Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0297500
Transcript ID	LotjaGi4g1v0297500.1
Lotus japonicus genome version	Gifu v1.2
Description	Non-specific serine/threonine protein kinase; TAIR: AT5G57630.1 CBL-interacting protein kinase 21; Swiss-Prot: sp\|Q94CG0\|CIPKL_ARATH CBL-interacting serine/threonine-protein kinase 21; TrEMBL-Plants: tr\|G7JD36\|G7JD36_MEDTR Non-specific serine/threonine protein kinase; Found in the gene: LotjaGi4g1v0297500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:67153234..67167475) extracted from Lotus japonicus Gifu genome v1.2.

ATCATATTATATCATAATCACATCAATTATTTTTCTGTCTTTACTTCCTTCCCCTCTCTTTTTATTTGAGGTGCACACAC CTTATGTAATAATGTTCACATGTCTCAAGACATATTTGAGGGAAAAAAAGGAAAAAAGCATTCCTCTTGAATAAAGTGGA TTCAGAGTTAAAGCAAGGTTGACATAGCATACAGCTCCAAGGCCAGAGATCAAAGGGAGTAACAACTTTTTGTGAAGAAG TCAAGAAGAAGTGCTAAAAACTTGACAGTGGAGAGTAATGGGTTCTGAAAAAAGAATTGGGAAGTATAGTCTTGGCAAGA CAATAGGAGAAGGCACATTCTCTAAGGTCAAGCTTGGAGTCAGTGGCAAAAATGGGGAGAAGGTTGCCATCAAGGTCATT GATAAGCACATGGTCATGGAAAGCAATCTTAAGAACCAGGCAAACCTCATCACTACCCTCCTTTTTCTCTTCAGCAAATT ATTATTCACTTATGTTGAACAATGAAAAGAACTTGACATATTTCAGGTCAAAAGAGAGATTAGAACAATGAAACTTCTGC ATCATCCCAATATTGTCAGAATTCATGAGGTAGACTTACTTTCTAGTGTGTAGCTTGAAGATTCATAATTCCCTTCTCCA TAGTCCATACGGCCATACCTGTATTTCCAATGAACTTCTTGAAACAGGTTATTGGCACAAAGACAAAGATATACATTGTG ATGGAATATGTAACAGGAGGAAGGCTATTGGACAAGATGGTGAGAATCATTAACAATCTCTCCACATTGAAGTATGCTGA ACTTATAATTATAATCGCTCTGGTATTTTTGTGCAGTCCTATGCCAAGAAATTGGATGAATGTGAGGCTAGAAAACTATT CCAGCAACTTATTGATGCTGTTGACTACTGCCATAACAAAGGAGTTTATCACCGAGATCTCAAGGTAAGTTAAACCAACA TGTTCAGTGTGTGTCTAGATACTGGTTGAGTACACACTGTGAACGGGCTTTCATCTGAAACCATAGAAAGAGTCCCGTTC ACCTTTTGTTTCGAAGTGAATGCTAACGGCATTCACACTGATACCAACGGGTGTCCAGTCGTGTTTGAAATGGAGTTCTG AAACCTGACTTGAATCTTGGCATGGCATAACAGCCAGAAAACTTGCTCCTTGACAGCAAGGGAAATCTCAAAGTGTCTGA TTTTGGACTAAGTGCACTGAAAAAGGTAACTTACTAACATGGCTCTTTAAATGTTATCATATAGGTCTATTTGATTGATT GTCAAATTTTGATACATTTGGCAGCCTAGCAATGTCTTAAACACACGGTGCGGATCCCCATGCTATGTGGCACCTGAGGT AAGTAAAGGCTGTTGTAAAAATAGGGAGAAAGTAGAAAGTAAATTCAATTATAGCCTAAGACTTGTGAAATCACACTGCC TTTAAGGATTTAATAGGCTCTTCCAGAAATTAACAGGGTATCAAAACTTGAACATAGCATCTAATGGATCTGGACTCTGG TTTATCAAAAACTTTTGAAATACACACAAAATATGCAACAAAAAGTTTCTTTAACATAGCATCTAATGTATCTGGATTAT CAGGTCAATTTCCAAGATCATAAAAAATAGCGTGGGGGAAAAGAGAGACAATGACTGAAATTTTGGCTTATCTGTATTAC TGATTCTATGACCCCTATAATTCCTCATGTGAAGCTGCTCTTGAGCAAGGGTTACGATGGAGCAGCTGCTGATGTTTGGT CATGTGGAGTGGTTCTTTTTGAATTACTTGCTGGTTTTCTACCATTTGATGACCAGAACTTGATGAACTTATATCATAAG GTATAAACAATATACTATATGATATAATCATGATAATAAAAAAAGACACAACTAGTACCTGGTTGACATAACTCACATTT TCTGATAAAGATATGCAGAGCAAAATACCTATGTCCACAATGGTTCACTCGAAGTCAAAAGGAACTAATTGCCAAGATAC