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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0120100 |
| Transcript ID | LotjaGi1g1v0120100.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Phosphoinositide phospholipase C; TAIR: AT3G08510.1 phospholipase C 2; Swiss-Prot: sp|Q39033|PLCD2_ARATH Phosphoinositide phospholipase C 2; TrEMBL-Plants: tr|G7JZH5|G7JZH5_MEDTR Phosphoinositide phospholipase C; Found in the gene: LotjaGi1g1v0120100 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:18981931..18994721) extracted from Lotus japonicus Gifu genome v1.2.
TGAACATTTTATGAGTATATATTCACACTTTGGCTCTAAGCTATTCCTGGTAATTTTTAAAGGCATCTTCCTTTCTTTTT CTGTGTGTCTCCCCCACAATAGTCATTTGTAAACACCAAAATAATGGCCAACATTTCTGGCTTCAGACAAACCTCTACTA AGATGTCTAAACAGCACTTCAAAGTGTGCTTTTGTTTCAACAGAATGTTCAGGCTTAATGTGGCTGAAGCTCCAGAGGAA ATAAAAAACATCTTTGATATGTATTCATACAATGGCCACATGAGCATGGAAGGCCTGTACAACTTTTTAGTTCAAATTCA AGGAGAAAAGAGTGGTGATGCCACCATGAAACATGCTCAAGACATTTTTGACAGCCTCAAGCATCTCCACATATTTCAAA GGAAAGTCCTTCAATTTGAGGCCTTCTTCCGTTATCTCCTTAGTGACCGTAATGGGCCACTTACTGAGGTAATACTTCTT GTTGAAGAGTTCATTGATTGAAATTTACACTTGAATAATGATAATCACATGGACTAAGTAACATTTGCAGATAATTAAGA ACTAGACAAAATATAACTTATGTTCTGTCTGAATTTTATGGTTGGTATATCTCATCATCTAACCATTTCAAAAGTTTAAG CTAATAGGTGAAGACACAAAAAATGATTTCTATATAATATATATTTCTAGCACTCGTGGCACAACTGGGCACGTAGGGTG CAAGATTTCGTTGGATTTCAGTTACGGTTTAGGGTGGGGGAGTTACTAGACGTTGTGAGGCAGATTGGCATTTTACACAA CTGAAATTAGAGATAAGGGAGTAGAAAATGACACCCGTTATTTTATACGGAGACAAGGGAGCCCATAGGCCGAGGAGGAA GGCACCAAGAGATCTCGACAATACATCTTAACCCAAAACCTTAAGGCATTAGGTTTATGGGTCACATCTCTTATAAAGTT TTCTCCTCACCCAAACTTAACCAATGTGGGACTCCAACTCCGCACTTAAAATTCTCAACAGGTTTCTATTGCCTTGGCTA TTTTTCTTTCCACAAAAAATGGCTTTACGTGTTTACAATATCCCACTTAAAAAAGTCATTTTTGTTTGCTTTCAAAATTT CTTTATTTTGCCAATTCCATGCTGCTACATTTGTGATAGACTATAAGGGGATCTGCACCAAATAAACTTGTCAGCGTTGA TCGACTTTGTCCTAACATCTACGACTTCTAGGTTAGTTTCAGTGTGAATTTTCTGCATGTCCACATTCTTTTCCTAACTA CTTCTTGAAGAAAATGGTATAGAACTCATGTGTTTTGTCCTGGAATGAAAGACTGGATTTTTTATGTTGTGCAGACACTC