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Field | Value |
---|---|
Gene ID | LotjaGi2g1v0221800 |
Transcript ID | LotjaGi2g1v0221800.1 |
Related isoforms 4 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Protein kinase; TAIR: AT2G20050.1 protein phosphatase 2C and cyclic nucleotide-binding/kinase domain-containing protein; Swiss-Prot: sp|Q9SL76|P2C19_ARATH Protein phosphatase 2C and cyclic nucleotide-binding/kinase domain-containing protein; TrEMBL-Plants: tr|I1J805|I1J805_SOYBN Uncharacterized protein; Found in the gene: LotjaGi2g1v0221800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:67696580..67707268) extracted from Lotus japonicus Gifu genome v1.2.
CAACCAATAACCTTCAACAGTGAGAGCAACTCTAGATATGAAGAGTGTCAGAGATCAACTTTCAACTTCTTACCGTTGCA TATACTCTTAGGCGCGTGCAAATGTTATCATTTTAAAGATTTTTTATATCTTTAAAACTGTGAAGATGAAGATCACAATC CCGAAGTTTAAAGCAACATGGATAAACCTCATCTTAAAGAGAATACTTTTCACAAAGAATCGTGTCAAGAACCTTTTTAT AAAGTACTTTTATACACACTCTCAAGTCTTACCGACCTAACATGCTTCCACGACACACGACAAGCCTTTGGGTGTGAAAA CTCTATAACACATCCGTCCACCCACACTCAACACCAAAGCAAACAAAAGCTGAGACTCTGACCTCACACACATGCACTGA TACGTCTCCACACAACACACCATCACACACAACACACAATGCACCTTCCCTTCTCTTCTTCCTAGTCCCACCACCCCACC TCCTTTTCTATGCGCACTTCTCACCCTCATCACCATCATCTTTACCCCCTTTCCAAAATTGCTTCTCTCGTCAATTCATT CCACCTTTCTAGCCGCCACCAAAAACAACATCACTTTACATCACATTTAACTACTTAACTTTCAAAAAAAATCACTTTTT CTTCAAAAAAATCACTTTTTCTTCTTTCACCATTAGTCTCCAACCCAAGTGAAAAAGCTCATTTCTTTTCAAGAATCCGT GGCTATCCCTCATCCAATACCTCATTTTTCTCCCAATAATTGAAGATTGAGTCACACCCCATAAAACTTCAAACTTCACA GTTGAGCAAGAACAAGAACAAGAACCAGAAGAACAAAGCTTGATGCCAATTCTGGAATCTGGGTATTGTCCAAGTTCAAA TTTTTCGAAATGGGTTGCATTTATTCAAGGGTATGCATTGGTGACACTTGCAGAGGCTCAAGCGTCAATGGTGACCCAGT TGTGAGAACTGCCATAGGTGAAGCTGCTGAGTTCTCAGAAGCTTCTTCTGATGTTCAGGAAGGTGAAATCAGAGACCAGT TGAACCAATTGAGCTTGACCAGAGACCCTGAAGCTGGAATCAGAAGGCTTGCTAGGGTTTCAGCTCAGTTTCTTCCCCCT GATGGTTCAAGAGTAGTGAAGGTTCCTTCAAACAACTTTGAATTGCGTTACTCTTTCTTGTCTCAGCGTGGTTACTACCC TGATGCCCTTGATAAGGCTAACCAGGACAGTTTCTGCATTCATACCCCATTTGGGACTAACCCTGAGGACAATTTCTTTG GTGTTTTTGATGGGCATGGTGAATTCGGAGCGTTGTGTTCGCAGTTTGTGAAGCAGAAGGTGTGTGAGAATTTGCTGAGG AATTCTAAGCTTCATGTTGATGCTGTGGAGGCTTGTCATGCTGCTTTCTTGACCACGAATTCGCAGCTTCATGCTGATGT TTTGGATGATAGTATGAGTGGTACTACGGCGATCACGGTGTTGGTGAGGGGGAAGACGATGTATGTTGCGAATTGCGGGG