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Field | Value |
---|---|
Gene ID | LotjaGi2g1v0003400 |
Transcript ID | LotjaGi2g1v0003400.6 |
Related isoforms 7 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Histidine kinase; TAIR: AT2G01830.1 CHASE domain containing histidine kinase protein; Swiss-Prot: sp|Q9C5U0|AHK4_ARATH Histidine kinase 4; TrEMBL-Plants: tr|A3QVR9|A3QVR9_LOTJA Histidine kinase 1A; Found in the gene: LotjaGi2g1v0003400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:1443526..1456488) extracted from Lotus japonicus Gifu genome v1.2.
CAAGTATTGGGGTGTAGGGAGAGAGAGAGAGTGAGGTGGCTCTTAGAAATTTGAGCTGTTTTTCCGTCTTTTGAGGCCCA TGCTTGTCTCTGAGAGTTGAAAGTTTCAATCTTTTAATTCTGGGTTTCTTGTCTGACTTCTCTCTGTCTCTGTGGGGTTA TTTTTTGAAATGGGTTTGGCTTCTTAAGAGAGAGAAAGAGAAGTAATTGGCCAATCCTTCATGATTCCTGGTGTGTTTGT GCTTGCCCTTTCTGAGGTTTGAATCACATAAAACAATGCTGTTATAATGCTTTATTGCTTGGAGTTTTGTTCTGTGACCT TTTTCTTTTCATCCATCAGAGAAAAGTGTCTGGAATTTTGCCAGTGCTTTAAAGAAAAAGTGACCCTCCTATATGACCAC TAACTATAAATTTCTCTTTTGGGACTTCTCAAAAAATAGGTATGAAGGAGGAAGAAAAGGAGCAAGGAAAGAACATAGCA GCCCAGTGAATTTGCTGCTGATGGGTCTTAGCTTGAAGATGCAGAGTCACCATGATCAAATGGGGTCTAAAAGAAAGTAC ACTTTCATTCAGGACCATAGAGCATGGCTACCGTGGTTTTTGTTTATGTGGGTCCTGCTAATGGCTTTTATCAGTTGGAA TATCTATAGTAAAATGGATGATGACACTAAAGTTAGAAGGAAAGAGGTGTTGGGTAGCCTCTGTGATCAAAGGGCAAGAA TGTTGCAAGATCAGTTTAGTGTTAGTGTGAACCATGTCCATGCTCTTGCCATCCTTGTTTCAACTTTCCATTATTACAGA AACCCTTCCGCCATTGATGAGGTTAGTGCTTGATCTGCCATTGACTAGCTAAGCGCAATGCAAAATTATGATATGGGTTT TAAATTGGGGTTGCGGTCACCGCTGCGTTGCGGAATTGTGGACAAATGCGGGTCAATGCGGCCACAATTGCAGTCGCTGT GCTGTTTGGTGAGTCAAAATCCCTTTATGTTGCGACTGTAATTGCGGTTGTACACCCCAATTTAAAACCCTGATTATGAT ATGAAGGAAATGTTATGCTATTTGGTTTTTCCTAATTGTTGTTCTAATTTTGTAAATTTCTCCTTCCAACTGGATATATA TATTAGGAAACCTTTGCTGAGTATACAGCAAGAACAGCATTTGAACGGCCATTACTGAGTGGTGTGGCTTACGCACAAAG AGTAATTAACTCAGAGAGAGAGAGATTTGAGAAGCAACACGGATGGGTTATAAAGACAATGGAAAGGGAGTCTTCACAGG TTAGAGATGAGTATGCACCAGTGATATTTGCTCAAGAAACTGTCTCATACCTTGAGTCTCTTGATATGATGTCTGGGGAG GTAATAATACATTGATCAATAATTCTCTACTTACATTATGTATAATTTCAACCTCAATTTTTTGCTAGTGCATGATCAGG AGGACCAAGAGAACATTTTAAGGGCTAGGGCCACTGGGAAAGCAGTTCTAACAAGTCCTTTCAGGCTGTTGGGTTCTCAT CATCTTGGCGTTGTTTTAACATTTCCTGTGTACAAATCTAAGCTCCCTCCAAAGCCAACACTAGAAGAACGCATTGAAGC AACTGCAGGGTAGGTTCTGTTTTCAGTTTCACTTAGGTTTTTAAGTTTGCTCTTGTAATATTTTTGGTGGTTCTTGCAAT AAATAGTTTTAGCTGTTAAGTAATAAGTATAACTTTTATTTTCAGTCTTTTTGCATTTTCTGGAAGTAAATTATGTTTAT CCTTTTCCCTTTCTTGTTTGTTAATCATACTTCAATTTAAGTTTTGAGTGTGGATAATGGTAGGGTGAGGGATGGTTGAA AGTTTAGATAGAATGGGAAGACATACTTTTTGGGAAACTTTTTCACTGCTACAGTTATGCTTACTATCGTGTTTATAATG CTTCCATCTATCCTTTTATGGTTGATGATTCCCTTTTTAATAATTTTTTTTAAAACGCAAATGAAAGATAACTGCATGTT