAAAAAGATAGCAACTGCATTTGAGACTAAGCTTTGTTCGATATGCATGTTTCAGATGTTGATTATGCAT GCATATGGTTTGATACTTGTGATTATGTCCTGTCAATGTTGGGCTTCTGTGAAAGAGTGGCTAGGCAATCATTTGCCACA TTATTCAGACATTTAACCTCTGTAACTTTTTGTTTTCTCTTTTTTCCAGATGCTATGATGCAAACTTGGTTGAGATCCCA GTCGAAGTTGAGACCCCAGATCATCACTACTATCATGTGAGAAGTTAGCTATTCCTTGAAGTTCCATCTGCAGTTTTTAG AATTGCTTTTTATTGGCATGATAGACTCTATAGCATATTGCTCACTGATGCTTTTAAGGTGTTACAATGTGCAGTTAGCC TTTTTCACTTCCCGAAAAATAGCTGCACAGGAAGAGCTCACTTGGGTAAGCATGGTTATGTAACTTTGTTTTTGGTGAAT GGGCCTATCTTCAAATCTTTTTGGTCTTTATTATTATTTACTTTTTTCAAGTAGGAGACAAATTAACAACTAACTATGAG GCACAGATATGAACATTGGACACGGCACAGACATTGGCACGTTAATATCTGAAATATAGGACCGGACACTATACATGTGT TTGTTAGAGAGGAATTAATCTTAACCATCCTTGCATTATTGCATGGTCAAAATTAGCTTTTCTTTCTTGTCATGTTCTCA CTTGATACACCCCTCTGCACACATTATGCAGGGGTGCAAGAGTGAACATCGGAAGAAATGATATTCCCAAATGTAGTGTA ACGGTGACCTATTGTAACATTTTTCAGGTTTTAACCTATTTTTTATAATTTAACTTTTTTTGCAAGTTATTTAAAAAAAA TCATTTTTTAAAAGGAGTTGTATCATTCAAGTGTCATACCTTATTGAGTAGTGCTAGCAACACTATCTTTAACAATCTCT CATTGGTTGATTGAAATTCATGGGAGTCCCACTAAATTAGATGTGTGGCCCATATTTTTAGTGGACCCCACATGAATTTA TACCAATCAATGAGAGTGTTGAAAAAAGTATTGCTAGCATTTTTCTACCTTATTTGAATGTCGGCTGGGTGTGTCTAAGC CGTGTCGGTTAAGTGTCCAAGAGGGGTCAGCTAAGTGTCCAAGTCGACAATCTTTTTTTTTAATAGGACACCTGATGAGG AGTGTCTGAGTCTCTGAGACATGTCATATGTGTCCAGTGTTATCGTATATCAGCCATGGCGCCACCATTGTGGAATCTCA TGGCAGGTTTTTGGCTCTCTGCTATGGCCGATATCCTGCCTTAATCTGCCATCATCTGCCATCATTATTTGACAAATATG GTGGGATTTTGGCTCTCCGCTATCCACCATTAACAACATGTGTTATAGGGGTGCTGGTAAAGTGTCCGACATTCTAACAC CTTAAGAAGTGTTTGTGTATAGGAATCAGGTAACAAGGTTGAGATAATTTGATTTGTTCATTTTCTAAATAATTTTCTAG TTGTTTATGTTTATTTAGTTGACAAATGCTATGTACTCTGGTTCTTGGTTAGTTGGCAGACCATTTAGTATGTCCTCAAT CTGGGTAGTTCATGTTCTTGAAACCATTTAATTAATCTAGTAATCAACTGTTTCCCTAAAGCTTATGTTCGAGTTGTTTC TGCAGGATTATGGCATTGACTTCCATGACCATGATCAACCTATAAAGCTGTTCGAGTGCAGATGTGGCAGTAAATTCTGC AGGAATATGAAGCGGTCAAATAGTAAGTTCAGTCTGCCCCTGATGGGTAATGGGTAGAATTTCTCTCATCATTAGGAAGG GGACCCACCCTTCATCTTCTCTATTGCTATTGTCAATTCCTAAGCTTTAGCCTTCTCTACTTTATTGCTATATTTGTTTT TTTGTGTTGCGTATGTTTAGTTTCAACTACAATGATTATTATGAAATACGATGCATCCACTGGTGTATTGGTCTGGCTTT CTATGTGATTGATGCTAATCTTTTTTTCAGCAGATCTATATATGATTTGTGATGTCATTTAATATGAAACTCTAAATATA