Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0584100
Transcript ID	LotjaGi1g1v0584100.1
Related isoforms 1	LotjaGi1g1v0584100.2
Lotus japonicus genome version	Gifu v1.2
Description	Kinase family protein; TAIR: AT3G24715.1 kinase superfamily with octicosapeptide/Phox/Bem1p domain-containing protein; Swiss-Prot: sp\|Q9FPR3\|EDR1_ARATH Serine/threonine-protein kinase EDR1; TrEMBL-Plants: tr\|I1N2C5\|I1N2C5_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0584100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:112360498..112372454) extracted from Lotus japonicus Gifu genome v1.2.

ACTTGCTATCACAACTCAACCTCTAGGAATGAGCATCTACAATTGTCAACGAAAAAAGATAAATGGGGGAACCTGGTGGA AACAACATGTATCTCACTGAAGGGTCGTAAGTAGATCTCCTTCCTTCAAAGGACAAGATTACCAGTACTAAAAGGTCATA ATGAATTTATTCATTGAATCTACACATTTTTATATTTAGAAGATCATGGAAAGTGGCAATTATGTTCCCATAAACTGGGA TAAGTCTTAGGCTAGTTGAAAATCTATTAGAATCATTTTTAGAAAAAAAAAAAAATATATGATGGTTATGTCAGTGTAAA TAGACATTAGCACATATTTTAATATAAAATTGATTTTATAAATGAGATTAAAAAATATTTAAGTTGAAGTAAAATACAAC AGATGTTTCTTATTAACTGTCCAGGAAGAAAGAAACACATTAGAAAATGTAATTTATTTTGTAACTTAAAAATATATTAT TTATTTTCACATTTTACACTTCAAAACATATTTATCTCTTCTTATTATTCTTTTTATAAGACTATTATTTAGAAAAATAT CAATTAATACTCTATTGAATTTTAAGTGTCCATATCAATATAAACAAATAATTTACTTCAAATGGACGTTTAATAAAAAA AAAGATGTAAGTACTAAGTAGTATTATTCAAATCTAAACACAAAATTAGAATCCTTGTATTGGAGGGAATTGAAGCACGT AGCTATTTATAAGTTTTGAGGACACATCACTACATGAGATGAGAAGCCGTCTATGATGAGCACTTCGCTTTTGTAAGCAG CGAGAGGCCAAAAGAAAATGCCACTCTTTTATTTTAATTTTAATTTTAATAGGAGAAAGGGACGGGTATCATCATAATTC AAAATAAACAATGTTATGAGTTTCATAAAAGTCAGAAAAACACACATTTTTGTATAACACATAAAAGAAAAAATATTACA GAAAAGGAAATTCCAGAATAATTTAAGACAAAAGCTGTGGGGGGTCAGTGCAGAAAGTGACTTTTGATTTTGAGGGTGTT TTTATCTTAGGATACTGGTATAAACTTTATTTATACAATCGTCCCATTGAATCTCCAAAATTTGAAAATATATTTTTATT TTGATTAAGATTTAAAATCAAAGTAACTATTCCTCTTACATGACAAATTTTAATTAGTTATCCGTGTAAAATTGTTCTAC ACTCACTGACGGTGCATATCTATTAATCTCTATATTTTAATTTTATTTTATTATTTCCATTCCTTTGGAAATTTTATATT ATTTTGTGATGACTGTTTGTGATTCCAGAAAAATTTCAAACTTAAAACAAGGTGTCCACGTAGGACCATTGGAAGAAGAA GAATGCAAACATGGAGAGAGAGAGAGAGAGAGATGGTGTGTATGTTTTTTGTGTTTGGTTTTTCTGTGAGAGATCCATGG TTATGGCTTCCATGTGTTCTTGTTGCTGCATAATTCTCGCCATTTCACCAATGTTGATTTCCCATTGAACCCTTCTTGCG AAACCCTTGATTCTCATCATCATCATCACCTCAATTTGTATCGCAATTCTATTCAAACCCTTGATCCAACCCATTGAATT TCCTATTTTCATCTTTCTCAACTCTGATTTAATTGTACTTGTGCCACGGTTCGAACAGAGGAAAACAGAGCTTCCCGATT ATCTATCAGGTTTGTTTATTTTTCTGTGATTTTTTTTCTATTGGGTGCCTGCCTCTTTTGTAATCTGGGAATTTTTTTTT TAGATTTTGACTGAAATTCTATTGTTGCATGGACAGCTTGAAAATGTTTAGTGTTTGTTGCTTCTGATTCGCGCGCCTTG CTTTCGAAATGTTGATGTAGGTGTGGTTGGATTTGGTTTTGTCTTTGTGGCTCTCAACATTGTCAGAAACTTCATCAGTT TGTTATAGTTATTGTTGTTCCTTGTAAATAATACAGAAGACTGGTTGGTTTGTGCATATGCAGCCAGATAAATTTGGAAC TAGTAGGGATTTTGTTTTCTTCTGGTGTGTAGATTAATTGTGTTTAATTGCTGGAAGGTGTGCTTGCTTCATATCTTCCT TGTTTTGGTTAAAGTTGATCTGGCAATCGGATGTTAGTAGGGGGTAGGGACGAGAAATTGGACATGAATTTGTGGGTTAG TCAAGATAATTAGCAGCTTGAGTTGCTGAGAAACTGTTGTTATGGCACAAAATAAGACAGGGAAGTTGATAGGTGCAAAG