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 | LotjaGi1g1v0282700 |
Transcript ID | LotjaGi1g1v0282700.1 |
Related isoforms 7 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Receptor-like kinase; TAIR: AT1G70250.1 receptor serine/threonine kinase; Swiss-Prot: sp|P93604|LRK10_WHEAT Rust resistance kinase Lr10; TrEMBL-Plants: tr|G7I978|G7I978_MEDTR Receptor-like kinase; Found in the gene: LotjaGi1g1v0282700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:68933274..68943489) extracted from Lotus japonicus Gifu genome v1.2.
TAAACATGGGGGACCCAAATCGCACAATCATGATATTTAGGGGACCAAAAGTGCAATTAAGCCATCACAAAAGTACAATA GGATGCTTCACACGCTTAATAGGCAGTTCAATACAGAACTATTATATATTGCTTTTTTTATGGCATATTAACGGTATAAC TGAGACAAACAAAAGGCAAAAGAAAATGACGTCTATTTCACCATTGACCATTGTTAGCTATAGTCACTCTAACTCCTGGA TTACTTCTAAATCTTGGGGTAGTTGTCTTGCAGCAACACCCGACGTAGCACTTGTTCTTCTCAGTCCTGCACCTGCTGAA GAAGTGAAAGGATTAGGAGGTATTGGAGTTGTGTCTGCATCTCCTTCTAACATTTGAAGCACCATTTGCATTGATGGTCT ATCCATGGCATGCCACTGGATGCACCAAAGTCCCACAATAGCTAGTTTCCTTGCAATTTCTGCATCCCCTTCTTCTTCAA TATGGATTCTCATTTCCTCGTGTTCCTCCAAAAGATTATGAATCCATTCTGGGTAGTAAACCTGGCTACCATTTTCCTCC ATGTCTTCCGTGATCTTCCTCCCTCCTATTGTTTCAAGCAACATCATTCCATAGCTATAAACATCTGACTTGTAAGAAAC ATTGCCAAAGTTTCTTGAGAACACTTCAGGAGCAATGTACCCCAGAGTTCCTCTAGCTGCAGTCATTGACACTATGCTCT CATCCCTTGAGCACAATTTAGCTAGACCAAAGTCACATATTTTTGGAGCAAAGTTGTGGTCTAGCAACACATTTTGAGGC TTGATATCAAAGTGGAGAATGCGCTGATTACAACCTTGGTGAAGATACTCAATTCCCTTGGCTATTCCTAAAGCAATTTC ATGAAGTCTTTTCCAACCAAGGAAGTTTTGCCTGTTGTCTGGTGAATTGATGAACTTCTGGAGTGAACCGTTTGGTAAGA ATTCATATACAAGAGCTCTATTAAAGCCATCAGCACAGAAACCCACCATGCGAACAATGTTAACATGGTGGATTCTACCC ATGGTGCTAACTTCATTAATGAATTCTTCACCCTTTCCGTGAGAAATATTCAAGATCTTCACAGCAATAGGAATTTCTTT GGAAATGCTTCCTTTAAACACGGTTCCAAAGGCTCCCTCTCCTAACTTGTGCTCAAAATTGTTGGTGATTCTCTTAATTT CGACATAAGAGTATCTGGTGGGCTTAAGAGCTCTGTAGTCTTGTAGGAATTTTTCGAATATTGCTTCTTTTTCTTTTCTC AGTCGGTAAATGTCATAGACGTGGTAGACTGCAGCAGTCAAGAGCATAAAGAACAAGGATCCTAGGACAGATCCTGCATT TATGGAAACTAAAATGTAAGAAAATGATAATTTACTTACTGCTTCAGGTTAATATTGATCAGAAAGCAAAACAAAGTTTG AAGGAATGAACGCTGACCTGTAGTCACTAGAGCTGTTGAAGAACCTGCAAGTAGTTTAACAACAATAGCAAAACTCAGTA