AATGATTATTGAAGGCTGTGACAGAAGCTTCTGCTTTTTTTTTTCAACGCATCACGAGTCATGCTAATTAGTTTAACCTG TGACTTCTAAAGTTCTACATTTTAATGTTTGTCAATTATCACACTCCCTGCAACTTGGCAATCGTTTTTGTGCTACCAGT TTCTTTTTTTTCTGTTCAATGACACCTTCAGTGTCATTACCATTTGCCACAACTGCCACAGCCTTTATGATTGAGTTTGA GGACAACTTATGCCAGTGCAATTGGCACTATCAGTTAACTGGTTAGTGGGTATTCATTAACCGCTCATTGAGCATCCTTA ACCGATTGATTGTTTAATCATTTCTAATTTACCGAAAATTCATTTTCATATATTTTCCTCTTTTGTTTTTGTATCTTTCA CGAGCCTTAAATTATCAGATTCTGTGGTATGTGATGGCCAGGATGGTTATGTGATTTGTATTCGTCCTGTCAAACATTTA GTTTGAACTTTGTTTCTGACCTATATTATATGAAATTTATGTTTACTGTTAGCTTCTTAATGTCCAAAATAGAGTACTAA ATAAATTTCTAATTGGAATCAGATATGTTGGAGGATCCTTTGATGTTGAGTCCCTTGTGGAGAATTTACTTGGGCAACTT GCTGGTAACCAAGCAATTTTGGTGAATGTGTATGATATCACAAATTGTAGTAATCCCCTAACCATGTATGGAAATCACTC CGAAGAAGCTGATATGTCTCTTTCCTATGAAAGCAAACTCGATTTCGGAGATCCATACAGGATACATCAGATGATATGTA GGTGGGTGCTAGTGGAATTTGTGTTTCGTGTAAGGAGTTTTAACGTTTTCGCTTGTAAACAGATTCTTATCTCTAAATTT TAAATAGGTATCATCAGAAGGAACCAACAAATTGGGTCGCCCTTACCACGGCAGTCCTATTCTTTGTGATTCTTATATTA GTGGGTTACATTTTATATGAAGCTGGAAATCATATTGTCAAAGTTGAAGATGATTTTCATGAAATGCAGGATTTAAAAGT CCGAGCAGAAGCAGCTGATGTTGCCAAGTCCCAGGTAATTTATCTGGCATATTGTTAGCATAGTTTATTATTTTCAGGAA TTACTCACTGATCACAATAACCTATATTTTGTTTTTAATGTCAGTTTCTAGCTACAGTCTCTCATGAAATTAGAACACCA ATGAATGGCATTTTAGGTAACTTCAAGAGTCTGCCTCTCTCTCTCTCTCTTAAAAAATGTGACAGGCTTTCATAACTTGC ACTTTCCATTGATCATCAGATCATTTAACTCCAAATTATTGTAGGAATGATGGCTCTACTTCTAGATACAGAATTGAGTT CAACCCAACGAGATTATGCTCAGACTGCTCAAGCATGTGGAAAGGCACTGATAACATTGATAAATGAGGTTCTTGACCGG GCTAAAATTGAAGCTGGCAAGTTAGAGCTAGAGGCTGTTCCATTTGACCTCCGTTCCATACTTGACGACGTCCTTTCTCT TTTCTCTGAGAAGTCTAGACACAAAAGTCTAGAGGTATGTCTTGATTGTTGATTAATCTTTTGAAGGCCTGTAAAAAATG TTTTTCCTTGCTCAAGTTATATAATATCACCCTTCTATTTCCTTTTCTTTAGTTGATGAACTTATATTATTCTTTCCTTT CTGTTGTTTCACCTTTCTGGGTCTTATGACTGTTGATATTCCTGATGCGTGCCAAACTTACAATTCTTCCACCTGACCTT ACATTGCTGATTGGGGAAGTAAAGTTGGCTGTGTTTGTTTCTGATAAAGTCCCAGATATTCTTATGGGAGATCCTGGAAG ATTCAGACAAATAATAACAAATCTTGTTGGCAACTCTGTTAAGGTAAGATGTTATTTGAATTTACATTGCTAATATGTAT GATGTTTAGTTGATAGATTATTCTAATTATTTTAAGCTTCTTATCTTCACTTTTAGATTTAGCCTTTTGTTTTCTTCTTC ACCCTACACTTGGCAACTGTGGAAGAGGAATTGCATTGATGCTTGACTCATTCATCCTTGTTGGAGTTATAGGGTTTAGT CTTTGTTAGAAATATAAGACAAAACCATTCATGTGTCTTCATCCAGCAGCTTCAGCTTTTGGGATTGTTGGTTCATGACC TGGTATTAGAGCCTCTATGACCTAGTAGTCTAGAGTTTGATCCTTGTTGTCCTCCTTTATTTTAAGAAAAAGTTGAATTT CAACACAAGCTAGTTGGGTCATGCATTGTCCATGCTTCGAGCCCAATGAGTCCTTGACTCCTTGTGTTAGGTGGCTTGTT TTTTTTTGAAATTGTGTTAGGTGGCTTGTTAGAAATAGGGTATAAAACCATTCGCTTGTCTGCACCAAACAGTGTAAGAT TCTGGTTCGTGACAAACCTATTGGTATAGAGAGAGGAAGAAGGATACTTAGAATAACAAAATTATATTGATAGTGAATGA TAGCTTTGAGATAATTATAGAAGACAAAGCACCAATCGTTATTTTCACTAAATCTTGACTCCAGAGCCTAATTGAATAAG