ACTGGGAAGGACTCCGGCTCGTTTCCTCAATATAGCCAACCGGAATTACCCTGTGTTGGTTCAAATGCCGGACATGATGT ACATAATCTTCCTATACAGGCAGGGGAGGAATTTTCTGTGAATTATGGTCATGGTGGAGTTGCTGCTGGAAGGGTTCCTG CTTCACCTGATATATCTCGAAATCGTGAGAATAGGTTTGGGTTGAATGGGGAGAATGGCCATGTGAGATATGAAGACCTT ACTAATATTTTGGGGTTGAGGAGAATGGACTCTGAGACTTCTTCTGAAATAGGCGACTTTGTCTCTACAAAACAGCCAGC ACATGAGATGGAAAATGGGGCTCGGGTAAACATTTCAAGCAAAATTCAAAAGGGAGATGGTGATAGGGGCCATGCATTGA GAAAGGCTGTGTGTGAATCAATCGGTGACCAACCTGGTATTGGGTCAGCTGTACCTGTACCACACCTTCACAGAAAAGAA ACTTCTCAGTCCAGTGGATTTCTTGGCTCCGGAATTTTAGATGACTCTCTGTCTGGAAAAATGAAGTTCCTATGTAGCTT TGGTGGCAAAATATTACCGAGGCCCGGTGATGGGAAACTCAGATATGTAGGGGGATTTACCCACATTATATCTATCCGAA AGGATATTTCATGGGAAGAGCTTGTGAAGAAGACCTTAGGGATTTGCACTCAACCTCACACCATCAAATACCAGCTTCCA GGGGAGGATCTTGATTCCCTAATATCTGTCTCCTCTGATGAGGATCTTCAAAATATGATAGAGGAATACCATGGGATTGA AAATCATGAAGGTTCTCAAAAACTTAGGATATTTTTAGTTCCTTTGGGTGAATCTGAAGAGACACCTTCAACTGATGCAA ACACAGTTGAGCAGAATAACCCTGATTACCAATATGTTGTTGCTTTAAATGGCATAGGAGAACCTAGTCCCAGGAAAAAC ATTGCTGGCCAGAGTTTGACAAATGAAGCAAGTCAGTCAGGGACAACTTTTAATTTTACTCCATCTTTTCAGAGAACTCC TCCAGATGTCTCTTCTCCTTTGGACCTCAGGGATGGTATTAATACTTCAAATCCAGATGGAATTTTGAATGATTCCATGT ATATGAGAGAATCCTTTCCAATTTCTCCAACTGCAGTGCAAGTTGCAGGTTCTGGCACAGGTTATGTTCAATTTCTTGGT AACAACTCATGCCAGGGAAGTGTTGAGAGCAGCACATCATTTTTTACTGCTCAGCTTCACCCTGAGAACTCGGGCATAAG CACTTCTGATTGCAGATATCCTCAACAAGTGGCTGTTTCTTTGATAAACGACAGACACCATCCTGGTGATATTGGTCAGC CCACGAAGCTCAATGGGAAGTATTTTGATAACTACAATTCCCGGAAGGAGTTAATGACTCCCATATATGTGAACCAAAGT GATGGTTACAGTGATGAAGGTTTTGGTGAAAGTTCCTTGCCAAAGGATAGAAAATTCTGCTCTGGGAATCCTATTTCATA CTTGAATGACCCAATCTGCCAACAGGCGGAATCATATGGAATTACTGACTCCCCTCATGGAATGCCTCATGCTTTTTCTG ACTCACAGTTGCATGAGAGTGGAGCAAGGTCTGGTTACTGCTCACAAGAAGGAATTGGCCAATCTTTCTCTTTGAACCTT GAAAAGGCTCAATTATCTTCATTGTTAGTCTCCAGAGGCTCACAAGCAAACCTTATGGAAGGTCAGAATGATTCTGTTCT CCATCATCCCCAAGTACAAAGGAAGGTACCAAAAGTGGGGTTAGCTGAGCAGCACAGACAGCAAGATTTGTCATCTTCTT CTCCATACTCTGAATCATTAGGAGTGAATGGTCCTATTCATAAGGATAGCATTTTCACTGAAAGCAGGTACCTTGTTTCT CAAAATGACTTAAATGGATCTAGCTCTGTAGAAAAGGATATTCAGGAACAATCTGTGAAATTAGGAAGGATGAAGATAAT TGAAGAAAAGAATCCAATTCCCAGGAAAGATTCCAAGGTTTATGAGTTGGAATCAACTGTCGTTGATACCGGAGCTGTGA CTGAATTGCATCTTTTGGACTCCCTCCCTACTAGTAACTTAAATGCTAAGATTAATATGCAAAATAATTGGGAACTGTCT TCTGAGGAGAGACATCCTTCATCATCAGGCATGATGGGACTCTCTTTACATAGTTTTGGGGACAAGACCCCATCTAATCT TCTTCCCATTAGCCAAAAGACTGGTGATGGTAAAAATTGTGCTTTGGCTGAAGGTCTGAATGGTGAACAAGGAAATGATT TTCTGTTGACAGGAAATTTTGATTTAAATGCTCCAATTTTAAAATGTGAAGAAATATCTTGTGATAAAATTGCTGTTAGA GATCATATGTTCAAGCTGTCCATTGACCCAGATTCTCAGACATCTGCACAAATCCAGCCTTCTCTGAATGAGATTGCTGC AGGTTTTCATGATACTCAAACAGTAAACTCGGAAAGTCTGTATCCTGCTATAAACTTACCAGTGAATGGCCTGGATAATC CTAGCAAGAAAATTTATTTTGAAAAGGCACCTTTTGCTGATGACTTATTTACCAGAACTGATAAAATAGATCAGTTTATC CATGAACACACTGCCTCTGGACAGTCAAAAGTGGATGATATAATTCCGCAGTCAAAAAACTTAGAAAGGTGTCAAGATGC