ATGGTCACTAGATATCTCAAGGAACTGGCTTAATTGAATGCTCCTAAATACTTCACAAATGCAATACCAAATATTTTCAG GAATTTGAAACCGGTACATTTTATCCAAAAGTAGCATACAGTTGCTAGTTAGAAATCACGTTTAATTCCATTAATTTGTA AAGCTAGCTAGTAGCTAGGGTCTTCACAATCCATGGTTTTAAATTGTGATTTGCTGTCAAGGTTTTTCAAGTCTTCCAAT AGGCTTAGGACCTCAATTGTGACTGCATTAGCGCTACGCAACCTCAAATTAAAACCAAAGTTCAATTATTTTGCATCTAC ATGACTTGAACATCTTAAATTTGTTCTTAACCGTACTCAACTGCAAAAACTAATTCTTAAGATAAGGATTGCTAAATTCT TTAACTTTAGTCTTTACTCTGATAGAACATAGAAAAGAGCCTCGGAATACTATGGAATGAAAAGGTTACCTACCTTTGTG ATTGGGGAAACAATATATTTGATTGTTGGCAGTATGATTCCTCCACCCACATCTTCTCCCTTTTGATTCGCATTGTTGAC AGTTGGGCTTAGACCATGTCAAGCGAAGAATATAGTCCTGATCTCTTTGAAAATTAAAAGGGCCGTAAGAAATATTAAAA ATTTTAGTGCAGAACAACAAGGGAAGACCCACCAAGGTTCTACTGGACGGAATGGCGTATACTCGAGCAGTTGAGGTGAT GAGGCACGGAACCAAATAGTAGTCCAAATCTGAATCTCTATCCATCAGTGAACAATTGAAGAAGTTATAGCCACCATGCT TGTCAGGCTTTAACTGGAAATGGGAGGCTGATAAAGTGAGGTGTTGGAGCTGCTTGGGAAGACAGCCATGTGGATCAGAT AATTCAATAGTTTGGTGTCTGTAATCAATGTTTTTGACATTGAGCTTCACTGAGTGAGGGAGTTCAATCACTGTGTTGTT ATCTGAGGAACAAGATAAGTCAAACCCCGGATAGCCACAGGTTGTAGGATGGTGGCCTCTGATTCGGAAAGGGAATCGGA TCACCTGATTTCCGCATGATAAATCTGGACAGTTAGCTGTGCCTGTGCCTGTGCCAAGTGCAAGCTCCACAATAACAACA TTGAAGCAAAGCATGAACAATAACAATCCAACACAAGAGGATAAACAAGTGCCCATTTTCTTAGCAAGTGTCTTTTTGAA CCTGAAGAATTGCAGCTATTTTATAAATAAATAATTAATCTAGGCTAGCAGCTGTTGGTGTTTTTATAACGGGATTTCAA TAAATTATTGTAGGTAGCCCTGTGTGTGGTGTATTAAGTACCACGTTGAGTGACTAATCAAGTCCTTTAGTCTCAATCCT CAACCACTAGAAAATATACATAGTGACAAATTTTATAAATATCTTATTGGATTCCATTATCAACACCAGAAATCCAAAGA CTTCTAAATTTTTGTAGTCAAGTAAGTCAATAAGGAAATTTCAACGAAACTGAGGCAGTAGTAGAACGGTTGTGCAAATT AAAATTGTGATATCTATCTATCTATCCATCCTCATTTTTAGTTTAGCTTTTTGGTAGAAAGATGCAACTCATGATGGCTT CATCGACAGGATCAAAGATAAAGCTTTTGCAGGTGGTGTGGATAATAATAATAGTGCTTCTTCTCCTGTACTGTGGAAGT TGTAGCTGCAGCCAGCAACAAGTGTGTTCTGGTTCGTGCGGTGTTCATAACATAACCCACCCTTTCCGGCTGAAAGACGA TCCGCAAGAGTGTGGTGATCCGAGGTATGAGCTGATCTGCGAGGCCAACCAATTGATGGTGTATTTGGGATTTGGGAAAT ATTATGTTGAGTCAATTAATAACAACAATTTCACTATACGACTACTGGATCCCAAACTTCAGCACCTTCATTTCCCATTA ATAACAAGTTATTCTTTGGGCCTCTACAATCTCACTTTGGCCGATCTTCGTTATGGACCATATCAAATGTATCTGGATAT AACGGACAGAATCAGGTTGGTGAATTCCATGTTATATGTGAACTGTCCAATTGGGGTGGACTTCACTGGTGCTTTGCAGC