TTGAACCAAGTCCTGCAAAGGTAGAAACTCAAGAACTCCTACACTGTGCTTAAAATTTAAAGTATGAAAGTGATGGATCC TTGATCCAATCGAGGAGGGCACAGAAAGAAAGGACAAAAGATTAAAAACAAACTTTTCTTGAGAATATTCTGATGATTTC ATTCAATAGGAATAAAGCTTAAATAGGCACTGTGCACTACAGCTGTTCACAACGGTGGTAGAACCTTCTAGGTTCTTTGG AGATAATGATAAAAAACTTAAACAAGAAAATACATAAAATGCTAAAGATGCTTCAACAATGAACTTGGGCCTAAAGGACG TAGTCCTTCAACTTCACGGGCTGGCTGGTAATTCTTTTGGGCCTATCATTACTCTCCCCTTGGACTTTAGACTTGTCCTC AAGTCTAGTGTTGTTGCTTAACAGTGGATCCTTGACTGAGGCAGAAAGGTCCTCCTCGGTTTCCATGTTCAACGGCTCCG AATTTGGGAAAGCTTGAGTGGACGATGGATCAGCAAGAGGGGCCCGCTCATTGGGTGACGTGTTGCCCCTTTGTTCTGCT TCAATACCTTCGTCAACGTCATTCAAGGTTGGTTCCTTGTTGAAGTCCTCTTCTTCTATCTCCATTACTTCTTCAGAGAG TGGTGAGACTTCTGGGTCTGGTGCAGCAAGCAGATCCTCATGGAGGTTGTGAGCAACCTCTGGGGGTTTGAAGGAGGCCG CCGGTGTGGTTCCCAGCAAATCTGTGTCCAGAGGTGGCAAGGGCACGAAAGAGGTTTCAGGGTCTCCTTTGAAAGGCTTG AGCAGCGAGACGTGGAACACCGGGTGGAGCTTGGCCGTGACTGGAAGGCTCAACTCGTAAGCTACGGTACCAATTCGACG GTTGATTTGAAAGGGGCCGAAATACCGATTGGAAAGTTTATGGAATGCTCGCCGGGAAAGAGATTGCTGGCGATATGGTT GCAGGCGGAGCCATACCCAATCCCCTGCAACATAATTCACCTCACGGCGGTGCTTATCCCCTTGCTCCTTCATACGCTGC TGTGCGCGAGCTAAGTTTGCCTTCAGGGTCTGGACAATGGTGTTGCGATGTTGCAGGGAGCGGTCAACTGTGGGAACTGC TGAGCTTCCAGGGACATAATCTAGCAAGGAAGGAGGTTTGCGGCCATACAAGGCTTGGAAGGGAGTCATTCCTGTGGCGG AGTGGAAGCTAGTGTTGTACCAAAGTTCAGCCAAATGTAGATACTTAAACCAGGAGCAAGGTTGCTCGCTGCAAAAGCAA CGAAGATAGGTCTCCAAACTTCTATTCACCACTTCAGTTTGGCCGTCGGTTTGCGGATGGTAAGCGGTGCTGAAGCGAAG CTTGGTGCCTAACACTCGGAAGAGGTCACGCCAGAAATGGCTCAGGAACAATTTATCTCGGTCAGAGATGATAGAACGGG GCAATCCATGTAAGCGGCAGATTTCTGAGGAGAATCTTGAGGCCAAGGCAGACGCTGTGAAATGAGTGGGTAGTGCAATG AAGTGGCCATATTTAGTAAGACGGTCAATGATCACCCATATGACTGTGTGGCTGTGTGAAGGAGGAAGGGAGGTGATGAA ATCCATGGATAAGTCCTCCCAAACCTGTGCTGGATGAGGGATTGGCTGGAGCAGGCCTGCTTGCTTGGCTGGAATATACT TGTTCTTCTGGCAAATAATACAAGTACGGACGTAGTCCTTGACTTCCGTGTGTATCCCGGGCCAGTTGAATGATGCTTGG ACTCGAGCCAGCGTAGGTCTGAACCCAGAATGCCCTGCGGTGGGTGTCGCGTGGAATTCCTTGATTATGTCGTGACGCAA CCCCAAGGACTCAGGTAAAAATAACACCCCTTTGTATAGTAGCAACCCGTTTTTTTGTGCAAACCATGGTTCCTTGAGCT TTTCTTGACTCAGTTCTTGTCCCTCATTTGCTGCGTAAAATTCCTTCAGGGTTTGTATGATGGCTGGTACAGGGGTGGTC AAGGAATTGTAGATTGCTGTCTCCTGGGAATGGCACCGTGAGAGAGCGTCTGCTACCTTGTTAGAAGGACCAGGCCGGTA GAAAATTTCAAAATCAAAGCCAATTAATTTAGTGAGCCATTTTTGCTGAGCTGGCGTTTGGATGGACTGAGTGAGGAGAT GGCGAAGACTCTGCTGGTCCGTATAAATTTTGAATTTGTTACCCAGCAAGTATTGCCGCCACTTCTTTACTGCTTCAGCG ATAGCATACATCTCCCTGATGTAAGTAGACTCAGATTGCATGCGTAGGCTCATCTTCTTGCTGAAGAATGCCACAGGATG CCCTCTTTGTGATAGCACGGCTCCTATAGCAACTCCCGACGCGTCGGTTTCAACGTCGAAGGGGTGCTGGAAGTTTGGCA AAATCAGAACAGGGACATTGGTGATTAGGCCCTTAAGTTGGATAAAAGCCTCCTGTGCATCCTGGGTCCAGGCAAACGCT