AAATCGAGTGGAGCCATTTCTCATAATAGATGATTTGACTTGTCTTGTTCCTCCATTTATTGAGTCATCTTCTGTTGGCA CCCCACATATTTTGCATGAAGTTGGAAGAGATCTATCTCCATCTAATACAGAGGCTGGGAGCATCATCCCTGAGTGTGAA TCTGAGGTAGAAAATACTGAAAACAGACTAGAGTTTATGATCATTTCTTTATGATTTCTGAATCTTTTATTTTCATTTAT AGGATTTCAAAGATGATCAAACAGACCGGAATGAATTCCTTTCTGATGCAATGATAGCAGAAATGGAAGCCAGCATATAT GGTTTGCAGGTTGGCCATCACTGAAATGTTCCACTTATTGTTTTGACTTGTTTGAAGATCAAACTTTCAGCTCGATGTTA TACTCTATAATATTTTTCTAGCTTCAACTGTACTGTCCCATCCAGATTACTTGCTAGAATGTTCGATTCTTTGTATCTTG TAGCAGACTCATATCTTTCTGATCATCCTGAAAAATAATGCTGTTCTAGTTTCTGATTAAACGCAGTAACTCTTATTTCT AAGTTGTTTTTTCTTTTTTAAATTACATGGTGAAACACTGATTAATTTGTCAGTTGACAATTATTCAACACCTAAACCCA CCTAGGTCCTAATTGATTAAATAATTTTCTAAAATGAAATAATTTTATATACTCATGATGCATTGTTTGGTTATATTAGA GGGCTTAGTCCACTACTTAAATAGAGGTTCCAGGTGTTTCTTGCTGTGGGCATGTGGGGGGGGGGGAGGTGTTTACAGCA AAGTATAATGTAATTGAATGGTGTGGTAGAAAGATATTATAATTTTTTCTGGTAGTAAAATGCGCCATGTTTTACTCTCC AAATGGCTTTGCATACAACATTTTTGCAAGTTCAGTAAGACCAGTTTGTGACTATAATTTTCTAGGACCGGTTGATAACA ATTGCTTTGATGCCCAGTGGATGCAAATGTTTCTATCCATTATTTACCACAGATCCAGATTCATTTGTTAATTATTTGAA TATTTTTCTTCTATATAGGCCTGAAGGAATGTTATATGTTCGTTTTTAATAAAATTTTCTTATCTTCTTATTGTGTATCT TCTTGTTGCATTAGAGTATTACTGATGTATTTGTGACTGTTACTAAACAATTTCCAGATTCCTTGTGCTTTTGTGCATTA CATTATATAACTTTCCTATAACTGACATTTTATATTATCTCATTCAGATAATAAAGAATGCTGATCTTGAAGATCTTATG GAGTTAGGATCTGGTACTTATGGAACTGTTTACCATGGAAAATGGCGGGGAACAGATGTTGCTATTAAGAGAATTAAAAA GAGCTGCTTTGCAGGGAGGTCTTCTGAGCAAGAACGGTTGGTGAGTCTTCTGTGCAATTTTCTTCTCAACACAATGTTAT GTATGAATAACATACAGAGTTTACTTATCTACCCTTAGTTACTTCTTGTAAATAAAGTGGAGGGATGAGATCCAAATTCC CCCTCTTGTTCCTATTAGAAGAGAGTTTTCGAACTCCCTGATTTTAGGATTCTGCTAGTTGTTAATTTAATTGGCTGGTT AAGAGTACTGTTAGGCTAATAGATAAGTGATAGATTCTGTTTTGACAGCTGTTGGCTGCTATCACTTTGTGCTCCAAATG GCTTCTAACTTGAAGTACCCGAATGAAAACACTAAGAACAAAAACAGGGCTAAAAAGAGGGTTCAAGAAGATGAACAAAA ACAGGGCTAAACAGAGCTAGTGAGCTCGAAAAAGAGGAAGAATCTACTAATAAAGATACTTCTGGGTCATGGAAAAAGAA GAGGGGACGAGGACATGCAATTAATGCAAAGCTTGACAAGGAAAAAGCAAGGAGGGCCACAAAAGGAAAGAATCTTGATA TTCATTTTCCTCCACCATATTTTAAACTTTGTAGAAAACATGCAAAGTTCTCCAAGTCTGAGGCAACTGTATCTATACGC CAAAAAGCATAGATGGAGATACATAATCAGCTCTGATACCATGTTTGAGAAGAAGAAGGGAGAAAACTAACACGTTGACA CAGAAATTGTAATTGTGTATTTCAGTGAATGATAAACCGTACAAAGTGCACCTTATATAGTAGCACAAAGTGATAGCAGC CAACAACTGTCAAAACAGAATCTATCATCTATCTATTCGCCTAACAATACTCTTAAACCAGCCAATAAAATTAACAACTA ACAGAACCCTAAATTCAGGGAGTTCGAAAACTCTCTTCTAATAGTTTCTATTTCTTTATGTATGTATATCCCTGTGTAGG TTATCATGGAAATTGAATTTTTTCAATGTCCCAGATTCTAGTCAATTAAAATGAATGTTGTTAAATACTTAAATTTAGAC TTCAAGATAATAAGAGATTTCTTGCAACTATTTTGCTATTATTCTGATAAGTTTAAATAATATTTCCGATTTCAAAAGTA GCTCTGCTCATATCAATAAAAAAATAATGAAGTAAAATATGTACATGAATCTGACAATGTTTCTTTGCTTGGGTAGGCAA AAGATTTCTGGAGAGAGGCACAGATACTCTCAAATCTTCACCATCCCAACGTTGTTGCATTTTATGGAATAGTTCCAGAT GGGGCTGGTGGAACCTTAGCAACTGTAACAGAGTATATGGTTAATGGTTCCCTTAGGCATGTCCTTGTTAAGAACCACAG GTACCCTAAGCCCATTTTCTCAATATCATTTTGAGTAAGTTATTATGCACATACTGAATCTCCAACTCCTTATGCAGATT