GAAACAACTAATGATACATAAGAAATATGGAACCAGTCCTAAAAGATAATCTAAGTTGCTCTAAATTACTGAGATACAAT CAAGATATTATACGGTATTTTTCATTATATCCTAACAATTTAATTTCTCTATTTAATTCATTAAGTTTACTCACAAGGGA CTTGCTGATTACTAATCAATCTCTGCATCTTGCAGTTTACTGAGCAAGGACATATATTTGTTAAAGTTCATCTAGAGGAT AACATAAATCCCGTAATGAATGGAAAACATGAAACTATTCTGAATGGAGAGTCAGATGAGGTTTTCCATTTATCTGGTGA TTGCCATTTCAAAACCTTAAGCGGATGTGAAGCAGTTGATGAACAGAACAGCTGGGAGAATTTTAAGCATCTGATTGCAA ATGAAGAACGTTACTTCGATTGTTCAAGTAAAATGGCAGCCACTAGTGAATCATCGGAGCAAGTCAAATTGAGAGTCTGT GTGGAGGACACTGGAACTGGAATTCCTTTCTCAGCCCAGGATACAATATTCATGCCTTTTGTGCAGGCTGACAGCTCAAC TTCTCGAAATTACGGCGGTACTGGCATTGGCTTGAGTATCAGTAAATGTCTGGTTGAACTAATGGGTGGTCAGATAAACT TCACAAGCCGGCCCCAGGTCGGGAGCACATTTTCATTTACTGCTGCTTTCGGAATGTTTAAGAAAAATTCAGTTAGTGAC ATGAAGAAACTAAATTTGGAAGATCTTCCTTCCAGTTTTAGAGGCCTGAAAGTCATAGTGGTCGATGGAAAACCAGTTAG AGCTGCTGTGACTAGATACCTTTTAAAGAGACTAGGGATACTCGTTAAAGTTGCAAATAGCATCAGTCAGGCTGTGGCTT TATGTGGGAAAAATGGTTCTTTAACATCAGGGTAATTTTCCCTTCTTTTATATTTTTATTTCTCTCTGTGCACGGAGTTG GACTTAATTATGAACAAACTGCAAATGATGATAAAAACAGCAGTATCAGCATTTTGGTAATTGTTGTAACTTTGGCATAT GCTTTTGCTTTTAAGTTGGGTTTTTAACCACATAAAATTATTTAACAAGTTTATTTGAAATACACATATTATGTATACCC TGCTATGGTCCCTCTTGATTTTAGGGCTTATATATGCTGTATTTAAAATGGCAAAATGACATATTTTCCATTCTGGGTGG GTTTTAAAATGTTTTTTGGTTATGTTTCCCGTATAGGTCTTCAATTTGAAATTAATTTATGTCATATTTTATGGATGTGT CTGTACAAAAGATAAATATAGATTTTGACATTCTTATGAGGAGGGTTAAGGACACACTCTTTTAAACACACTCTACCATA CTCTCCCTTTGATTTGTCTATTTTTAAGAAGGTCAGCACACTTGCCTCACTCTTCAGGAAAATATGTTAGACTTTGAAAA AAAATAAGACAATGGCATGGAGTGTGTTGAAGAATGTGTTTAGAGAGCATGTTGCTAGCATTTCTCTTTAATTATTCTAA TTTTTCCTTTAATTACTTGTATTATTCTTTTAACATATATTATGAAACTGCATTGACTTTTTCGCATGCAAGTGCAAGGG AGAAAAAAGCACAGAAAAAGGAACTATTTTTTTTATGTCTATTATTTGGATTTCCAAAAAAAAAAAATTAATACATCAAA TATTAATTTATTTTAAGTACCATTCTGAGAAGATATGCAATTAGAGTCTTGTGTTTAAGTTGTTTGGTTCTTTTCATTTA CTGAGTGAAACCATTTGGATGTGGCAGAATGTTCCAACCTGATATTATCATGGTTGAGAAGGACACATGGATATCTGGAG AGCATGGAGGTTTCAACATATGGAAGCTGGACTTCAAACAGAATGGACATGTATTTAAGATGCCTAAAATGATCCTTCTG GCAACCAATATTAAGAATACCGAGTTCGACCAAGCTAAGGCCACAGGTTTTACTGATACTGTGATCATGAAGCCTCTGAG ATCTAGTATGGTGGCTGCGTGTCTTCAGCAAGTTCTGGGGATAGGGAAGAAGAGGCAGCTAGGACAGGACATGCTGAATG GTTCTTCTTTTCTACAAAGCCTTCTCTACGGAAAGAAAATCTTGGTGGTCGATGACAATGTCGTGAACCGGAGAGTTGCT GCAGGTGCATTAAAAAAGTTTGGAGCTGATGTGAAGTGTGTTGAAAGTGGCAAAGCTGCACTTGAAATGCTTCAATTGCC TCACTGTTTTGATGCTTGCTTCATGGACATTCAAATGCCAGAAATGGACGGGTATGCATGTTTTCACTGACTACTATAGT TTCTTTTTCTCCTTTACTACGCATATTATCATGTCAAATTTGTTGTGATATACTTTAAAATACTCTAGATCATTAGAACT GATCAGGCAAAATATGGATGCAATATAACATATAACATGGTCGCTACCATGTTAATATGAGTCTTGTGCAATTTGTATGC