ATTCGAGGGCTGTGATTGCTGAGAGGAGAGGGAAGGATATTGTGGCGGTTGATTTGTCTGTTGATCAGACTCCTTTTAGG AATGATGAGCTTGAGAGGGTGAAGCTTTGTGGAGCTAGAGTGCTTACATTGGATCAGATTGAAGGGCTGAAGGACCCTGA TGTTCAGTGTTGGGGGACTGAAGAGGATGATGATGGTGATCCTCCTAGGTTGTGGGTGCCTAATGGAATGTACCCGGGTA CCGCTTTTACAAGGAGCATAGGGGATTCTATTGCTGAGACTATTGGGGTTGTTGCTAACCCTGAGATTGTTGTCTTTGAG CTCACACAGAACCACCCTTTTTTTGTGCTTGCCAGTGATGGGGTGTTTGAGTTTCTCTCTAGCCAGACAGTGGTTGAAAT GGTAAAGTCTTTATTATGCTTCTTCCTTTCTCTCCCTTCCTTTTAAATCAGGATTAGTATTATGCAAGAGCATATATTCT TGCCTTTTACTCTTTCTATTGTTAGATTTGCTTTTGGGTCTGCTGAAAAGGCAAGTTAGTGGCAACGTTATTATTATCAC ATTTCAGTAGCAATCACTAATGGGAATAATTGACATACTTGAAATAAGGAATTAGGAATTCTCTCTTACAAACAATTATG CAATGAGTGACTTTTTTAATAGAAAAGTCACCCATGAGCATAATAAATCTTCTAGGAAACTAAGGGAAACAAGATTGTCC CATAAAAGGAATGTTAAAGGAAATTCACTGCTAACATTTCTGGAATTGTGCTCCAGTGAAGTACACTAGACTGAAGCTTA AGGAGCACAGTGCTAAAACATTTTAGTATCCCTCCTATGTGCAAAACCATGAGTGAATGAAACTGTTTATGTGGGGGCAT TGTTCAGAATTATCACTTTTTGGTCATAATTTACAAAATTAATCATGTTTATTTTATTTTATTTTACAAAATGAGGGAAA GCAATTGAAGCCATTTCTGTTTTAAGCACAATTGGGATTTTCCGAATTGAAGGTACTGTCCAAATGAGTCCAAGGTTACC ATTTAGTGATCAAAGTTGTTTTGAAGCGAAACTAGTGATTTTTTGGGAGGGTGCAATTATGCAACAACCCGACAAGAATT GGAATTTCATTGATTTTAGTCTCTAAATTGTTGAATTTTATAATTTTTACTTTTGTTCCCAACTAATCACAATTCATGGG TTATGCTCTAAATTTAGCCTGTACATCTAATAATTGAAACGTGTAAGAATTAATTGTAAACTTAATGTTTTGCTTTTGGT AATTCAGAGCTATATGACTATATGAGGATTTTTTTATCTAGCAAATCATTCTCATTCATGTAGGATGTATAAGGAAATAA AACATAAGCCCTACCACTATGTTGGTGTACGGGTATTTTCTCTCTAGTGAGATGCTTTGTTCATAAAAGGTTGGATACAG ACTAGATGGAGACATCAGTTACTTCCAACCCATCTTTCCGAAATTCAAATTTAAGCATAAGGCTAACCTTATGGTTCAGA TAATGATACATATGGATGACCATGTGCATTTGGCTGTAGAACAACTAAGTTCTGTAAATTTAATGCAAAGCATCTAAATG AACCTAGATTTCATCTGCCATTCAATTTGAGTCAAATGTTTCATCTCTTAATTTGCCATTATGCTTTCAGGTTGCAAAGT TCAAAGATCCCCGTGATGCTTGTGCTGCAATAGTGGCAGAATCTTATCGACTTTGGCTACAGTATGAAACTCGTACAGAT GATATTACAGTCATCATTGTGCACGTAAATGGGCTGACTGAAGTATGATCCCGCTTCTATTCTTGTATTCTATTTCCTAG AAATATTCATTCCCCTTTTTCATTTTTAGTAAATAACCTAGTTTTTTATTTATTTAATTCAGCCTGCTGTTGGTCAGTCA GCAAGTTATGGTAATGTTTTCGCAACCACCATGCCTCAAGTTGTAGAGGTGACAGGATCTGAATCCCCTTCCACCTTTGG CTGGAATGCTAGGAACCCTCGTGTAAGGCATGACTTGTCAAGGGCACGCATCAGAGCAATTGAAAGTTCCCTAGAGAATG GACAAACATGGATTCCTCCATCTTCAGCCCACCGAAAGACATGGGAGGAAGAAGTAAACCCTAATTTAACTTTGCCTTTA CAATTGAGTTAGCTCCTCAATTTTTCCTTTTTACTTGACATTGATAATAACATTGTTATGTTAGTATAAATTCGTAAATT