ACTAGATCGTCGTAAAAAGCTAATAATTGCCATGGATGCAGCTTTTGGTATGGAATATTTGCACTCAAAAAATATTGTCC ATTTTGATTTAAAATGTGACAATTTGCTTGTCAATCTAAGGGATCCACAACGACCAATATGTAAGGTAAGAACTCCACAA GTTTCATGTGGTTTCACATAAGGATAGAGATGAAATCATTAAAGCTTGTCATGGTGTTAAATTAGTGTTAAATTATATGC TTAACTTTTTCTCATGATAATGAGGGATAAAATGCTTTAATAAAAGAGTGAAAAGGAAATATATTAAGAATAGAAACATA AACCAAGTGCAGTGATCTGGTTGGTTTGAAATGATTTGAAATTTTTAAAAACTAATAAATTTATCTTTCAGCCCCCTGTG GCAACTTATGCTCTTACTGTCTTTCCACCTTATGCCAATTAGTATTGGAGCCTTGAAAATATGTTGAAAATAATTGAATA AGCTCTCTGACATATGCTTGAAGATTGTACCAAGCAATCAAGCATTAAAGGGACATAAACATGTGGGAAGAAATCTGGAG ATTCAGGACATTCTGAAGTTTGTCATTAGAATTAATTTTGTGATGATGACGAAAACGCCTTTCATGATTCTGTTTCTGAG ACTTGGTACACTGAGTGGAATGTTATTATTGGGCTCGTCCCTCTGCATACGTCACTATGTTTCATGAAAATACTTGCTGC ATGTCTAGCCCGACATAAATACAAGATTACAAGCCACTTCAGAAATTAAAGTTTGAAACCTCTACATGATAAGGAGGTTG ATGTTCGCCCACCTGCATTCTTCATTATTATTAAAGTAAAATTTCAAGGGTATTTATAATGATGTGATGTGTTAATCTCT TGTGATTTAATTGAAATTTATTTGGAATTATGTTAGGAATGTCATTTTACATTTAATTATTTAGGTTGTTTTATGGTAAA TTCTGCAAAATTAAATCTCTATTAGGATACATCTGTTAAGAGGGTCTGTGAGAGGAGAAACCTAGAAGGTAGCAATAGCT TATACACTGGTTTGATTACTGTTGTTCAATAAAGCTCTATTTAATTGCCTTACTTAATATAACTACAACTTTTTTGTTTT ACAACTTTTGTTGATTATTTTTTCTTAGGTTGGAGATTTTGGATTATCAAGAATTAAACGTAATACCCTTGTATCTGGAG GTGTGCGAGGAACCCTTCCATGGATGGCACCAGAATTGTTGAATGGTAATAGCAGTCGAGTTTCTGAAAAGGTAACTGGG ACCAGTCATTCTTTAGTTTAGCAATTTAGAGGAATCAATGAATCATTGGGCAGGCATTTACTTTGTGGTATGACTTTGTC AGGTTGATGTTTTCTCATTCGGCATCTCAATGTGGGAGTTATGGACAGGGGAGGAACCTTATGCAGATATGCATTGTGGT GCCATTATTGGTAAGATTGTGTACCTTAAAGGAAAGCAAAAATATTTTATTAGACAAGAGAAACAAAATCGAAATCATAT CATTTGAGGTTGCATTATTTTCTGCTTTATCTGGTCTTACCTTAGACGAATATCTGTAAGGGATATGACTGGAGGTTTTT GCTTCTTTCTTAGGCTATCTCGTGCTTGGTCTCTTTGAATTGTATCATAAAACATTTTTTACTGTCGTGGAGTTTTGCAA TGTTGCTCTTGGTTCTGGCAAGAGCTTTATTCTCGTAAAAGGATAAAACAGTTGAAGAAGCTTTTCTAAAAAATTCAATT AGTTTAGTTGTTGAATTTCTAATCAAGGGTGCCGTTTTTATGGTTTTATGGTCTACAAATAAAGGATTGGCGTTGGCCTG AATTTTGACTTTGTGTGTGAAATATGGCAAAAAAGGTGTAAAAGCATTGTGTAAGAATACATGAAAAATATCTTAACATC TTGATGGTATCTTAAAATAATTTATAGTATTTATTATCTCTTAGAATTGGTTTCCATATTTCCAATGTTGCATGATTTGT TTATTTATTTTAATTAAGATTAGGAGTACTAGAATAAGTAATGATTTGTGCTTTGTCTTTTGTAATAACATCAAACATAT ATTTTACATCAGTATCAATACAATTTTGTTATCTGAAATCCTTCTATACCTACAAGAGTAACTGTATAAATTCAACATGG TATTACAGCAGTACATCTGCCTCAAATTTTGAACTCTATTGTAACAATTTCATTTTCTCCGTAATTCTTGTATTCTCGTT GGTTGTTCGCAAATTCATACCACCCTTTCTCTCTCAGGTTCTTTGTTGTAATATGTTTTTGGTTGTTGCTTTTGCAACTT GTCATACAACTATACAAGCCTTAAATCATTTCCCCCTTCTTTGTGAATTCCATCTGGTGCTCTCGGACTATCTTAGATGG AGTATGATCCTAGCAATCCTAAATGCATTCTGGCCCCCACTGTCCAGTCTCCCAGATGCAGTCTGGCTTTGGCTGTCCCA GATGCATTTTGGACCCAACTGTCTCATCAATAATTAGTAGTATAATCTGCTATAGTTTAGTCTGTGTTTTTGGGCATTTT GCCTTCCCGACAACCAAAAAAATATAACGATCAGTGTTTTATCTTTTGTAATCACTTCAAAACATATCATTCGCGTCAAT ATCCACATAATTTTATTATTTTGAGTACTCCTTTTCTTTGTTTATACCTAAATGATGGAATTGTTTGCAAGAAGCGTGTG AGGAACTCTTCATGCTTCTATGCTTAGCTTTTTCAGTGCTGGACTGAATTTCTAGGCTTCTAGCTGTTTGAAACTGACCA