GTCTTTGGTCCTTGTTTGAGGAGGTCAGTGAGCGGTGCAGCTATAGTCGCGTAGTGCCGCATGAATCGGCGGTAAAACCC CGTCAAGCCCAGGAAACCGCGGAGTGCCGTGAGGTTGTGAGGGGTTGGCCAATCTTGAATTGCTTGGACCTTGGTCTGAT CCGGCTCTACCCCTGTTGGTGATATGACATGGCCAAGATAATTGACCTTGGAGACACCGAACTCACATTTGGACAGTTTA GCAAAGAAGGAATTGGAAAGTAGAGTCTCAAGGATAATTTTCAGGTGCTGCAAGTGTAGCTCGAAAGAAGCACTATAAAC TAGTATATCATCAAAGAAGACAAGAACAAACCTCCGCAAATATGGCCGGAGCAAATCGTTCATCGCAGATTGGAACGTGG AAGGTGCGTTGGTGAGTCCGAAGGGCATCACCAAAAATTCATAATGGCCATCCACCGTTCTGAAAGCGGTTTTGTGTGTG TCTTCCGCAGCTACCCGAATCTGGTGGAAACCGGAGCGTAAATCGATCTTGGTAAACATGGAAGCTCCGCCGAGTTCGTC TAACAGCTCATCGATTGTTGGAATAGGGAAACGGTCTCGTATTGTGATGGCGTTGAGGCTGCGATAGTCGACACAAAATC GCCACGTCCCGTCCTTCTTTTTGATGAGTAAGACTGGTGAAGAGAAGGGACTTGTACTTGGCACCACGATGCCGTCATGC AACATATCCGCTAGAATGGTGGCCATGGCTTCCTTTTGTGTGTGGGGGTACCGGTAAGGCTTAACATTCACTGGATTGGA GTTAGGGATGAGGGTGATGTGGTGATCATGGGGTCGGGATGGTGGCAACCCCTGAGGCAAGGAGAAAACTGGGGCATATG TTTGTAAGAGGTCCCATAGTTGGGAGTTGAATTCTGGTGGGGGTTGGGACAGGTTGTCAAGGGTGAGGAAAGTGGATGTT TCTGGTAAAGAAGATACGGGTGGTACAAGGGTGACAGTGTGGCATTCGGAGATGGCATCTAAGTCGATGAACCGGGAAAG ATGGTGCAAGGTTGCGGGAGCAGGGGCTTGAGGTGGAAGGCCTGTGAGAGTGTGGGTGACACCGTGTCTATCGAAGGTGA TGGAAGGTACCGAGTAATCGGTGATGGTGGAACCAAGTGTTCCCAACCACTCCATTCCCAGAACCACGTCGGCCCCGTGG ACGTCCAGTAAGTGGAATGGAACGGTGAAAGGGATTCCTTCCACGAAGACCAGGGTGCTGGGGCAAAAGTCTGAGCACTG GATGAAGGCACCATTGCCCACCATGACGGGAAATTGGTTGATGGGTACGGTGGGTAGATGCAGGTAACGCGCCATACGGG GAGGCATAACGTTATGAGTGCTTCCAGTATCGACCAAAACGCGTACTGGTTTGCCAGAGATTGTTCCGTTAAATCTGATG GACTTGGGTGACGGGTTGCCGTGTAGGGCTTGCGGGGATAGGTGAAAATGTAGGACCTCAGTGCATTCGAGATCCTCCAC GGGAATGTAAGTATCCGTTGTGTCTTCCGGTTCATCAGCGAGGAGGAGGAAGAATCGCCTTGGTTGGCAGCGGTGGCCTT GAGTGTACTTTTCGTCACAGTTGAAGCAAAGGCCAAGTGCGCGTCGTTCATTCATCTGTGCAGAAGTGAGGCGTTTCACG GGCAGATTTGAGGTCCTCTGATGGGTGGGCTGTGGCGTGATGGAGGAAGTGGCCAGAGGTGGGGTGCTGGATGTGGGTTT GCTCGGAGCGGCCGCTGGTGTAGTGCGCGGGAGGTTGTGAATGACCGTGGCTTGTGAGGGGCTGTGGTTAGGGGGGGTGT ATTTGAAGGGTTTGAAGGTGGGTGGTTTGTGTTTGGATTCGATAAGCTTGGCAAGCCCAATAGCATGGTGGACCGAGTAA GGTCTGAAGACTTTAAGTTCCTGGAGGATTTCTGGGTTAAGGCCAGAGAGAAAACAATCCAGTATAATGTCTGGTGGTAG CCCAACCACTTGGTTGCACAGCTTCTCAAATTTGGTTTGGTATTCTTGCACAGTGGATGTTTGTTGGAGCTTGAAAAGCT CTTGCTGAGGATTTTCGTAGCAAGAAGGGCCAAAACGTTGTACTAAGGCTCTGTTGAACTCTTCCCAGGTGCTCAACTGT TTGTTGTTGTAGAGCCATTTAAACCAGCTCAACGCCTCTCCACGCATATAGAAGGATATGATACTCAGACGTTGGTCAGG GGGTGTTTTGTGGAAGCGGAAGAACTGTTCCGCGTGGAACAACCAGTCGTTAGGCTCGGAACCATCGAAAGGATTTAGCT GGAGTTTCATGGCGCTTTGAATGGGAGTGGAGTGTGGGTGAGGAGGGGCGGAGGGTGTGTTTAGGGGAGGGTTCATGTAA CCAGGCTGAAGTTCCTCGAAGCCGGGCGGTGGTTGCGGTGGGACTCGCGGTGGTGCCTGAGTGGAGAGGTGGGCCATTTG GTCCAATAAGGTGGAGACGGTGGACTCCATGGACGACGAGAGCTGTTGAGCCATGGTGGCAAAACGAGCATCGATGGCGG