TAATTTCTCCCATTGAGAAGTTCATGAATTGTGAACCTTGATTGTGCTTCATCTTCATCTGCCACAGGCACACATAGAAC AGGCATTGCATGATCATTTTCTCTTCCGGAAGCTTACTGATTCTCAGTGTCATGTTTTATTGGATTGCATGCAAAGAGTT GAGGTACAACCTGGGGATATTATTGTCAAACAGGTCAGTTTTCTAGTTGAAACTTGAAAATTCTTGAGTGCCATTGTTAC CTTTTGTATATTTTTCTGGCTGAATGGAGTTTACTATTCTTGACTGAAACTTACACTGGATCTTATTAAAATTTCTCTTG TGGAGTAGTGCTAGCAAACACAGAAACACTCTCCAATGCACTCGTTTCAGCATTATCTCTTTTATCGGGAAAAATTCATG TGGGTCCTTCCAAATTGTGTCTGGGACCCACCAAAGTAGGGGTGAGACCCGTATGATTTAGTGGATCCCGCATGAGTTCT AACCAATGAGAGAGTTTGTTGAAAAGAATGTGTTACACTTCTCTTTATTCTTGCCTCAATTGGATTTTATAATTGCACAA AGTGTGACAAAAACTATACTTGCAGGGTGGTGAAGGTGACTGTTTTTATGTTGTTGGCAGTGGAGAATTTGACGTCTTGG CAACTCAGGTTTATAACATTGTCATTTGATTGCAGTAGTGATGGGTGAACACATTCTTATAGGCAAATTTGTAAATATTC CTAGCCAGAGACAAAATCCTGCTGTTGCACCTGCAGGATTTCTAGATATTTCTGTTTTCAAGTCAGCAATTTTTCATTCA TGATAAAGTTGAAGCGCAGATGTAACCTCTTTTGAAAACCATCTTTTTGTTATTTTTAAAGCCCAGTTCCGAACTCCAGC TCTTATAATTGGCTTTGCCCTTGGTATAGTCAAAACATGAAATCATATTTTCAAGGTCTGGGGTCATATCATGAATGCTG CTTGGACCTGGTCGATTCTCAAATTATATTTTTTTTGTATTGTCAATGAGATTTGTTACAAACTTACAATTCTAATTCAA CATTTTTCTCAATGGCAGGAGGAAAAGGATGGTGAGGTACCTAGGGTTTTGCAGCGCTACACAGCTGAAAAACTATCATG CTTTGGAGAACTTGCTTTAATGTGAGTCACACAACCATTTTTTTTCCTTCTTGTGGTCCTTTTACTAAATTGAAGTAGTT GTTTTTAGCATGAAAAATATCTGAGTATGAGGCCACTCAAGTTTCCTTCTAAGACAATATTAGTTTTTCGCATAGTAAAT TTGCAACTTTTGGCATTTACAGGTATAATAAACCACTCCAGGCTTCTGTACGTGCTGTAACAGAAGGAACTCTTTGGGCT TTAAAGCGAGAAGATTTTCGAGGGATTTTAATGTCAGAATTCTCTAACTTATCTTCGTTAAAGTTGCTTCGGTCTGTAGA TCTCCTCTCAAGGTTGTCAATTTTGCAACTGAGTCAGATTTCGGACTCCCTCTCTGAAGTTCCTTTCTCAAGTGGGCAAA CAATAATTGATAAAGTAAGCTTTCACTTGGTTACTTGTGTCCATTTGTTCCTCTGTTCTATTCTTATAGTCATTCAGTAT GTCTTTGCAGAATGAAGTCCTTGCATTATACATTATCCAGAAGGGACAAGTGAAAATCACTTTTGATTCTGATTTATTGA CAAGTCCAAATGCGTCCAGCCTCAAGCCTGACATCCAAAATGAGGATGGTGATGTACAGAGCATTGGAGAACTGTCAATA GAGAAGCCAGAGGGAAGCTATTTTGGCGAATGGGCACTTCTTGGTGAAAATATTGGCTCCTTGACTGCTGTTGCGGTGGG TGATGTTGTATGTGCTTTACTAACAAAGGACAAATTTGAATCAATTGTTGGCTCCGTGCAAAAGATTTCTCAGGAAGATC TCAAGTATGTTTTAATATGTGCATGTATCAGACAACAACTTTGTGGTTTCTGCTTATTTGCTTATATGCTGCACTTAAAA ACAAAGCTTCATATCATTGGCACCATTAATTTGACCATAGGTTGAGGGATGATTTCGAGTTGACTAGAAAAATTGAATTT TCATCCCTTGAGAATGCCCAGCTCTCAGATTTGGTAAGAGGTATTCTGTTGCTTTCCATTTCATTGGTCTTGAGTTCCTC