TACAAGGATAGAGTGTATCACTGAACAGACTATTTTTACCATTATTGAGTACTTATCTTGTAGTATGGGATTAAAGAAAT ATATCAAAATCTTGCGCTGAGGATGCAATCATCCTTGACAGTTTTAGTGGGCTAAAATTTATGTATCTATTTATAGGTTG ATATCATGGATGTCAGGCACCCAACTGAAATAAATAGGTAATAGAAGTGTTGCGAGAAAACCCTTTAAAATTTTAAATGA CTAACATCCAGTATTTTATGTGTTAAAGTGTTAAACAATGAGCTAACCCTGATGCATACCAATTTCTGCGTTTGTTCCTT GCTGTATGTCTTTCTTATCTACTCTTACTTGCTAACTTCCATAACTTTTGCTTCTCTTTTGGCGACATGTTCAAATAGGG GGTATTGTAAAGAACACTCTTCGACCACCTGTTCCGGAAAGCTGTGATTCTGAGTGGAGGAAGCTTATGGAAGAGTGTTG GTCACTTGACCCTGAAAGGCGGCCATCATTCACAGAGATAACTAGCAGGTTAAGATCTATGTCTATGTCCCTTCAAGCTA GGGGGAATTATCAGGCATGGCAAGTGAGACCTAGTGCTCCTTGAAACCAAGGCACTTTTCTGCAGTTATGTTTGATCGTA CAGAAATTTAGTTGTATAGTTTTTTTTTTTAAAGAAGCCATCAAGATTCAAGACTGGGGCTGGCATGCTCTTAGGGTTGT CATAACACTTCAGCTATTATTTCTTGTGATGTCTGTTGGCTATGATATCGTCATTTGTTTATTCTTTCTTGTAAAAGATG AGGTTGAGATCATATGGTATAGTTGTGTACATCTACCAATTTTGTATTTGTTGCATGAACCAACATTTAGCAGGAAGATA TATATAGAAAGGGAAAAAGGAAAGAAAAGGTGTCTTTAGTGTATGTATGTATGTATGTATGTATACAGACAAAAGTGCTT GTAATATATGTTTTGATTGATGTGAGAGTGCCCCTTCCCTTTTTCTGTAGATAAGAATTTAATTCTTTTATTTATAGCTT GGTATATGTATTTGTCAACTCACATGCACAGATACAATTATACAATACAAACATTTTTTTTTTAGAAAACAGAATATATA TATATATATATAATTATAAGGTTGATAGTACAGATAACACACAACGTGTGAGTAGTCCACAATGCTACAATGAGAGTCCT AAGACTACTACCTGGCGAATAAACACCTAAAACCTACGAGAAAAGCATCTATCGGGGACCTCGGTGTGGCAAACGTCACA CAAACCCAACAAAAATAGAGCTCGACTCGACATTGGGACCCAAATAATCACAGTACAATACAAACATGATGAACTTATGT TCAGAGGTATTGTGATTGGATGATGTGTAGTGTACTG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0584100.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCACAAAATAAGACAGGGAAGTTGATAGGTGCAAAGACTGGGAAGGACTCCGGCTCGTTTCCTCAATATAGCCAACC GGAATTACCCTGTGTTGGTTCAAATGCCGGACATGATGTACATAATCTTCCTATACAGGCAGGGGAGGAATTTTCTGTGA ATTATGGTCATGGTGGAGTTGCTGCTGGAAGGGTTCCTGCTTCACCTGATATATCTCGAAATCGTGAGAATAGGTTTGGG TTGAATGGGGAGAATGGCCATGTGAGATATGAAGACCTTACTAATATTTTGGGGTTGAGGAGAATGGACTCTGAGACTTC TTCTGAAATAGGCGACTTTGTCTCTACAAAACAGCCAGCACATGAGATGGAAAATGGGGCTCGGGTAAACATTTCAAGCA AAATTCAAAAGGGAGATGGTGATAGGGGCCATGCATTGAGAAAGGCTGTGTGTGAATCAATCGGTGACCAACCTGGTATT GGGTCAGCTGTACCTGTACCACACCTTCACAGAAAAGAAACTTCTCAGTCCAGTGGATTTCTTGGCTCCGGAATTTTAGA TGACTCTCTGTCTGGAAAAATGAAGTTCCTATGTAGCTTTGGTGGCAAAATATTACCGAGGCCCGGTGATGGGAAACTCA GATATGTAGGGGGATTTACCCACATTATATCTATCCGAAAGGATATTTCATGGGAAGAGCTTGTGAAGAAGACCTTAGGG ATTTGCACTCAACCTCACACCATCAAATACCAGCTTCCAGGGGAGGATCTTGATTCCCTAATATCTGTCTCCTCTGATGA GGATCTTCAAAATATGATAGAGGAATACCATGGGATTGAAAATCATGAAGGTTCTCAAAAACTTAGGATATTTTTAGTTC CTTTGGGTGAATCTGAAGAGACACCTTCAACTGATGCAAACACAGTTGAGCAGAATAACCCTGATTACCAATATGTTGTT GCTTTAAATGGCATAGGAGAACCTAGTCCCAGGAAAAACATTGCTGGCCAGAGTTTGACAAATGAAGCAAGTCAGTCAGG GACAACTTTTAATTTTACTCCATCTTTTCAGAGAACTCCTCCAGATGTCTCTTCTCCTTTGGACCTCAGGGATGGTATTA ATACTTCAAATCCAGATGGAATTTTGAATGATTCCATGTATATGAGAGAATCCTTTCCAATTTCTCCAACTGCAGTGCAA GTTGCAGGTTCTGGCACAGGTTATGTTCAATTTCTTGGTAACAACTCATGCCAGGGAAGTGTTGAGAGCAGCACATCATT TTTTACTGCTCAGCTTCACCCTGAGAACTCGGGCATAAGCACTTCTGATTGCAGATATCCTCAACAAGTGGCTGTTTCTT