TGATTGTCACAATACTTAGTAATCTTTTGCTGCTTGTGCCCGAACTCTAACAAATACCAATAACTTTTGAATTCAAATAT CTTCCTTGCATGGTTGGGTAACTGTCATGTATTATGCTTTTGTAGCAGATAAAGCAACAATAGTATGCAGTTTAGATAAC CAACTAACCACTCCTCTTGCAACTGTGAGATAGACTATGTATAATACATTTTCTTTGATCAATATCACCTGCATAATCCG AATGAACGTATCCTCTTACAACAAATTCTGATTCTCCAAAACATAATGCAACATCTGAGATTCCTTTAATGTATCTTTGG ATTCTCCTTACAACATTTCAATGCTCTCTACTCAGATCTATCATAATTAAACTGACTGGTCGTTCCAATCCCAACTGCTT GAGCAATATCTGGTCTAGTACAAATCATAGCACACTTAAAGGCTTTTTGCCGCTGATGCATACAGTACTCGAGACATTTC CAACCTTTCCACTTCATTGCTAGGACAAATACTGGAGGATAATTTATAATTGACTAGAAGTGAGTAGAGGTTGATTTATA GTCTTGCATGTTGAAGGGTTGCAAGACTTTTTGAAGATAATTCTTAAGAAAGAGCCAAATCTTCCTATATTTTATTTAAT ACATATTTCTAATTATATACTTTAAAATTAAATCACAATAGGACACATAAAGTTTAACAAATTGTACATTTGGTTCCACT GGAATTTAGACGTCTGCATTATTTTTTGAAGTTTGCTCATATTCTAAATTCATTTTGGATCTGCAGGTGCACCATGACAT GAATTTTCCGTTAGCTCATTATTTCTTGTACACAGGCCACAACTCCTACTTAACTGGAAACCAATTCAGCAGTAAAAGCA GCACTAGCCCAATAATAAAGGCACTGAAGAAAGGGGTTAGAGTCATTGAGTTGGATTTATGGCCAAATTCTAAAGGAGAT GGTGTAGAAGTTCGCCATGGAGGGTATGAATTTTGTTTCTATTAGCATCATGCATAGAACTTTCCAAAGCCATTTTAGCT CACCCCATTTGGGTGAAAAGTATGACTCAACTGAGAATTAAACTCGAACCCCGATCATAATCATGACGGGCAAACCCGTT TTGATTGGATTTAGGAAAAACTTGAACCCAAATCTAAAGAGGCCGGGGGAAAATGATGAGTTTGGGAGGTTTGGGTCCTC TTAAGTGAGTGAGTTGTTTTAGAAGGTAAAGCAAATTACCGCGATCATCGATTGAGTTACTTCTTTAAATTTTCAATGTA AGTCATCAAATGGTGATTGCGATGACTTAGTTAGGTTCTAAAGTGACTCTCTTACATGTGTTAATATCGTCATAGACCTT TAACAACAATGCAAAGGAATAAATTCAAAATAGAGTAATAATCATGTCAACTTGGATTGTTACAAGTTTCAGGTTTGACT CTCAAATCCTCATAGGTTTAGGGTTCGAATCCCCCTCCGTCTAGTAAAATCTCAGTTGGTGGACAACCTTCCTCAAGGAG TTCCCATGATGCTCTTATCTATGAGTGAGTCTCTAGTGAGCCTCTGTTGGTATGCCCTTCATACCACTGGCGCCCTGCCC GATGGTCTGGAGGTGTTTTCTCTCCATTCTACCATTTACTAAAAAACAATTGTATAATATATAGTAAAAATAAAATTTAC TTGTCACTACACTTAAAATAATTGATCCAATTTTTATTTGATCCTACATGTAAATGTATATATAGGTTTTGTTTCATGCA CATTGCAAACTCTATAGCTAATTGACTTTCTTTTGGAGCTTTAGGACTATGACTTCTTCAGTAAAACTCAAAGACTGTTT GTTTGCCATTAAGGACCATGCATTTCATGCCTCTCCATATCCTGTCATCATAACTTTTGAAGACCATATAACACCCTATC TTCAAGCCAAAGTGGCCAAGGTTTGTAGAACTCATTACATGAATTAGGATGCTATCATGATTTGAAATATAAGAACATTT