CCATGAGGGCAGGTGCGAGTTCATCATCAGCTGCAGGTTGCATGATGAAGAATGAAAGCACCAATGATGGATCCTTGATC CAATCGAGGAGGGCACAGAAAGAAAGGACAAAAGATTAAAAACAAACTTTTCTTGAGAATATTCTGATGATTTCATTCAA TAGGAATAAAGCTTAAATAGGCACTGTGCACTACAGCTGTTCACAACGGTGGTAGAACCTTCTAGGTTCTTTGGAGATAA TGATAAAAAACTTAAACAAGAAAATACATAAAATGCTAAAGATGCTTCAACAATGAACTTGGGCCTAAAGGACGTAGTCC TTCAACTTCACGGGCTGGCTGGTAATTCTTTTGGGCCTATCAGAAAGATAGGTAACAATTTCTTCCTCTCCATTTCTCGT GCAGAGGATAACTATACCAGATATTATTGAAGATGAGTGGTTTAAAACCGATTATTCACCTGCTTGTGCAACTGAATTTG ATCAGATCATTGACTCGGATGATGATAGTGCTGCATCTGATTCAACTGAGGTAATTTGTTCGCAAATAGCAAGTTAGAAA GCAGTTATAGAAACACTTATTTAGAGTCATGGACCAGATTGTCTAACAATCTTTGCTATAGGAGAAAACCGACAAGTCAA CGATACCCAAGTCCTCAAGTTTCATTAATGCGTTTCAACTGATAGCCATGTCTCAGGACCTTGATCTATCTGGCTTTTTC GAAGAACAGGCAAGTGTATAAATCTGAAAGAGGTTCTAACTTCTAACTTATCAACAGGAGTCATTCCATTACAAATGCTA ATTTTTGTTTGTGAGTTTCTTGTATTTAGGATCACAAAAAGCAGACAACAAGGATTGGTTCCAAACACACAATCATTGAA ACAATAGAAAAAATAGAAGCTGCTGCAACCGATGTGAGACTGTCAGTAGAGAAAATGAACAACTTTAAGGTATATATACT GTGCTTACTATGATTCTTAAATGCATGCATAGAAATATGTACCTTATTCTATAGTCTTGAAACAAATGAATTTTTACTCT CAATATCAGATTAAAATGCACCCGAAACACCTGATGACTAGGAATTCTAGATCATACTTTGACCTATCAGCCCAGGTAAA TTATCATTTTGCCACATACTCTCCCTCTTTTGCTTTTTCTCTGCTTTGTTGCTGAAGGAAGTTCAATATTCACTCATATA TGTGGAAACTGTCAGGTGATAGAAGTTGCTCCCACTCATTGTGTTGTAGAAATAGCAAAATCTGCAGGAGATCTAAGAAT GTACAATGAAGTAAGAAAACATCCTGTAGAAATATCAAAATATGCAAGCTCATCAAATTAGTAACTGATTTTAATTTTGA TTATCAGTTTTGTGAAAGTCTATCAAATCTGCTGAAACCAAAGTCTGGTGTGCCATCAGAAAGCCAAGATTATGTCGATC AATGCGACGCTAGCATAAAAAAGCAAGATGCTGAATAGTAATAAGCCTGTGTTACATTACTAAACGGTGATGATATTGTT GATTGCCACCGTTTTCTTATTAATAATTTTCATTCATCTATTTCAGCTATGAAGAACCAAATAGTGAAGGTCTTCCTGGC TGTAAATCTGCTTAAAGTACAACAAACATGCTTTGTACAAAGCCATAGTTTCTTGCTTTAAGTAATTCTTTTTCTCCTTT TCATATATGTCTTCTTGACAGAAACAATTTTCTTCTTTTTTTCCAATCTTCTATGCTGTTGTTCTTACTAATTTGGTATT GACTATACTCTCTTCATGGTAAAGTAATGAGTAATATGAACTGCCACTTGCACAGTACATCTTGAAGGAACTAATATATG TGATAACAGAAACTTGTATTAATTCAATAGGTAAAAACGTTGTGAGAAATATACAAGCTCATTAAAGTTTCTCAAACAGA AAGGTTGTAGACAAATATTTCTTTGATCTTGTTTTTATTACAAATAATAATTTCGCCAAGCTGTGTCACCTATGACCTAA CTAATGTCATTTCAAAACATCTAAGTATGAGTTGTCATCACTCATCCCCACGGAACATTGAAGGAAGAAACATGCATGTA TTGCACTTTCACGAGAAATACTTGAGTTTTTCTATGAGAAAGTATGTATCAATCACGGGAATGAAATGAAATAGTTTTCA CTTTCCAGTGTGATATGAAATACATGAATCAAATCTGTTCCAATTATGTTTCGCTTCTACAGAGAATTATCTACCAAATA TTTTCAACTGAATCATTGTTGTCTAACAATCACATCATCTCCTTAGTTTGTACTTAGTTCCATAAAATTTCAGTTTACAC ATTTTGATAAATTTCAAAGGGAAAAACAACGATACTAGTAAAATAAAATTCAGCTAATGACAAGACATATAACTTCTCTC ATAGTCCATCATCATGTGGGTGATTGGAAGAGAACATCCTGTCTTCCTCTGTCAATTTGCTGGAAACTTATTTACAAACA TTAAACCAAACAGTTTTGTACTAGCTTCCTGTCTACTACCTTTATCTTCTGGAGGGCTGTTGTCAAGTGTCAACAACAAA