TTTTTATAAAATATAGCCATATAGGAATACCGAATACCTACAAAAAGATCATATAGAAACCTTGATTATTACTTCAAGCT GATGCCTGATTTGATAGCATTAGGCTTTGCGCAGCTTTGCTGGGTTGATTGTTGGAAAGGCTAGTCACTTATGAAATGGA AATTTTAAATTTGATTTAGTCTTTTGTTGTAGGAACCGTTAGGTAACTTGTTGCCTTCCTTCTTGAGGGTCCACATAGCT TATATATTGACTTGCAGAGTGCAGACTTATATTTGATTGTTTTCAGTAATTACTTTTGTCACTGTTATCATGCAGGGTCC ATCAGATCTGCTTCGATTGCAAGCTGATAGCCATTCTCTGTGAAACCAAGTTTTTTGTCTCACCCATGCTTACTGCATTG GTGCCTTTGTCCTCTATCTGGGATCTTTGTTTAGTCTGTAGTTGAGGACTATGTATAGTACAGCTTTCTGAAAACTACTA GGCACTCTTGTGTGGCCAAGAAAGAAAAGACTTAACGTTTTGGTCCCTTCAGATGCATGTCTCGTCAGTTTGGACATCCC TTAAAAATATATCGAAATCGTCATTCAATGTTAAATGTTAATTTGATATTGAAGGATAATTTTGATATATTTATCATATT TTGTTCAGATTAATGACATTTTGTTAGGTGAGACAAAAGTAGATGTTTACATAGAAAGATCATTTTGTAGTAGTGAAGTT GAATATGTATGTATCTAACTGCGGCATTTGTAGGGCTTTTAACCTTTGAATATCAACTTGCAGGTGTTTGGAATTTTATT TTGTGAAAAATTAAAAATATTAAAAATGTATGTTATATCGTTTTCGACGAATTGGCCATGATTTATTGTATTGGCTGTTA TTAAATCTGTAATTTTTTTACCAAAAAATATTTTCTAAAAACAATTCTTAAGACCAAAGTAGATGTTTGCTTAAAATATG TAGGGCAGTGCTGAACTTAATTGTTTAAATGTCTAACGGCAGCATCTGTAGGTCTTTTTTTCAAAATCTTTGTTGAATAT CAACAAGTCAACATACGTTTGGAATTTTATCAAGTTATGCATTTCTACGAACGAATTGGTAAAAAATATTTTTCAATTAT TTAACGGGTGAATGGTCACTTTCGTCCCTAAAGTTACAGGCGTCGGGCATTTTAGTCCCTATTCT
CDS sequence (LotjaGi5g1v0153400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGCCTCCCAATCCAAAAGTTGTAGCGGCCTACCGTGCAATGGCACCTCTTGGGATCACTGAATCACAAGTGAAACC AGCATTAAAGAAACTCCTCAAACTGTATGATAAAAAATGGGAACTTATTGAGGAAGATAACTATAGAGCTCTACTCGATG CTATATTTGATGATGACGGACCTAAGGAGCCAGAACAGGTGCCAGAACAGAAAAAGAGAAGCAAGAAAGTTAATGAAGAA GAGATGGAGTATGAAGAAGCGCAGATGCATGTTGAATCAGCCCGACCTTTGAAAAAGCTACGTTTAAGAGGCCAAGAGAG TCAGCCTTTGCATCCTCTGTCAAACAGTTCTCCTAGCTCAGCTGGCCCTTCAGTAAGGAACGATGCACGACCGGTTTCAT CACAAGATGGTATTGTTGACAAGGGAAAGCAATCTGTATCTCCCCAAGTTTCTCTCAGAGGGAGAAGACATATATCTGAA AGGGCATCACAAACAGTTGACCAAGGAAAGTTTCTGTTGTCGGACAACCAAATGCCTCATACTCATGCAATGATCATACC CAAGGATGAACCTATTGATGAATTGCCTGATTATGAGCTTCCCATTTCTGTGATTCCTCCTCAACCTGATCCATCAAGTT TAAGGGGCTCATCAGTGAAGAATGGTGTAACTGGAATGAAAGATGGCCATGTTAACGCGGCATCATCACACCGCAGTGAT GGAGATATTCTTCATTCGTCGAATGAAGAAGCAACATCTAATGTAGAGATAGCATCTTCAACTCTGGGAGAAGTGAAACT