AAATTAGCTAATAGACTTCATTTTGGTAGGAGTGGAGAAAGACCCTATATTCAACTGATTGCTCTGAGATTGGGCTTGCA AGTTTAAGAGACTCAGGTAGATAAATATTTCTCCAATTTCTTGCTTAAAATACCTATGAATATTTTCGATTCCTTCTTAA TTAATAAAATTTGAGGGATGATATTAGTGGATGTGGATGTGAAAAAACTTTGGAAACCTAATCTTTTAGTAGCAAAAACA CCAAAAGAAAAAGAAACCTGGTGCTATAAGCTTCAACCACGACGAGGTTCTGAGAAGGGCTGGACCCATTATGCGTATAT TGTAGGTAGTCTTAGCTTGCATTTGCAAAAGGCTTATTTCAAAAGTTGAACCTGTGACCTTCAATTGTTGCATCAAGGCT CCCATTCTTTTTTAAAATATCAATATATTCTTAAAAAAATTCTGATTTTTTTTTTGTTCTTTGATATCTTGGTGTCTTTT TCCCACATCAATTGATAGCATTTAATGTAGTTGAGAGTGATAAAAATAGTGTATGTTGGAGTATGTTTTTGCTGATCAAT TTGCTGCATGGATGCATTGTGCTAGCAGATAATTTGCTTACCATGAAGAGGTTTTCTAAGCCAAAGGTGGAAAGGCTAGG AAAGGAATCACAAGTTTTGAAAGAGAAAGATTTGATCATGGGCATGAGCTCTTCAGTCTGTGTACCACAGGTTTTATGCA CTTTTGCTGACCGCATATATGCTGGAATAGTGCTAAATACACACCTCGCTTGCCCTTTGTCTTCCATACTCTCAAGTCCT TTTAGTGAATCAGCAGCACAGTTTTGTGCTGCTTCTGTTGTTACTGCCTTAGAAGACTTGCACAAGGTTCGGTATCTAGA ATCATTCTTTTTCCGTGTTTAATTTGCCTCCTTTGGCTAGTGACTCAGGTTATCTTACTTTTCTTCTTTCATGCTTTCAT CTTTGGATTTCAGAAAGGTGTTCTCTACAGAGGTGTGTCACCTGATGTTTTGATGTTGGAGCAAACAGGACAGATACAGG TTTGGAAATTTTGATTTTATTGTTTTTCACCATATTCATGTTTATTAGTGTTATTGATAGTGAATCAGTCATGGAGTAAT GCCAGATGGCGATGAAGCAAACAATGGACGCATGGCAGCCATATTAGAGAACTATATAATAAGCATAGTATAAAATGATA CAAATCTAACTACTTATATCAAGAATAATGAAGATAATTAAAACGTTTTCTAAAATATCAAACTTACTAAAAGTATCAAA ATTCACAAACTCAAGTATAAATGCAATCAAGGGCAGAGCCGAGATTTAGTGCGAAGGACATTGAGAGTAAAGGCTACATG TCTTCAAACATTCAAGTTAAAAGAAAACCTATCTATCATGCAATATAAGCATAAATTTGAAATACATTCAATTCTGTTAG TCATAGAGGAAGGCCAGTAGAAACAAAAGTCTATCAGAGGAGGGGAAAGGAGAGAGTCAGTCAGTCATGCCATGTGCGCA GTTAGGATTTTCTAACTGTTTGGGGGGAAAACAGAGTTAGAGGTGGTTATAAATAGTTGGGTTGGTTTTGCTAGGGAGTT AGTTAGTTCTGGACTAAGAAATTGTGGAGAGGGTTGGGACTCTTGAATTCCCCAACAACCTGTATCTGTTGCCTAATTCC CAATTAGGGATTAGGGTTCTTGAGCAATAACAGTCAATTCAGTTGTTCACTGTAGATTGGTTCTAACAATTTCTAAATCA ACATGCTATGAATTAGTAACTTTCTTAGGAAATACTAAGGTTGCATTTCGAGAAAGCTTATTTGAGTTTATACTATAGCA TAAACACTCAAGCATGTGTTTGGTTAACCTTATAAAAATAGTTTATGATTTACATCGTTTTAGCTTATTATGATAAACTT CTCCGACTCGCTTATTAAAAACTTCTTATAGCTATGATCTTTCTTTTAAATTTATTTCAATAAGCTTGTGAATAAGTATT AAGTACTTATGTGATGATTTCTTATTGACAAAAAGCAAAAGCACTGTAAATGTAATTGAATATAAGATAACTAAAAATAC AAACCTTCACTCCTTGCAATGTACAGTACTGTTTCAGGGTGTAAAAGTAATTATTGCCATATCTATGCTAAATATTGTAG GTGGTAGGAATATTTATACTGAGGTGGACCATCAATTGTCATATCAGTGGTAAATATACTATGTGTATGTGCTTAAAATA