TTCTCTTTCACACTCACCCTTCTGAATACACTTTGCATGATGTGTTTATTTTCCAACAAGTTAATTTAGTTTCTTAGCAA TTAAGAGAATCTCTGAAGGAACATAAATAATCAAGCAAGTAGTGGTGTCAAATGCAAGAAGCAATTAAACAAACATATCG GCTGCCAAAAAGTAAAACTTTGTTCATAGAATTTCAAACAGGCTGCATCTTCACTCGGGTTTATTACATGAAGACATACA GAAATTTTACACCTTTTCAATTAAGGTTCTCAATACATCAATATATGAACAAGTTTTTAGGGAATGAATTCTAATGTACA TGAAGGAGTACTCAACTCCGATGAAGTAATCAACTTTCCAGGCCAATGCACAACAAAACACAATCTATTATAATACAAGA CATTAAGGGTGAGTTAGATTAAAAGAAAACTACCCTTGCTCCCAACAATGATCTGTTGACACTGAACTTGAAAAAAGTGC TAGAGATTATAGAAGAAAGTTATCCATCATATGGAAGATCACATCACAACCATCTGAATTCAACCAGTAGGTTTTCACCT GAAAGCAAAAACAAACAAATAAAAAAATAAGAAAAACAAGGAAGATCATGCTGAAGCTGCGGTCATTACCTAATATAAGT TTAGCTCAAAATAAGTAAATAATCATCAGATAATATCTTGTACTGTGCATTTTCTTTTGTATAATGAATGCCTGTTTGAT CTAAAGATGGAGTTTTAAATAATAAGCAGAATGAAGAAAGCAGCTGATATTTTAGTCATCAAAAGGAATAGCATCATGCA AATTTTGCAGGAAAGCTACAACTTATAAACTTAACCTGGATTGTACTGTGAGCAACATATCGCTGTTTACTCTTTTGAAA GCTAACATCTACGCGCTCCCAAGGAACAATGGTGAGACCTCTTACCATCTCCTCTACATGAGAAAAAGCAAACACTCAGA ATATATGGAATTCGACAAAGTTCAACTGAATCAGTCACTGAAATCCAAGGGAGGACATGAAAGAGCTACACAACCTACAG TAAGCAGCTAATCGTGTTTGCATGTACTATGTGGTGTAGTGTATGATGTATCACTATTATATTCTGGGGTCTAACTTAGT TGATTATAGAATTAGAATATAGCTCAATTAAATAATTGTAGAATGTATGCAATGAATACATTGATCATGGCCTGTTAAGG AGTTCAGACACAAAGAAGTTCCTCATAAAAATGTTACCAGATAGAGCAATGATAATTATACAGAATTTTACTCACAAACT ACCAAGTGGCTTTATCTAGGTTAGCAAGCCCCAAATAAGTTATGGTGAGGGCAGTCATATTTAGACCCTGTCAATATACA TGCCAATAAATGGCTTGAATCATTTCCTCACAAAGAATACCAAATTGCATCAATTTGGTATTCTTTGTGAGGGATAAATC ACTCTCCTAGCTTCCATTTCAGAAGATTGGGGTTATTGGATGTGGCTTGTATTGTTAATTTTTCACATATGCTTGAAAGT TAAGAGGTTTATCTGTAGTTTCCTTGCTTAATGTATAGGGTACTATCTTTCCACAAGTATAATAACATATATATAATACT ATGTCCACTCGTTCCACAAGTATCAAAAGACAGGAAAACAAGAGCTTTACATAACAAAACAGATAAAGCATTTTTTCAGG AAAATAAGAAAGAACCTTCAAAGTCAATTGTTTGGCCTCCAACATTAGAAGATTCTTTATTGGTAACAATGTCATCTGCA GTCCCACTCCCACCTTTGGCATGTACAATGTGCGGGTATTTCTCATCAATTATTAGAAGATTGGACTAGCATAAAAGAAG GAAAGTGAACTTACTCTCCGGAAATCATGTAAAGCATTAAGATTGTGTATCATCAGAAAGTTTATACCTTTGGAAGTTCA CGTTGACGCCGAATTGATGAGGTACGCCATCCAACCATATCTTCAAGGTAAGTCAAGAAATATACAAAAACGGAATAGTT ATCGCTCTATAAGTTTTATATGCATTGTTGTGACAATTTATGGTTTCTGCTATGTTAAGGCATGGGCCTGCATGGCTGAC CATAAACTATGAATTATATAATAATAAAAACTGGGTGAATGATTTCAATATCATGCCTTCATTCCGTGCAATCCATGGAA TGTAGAAATGATACTGAGGTTGGATAAATTTCCTTGGAGAGGAACTGATCCTGAGGTTGTGCCCTATGAAGCACAGGTTG CTTGCTAGTAGAAATGTCATAAGTAGAATTTCATGTATTGGAGGGGAGGGGGGGTCTAAGAATGTCTGTTCCTTGTTTGA AGTATTTTCAGTATTTTAGCTCTTCTTCTTATTTCCATTATGTATGTGTTGCTTGTATATGGGTTCAAGCACCCCTTGTG CTTGGTTTAAGTCATTTTGCTTATCAAAAACAAAAAATACACATGAAAGATGCATCTGCTCAAGCTTCAGTAAATTTGAT