ACGTTGATGACGGTGCAGCTTGCATGAAGAATAGTTCTTCCTCTTCTTCTTGGTATGGGAAATCTTTCTACCTTTTCAAT GCCACTGACAAAACTGTGGAGAATTTGGGGCTGGGAGACTCGTGCCGCGTAGAGTTTATGTACCTGACATCGTGGCATGA TGATGATGAAACCAACAACATTTCATGTACCAAGATTCGTGACATGCTGCTTTATGGCTTTGAACTTTCCTGGGCGAACA GTCTTTGTAAAGAGGGCCACTTTGCCGTGCTCCTTAACAACAACCACTGGCGTTGCGAATCAGGTTAGCTTGCCCACCCA TGAATCTCTTCAGCTTCCTCAACTCCATCTCTTTTCTTCATTTAATATTTTTAGCTACAAATAGGTGCAGGGACAAAAAT GAATTAAGTTTTATTCACACCTGCAACCTCCCAATTAGTAGAGTTTAGGTGTTGAAAAGAAAGAGAAAGTAAAAGATGTG ATTGATCATATAATTGAAAAAGAAGAAAGAAATAGAGAAAAGCATAGTGAAAATGAGGTGGTGATATGAATGAATCATAG CTCGAAAATGAGGTGATTAAAGTTTTATATTAAGTTTATCATATCAATTATCAATTTTATAAAATTCTTCTACTTTTTTT ATGGATATGCACAGTCAGTGTAAAGAAGTTTTACACTGACGTCCAATCACATTATGGCACATAGGACTAAGTGGTTACAA ATATTACTAACTTTAATTATTAAATTAATAAATTGCTGATGTGACGGAAATCAATTGGATGCATGTGTAAAACAAGTTTA CACTATTAGTGCACCTCCCATTTTCTCTTTTTAAAATTTAACAATTAGGTGTTAATAAATGTCAATTACTTTTAAAAATA AAGTCCACTTGTCATTTGTTGTTAGAAAACTTAAAAAGGACATAAGAAACTTTAGTTTTTCCCTTATAATTTACATATCA GAAGAAAGAGAAAATGAAAATAATATATAAATTAAATAATAATTTTATTTTAAAACTCAAAATAAATTAAAAATTAAAAA AATTATAGATAATATTTCTTTACCAAGATTTGACACACAAAACTAGAGGAAAATTAAAAAAGGCTTTACAGTCAAAACAT GGTTAAGGAAGAAGATGTCAGAGAGAGAGAGATAGAGACGATGATGACGAGGACGAAGGGAAAACTTAGGGTTGGTGGGG GTTCCGAAGAGATCTCATGGGGTTGGAAGCTATGTGTCCCTTTTCATTGATGGTATTTCATATGGTGCAACATACCATCA GATTAAAGACCTTTTTTCTTTGTTTGGAATGATTGCTAGTGTTTTCCTTCGAAGGAGGAGGAAGGAGGGACGACACTGAC GTTTCGACTTTGTTTGGATGGTGTCTAGGAGGGATGCCATGGAAGCTTTGAGCAAACTTAATGGTGCTAGGATAAATAGG TCGTGTTTATCTGTCTCAATTTTCAATTAAGTTTCCTCGCGTGAAGAGTGCTTAAGAAGCGGCTGTAAGAGATCGTTGTC TTGGTTTTCAAGGTAGACGAAGACAAGGTCCTGATGAGGGGGAGACATATTGTCTTCTATTTCCAAAAGCTTTTTTTCTA ATTGGTGTTGTCAAGAATTTTTTGGTCTAATGTTGTTAGCCAGTGTACATGGGGGGGGGTTGGTTGAACCTTCCCCTCGT GCTTTGGAGGATTGCAATGATCTTGGGTTTGTGGAGGGTATGGGTGTCTTGCGTCCTGAGATTGCCCTTTGCTCGTTTAA TGTTGATGGCTTTGGCTATGATATGCTGGTTCCTTCTGTTATGACTAGGGTGTGAAGTGCTCTTTCGATGGGGAAACATT GGAGTTGTGCATGATTGTTGTACAAATGTTATTGCGGTTGACCAAATTGTAGCCCAAATTTATGCGCGAAGGAGACTGTA GAGAACATATTTTGGGTTTTGTTTTCATTTTGGGGACTTTTATAGTTGTGTCGTGGTTGTTGATTCTTTGGGTGTTAGTT TTGGTTTTGGGGTTGACGTTTTCTCTTTCGTTGTTGTTGCTTTATTGGGTGGTCTGTTTAGTAGGTTGTCCTTGGTTTGT TGTCTTTTTAGGCGGTTTTCTTCCTTTTTGAGAATGGACTGTGTATTCTTGTCATATCCATATTTTTGCTTTTTTAAACA