TTAAAGATCATTTCCCCACTGCCTCCGCCTCTGACTGCAATAGAAAGAAAAACAGAATACCAAGACAAATACCAAAATAT TTGTCTTGATGTCACTAGAAACTAGCAAGTAGCGACAATTACAACAAATCAAGTCATGACTCATGAGGACCATGAATTGA AAATATAATCACCCTCCCCAGTCTAATTTTATTTTGGTTAAGAATGTTTTTGACCCATATAAAATAGCAAATTATTGGTT TTGATCCCTTAAATTTTTCTTTGAAATATATCCCCAAATTTTTGAAATACACATGTTTGAGCCCTGAGAGGGACTAAAGC CAAAATTTGAGTACTGAAAATCGTCATTAGCATCATTAAGTGGGTAATTTTTGGTCCAAAAGTTAAAGCCTTAAAAGAGG GTAGTCATCTCATCCACCATGTGGATCATAGATCTACTATACTACCACACTACAATAGCCCATAGCCATGTTGCAGCCAC CCGAAAAACCCTTCGCTCGATCGTCGCTCTTGTACTCTCAATTGCATTTTTTTTTTGTCTGTGTGGCTACAGTAAGAATG AATTCCTATGCGTAGCTAATGAAGTTGTACTTATACTTCCTCATATAGATGACACGCTGACCCAGCTAATGAAGTTGTAC TTATACTTATACTTCCTCATATAGATAACGCGCTGACCATACTGTAAGACCTGCCATACCATACACAAGCAGCAATTTTA TAACCCTGATGTTCATTTGACTTATGCTGCTATGGACTGATTTTCTTTATTGTCTTAAAACAAACCAGTAGAAAAGGATA TCTACATATAACTTTTCATATTTTAGCACAATGTTACTAATTATTCTAAAATATGTGTCACTGTTGCAGCTGGTGGACTT CAGATTTGGAAAGAAGCTTTCTGATGAGAGAACATTCACAGTTTGTGGAATGGCAGATTCGCTAGCTCCTGAGATTGTTT TGGGAAAAGGACACGGTTTCCCTGCTGACTGGTATAAGTAAAACTTGTATAAAACTATTGATTCCCTGCAAACTTCATAA TTCCTTCTTCAGTAGCACACTCTTTATTTTTCTTTAAACATAAATGTAACCTAAGTTAATATTCCATTTGCTAAATGTAA ATTCATTTGAACTGTTACCAATACATTTCAATTAGACCTGACACACATTTGACATTACATCAAATTGGAGTGCGTGGTGG TTACTGGTTAACATATATGGTCCTATGTTCCTTGACAGCATTATGTGTGGATTTCAAGCTGACAAACTTCATTGATGGTT ATATTGCAGGTGGGCGTTGGGAGTTTTAATATATTTTATGTTACGGGGTGAGATGCCATTCGGATCATGGAGAGAAAACG AACTTGATACAGTTGCCAAAATTGCAAAAAGGAAGCTACATCTTCCAGAGACTTTTAGTCCTGAAGCTGTGGATCTCATC TCCAAGGTACATTGCAAGAACTACTCTTGGACAGTATGTGGTATTAGCATGCTTAAAATATTATACATGAAAATTTCTGT GTTACTTATTCTTTTTATTCGACTTATTTCTTCAGTTACTTGAAGTAGATGAAAGCAACAGACTTGGTAGCCAAGGTCCT GATTCTGTCAAGAGTCACCCATGGTTTAATGGTATTGAATGGGAAGGGATTAGACACCACACTTTTCCTGTTCCGCAAGA AATTGTTTCTCGTATAGCGCAGTACTTGGAAGTTCGTTCTGACGACTGTACTGGTTCTCTGGGGCCCCCATTGCAGGAGG TAGAGGTAGAAGAACTTAATGTGCCTGAATGGCTTGAGGACTGGTAGAAGAATGAAAGTTCTAGTTTGTCAAATTTTTGA AGTTTGGCTCTACACCAATATTTACCTTTGCTTTTATGGACAAATTGCAATCCAAGAATGCAATTGACCAGAGAATGCAA AGAGAGCAATAGATCCTGAACATTCCCCTTTGTTCAATCTTTTAGGTGTTCAAAGGTAGATGTAAATGTTCTTTATCCCT TCACATTTTTTATTTACTAATTTTGATTGGTAATTACACTCCTCTGTAAATATTATATAGAGGTACATGATTGAATTTGT CTTAATTTTCAATTGAAATTCAACCAATTTAAGTATCTAACAAATTGTTAACATTGCTTTTGTTTCTCCCTTCCAGAAAA