AAACAAAAAAGGAAATTCAAAAGTCAAAATCTAGTTTAGAGAGGATACAATCAGAGTTTGCATTTGCATATGCTACACGA CGCTTAAACGCACATAAGGCTGACCTGCACCATCATTAACAACTAAATTGACAGTAGATGCAGGAAATATTAATATCTAA TGAAGTTAACTGACATAGTATACGAACATAAATTTTAAATCATCAGAATCATAAACCATTCGCAGGAGTAGTGGAGGCTT TCCACCATCATTGTCTGTAAGGAAGAGATGCTTCCCAGTTCTCCCTGCTATTAAATGTGCAGTTTGAGAGGCTCTTCTTT CAAGGAAAAGAAGACCACAAAGAAATGGAAGCTACAAGAACCAGAAAAGAAAAGGCAAGAAAAATATGTAAGGTTCCAGA CTTCCAGTATATACACTTCTAGTCATAGATCCAATACATGAATCTATTAAAATATACTGATGAAACCTATCTCTGTGGCA GCTACAAACTGCATTAACAGAAAATGAAAAGGATGCTACCATTTTTCTCTCATACCGCAGATAGAATATAATTCCTTGTT TTCGGATATGTTCAAATGGTTCAGAAAGTTAATTCACTACAATATGGGAAAAAGTGGCAAACAAGAAGAACCAAAAGCCT TTGAAGGAAAAGCAAATTTCTGAAGTAAATAATTAATCTTCTGTTGATGGTTCTGGAATTATAAGGATAAAATCACTTTC ACTGAAATGGTTTCAGGAACACAAAAAGGACACGAACTAAACATTCCATGGATTGCACTGTTTTTTCACTCACATCCCTC CTATATGCATTTACTTTTCAGCTAACAACATTGAAATGCTAAAGGATTTTAACTGATCTAGTGAGATTGAAAGAGAAACT AAGAAAATTTAGAGGACTGATCAAGTAATTAAGTGAGCCAGCCACAAAGCACTGATGAGTAATAAAGGGAAAAAGAAAAG AAGGCATATCCACAATGCTGAAGCTTAATACAAGACTGTTAAAACAAAACTCAAAGCTACCTGTTTATGTCCTCTTGAAC CAAGATGTGGTGTTGCAACTGTTATAAAGTTCATTGGCTCTAAACCAGCTATTTTAGCTTCACAACTCTGTTTTTCAAGG CAATTCTTCACACATTCTGCCTTCTCATTCACTGTGGGAACTTCTTTCTGCTCTTCAAGTAGTCTCCCAATAGCATATCT TGCCACCAAGCCTCCCAAAGAATGTGCCACAAAGGAGATCTTCCGCAACCCCGGGTAGCGCCTAACAACAGACATCACCT ACATAAACAAGAACTAAATTTAAAACTAGAAATCCAGATAAAACCATTACAACTTCAACAACAAAAAAACCCTTTTTCCC CACTGTAAGTTAAAATTTATCACATCACATCACATTCTGACTAGTAGTAGCAAAATACCTCTTGAGCTAGCCTCTCACCC ATTGTATCAACACCATCAAAAGTCAACTTTGAAGAATTGCATTCACTGCCTGTCCATAATAATATCACAATCAACGACGT CGTTTAACAAATCATACACTCAAGAAGACAAAGTCAAGTAAATTTACGGTGAACGATAACTTGATCTGGAAGCTTCTCAA GAAACTGATCCGCAGCAAATTTCCAATCTGCAGGACTGAAATTGCACGCAGTTCATGAGTATTATATCTCAAATTGAAAA TCCAAGCATAGTTGAAGAGTTACCTGCCAATGATGCCATTAACCATGATCACAAGGTGTTGAGGAAGAGGTTTGCCATCA TGAACCAAGTGATGGTGGCGAGTCTCAATCTCCGCCTCTGCCTCTGGTTTGGAATTTGCGTTGGGATTCATGAAGCAGTT TACTCCGATACGGTGAAGTAGTTTCATTTTTCAATCAGATTTGTGCAGAGAATGGAAGTTGAAGCGATTGGAATGAACGA TGAGGATCGTGAAGGCCAAAGCTGACACAGACAATTTCATCTTCTTCTTCTTCTGTCCACCATTAAAAAAATGCTCACGC TTTTGTATGTAGTGGATACTTTTTGGTTGCTTACAGTACAAGACAAGCGCTTTTTTATCACATTCTGTCTGCTGAAATAT TCGAATGCTCGTATTTATTTATATCTGTACAAGTTCTGAGACATATTTGGTTGGCTATTTGCACATGAAGGTTTGTTTTG AC

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0297500.