ATTTAGCTACATTATTGAGGCTTAACTATTATCTTTTATTGAGAATGGCCATACATACACTAGCTCTGCCACATTCTTGA AATTTTACACATCATTCTACTATTATATATAGTTCTTCTCTTTCAACCATGAAATAAAAACCGGGCTGGCAAGATGTGTA TCTTCTCTTATCAATAGAGATTAATAAACAACAACAAAAGCCTAGGTCGGCTATATGTGACATCATATCTCTCCAAAAGA AACTCTAGTGATTAACATGTTTTGTAAATACATACTTCAATAGTGGTTTTATAACATTCTAATGATTTGTCAGAAATAAG GGTTTAAACTTTAAAGCATTTAATATTAATGGAATCTCAATTTGCTTCTTAACTGGGTTAGCACCAACTTTTTAACATGC CTATATGCTAATTCATTTGAGGAATGTTGTCACCACCATTTTATTAAACATAGTTGAGGTCCCCGAAGGATAGCTCAAGT GGTAAGAGCTAGGGACATAAGGGTTGGGTGGGATGAAGGGTGAAGGGTCCAGGGTTCGAACCCTGAGGAGGACTAATTTA CTAACATTTCTAACAACTAAAATTTGCCAATAAAAAAAAAATTAAACATAGTTGAGAGACATGCATGCCCTTTTGGAAAA CCATTTTAAGTAAGTGCTATATACATTGCAGATTTGAAGCAACTAGTAAAATTCGTATGATGGAGAGAAAGGCGAATGAG CAGGTGAACGGTGAATTAGGCGAAGGAAATACCCGAAAAAGCGAGTGGCATGTCCCAATACTGGCCATGACAGCTGATGT AATCCATGCTACATATGATAAGTGCTTGAAATGTGGTATGGATGGATATGTTTCAAAGCCATTTGAGGAACAGAAACTCT ATCAGGAAGTTGCAAAATTTTTCAAATCCAAAACCATCTCTGACTCATGACTCCCTGCTTCTTCTGCATAGAACTTGGCG AGCAACTTATACATAGGTGATAGGACACATTTTAGTGTAGTCACATGAACTTTCAGATGTTGCAGGTAAACTATGCTTTC ATGAAGAGAGCAAAGCTTGGGATAAGTTCCAACCAGCTGAAGTTTGACATTATTAGAATCTTAGTACATGTATACCACGT TACATCCCATAATTTTGTACAGGTTTTCTTTAGAGAATGAGTGAAATTATAGATGTCACTTCAATATGTTTGTTGCCATC TTATTACACATGGCAAGGGTTTTTGCATTATCTTTTAGGTTAAGGTATCATGTAATGGTCTCTATGTTCAAAAAATGTGG GTACTTATGTGTACAGTTCATCTCTTTGGTGTATCAAGAAAAACAGTACTGGCTACTAGAATCAAAACAAATATATCCTC TGACTTCCCCGCCCTGCAGACCGAAAGAGATCTTGGGTTAATTTAGATAAATAGTTTAATTAACCACTTATAATAAAAGT TTATCACAGAAGTGCTTATTATAAGCTAATTTGATAAGTTTGTTGAAAGAAGCTCAAAATAAGTTATAAGTAAGCCTAAA CTTCATAAGTTAAATCAAAATAGGTAGGTCATAAGCTATTTTTATAAGCTCTCTCAAATGCTCGCATAAGCTTCAAGATA TAAGATAAGCTTACATCAATTATTCTAAATGGGTTCTATTATTGATGATTTGGAGTGAATGACAGAAATAGCTAACCAAG CAACAATTATAAGTGTGTTTGGATCAGTGTTAGCATAATTGGTTATGCCAGAATTAGATATGGCAGAATTGAGTGTTATA AATGAGTTAAAATGACGCATTTGTGTTTGGTACATTTATATGAAAACTGATATCTTTATGATAGTTTTGTCATTTGTGGT TGAGCTCCATAAAACATATGAGAATTGACATCTTTATTATAACGTTCAATATAAAGCGAGCTACTGTAAACGTTTCTTCA TTCGTGTCCGTAACTCCCCCGGCCTCACAGCTCAACCAAACCTACATTACTCTTCTCAGAGATGGACACTTTCTCTCTTC AACAGCTTGATAGGTCTAAGGATAAGCCAGCTATTAAACATGTGTATAAAAGAAGGGCTCAAGTGGCTAATTAGATATTG TAAAAGGGCTTAAATGTAATTAGTAATAATTAGGCCAGAGGCAGTTATAAGCCAGCTGGCAATTACAGCTATTACAGGCT GCTAGTATAGTTAGAGCAGTTAGCCTATAAATAGGACTATACTTGCATTAGAAGCTATCTTTGGAGAATTGAGTGTTTGG CTGGTTGAGGAACCAGAGCTGTTCGTGGGAACAGGCTTGTAAACCCTAGATTCTCTGTTCTTCCCCAATTCTATAATTCA ATACAATTTCTGTCTAGAATCCTTTGATTCTGCAGAAGTAGTTTCAGTTTCTTCCTAATTCTCTATTCAATTGCATACCA GTGTTATCACAGCTGCTAGTGCGAGGGTTAGTTCTTTCTTCTTCTTTTCAATACTATGCAGTATTGATTATTGCATTGTT TCCTGCAATTTTCTTGCTTGCATTGCGTGATTCTCCCAGTTACTCTTACTTTCTCAATTGCGTAAATCTTTAACTATTTC