ATGCATGTTTGATTTGGGAATTCTTGCTTCTTCTTTTTCTAAATAAGAAAGAACTATTTCATGGTTGTAATCCACAGTGA GTGACCTCAAATATGAAGATGGCTATATAACATAATCATGTTCTCATATGCTTTATGATGGGCACACATGTATTAACATC ATTATCTGTTTCAAATTTGTTTATTATTTCACCGCCTTCCCCACACATCAATCAAACCATATCAACCTGATAACGACAAG AATAAACCTACCCCTGAAAGAAATGTAACTAATACTAATATACTATAGTACTGCATTGACAATTGTAATATTAATCATAT TTATATAGCAATATTAAGAATTAAGCTATAATGACAAATGGAAGATCAA
CDS sequence (LotjaGi2g1v0221800.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGTTGCATTTATTCAAGGGTATGCATTGGTGACACTTGCAGAGGCTCAAGCGTCAATGGTGACCCAGTTGTGAGAAC TGCCATAGGTGAAGCTGCTGAGTTCTCAGAAGCTTCTTCTGATGTTCAGGAAGGTGAAATCAGAGACCAGTTGAACCAAT TGAGCTTGACCAGAGACCCTGAAGCTGGAATCAGAAGGCTTGCTAGGGTTTCAGCTCAGTTTCTTCCCCCTGATGGTTCA AGAGTAGTGAAGGTTCCTTCAAACAACTTTGAATTGCGTTACTCTTTCTTGTCTCAGCGTGGTTACTACCCTGATGCCCT TGATAAGGCTAACCAGGACAGTTTCTGCATTCATACCCCATTTGGGACTAACCCTGAGGACAATTTCTTTGGTGTTTTTG ATGGGCATGGTGAATTCGGAGCGTTGTGTTCGCAGTTTGTGAAGCAGAAGGTGTGTGAGAATTTGCTGAGGAATTCTAAG CTTCATGTTGATGCTGTGGAGGCTTGTCATGCTGCTTTCTTGACCACGAATTCGCAGCTTCATGCTGATGTTTTGGATGA TAGTATGAGTGGTACTACGGCGATCACGGTGTTGGTGAGGGGGAAGACGATGTATGTTGCGAATTGCGGGGATTCGAGGG CTGTGATTGCTGAGAGGAGAGGGAAGGATATTGTGGCGGTTGATTTGTCTGTTGATCAGACTCCTTTTAGGAATGATGAG CTTGAGAGGGTGAAGCTTTGTGGAGCTAGAGTGCTTACATTGGATCAGATTGAAGGGCTGAAGGACCCTGATGTTCAGTG TTGGGGGACTGAAGAGGATGATGATGGTGATCCTCCTAGGTTGTGGGTGCCTAATGGAATGTACCCGGGTACCGCTTTTA CAAGGAGCATAGGGGATTCTATTGCTGAGACTATTGGGGTTGTTGCTAACCCTGAGATTGTTGTCTTTGAGCTCACACAG AACCACCCTTTTTTTGTGCTTGCCAGTGATGGGGTGTTTGAGTTTCTCTCTAGCCAGACAGTGGTTGAAATGGTTGCAAA GTTCAAAGATCCCCGTGATGCTTGTGCTGCAATAGTGGCAGAATCTTATCGACTTTGGCTACAGTATGAAACTCGTACAG ATGATATTACAGTCATCATTGTGCACGTAAATGGGCTGACTGAACCTGCTGTTGGTCAGTCAGCAAGTTATGGTAATGTT TTCGCAACCACCATGCCTCAAGTTGTAGAGGTGACAGGATCTGAATCCCCTTCCACCTTTGGCTGGAATGCTAGGAACCC TCGTGTAAGGCATGACTTGTCAAGGGCACGCATCAGAGCAATTGAAAGTTCCCTAGAGAATGGACAAACATGGATTCCTC CATCTTCAGCCCACCGAAAGACATGGGAGGAAGAAGCACACATAGAACAGGCATTGCATGATCATTTTCTCTTCCGGAAG CTTACTGATTCTCAGTGTCATGTTTTATTGGATTGCATGCAAAGAGTTGAGGTACAACCTGGGGATATTATTGTCAAACA GGGTGGTGAAGGTGACTGTTTTTATGTTGTTGGCAGTGGAGAATTTGACGTCTTGGCAACTCAGGAGGAAAAGGATGGTG AGGTACCTAGGGTTTTGCAGCGCTACACAGCTGAAAAACTATCATGCTTTGGAGAACTTGCTTTAATGTATAATAAACCA CTCCAGGCTTCTGTACGTGCTGTAACAGAAGGAACTCTTTGGGCTTTAAAGCGAGAAGATTTTCGAGGGATTTTAATGTC