ATAACACCTAGTCAAAAGCAAAAAGATGAAAGGTGAAAAAACTAACTGATTGAAAAAATTGTTTGGTGAGATTAGTTATT GAACAAATTGAAATTGTAAACTAACATAGAGGGACATATGCTTGTGTAATTCTTTTTATAATTGGCATTATTTTATTTAA ACAACAATATATATACATACTAATTTTAAAATAATTATCACTTTAAATATTTTAATTTATTTCAATTTGTTTATCATCTT AAAAAATATAATATTATTTTTTATTTTTTTTCATTTTTCATATTTTGATTAGATTTAATTGGATATTATAAATAACTTTA TATTTTTATTTAATAAATAACTTATATTTATTTAAATTAATAAAATATTTGGGCCAATTGCAGCGACGACAAACATAGAG ATTTTCCATCATATTACATGTCATGTCTCATTTAATTTCTCTTTTTTCATTGATCTCTCAATGGGTAGACTTGAAGCGTG AATCAATCTTTTTCCATGATGGCTCTCCTCACTCTCCTGCAATTTCCCTCCGATTTTCCTTAACTTTCCTCCTTCCCAAA CACCTGCTAAGAATATACTTTCTTTCACACTACAATTTCACTTGCACCAAGTGAGATATAGGAAAGATGAGAAAGAAATG ATATGTGATATGATGATAGAAGAGAGAGATATGAAGAGAAAGTAAGTTAATATTACAATATGGTTAAGTGACTATGGTAA ACTAACTAAGGTAAAGTAACTAGCTATATTACAAGGTATTTTGACTATATGTAATAGTTTAAATGAAATGGAAAAGAGAA TGTGGTTTGAATGAATCATAACTCATATATTAATCACCTAACATTTTTAAATAAATTGCATGGAGCATTTATGAGAACAA TTTTAATTCATTTGCACATAACTCTACCATATCTTGAACATTTGTTACAATTTATCTCAACTTTTCTTATCACATCAAAT ATCATATATATCTTTCATTTTTTTTCTATTTTCTTCATATATCTCTTGATTTGGGGTGTAAACATAACATATTATTATTT CTATATATTGAGTATGTTTATCAATTCTGATTCATACACCATTGCCCGTAACGACATGTTCCACAAACACACATATATAT AGCCTCATTTTTTCTCTATCTCTCTTTCAATCACGTCACATCATCAATCACTTATTTCTATTCTCTTTCTATCTTACTCT ATGTGTGTACATCATTTCTCTCATTTCTTCTCTTATCTTCCTTGATGTTGGTGTGATGTGATTAAGTTATGAATAAAAAC TTATTATTGTTTCATGTATGTAGTTGCAGGACCGCTCTGGTCATTGTACTTAAAGAACTGGTTAATGTGGATTAGAATAA CAGTAGGTACGTGACCATGCCTTTACCTTAGATGATTAAAATTGCGGTTATTGTTGATCGGGTCATTGGACTTAAAAGTG GAGAATTGAAAATGCTATTATATGTTATGTTTCATTTCATTTTATGCATATATATAATGTCATTTAATAATCATGTACTT TATGTTTTAAACTTAACCATTCATGTTAGATTTAATGTTCTCACTTGATACACCCCTATATATATATATATATTGTAATT TAGTACTATTCCATTTTTTTATAATCATTTTCACTTCTTTTTATCAATCGAAAAACCACACCACCATAGAGGAGAGGGAA AAAAATTGATGTCACTTTCATAGTGAACAAGTTAAGCTGACTCTTCTCTTCTGAGTCACTGAGATGCTATTTATATGATT TGTTTTCTACTGTCATATCATCTTCACAGCACTCGTTGCTCTGATATGCGGTGCCAGATGTGTTCTCGGAGCCTCGTTCT ATATCTTGTTATTAATCTATAAATTGCGACGGAAGCATTTATCCATGTACGAAGGCATTGAAGATTTTCTACGAAGTGAC AATAACATCATGCCTATAAGGTACTCTTACAAAGACATCAAGAGCATAACCCAGAAATTTAAGACAAAACTAGGAAATGG AGGCTTTGGTTCTGTCTTCAAAGGACAACTTCGAAGTGGTCGTCTTGTAGCTGTCAAGATGTTGGACAACGCCAAGACAA