TTCTCTGAGCTGCAGCTCAGCTCTCTGGGGACCAGATTTTCATATGCCTAGTCGAGATCATCTTCTAGAAATGCTGGAGG ATAAGTGTCTGCGATCATATAAAATCACTGACCCAAAGTTTTCTGTTCAGAACCTGTTGAAAGATATATGTGACTGCATG CTGGAACTCAGATCTAATTCAAATGATGACTCACAAGAATGTTCTTTAACAAGGGTTGATACATTAAAGGAATCTGAGGC ACATGGCACTAGTGTTGGGGAAAATAAAAATCTGGACGTGTTTACTCATTCATCAAATGGATCAATCAATATTAAGTCAT CTGCAAATATTGTTTCACCCCGAAGTCCCTTTTCTTTAGCTGACCTGAATGGTCTGGATGATACCATAGCAGTTACGAAT ATTTTTTCACAAAATGATGTCAGAAAGGAGTTGGAGGATCCAAATTCACGTAGTTTAGTGGTTGTTCCTCAGCATCAGCT TACAGAAGATAATATTAGGTCATTTCATGATGTTAATGATCTTACCAAAGGAGAAGAAAATGTTCAAATTTCATGGGTGA ATGAAGCTACTAATGATTTCCTACCGTGTTTTAACTACATGCCCCAAAACCTTGTTTTCAAAGATGCTTGTGTTAACATT TCTCTATCTTGTATCGGGGGTGAGGATTGTTGTTCAACATGTCACGGCAATTGTGTCTTGTCGTCTACACCCTGTGCCTG TGCGAATAAAACTGGGGGTGAATTTGCATACACAGCTCAAGGCCTACTGAAGGAAGAGTTTTTGGAAGAGTGCATTGCCA TCGGTCGCAACCCTCGTCAACATGACTTCTATTGCAAGGATTGCCCACTTGAAAGATACAAGACTGAGGGCTGTTTAGAA CCATGTAAAGGACACTTAAAGAGGAAGTTTATTAAAGAATGCTGGAGCAAATGTGGCTGTGGTAAACTATGTGGAAATCG GGTTACCCAACGAGGAATTACTAGCAATTTGCAGGTATTTTTCACTTCAGAAGGAAAAGGATGGGGTCTTCGCACCTTAG AGGACCTGCCAAAAGGTGCATTTGTGTGTGAGTTTGTTGGAGAGATTTTAACCATTAAAGAGTTGCATGAGAGGAGCATG AAATGCACTGAAAACGGGAAACACACTTACCCCATTTTGCTAGATGCGGATTGGGATTCTGTATTTGTAAAAGATGAAAA AGCTCTATGCTTGGATGCAACATCCTTTGGTAACACTGCTAGGTTTATCAATCACAGATGCTATGATGCAAACTTGGTTG AGATCCCAGTCGAAGTTGAGACCCCAGATCATCACTACTATCATTTAGCCTTTTTCACTTCCCGAAAAATAGCTGCACAG GAAGAGCTCACTTGGGATTATGGCATTGACTTCCATGACCATGATCAACCTATAAAGCTGTTCGAGTGCAGATGTGGCAG TAAATTCTGCAGGAATATGAAGCGGTCAAATAGGTCCATCAGATCTGCTTCGATTGCAAGCTGA
Protein sequence (LotjaGi5g1v0153400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAPPNPKVVAAYRAMAPLGITESQVKPALKKLLKLYDKKWELIEEDNYRALLDAIFDDDGPKEPEQVPEQKKRSKKVNEE EMEYEEAQMHVESARPLKKLRLRGQESQPLHPLSNSSPSSAGPSVRNDARPVSSQDGIVDKGKQSVSPQVSLRGRRHISE RASQTVDQGKFLLSDNQMPHTHAMIIPKDEPIDELPDYELPISVIPPQPDPSSLRGSSVKNGVTGMKDGHVNAASSHRSD GDILHSSNEEATSNVEIASSTLGEVKLSLSCSSALWGPDFHMPSRDHLLEMLEDKCLRSYKITDPKFSVQNLLKDICDCM LELRSNSNDDSQECSLTRVDTLKESEAHGTSVGENKNLDVFTHSSNGSINIKSSANIVSPRSPFSLADLNGLDDTIAVTN IFSQNDVRKELEDPNSRSLVVVPQHQLTEDNIRSFHDVNDLTKGEENVQISWVNEATNDFLPCFNYMPQNLVFKDACVNI SLSCIGGEDCCSTCHGNCVLSSTPCACANKTGGEFAYTAQGLLKEEFLEECIAIGRNPRQHDFYCKDCPLERYKTEGCLE PCKGHLKRKFIKECWSKCGCGKLCGNRVTQRGITSNLQVFFTSEGKGWGLRTLEDLPKGAFVCEFVGEILTIKELHERSM KCTENGKHTYPILLDADWDSVFVKDEKALCLDATSFGNTARFINHRCYDANLVEIPVEVETPDHHYYHLAFFTSRKIAAQ EELTWDYGIDFHDHDQPIKLFECRCGSKFCRNMKRSNRSIRSASIAS