TCTTTCTTAATGTTCTTTCCTTAAAATCTGAACTTTATAATGTTTAAGAACCCACTTTGTCCGGGAAAATGTGAATAAAG ATTGATTGTTTGTATTCATGTTTGAATTCTTTAATCATGAAGGTCTCTTACACACTCATCATATGCTTTTGATGACGGTA ATGTTTCAAAGCTTGAAAGAGGCTTGAACAAAAATCTGATTAACCGGAATTTACAAAAATGTCTAATTTTTGTTCTATTT AAATTTTCTGTTTCCCCAACTTGTAAAGTTTGTGCCTTTGTGTTTGGAAATTGGTCATTCCTCAGGGTCAGTTTGAAAGA TATAAACTTTTCAGATTTTGTGATCACTGCAGAGTTCTTGTTGGGGGTTTTGAACCCCAAGTGCCAGAACTTTTTTTTTT CTTTTCCTTTTACTATTTTAAGTGGTTGGTTTATTACAATTATTTCATCCAATTTAAACTTCTAAGTTCTAACAGTGTTT CCCATTTTAACAATGTTACTTGGTTGCATTAGGTGAATGAACCTCTGTGTTGCTAGCACTCTCTTTGAAGGACATTCTCT CTTAGTAGTAGTGATTGCCTGCTTGGAATTGTAGTGACACAAGCTAGACTTTGCTAAATGTATGATTTTTTCCCTCTCTA TCCTTCCTTTTCATGGATCACTAAATGTATCTTTTTGTTACATCTACCCCTTTTGGGTTGTTGGGGAGTGTGGAGAGTTA AGTTAATGTATGGTATTTGATTGACAGAAGACTTAGGTTAAATCTACCCCTATCGGTTTTTTAATTTTTTTAATTTTTTT CTTGTCTTTTATAGATGTCCAATGGAAGGCTTCCAGTTCCTGTCCATAGACCTAATGGGACCATCAATTCGGGAGCATTA TTACCTTCTACTAACAGTGTGCATTTACTTTTAACCCCCACAGTACAAGGGTGTAGGAGGTCAGAAAACAGATTGCTTGT AGTGAATATACTTTATAATTGTAGTTGCAATTTTGCAGACAATAGTTAGCATTTGCATTTTACTCTGGCCATCCACAAGT GATAAGCCTAAAAGTTAAACTTTAGATGATTGTTCTTATTATACAGGAACTACAGATGATTTTCTCCTTTAGATAACATT TAATTTACTTTATTTGCTTGCAGCAATAAGGACTGGCTCTTAGCAATTGTTTGTTACATCATGCATTGGATTGGCCCTGG TATGGATGTTTAATTTGTACTTTTCATACTGTTTATAAGAAGCCAGTAAGAAAAAATTGTATAAAGAAACTAGTTTGCGA GCCTGTGTCTGTTATGTGTTCTGTATATAAGCTTCAAAGAACCAGTATGCACCTCCTCTATATATTGCTTGGACACTTTT ATGTGTTCTTACAACTTTTTGAAATAGACAAAATCATATGAACAATTATTGTTGTTGGAAAACAATTAATCAATTTAATA ACAGACACCAAATACATCTCTTTATTACTAACAGTCTTGTTACAAACAGAACAGGGTACCAACATGAAAATTCCCCAATA AATAGAAAACAATCATACATGACTATATATAATATTATATGCACAAATAAATTAGAAAGATCAACATTTCAAATCTCGCT TCCCCGTGTTGATTGGACCATGACTTCAAAACCATAATATAGGAAGGAAACATTTTTATTAAATGAATTTAGAATGGAAG CTAGATGGTCCACTTCGCTCCAAATAGAGCTTGCCTTTATTCCTTGATGAAAACTAGAATCTGAAAAGAAATAGAAATAT TCATTAATGATTTTTATACATATAATGAAAATATGTGTTGTGTGCGTGTGAATGTAAAGATGATAATTGCGTACCTGATT TATCACAAATGGGGCATCCGCATTTTAGGCTTAATTGTACACGGGTGGTGGTGGAGAAGCATAGATGTAAACTGGTGGTG GAGGAGACTTTGTTGGTGGGGGAGGTGATTTGTAAATGTATGGTGGAGGGGGAGATGGTGAAGGTGGGGGTGGACTTATA TAGTAGTAAGGAGGTGGAGGAGATGGGGATGGTGGTGGAGGGGACTTGTAGTAGTAGGGAGGATGAGAAACCGGAGATGG TGGAGGAGGACTCTTGTAATTGTACGGAGGTGGAGGTGATGGGGAAGGTGGTGGTGGTGATTTGTAGTAGTAGGGAGGTG GTGGAGATGGTGATGGTGGAGGTGAAGATTTATAGTAGTAGCGGGGAGGAGAGGGAGATGGTGGAGGGGGACTCTTGTAG TAGTATGGAGGTGGAGGTGATGGGGATGGTGGTGGGGGAGATTTATAATAGTATGGAGGGGGAGGAGATGTTGATGGTGG TGATGGTGACTTATAGTAGTATGGAGGGTGTGATATTTCTTTGGGTGGAGGAGGAGACTTATAATAGTAAGGCGGAGGTG GGGATGGTGATGGTGGAGGTGGTGACTTATAATAATATGGTGGAGGGGATGGTGATGGTGGGGGTGGTGACTTATAGTAG TATGGAGGGTGTGATATTTCTTTAGGTGGAGGAGGAGATTTGTAATAGTAGGGTGGAGGTGGTGATGGTGATGGTGGAGG