AGAATTCTCTAACTTATCTTCGTTAAAGTTGCTTCGGTCTGTAGATCTCCTCTCAAGGTTGTCAATTTTGCAACTGAGTC AGATTTCGGACTCCCTCTCTGAAGTTCCTTTCTCAAGTGGGCAAACAATAATTGATAAAAATGAAGTCCTTGCATTATAC ATTATCCAGAAGGGACAAGTGAAAATCACTTTTGATTCTGATTTATTGACAAGTCCAAATGCGTCCAGCCTCAAGCCTGA CATCCAAAATGAGGATGGTGATGTACAGAGCATTGGAGAACTGTCAATAGAGAAGCCAGAGGGAAGCTATTTTGGCGAAT GGGCACTTCTTGGTGAAAATATTGGCTCCTTGACTGCTGTTGCGGTGGGTGATGTTGTATGTGCTTTACTAACAAAGGAC AAATTTGAATCAATTGTTGGCTCCGTGCAAAAGATTTCTCAGGAAGATCTCAAGTTGAGGGATGATTTCGAGTTGACTAG AAAAATTGAATTTTCATCCCTTGAGAATGCCCAGCTCTCAGATTTGGAGTGGAGAAAGACCCTATATTCAACTGATTGCT CTGAGATTGGGCTTGCAAGTTTAAGAGACTCAGATAATTTGCTTACCATGAAGAGGTTTTCTAAGCCAAAGGTGGAAAGG CTAGGAAAGGAATCACAAGTTTTGAAAGAGAAAGATTTGATCATGGGCATGAGCTCTTCAGTCTGTGTACCACAGGTTTT ATGCACTTTTGCTGACCGCATATATGCTGGAATAGTGCTAAATACACACCTCGCTTGCCCTTTGTCTTCCATACTCTCAA GTCCTTTTAGTGAATCAGCAGCACAGTTTTGTGCTGCTTCTGTTGTTACTGCCTTAGAAGACTTGCACAAGAAAGGTGTT CTCTACAGAGGTGTGTCACCTGATGTTTTGATGTTGGAGCAAACAGGACAGATACAGCTGGTGGACTTCAGATTTGGAAA GAAGCTTTCTGATGAGAGAACATTCACAGTTTGTGGAATGGCAGATTCGCTAGCTCCTGAGATTGTTTTGGGAAAAGGAC ACGGTTTCCCTGCTGACTGGTGGGCGTTGGGAGTTTTAATATATTTTATGTTACGGGGTGAGATGCCATTCGGATCATGG AGAGAAAACGAACTTGATACAGTTGCCAAAATTGCAAAAAGGAAGCTACATCTTCCAGAGACTTTTAGTCCTGAAGCTGT GGATCTCATCTCCAAGTTACTTGAAGTAGATGAAAGCAACAGACTTGGTAGCCAAGGTCCTGATTCTGTCAAGAGTCACC CATGGTTTAATGGTATTGAATGGGAAGGGATTAGACACCACACTTTTCCTGTTCCGCAAGAAATTGTTTCTCGTATAGCG CAGTACTTGGAAGTTCGTTCTGACGACTGTACTGGTTCTCTGGGGCCCCCATTGCAGGAGGTAGAGGTAGAAGAACTTAA TGTGCCTGAATGGCTTGAGGACTGGTAG
Protein sequence (LotjaGi2g1v0221800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGCIYSRVCIGDTCRGSSVNGDPVVRTAIGEAAEFSEASSDVQEGEIRDQLNQLSLTRDPEAGIRRLARVSAQFLPPDGS RVVKVPSNNFELRYSFLSQRGYYPDALDKANQDSFCIHTPFGTNPEDNFFGVFDGHGEFGALCSQFVKQKVCENLLRNSK LHVDAVEACHAAFLTTNSQLHADVLDDSMSGTTAITVLVRGKTMYVANCGDSRAVIAERRGKDIVAVDLSVDQTPFRNDE LERVKLCGARVLTLDQIEGLKDPDVQCWGTEEDDDGDPPRLWVPNGMYPGTAFTRSIGDSIAETIGVVANPEIVVFELTQ NHPFFVLASDGVFEFLSSQTVVEMVAKFKDPRDACAAIVAESYRLWLQYETRTDDITVIIVHVNGLTEPAVGQSASYGNV FATTMPQVVEVTGSESPSTFGWNARNPRVRHDLSRARIRAIESSLENGQTWIPPSSAHRKTWEEEAHIEQALHDHFLFRK LTDSQCHVLLDCMQRVEVQPGDIIVKQGGEGDCFYVVGSGEFDVLATQEEKDGEVPRVLQRYTAEKLSCFGELALMYNKP LQASVRAVTEGTLWALKREDFRGILMSEFSNLSSLKLLRSVDLLSRLSILQLSQISDSLSEVPFSSGQTIIDKNEVLALY