ATGGTCAAGATTTCATCAATGAAGTTGGCACCATTGGTAGGATTCATCATGTCAATGTGGTTCAGCTCATTAGTTTTTGT GTGGAAGGATCAAAGCGTGCTCTTATATATGAGTTCATGTCAAATGGGTCTCTTGAAAAGTACATCTTTACTCATGAAGA GAGTACTTCTTTAAGTTGTGAGAAATTATAATATACCATTTCTCTTGGAGTGGCTCATGGCATTGAATACCTGCATAATG GCTGCAACATGAAAATTCTACACTTTGACATCAAGCCTCATAACATTCTTCTTGATGAAAATTTCAATCCAAAAGTTTCT GATTTTGGACTTGCAAGGCTCTGTCCTACAGATAATAGCATTGTGTCTTTGACAGCAGCAAGAGGAACCATAGGATACAT GGCACCAGAGCTATTTTACAGAAATGTTGGCACTGTCTCTTACAAAGCTGATGTGTATAGCTTTGGGATGTTACTTATGG AGATGGCAGGTAGAAGGAAGAATTTAAATGCATTGGCTGAGGAGTCTAGCTTTAGCCAAATTTATTTCCCTTTCTGGGTT CATGACCAGTTAAACGATGGAAGGGAAATCACAATTGAAAATGACACTGATGAGGAAATGAAGTTGGCAAAGAAAATGAT GATTGTGGCTTTGTGGTGTATACAGACAAAGCCTACTGATCGTCCTCCAATGGATAAAGTGTTGGAGATGCTTGAAGATC ATGAGGAATTACAAATGCCTAAAAAGCCTTATCTATATGCACAAGATTTACCAGCAGAGTATGCAAATGACAACACATGA TCTGCATCCATTTTGTTGGCATGTGGGTAGGTATATATTATACATGTTTAATGCATTTCTGACATTTTATGAGAAGCAAT GTATTTTCTGAGCTAGCAGGTAGTTGAATCAAGTCATTGTATGATAAAAAAGAATATTAAAAGAGTACATTTTTGTATTT TTGTCATTTTTTTTGTAAGGTTGTAAACCTGTGTTTCTTTAAGTGTGCTTGCTAAATTTGTGCGTGATTTCCTTAGAACG TCTGAAATATTGGTTTGCGAAATTTGTTATTACAAAAGTGACTACACACTTTAATCACAAAAGATACTATAATAACAATA ACAATGAGATATAACATAGTCTTTGAAATTCATATTTTCCAAAGACAACAATAACAATGAGATATAACCTGATGCAAACT TCCTAAACCTCATGGTCTCACAACCATCCCAACTTTAATGGCTTAAAATTCATATAAAATGTTTTAATCTTGACAATTAT GTTCTGGTCCCATTCAAAACATCTGTTTTTGACAAAGTGTTACTTACAGCTCCCCAAGATGCATGCAGTAAGAAACTCCA AATGAAATGAAGGAGATGAACTGGTTATTGTGTATTGGCCTCTTTACCAGCAAGCGGTTCATACCACTGAGGGCCAAATC CAGCAGCTTTTCTAGCTGCCTCATTAATTGGAGTTCAAGTCTTGAATGATGACTCCAATAGGCTCTCCATAAACAACATT TTCCTAGGTCTTCTCCCCTTAAGCAAGAAGAACAAAGATTAGAGATGCACAAACTGGTTTTCGTGGCTACAAACTTTACA GGAAGAATATAGATAAGAGATGCACTATTAAGGTAATTGCCATGAATTCCAACACAAAAGTATGTAGGGTAGGACTCTTC ACATGTTTAATTGCCAGTCCAATAAAAATCTAATATTTAAAGCTTGTTATGCTACATTTAACAGTATATCTAAGACAAAC TAGTCTAAAATGTATTTCAGTATTTCACCATTGTAATTGTAAGCTATGAATCACTCTAACTCTTGGATTACTTCTAAATC TTGGGTTAGTTGTCTAGCAACAACACCCGCAGTAGCACTTGTTCTCCTTGGTCCTGCACCTGCTGAAGAATTATAAGGAT TAGGAGGTATTGGAGTTGTCTCTACATCTCCCTCTAACATTTGAAGCACCATTTGCATTGATGGTCTATCCATGGCATGC CACTGGATGCACCAGAGTCCCACAATAGCCAGTTTCCTTGCAATTTTTGCATCCCCTTCTTCTTCAATATGGATTCTCAT