TGGTGATTTATAGTAGTATGGAGGGTGTGATATTTCTTTAGGTGGAGGGGGAGATTTGTAATAGTAAGGTGGAGAAGGGG ATGGTGATGGCGGGGGTGGTGACTTATAGTAGTATGGAGGGTGTGATATTTCTTTAGGTGGAGGAGGAGATTTGTAATAA TAAGGTGGAGGTGGTGATGGTGATGGTTGAGGTGGTGACTTATAGTAATATGGTGGTTTAGATACTGGTGATGGTGGAGG TGGTGACTTGTAATAATAAGGAGGTGATGATGATTTGATTGGAGGAGGAGGTGACTTGTAGTAATATGGAGGAGAGTAAT AATGGACTGGTGGTGGTGGTGACTTATAGTAGTAAGGAGTTGGAGAAGGCTTGGTCTTTTCACATTCTTTAAAATGCTTC TTTGATGCATAAGCAAATGGCTTTGCCTTGAGCACAACTTCATACTTGTCCTTGGATTTCACGTGCAAGTCGGTTCCCAC ATTCAGTTTAGTAGGTATGCCATAGGGTGAGTGTTTAGGTGGAGCATAAAGCATAGTCTTGCATACTGTGGGGCCATATT TGACTTAGTCAAAGTCCTTAACTATGATGCTGTACTTGCCATTGCTTTTCGTTTTACCATAGGCTTTGATGATATTTTTC CCAGCTTTGCATTTCACCTCAACAGTGGCACCTGCCCCATAAAAAATTAATTGCAATTTTAAACAGAAATAAAGTGGAAG AAACATATTATACAAGACAACATTGGTACTTAAGATCAGCTACTTTACCTTTCCTCGTCATTCAACATATTGATATTAGG GAG
CDS sequence (LotjaGi2g1v0003400.6) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGTCTTAGCTTGAAGATGCAGAGTCACCATGATCAAATGGGGTCTAAAAGAAAGTACACTTTCATTCAGGACCATAG AGCATGGCTACCGTGGTTTTTGTTTATGTGGGTCCTGCTAATGGCTTTTATCAGTTGGAATATCTATAGTAAAATGGATG ATGACACTAAAGTTAGAAGGAAAGAGGTGTTGGGTAGCCTCTGTGATCAAAGGGCAAGAATGTTGCAAGATCAGTTTAGT GTTAGTGTGAACCATGTCCATGCTCTTGCCATCCTTGTTTCAACTTTCCATTATTACAGAAACCCTTCCGCCATTGATGA GGAAACCTTTGCTGAGTATACAGCAAGAACAGCATTTGAACGGCCATTACTGAGTGGTGTGGCTTACGCACAAAGAGTAA TTAACTCAGAGAGAGAGAGATTTGAGAAGCAACACGGATGGGTTATAAAGACAATGGAAAGGGAGTCTTCACAGGTTAGA GATGAGTATGCACCAGTGATATTTGCTCAAGAAACTGTCTCATACCTTGAGTCTCTTGATATGATGTCTGGGGAGGAGGA CCAAGAGAACATTTTAAGGGCTAGGGCCACTGGGAAAGCAGTTCTAACAAGTCCTTTCAGGCTGTTGGGTTCTCATCATC TTGGCGTTGTTTTAACATTTCCTGTGTACAAATCTAAGCTCCCTCCAAAGCCAACACTAGAAGAACGCATTGAAGCAACT GCAGGATATGTTGGAGGATCCTTTGATGTTGAGTCCCTTGTGGAGAATTTACTTGGGCAACTTGCTGGTAACCAAGCAAT TTTGGTGAATGTGTATGATATCACAAATTGTAGTAATCCCCTAACCATGTATGGAAATCACTCCGAAGAAGCTGATATGT CTCTTTCCTATGAAAGCAAACTCGATTTCGGAGATCCATACAGGATACATCAGATGATATGTAGGTATCATCAGAAGGAA CCAACAAATTGGGTCGCCCTTACCACGGCAGTCCTATTCTTTGTGATTCTTATATTAGTGGGTTACATTTTATATGAAGC TGGAAATCATATTGTCAAAGTTGAAGATGATTTTCATGAAATGCAGGATTTAAAAGTCCGAGCAGAAGCAGCTGATGTTG CCAAGTCCCAGTTTCTAGCTACAGTCTCTCATGAAATTAGAACACCAATGAATGGCATTTTAGGAATGATGGCTCTACTT CTAGATACAGAATTGAGTTCAACCCAACGAGATTATGCTCAGACTGCTCAAGCATGTGGAAAGGCACTGATAACATTGAT AAATGAGGTTCTTGACCGGGCTAAAATTGAAGCTGGCAAGTTAGAGCTAGAGGCTGTTCCATTTGACCTCCGTTCCATAC TTGACGACGTCCTTTCTCTTTTCTCTGAGAAGTCTAGACACAAAAGTCTAGAGTTGGCTGTGTTTGTTTCTGATAAAGTC CCAGATATTCTTATGGGAGATCCTGGAAGATTCAGACAAATAATAACAAATCTTGTTGGCAACTCTGTTAAGTTTACTGA GCAAGGACATATATTTGTTAAAGTTCATCTAGAGGATAACATAAATCCCGTAATGAATGGAAAACATGAAACTATTCTGA ATGGAGAGTCAGATGAGGTTTTCCATTTATCTGGTGATTGCCATTTCAAAACCTTAAGCGGATGTGAAGCAGTTGATGAA