IIQKGQVKITFDSDLLTSPNASSLKPDIQNEDGDVQSIGELSIEKPEGSYFGEWALLGENIGSLTAVAVGDVVCALLTKD KFESIVGSVQKISQEDLKLRDDFELTRKIEFSSLENAQLSDLEWRKTLYSTDCSEIGLASLRDSDNLLTMKRFSKPKVER LGKESQVLKEKDLIMGMSSSVCVPQVLCTFADRIYAGIVLNTHLACPLSSILSSPFSESAAQFCAASVVTALEDLHKKGV LYRGVSPDVLMLEQTGQIQLVDFRFGKKLSDERTFTVCGMADSLAPEIVLGKGHGFPADWWALGVLIYFMLRGEMPFGSW RENELDTVAKIAKRKLHLPETFSPEAVDLISKLLEVDESNRLGSQGPDSVKSHPWFNGIEWEGIRHHTFPVPQEIVSRIA QYLEVRSDDCTGSLGPPLQEVEVEELNVPEWLEDW
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 | 81 | 384 | 304 | 1.8E-67 | ||
SUPERFAMILY | 81 | 385 | 305 | 2.49E-53 | ||
SMART | 89 | 381 | 293 | 2.5E-57 | ||
ProSiteProfiles | 93 | 383 | 291 | 40.998 | ||
CDD | 109 | 383 | 275 | 2.94658E-56 | ||
PANTHER | 119 | 1062 | 944 | 0.0 | – | |
PANTHER | 119 | 1062 | 944 | 0.0 | – | |
Pfam | 120 | 362 | 243 | 5.5E-34 | ||
ProSitePatterns | 129 | 137 | 9 | - | ||
SUPERFAMILY | 444 | 587 | 144 | 3.93E-27 | ||
Gene3D | 449 | 592 | 144 | 7.2E-40 | ||
CDD | 477 | 586 | 110 | 7.22899E-23 | ||
SMART | 477 | 600 | 124 | 1.0E-12 | ||
ProSiteProfiles | 477 | 586 | 110 | 26.996 | ||
Pfam | 496 | 587 | 92 | 1.3E-19 | ||
PRINTS | 498 | 512 | 15 | 2.4E-8 | – | |
PRINTS | 513 | 527 | 15 | 2.4E-8 | – | |
PRINTS | 548 | 557 | 10 | 2.4E-8 | – | |
Gene3D | 593 | 744 | 152 | 1.1E-25 | ||
SUPERFAMILY | 596 | 734 | 139 | 6.28E-17 | ||
ProSiteProfiles | 603 | 727 | 125 | 13.377 | ||
CDD | 603 | 735 | 133 | 2.53875E-15 | ||
SMART | 603 | 741 | 139 | 1.3E-8 | ||
Pfam | 622 | 726 | 105 | 1.3E-9 | ||
PRINTS | 722 | 734 | 13 | 2.4E-8 | – | |
SUPERFAMILY | 758 | 1043 | 286 | 9.53E-43 | ||
Gene3D | 760 | 846 | 87 | 2.4E-60 | – | |
ProSiteProfiles | 762 | 1016 | 255 | 25.701 | ||
SMART | 770 | 1016 | 247 | 6.7E-22 | ||
Pfam | 779 | 1016 | 238 | 3.1E-32 | ||
Gene3D | 847 | 1031 | 185 | 2.4E-60 | – |
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 | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
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. | ||
Molecular function | Cation binding | Interacting selectively and non-covalently with cations, charged atoms or groups of atoms with a net positive charge. |
Expression pattern of LotjaGi2g1v0221800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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