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
| Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
|---|---|---|---|---|---|---|
| Gene3D | 1 | 60 | 60 | 2.2E-22 | ||
| ProSiteProfiles | 1 | 767 | 767 | 191.978 | ||
| PANTHER | 3 | 762 | 760 | 6.8E-301 | – | |
| PANTHER | 3 | 762 | 760 | 6.8E-301 | – | |
| Pfam | 7 | 58 | 52 | 7.7E-22 | ||
| MobiDBLite | 57 | 90 | 34 | - | – | |
| MobiDBLite | 106 | 153 | 48 | - | – | |
| MobiDBLite | 108 | 131 | 24 | - | – | |
| MobiDBLite | 138 | 152 | 15 | - | – | |
| SMART | 438 | 579 | 142 | 5.9E-13 | ||
| Pfam | 442 | 587 | 146 | 5.1E-15 | ||
| SUPERFAMILY | 447 | 751 | 305 | 3.92E-67 | – | |
| ProSiteProfiles | 486 | 592 | 107 | 8.594 | ||
| SMART | 595 | 734 | 140 | 2.1E-33 | ||
| ProSiteProfiles | 595 | 728 | 134 | 18.04 | ||
| Pfam | 607 | 728 | 122 | 5.6E-18 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
| GO term | Namespace | Name | Definition | Relationships |
|---|---|---|---|---|
| Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
| Cellular component | Nucleus | A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent. | ||
| Molecular function | Zinc ion binding | Interacting selectively and non-covalently with zinc (Zn) ions. | ||
| Molecular function | Histone-lysine N-methyltransferase activity | Catalysis of the reaction: S-adenosyl-L-methionine + histone L-lysine = S-adenosyl-L-homocysteine + histone N6-methyl-L-lysine. The methylation of peptidyl-lysine in histones forms N6-methyl-L-lysine, N6,N6-dimethyl-L-lysine and N6,N6,N6-trimethyl-L-lysine derivatives. | ||
| Biological process | Histone lysine methylation | The modification of a histone by addition of one or more methyl groups to a lysine residue. |
Expression pattern of LotjaGi5g1v0153400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…