CAGAACAGCTGGGAGAATTTTAAGCATCTGATTGCAAATGAAGAACGTTACTTCGATTGTTCAAGTAAAATGGCAGCCAC TAGTGAATCATCGGAGCAAGTCAAATTGAGAGTCTGTGTGGAGGACACTGGAACTGGAATTCCTTTCTCAGCCCAGGATA CAATATTCATGCCTTTTGTGCAGGCTGACAGCTCAACTTCTCGAAATTACGGCGGTACTGGCATTGGCTTGAGTATCAGT AAATGTCTGGTTGAACTAATGGGTGGTCAGATAAACTTCACAAGCCGGCCCCAGGTCGGGAGCACATTTTCATTTACTGC TGCTTTCGGAATGTTTAAGAAAAATTCAGTTAGTGACATGAAGAAACTAAATTTGGAAGATCTTCCTTCCAGTTTTAGAG GCCTGAAAGTCATAGTGGTCGATGGAAAACCAGTTAGAGCTGCTGTGACTAGATACCTTTTAAAGAGACTAGGGATACTC GTTAAAGTTGCAAATAGCATCAGTCAGGCTGTGGCTTTATGTGGGAAAAATGGTTCTTTAACATCAGGAATGTTCCAACC TGATATTATCATGGTTGAGAAGGACACATGGATATCTGGAGAGCATGGAGGTTTCAACATATGGAAGCTGGACTTCAAAC AGAATGGACATGTATTTAAGATGCCTAAAATGATCCTTCTGGCAACCAATATTAAGAATACCGAGTTCGACCAAGCTAAG GCCACAGGTTTTACTGATACTGTGATCATGAAGCCTCTGAGATCTAGTATGGTGGCTGCGTGTCTTCAGCAAGTTCTGGG GATAGGGAAGAAGAGGCAGCTAGGACAGGACATGCTGAATGGTTCTTCTTTTCTACAAAGCCTTCTCTACGGAAAGAAAA TCTTGGTGGTCGATGACAATGTCGTGAACCGGAGAGTTGCTGCAGGTGCATTAAAAAAGTTTGGAGCTGATGTGAAGTGT GTTGAAAGTGGCAAAGCTGCACTTGAAATGCTTCAATTGCCTCACTGTTTTGATGCTTGCTTCATGGACATTCAAATGCC AGAAATGGACGGCAATAAGGACTGGCTCTTAGCAATTGTTTGTTACATCATGCATTGGATTGGCCCTGGTATGGATGTTT AA
Protein sequence (LotjaGi2g1v0003400.6) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGLSLKMQSHHDQMGSKRKYTFIQDHRAWLPWFLFMWVLLMAFISWNIYSKMDDDTKVRRKEVLGSLCDQRARMLQDQFS VSVNHVHALAILVSTFHYYRNPSAIDEETFAEYTARTAFERPLLSGVAYAQRVINSERERFEKQHGWVIKTMERESSQVR DEYAPVIFAQETVSYLESLDMMSGEEDQENILRARATGKAVLTSPFRLLGSHHLGVVLTFPVYKSKLPPKPTLEERIEAT AGYVGGSFDVESLVENLLGQLAGNQAILVNVYDITNCSNPLTMYGNHSEEADMSLSYESKLDFGDPYRIHQMICRYHQKE PTNWVALTTAVLFFVILILVGYILYEAGNHIVKVEDDFHEMQDLKVRAEAADVAKSQFLATVSHEIRTPMNGILGMMALL LDTELSSTQRDYAQTAQACGKALITLINEVLDRAKIEAGKLELEAVPFDLRSILDDVLSLFSEKSRHKSLELAVFVSDKV PDILMGDPGRFRQIITNLVGNSVKFTEQGHIFVKVHLEDNINPVMNGKHETILNGESDEVFHLSGDCHFKTLSGCEAVDE QNSWENFKHLIANEERYFDCSSKMAATSESSEQVKLRVCVEDTGTGIPFSAQDTIFMPFVQADSSTSRNYGGTGIGLSIS KCLVELMGGQINFTSRPQVGSTFSFTAAFGMFKKNSVSDMKKLNLEDLPSSFRGLKVIVVDGKPVRAAVTRYLLKRLGIL VKVANSISQAVALCGKNGSLTSGMFQPDIIMVEKDTWISGEHGGFNIWKLDFKQNGHVFKMPKMILLATNIKNTEFDQAK ATGFTDTVIMKPLRSSMVAACLQQVLGIGKKRQLGQDMLNGSSFLQSLLYGKKILVVDDNVVNRRVAAGALKKFGADVKC VESGKAALEMLQLPHCFDACFMDIQMPEMDGNKDWLLAIVCYIMHWIGPGMDV
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 |
---|---|---|---|---|---|---|
Phobius | 1 | 28 | 28 | - | – | |
PANTHER | 23 | 911 | 889 | 0.0 | – | |
PANTHER | 23 | 911 | 889 | 0.0 | – | |
TMHMM | 28 | 50 | 23 | - | – | |
Phobius | 29 | 49 | 21 | - | – | |
Phobius | 50 | 323 | 274 | - | – | |
ProSiteProfiles | 101 | 313 | 213 | 38.984 | ||
SMART | 101 | 286 | 186 | 5.5E-31 | ||