TTCTTTGTAGATATTTTGATTCCATTATCAACAACAGAAGTCCCAAGACTAGTCATATTTTGGTAGTCAAGTCAACAAGG AAGGCACTTTCCACGAAACTGACGAGTACTAGTAGCGTGTAAATTACAATTGTGATATTATACTAATATCTATCTATCAA TATTCAATCCTCATTTTAATTGTAGCACTTTCGTAAAGAGATCCCAATAGGAAAATGACACTCATTATTGCTGCTGCGTT ATCATCAAGGATAAGGCTTGTGCAGGTGGTGTTGGTAATAATAATATTGCTCCTTT
CDS sequence (LotjaGi1g1v0282700.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAAAATTCTACACTTTGACATCAAGCCTCATAACATTCTTCTTGATGAAAATTTCAATCCAAAAGTTTCTGATTTTGG ACTTGCAAGGCTCTGTCCTACAGATAATAGCATTGTGTCTTTGACAGCAGCAAGAGGAACCATAGGATACATGGCACCAG AGCTATTTTACAGAAATGTTGGCACTGTCTCTTACAAAGCTGATGTGTATAGCTTTGGGATGTTACTTATGGAGATGGCA GGTAGAAGGAAGAATTTAAATGCATTGGCTGAGGAGTCTAGCTTTAGCCAAATTTATTTCCCTTTCTGGGTTCATGACCA GTTAAACGATGGAAGGGAAATCACAATTGAAAATGACACTGATGAGGAAATGAAGTTGGCAAAGAAAATGATGATTGTGG CTTTGTGGTGTATACAGACAAAGCCTACTGATCGTCCTCCAATGGATAAAGTGTTGGAGATGCTTGAAGATCATGAGGAA TTACAAATGCCTAAAAAGCCTTATCTATATGCACAAGATTTACCAGCAGAGTATGCAAATGACAACACATGA
Protein sequence (LotjaGi1g1v0282700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MKILHFDIKPHNILLDENFNPKVSDFGLARLCPTDNSIVSLTAARGTIGYMAPELFYRNVGTVSYKADVYSFGMLLMEMA GRRKNLNALAEESSFSQIYFPFWVHDQLNDGREITIENDTDEEMKLAKKMMIVALWCIQTKPTDRPPMDKVLEMLEDHEE LQMPKKPYLYAQDLPAEYANDNT
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 |
---|---|---|---|---|---|---|
PANTHER | 1 | 180 | 180 | 6.8E-103 | – | |
Gene3D | 1 | 171 | 171 | 2.9E-40 | – | |
PANTHER | 1 | 180 | 180 | 6.8E-103 | – | |
Pfam | 1 | 153 | 153 | 4.1E-24 | ||
SMART | 1 | 155 | 155 | 0.004 | ||
ProSiteProfiles | 1 | 161 | 161 | 23.651 | ||
SUPERFAMILY | 2 | 156 | 155 | 7.19E-37 | ||
ProSitePatterns | 3 | 15 | 13 | - |
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 kinase activity | Catalysis of the phosphorylation of an amino acid residue in a protein, usually according to the reaction: a protein + ATP = a phosphoprotein + ADP. | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Protein phosphorylation | The process of introducing a phosphate group on to a protein. |
Expression pattern of LotjaGi1g1v0282700.1, 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…