TGATAAACGACAGACACCATCCTGGTGATATTGGTCAGCCCACGAAGCTCAATGGGAAGTATTTTGATAACTACAATTCC CGGAAGGAGTTAATGACTCCCATATATGTGAACCAAAGTGATGGTTACAGTGATGAAGGTTTTGGTGAAAGTTCCTTGCC AAAGGATAGAAAATTCTGCTCTGGGAATCCTATTTCATACTTGAATGACCCAATCTGCCAACAGGCGGAATCATATGGAA TTACTGACTCCCCTCATGGAATGCCTCATGCTTTTTCTGACTCACAGTTGCATGAGAGTGGAGCAAGGTCTGGTTACTGC TCACAAGAAGGAATTGGCCAATCTTTCTCTTTGAACCTTGAAAAGGCTCAATTATCTTCATTGTTAGTCTCCAGAGGCTC ACAAGCAAACCTTATGGAAGGTCAGAATGATTCTGTTCTCCATCATCCCCAAGTACAAAGGAAGGTACCAAAAGTGGGGT TAGCTGAGCAGCACAGACAGCAAGATTTGTCATCTTCTTCTCCATACTCTGAATCATTAGGAGTGAATGGTCCTATTCAT AAGGATAGCATTTTCACTGAAAGCAGGTACCTTGTTTCTCAAAATGACTTAAATGGATCTAGCTCTGTAGAAAAGGATAT TCAGGAACAATCTGTGAAATTAGGAAGGATGAAGATAATTGAAGAAAAGAATCCAATTCCCAGGAAAGATTCCAAGGTTT ATGAGTTGGAATCAACTGTCGTTGATACCGGAGCTGTGACTGAATTGCATCTTTTGGACTCCCTCCCTACTAGTAACTTA AATGCTAAGATTAATATGCAAAATAATTGGGAACTGTCTTCTGAGGAGAGACATCCTTCATCATCAGGCATGATGGGACT CTCTTTACATAGTTTTGGGGACAAGACCCCATCTAATCTTCTTCCCATTAGCCAAAAGACTGGTGATGGTAAAAATTGTG CTTTGGCTGAAGGTCTGAATGGTGAACAAGGAAATGATTTTCTGTTGACAGGAAATTTTGATTTAAATGCTCCAATTTTA AAATGTGAAGAAATATCTTGTGATAAAATTGCTGTTAGAGATCATATGTTCAAGCTGTCCATTGACCCAGATTCTCAGAC ATCTGCACAAATCCAGCCTTCTCTGAATGAGATTGCTGCAGGTTTTCATGATACTCAAACAGTAAACTCGGAAAGTCTGT ATCCTGCTATAAACTTACCAGTGAATGGCCTGGATAATCCTAGCAAGAAAATTTATTTTGAAAAGGCACCTTTTGCTGAT GACTTATTTACCAGAACTGATAAAATAGATCAGTTTATCCATGAACACACTGCCTCTGGACAGTCAAAAGTGGATGATAT AATTCCGCAGTCAAAAAACTTAGAAAGGTGTCAAGATGCAAATCGAGTGGAGCCATTTCTCATAATAGATGATTTGACTT GTCTTGTTCCTCCATTTATTGAGTCATCTTCTGTTGGCACCCCACATATTTTGCATGAAGTTGGAAGAGATCTATCTCCA TCTAATACAGAGGCTGGGAGCATCATCCCTGAGTGTGAATCTGAGGATTTCAAAGATGATCAAACAGACCGGAATGAATT CCTTTCTGATGCAATGATAGCAGAAATGGAAGCCAGCATATATGGTTTGCAGATAATAAAGAATGCTGATCTTGAAGATC TTATGGAGTTAGGATCTGGTACTTATGGAACTGTTTACCATGGAAAATGGCGGGGAACAGATGTTGCTATTAAGAGAATT AAAAAGAGCTGCTTTGCAGGGAGGTCTTCTGAGCAAGAACGGTTGGCAAAAGATTTCTGGAGAGAGGCACAGATACTCTC AAATCTTCACCATCCCAACGTTGTTGCATTTTATGGAATAGTTCCAGATGGGGCTGGTGGAACCTTAGCAACTGTAACAG AGTATATGGTTAATGGTTCCCTTAGGCATGTCCTTGTTAAGAACCACAGATTACTAGATCGTCGTAAAAAGCTAATAATT GCCATGGATGCAGCTTTTGGTATGGAATATTTGCACTCAAAAAATATTGTCCATTTTGATTTAAAATGTGACAATTTGCT TGTCAATCTAAGGGATCCACAACGACCAATATGTAAGGTTGGAGATTTTGGATTATCAAGAATTAAACGTAATACCCTTG TATCTGGAGGTGTGCGAGGAACCCTTCCATGGATGGCACCAGAATTGTTGAATGGTAATAGCAGTCGAGTTTCTGAAAAG GTTGATGTTTTCTCATTCGGCATCTCAATGTGGGAGTTATGGACAGGGGAGGAACCTTATGCAGATATGCATTGTGGTGC CATTATTGGGGGTATTGTAAAGAACACTCTTCGACCACCTGTTCCGGAAAGCTGTGATTCTGAGTGGAGGAAGCTTATGG AAGAGTGTTGGTCACTTGACCCTGAAAGGCGGCCATCATTCACAGAGATAACTAGCAGGTTAAGATCTATGTCTATGTCC CTTCAAGCTAGGGGGAATTATCAGGCATGGCAAGTGAGACCTAGTGCTCCTTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0584100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAQNKTGKLIGAKTGKDSGSFPQYSQPELPCVGSNAGHDVHNLPIQAGEEFSVNYGHGGVAAGRVPASPDISRNRENRFG