Pfam | 104 | 284 | 181 | 9.9E-37 | ||
Gene3D | 105 | 320 | 216 | 7.7E-98 | – | |
TMHMM | 323 | 345 | 23 | - | – | |
Phobius | 324 | 345 | 22 | - | – | |
Gene3D | 346 | 437 | 92 | 6.8E-25 | – | |
Phobius | 346 | 933 | 588 | - | – | |
SUPERFAMILY | 360 | 440 | 81 | 2.35E-18 | ||
SMART | 374 | 439 | 66 | 2.1E-22 | ||
CDD | 374 | 435 | 62 | 1.34569E-16 | ||
Pfam | 374 | 439 | 66 | 2.1E-16 | ||
ProSiteProfiles | 381 | 671 | 291 | 42.392 | ||
SUPERFAMILY | 428 | 666 | 239 | 2.51E-39 | ||
Pfam | 486 | 667 | 182 | 3.8E-30 | ||
SMART | 486 | 671 | 186 | 6.7E-32 | ||
CDD | 491 | 667 | 177 | 3.63046E-47 | – | |
PRINTS | 596 | 610 | 15 | 1.7E-12 | ||
PRINTS | 614 | 624 | 11 | 1.7E-12 | ||
PRINTS | 631 | 649 | 19 | 1.7E-12 | ||
PRINTS | 655 | 668 | 14 | 1.7E-12 | ||
Gene3D | 690 | 828 | 139 | 1.5E-5 | – | |
SUPERFAMILY | 691 | 827 | 137 | 3.98E-8 | ||
ProSiteProfiles | 696 | 826 | 131 | 15.037 | ||
Gene3D | 842 | 913 | 72 | 1.5E-18 | – | |
SUPERFAMILY | 851 | 912 | 62 | 3.56E-17 | ||
ProSiteProfiles | 853 | 933 | 81 | 21.33 | ||
Pfam | 854 | 911 | 58 | 4.1E-10 | ||
CDD | 855 | 911 | 57 | 4.23073E-14 |
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 | Phosphorelay sensor kinase activity | Catalysis of the phosphorylation of a histidine residue in response to detection of an extracellular signal such as a chemical ligand or change in environment, to initiate a change in cell state or activity. The two-component sensor is a histidine kinase that autophosphorylates a histidine residue in its active site. The phosphate is then transferred to an aspartate residue in a downstream response regulator, to trigger a response. | ||
Biological process | Phosphorelay signal transduction system | A conserved series of molecular signals found in prokaryotes and eukaryotes; involves autophosphorylation of a histidine kinase and the transfer of the phosphate group to an aspartate that then acts as a phospho-donor to response regulator proteins. | ||
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. | ||
Biological process | Phosphorylation | The process of introducing a phosphate group into a molecule, usually with the formation of a phosphoric ester, a phosphoric anhydride or a phosphoric amide. | ||
Molecular function | Transferase activity, transferring phosphorus-containing groups | Catalysis of the transfer of a phosphorus-containing group from one compound (donor) to another (acceptor). |
Expression pattern of LotjaGi2g1v0003400.6, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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