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGTTCTGAAAAAAGAATTGGGAAGTATAGTCTTGGCAAGACAATAGGAGAAGGCACATTCTCTAAGGTCAAGCTTGG AGTCAGTGGCAAAAATGGGGAGAAGGTTGCCATCAAGGTCATTGATAAGCACATGGTCATGGAAAGCAATCTTAAGAACC AGGTCAAAAGAGAGATTAGAACAATGAAACTTCTGCATCATCCCAATATTGTCAGAATTCATGAGGTTATTGGCACAAAG ACAAAGATATACATTGTGATGGAATATGTAACAGGAGGAAGGCTATTGGACAAGATGTCCTATGCCAAGAAATTGGATGA ATGTGAGGCTAGAAAACTATTCCAGCAACTTATTGATGCTGTTGACTACTGCCATAACAAAGGAGTTTATCACCGAGATC TCAAGCCAGAAAACTTGCTCCTTGACAGCAAGGGAAATCTCAAAGTGTCTGATTTTGGACTAAGTGCACTGAAAAAGCCT AGCAATGTCTTAAACACACGGTGCGGATCCCCATGCTATGTGGCACCTGAGCTGCTCTTGAGCAAGGGTTACGATGGAGC AGCTGCTGATGTTTGGTCATGTGGAGTGGTTCTTTTTGAATTACTTGCTGGTTTTCTACCATTTGATGACCAGAACTTGA TGAACTTATATCATAAGATATGCAGAGCAAAATACCTATGTCCACAATGGTTCACTCGAAGTCAAAAGGAACTAATTGCC AAGATACTTGAACCAAGTCCTGCAAAGAGGATAACTATACCAGATATTATTGAAGATGAGTGGTTTAAAACCGATTATTC ACCTGCTTGTGCAACTGAATTTGATCAGATCATTGACTCGGATGATGATAGTGCTGCATCTGATTCAACTGAGGAGAAAA CCGACAAGTCAACGATACCCAAGTCCTCAAGTTTCATTAATGCGTTTCAACTGATAGCCATGTCTCAGGACCTTGATCTA TCTGGCTTTTTCGAAGAACAGGATCACAAAAAGCAGACAACAAGGATTGGTTCCAAACACACAATCATTGAAACAATAGA AAAAATAGAAGCTGCTGCAACCGATGTGAGACTGTCAGTAGAGAAAATGAACAACTTTAAGATTAAAATGCACCCGAAAC ACCTGATGACTAGGAATTCTAGATCATACTTTGACCTATCAGCCCAGGTGATAGAAGTTGCTCCCACTCATTGTGTTGTA GAAATAGCAAAATCTGCAGGAGATCTAAGAATGTACAATGAATTTTGTGAAAGTCTATCAAATCTGCTGAAACCAAAGTC TGGTGTGCCATCAGAAAGCCAAGATTATGTCGATCAATGCGACGCTAGCATAAAAAAGCAAGATGCTGAATAG

Download CDS Sequence

Protein sequence (LotjaGi4g1v0297500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGSEKRIGKYSLGKTIGEGTFSKVKLGVSGKNGEKVAIKVIDKHMVMESNLKNQVKREIRTMKLLHHPNIVRIHEVIGTK TKIYIVMEYVTGGRLLDKMSYAKKLDECEARKLFQQLIDAVDYCHNKGVYHRDLKPENLLLDSKGNLKVSDFGLSALKKP SNVLNTRCGSPCYVAPELLLSKGYDGAAADVWSCGVVLFELLAGFLPFDDQNLMNLYHKICRAKYLCPQWFTRSQKELIA KILEPSPAKRITIPDIIEDEWFKTDYSPACATEFDQIIDSDDDSAASDSTEEKTDKSTIPKSSSFINAFQLIAMSQDLDL SGFFEEQDHKKQTTRIGSKHTIIETIEKIEAAATDVRLSVEKMNNFKIKMHPKHLMTRNSRSYFDLSAQVIEVAPTHCVV EIAKSAGDLRMYNEFCESLSNLLKPKSGVPSESQDYVDQCDASIKKQDAE

Download Protein Sequence

Domain prediction

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	G3DSA:3.30.200.20 View details on G3DSA:3.30.200.20 Search for proteins/transripts with this domain View external data on G3DSA:3.30.200.20	1	91	91	3.4E-30	–
PANTHER	PTHR24343 View details on PTHR24343 Search for proteins/transripts with this domain View external data on PTHR24343	2	427	426	2.0E-203	–
PANTHER	PTHR24343:SF123 View details on PTHR24343:SF123 Search for proteins/transripts with this domain View external data on PTHR24343:SF123	2	427	426	2.0E-203	–