LNGENGHVRYEDLTNILGLRRMDSETSSEIGDFVSTKQPAHEMENGARVNISSKIQKGDGDRGHALRKAVCESIGDQPGI GSAVPVPHLHRKETSQSSGFLGSGILDDSLSGKMKFLCSFGGKILPRPGDGKLRYVGGFTHIISIRKDISWEELVKKTLG ICTQPHTIKYQLPGEDLDSLISVSSDEDLQNMIEEYHGIENHEGSQKLRIFLVPLGESEETPSTDANTVEQNNPDYQYVV ALNGIGEPSPRKNIAGQSLTNEASQSGTTFNFTPSFQRTPPDVSSPLDLRDGINTSNPDGILNDSMYMRESFPISPTAVQ VAGSGTGYVQFLGNNSCQGSVESSTSFFTAQLHPENSGISTSDCRYPQQVAVSLINDRHHPGDIGQPTKLNGKYFDNYNS RKELMTPIYVNQSDGYSDEGFGESSLPKDRKFCSGNPISYLNDPICQQAESYGITDSPHGMPHAFSDSQLHESGARSGYC SQEGIGQSFSLNLEKAQLSSLLVSRGSQANLMEGQNDSVLHHPQVQRKVPKVGLAEQHRQQDLSSSSPYSESLGVNGPIH KDSIFTESRYLVSQNDLNGSSSVEKDIQEQSVKLGRMKIIEEKNPIPRKDSKVYELESTVVDTGAVTELHLLDSLPTSNL NAKINMQNNWELSSEERHPSSSGMMGLSLHSFGDKTPSNLLPISQKTGDGKNCALAEGLNGEQGNDFLLTGNFDLNAPIL KCEEISCDKIAVRDHMFKLSIDPDSQTSAQIQPSLNEIAAGFHDTQTVNSESLYPAINLPVNGLDNPSKKIYFEKAPFAD DLFTRTDKIDQFIHEHTASGQSKVDDIIPQSKNLERCQDANRVEPFLIIDDLTCLVPPFIESSSVGTPHILHEVGRDLSP SNTEAGSIIPECESEDFKDDQTDRNEFLSDAMIAEMEASIYGLQIIKNADLEDLMELGSGTYGTVYHGKWRGTDVAIKRI KKSCFAGRSSEQERLAKDFWREAQILSNLHHPNVVAFYGIVPDGAGGTLATVTEYMVNGSLRHVLVKNHRLLDRRKKLII AMDAAFGMEYLHSKNIVHFDLKCDNLLVNLRDPQRPICKVGDFGLSRIKRNTLVSGGVRGTLPWMAPELLNGNSSRVSEK VDVFSFGISMWELWTGEEPYADMHCGAIIGGIVKNTLRPPVPESCDSEWRKLMEECWSLDPERRPSFTEITSRLRSMSMS LQARGNYQAWQVRPSAP

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
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	22	22	-	–
PANTHER	PTHR23257:SF714 View details on PTHR23257:SF714 Search for proteins/transripts with this domain View external data on PTHR23257:SF714	48	1295	1248	0.0	–
PANTHER	PTHR23257 View details on PTHR23257 Search for proteins/transripts with this domain View external data on PTHR23257	48	1295	1248	0.0	–
CDD	cd06410 View details on cd06410 Search for proteins/transripts with this domain View external data on cd06410	197	292	96	6.91651E-44	–
SMART	SM00666 View details on SM00666 Search for proteins/transripts with this domain View external data on SM00666	208	295	88	3.4E-31	IPR000270 Show description in modal box View details on IPR000270 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00564 View details on PF00564 Search for proteins/transripts with this domain View external data on PF00564	210	294	85	1.2E-20	IPR000270 Show description in modal box View details on IPR000270 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF54277 View details on SSF54277 Search for proteins/transripts with this domain View external data on SSF54277	210	296	87	4.51E-19	–
Gene3D	G3DSA:3.10.20.90 View details on G3DSA:3.10.20.90 Search for proteins/transripts with this domain View external data on G3DSA:3.10.20.90	212	294	83	7.0E-8	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	344	362	19	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	344	373	30	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	614	635	22	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	618	633	16	-	–
SUPERFAMILY	SSF56112 View details on SSF56112 Search for proteins/transripts with this domain View external data on SSF56112	1000	1273	274	2.35E-75	IPR011009 Show description in modal box View details on IPR011009 Search for proteins/transripts with this domain View on EBI InterPro Service
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	1005	1178	174	2.5E-80	–
ProSiteProfiles	PS50011 View details on PS50011 Search for proteins/transripts with this domain View external data on PS50011	1011	1281	271	40.57	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	1011	1280	270	6.4E-57	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF07714 View details on PF07714 Search for proteins/transripts with this domain View external data on PF07714	1015	1274	260	5.3E-62	IPR001245 Show description in modal box View details on IPR001245 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	1017	1042	26	-	IPR017441 Show description in modal box View details on IPR017441 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd13999 View details on cd13999 Search for proteins/transripts with this domain View external data on cd13999	1017	1274	258	1.28025E-106	–
PRINTS	PR00109 View details on PR00109 Search for proteins/transripts with this domain View external data on PR00109	1093	1106	14	2.0E-13	IPR001245 Show description in modal box View details on IPR001245 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	1096	1270	175	2.5E-80	–
PRINTS	PR00109 View details on PR00109 Search for proteins/transripts with this domain View external data on PR00109	1130	1148	19	2.0E-13	IPR001245 Show description in modal box View details on IPR001245 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00108 View details on PS00108 Search for proteins/transripts with this domain View external data on PS00108	1136	1148	13	-	IPR008271 Show description in modal box View details on IPR008271 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00109 View details on PR00109 Search for proteins/transripts with this domain View external data on PR00109	1201	1223	23	2.0E-13	IPR001245 Show description in modal box View details on IPR001245 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00109 View details on PR00109 Search for proteins/transripts with this domain View external data on PR00109	1245	1267	23	2.0E-13	IPR001245 Show description in modal box View details on IPR001245 Search for proteins/transripts with this domain View on EBI InterPro Service

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:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	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).	Subterm of View details of GO:0005488
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

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0584100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0584100.1