SUPERFAMILY	SSF56112 View details on SSF56112 Search for proteins/transripts with this domain View external data on SSF56112	6	290	285	2.43E-91	IPR011009 Show description in modal box View details on IPR011009 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50011 View details on PS50011 Search for proteins/transripts with this domain View external data on PS50011	10	262	253	50.237	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00069 View details on PF00069 Search for proteins/transripts with this domain View external data on PF00069	10	262	253	5.9E-72	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00220 View details on SM00220 Search for proteins/transripts with this domain View external data on SM00220	10	262	253	1.9E-101	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00107 View details on PS00107 Search for proteins/transripts with this domain View external data on PS00107	16	39	24	-	IPR017441 Show description in modal box View details on IPR017441 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.510.10 View details on G3DSA:1.10.510.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.510.10	92	270	179	1.7E-63	–
ProSitePatterns	PS00108 View details on PS00108 Search for proteins/transripts with this domain View external data on PS00108	129	141	13	-	IPR008271 Show description in modal box View details on IPR008271 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.310.80 View details on G3DSA:3.30.310.80 Search for proteins/transripts with this domain View external data on G3DSA:3.30.310.80	301	425	125	3.6E-31	–
ProSiteProfiles	PS50816 View details on PS50816 Search for proteins/transripts with this domain View external data on PS50816	301	325	25	11.671	IPR018451 Show description in modal box View details on IPR018451 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03822 View details on PF03822 Search for proteins/transripts with this domain View external data on PF03822	304	362	59	5.8E-16	IPR004041 Show description in modal box View details on IPR004041 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd12195 View details on cd12195 Search for proteins/transripts with this domain View external data on cd12195	307	425	119	1.15022E-34	–

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0004672 View details of GO:0004672 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0016301 View details of GO:0016773 View details of GO:0140096
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0006468 View details of GO:0006468 AmiGO InterPro QuickGO	Biological process	Protein phosphorylation	The process of introducing a phosphate group on to a protein.	Subterm of View details of GO:0006464 View details of GO:0016310
GO:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	Biological process	Signal transduction	The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0297500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0297500.1