TATCAGTGGAAATATATTTGAACGTAGATGGTTGATCATATATTTAGAGGCATGTTGTTTCGCCCTGATTCACAATTGAA GGAATTCCCTTCCCCGGAATCATTGAAGGGAAAATTTTTGATTTCAACTAAACCACCAGAGTCTCCTGAAAATCAAATCC AAAAGGTACAAGAGGAAGAAGGAGAGAGGCTTGATGACAGAGATGATAGAATTGGAGCTAATCATAAGGTGAAAATATTT TGATTTCACTTGAATTTGATAAAATAATACTTGTATTTCATTGATAATACGTGACTAAAGACTACAATATATATAGACTA ACAAAGAGATTAAAAGAAACTAAATCTATCTAAACATATCTATATTTAAATAAATATCATCTATATTTAAATAGATACTA ATCTAAAATAGATAAACAAATCTAAACTATATCTCTATGAGATAAGACTAATAATAAACTAAATCTTAATAGATATTCAA CACTCCCCCTCAAGCTAAATCTTACTTAGCTTTAAGCTTGTAACAAATCTAACCCAAGAAGAAAATTATCTTAATAGATA TCCTTTAATAATGACGGTCCTGGCGAATCTCTGGATTGAATAATCTTTCGAACTTCTAGTAAATCCATGGCGGCAAAAGA CAACTTCTCATAATTGAATAATCTTTCGAACTTCTGCTAAATTCATGGGCAGGATAAAGACAACTTCTCATACTTGATCT GGCTGAAATTGATGCAAGACAAAAACCAATTCTTCTGGAGTGTCGTAGGGTAGCTGAGCCAGCAAACAATGGCGAAAAAC CAGCAACAATACACCCGAAAACAAAACAAAGCTGAAGCAACAACTCACCAACAACAACTACACAGAAATAAAACATACTT GAAGTCAATCGATTGATGGCTTCTAAGACAAACAATGGTGTCAACTTTGACACAGACAACTCTCAAACATTAGAGAGTGG GCCAGCGCAACTCGCAGCTGAAGCCCTAAAACCAGAACCAATAACTCTCAACTAGAGAGTGGGCCAGCGCAACTCGCAGC TGAAGCCCTGAAACCAGAAAACCAAACAATCAAGACAAAACAAATGAAGGTGACACTGTCACCTTCAAAACAAAACCAAA CCAAATTGCATAAAGTCAGCCAAGATCAATATAATAATAGCATCTCGAACCATGAGACGCAAACAACAACTCTAGTCTAA AAAACCAATGTGGACCTGAGCGTCAAAACAGAGTTAAAACTCTAAACCAAACCAAACCAAACCAAACTTGGCCAACAGTG AGATATGGCATGAGAAACGTTCAAACAGGGTCAAAACAGCTGACCCACAAACCAAACAGGGAGAGGAAGACTGGATGAAG GCACAACACACGTCAAAACAGAGGATCCTTAAAACCAAACCTGGCTGATACACAAAGAGGACCAGCGAGAACAAAGCAGT GGAGCAATACAATTAGATTCAACCAATGCTTCTTGAATACAACCTCCACCAAACCAGCAACAAGGATAACGATTGTCGGC GGTGGTTGACTGTGGTCTCTATTAGGATATTTAGCAATATCCAACACTTCCCCTCAAGCTATAGCATATATGTCATATGC ATAGCTTGTAACAAATATAATTAAGATTTAACAATATTCAGATCCTCCCCTCAAGCTAGAGCATATATGTCATGCATAGC TTGTAACAAATATAAATAACTTGAGAAGTCGCTGCTGCCGGAGAGAGATATTCCCAATAATAGTCCAAAATTTATACACC AACAAACCACACAATGCAAAACCAATTCTCCACTTTAATAGAGAGCAAAAAAATTTTCCAACTCCAAAACCACACTGTGC CATCAAAAAAAGAAGAAACCAAAACAAGAAACTAGAGCCAACCATGTTCTGAATCTTGAGATCCTTAAATTTAGCGTTGA AACAAGTTTTTGAGTAATACGAGCATACTTCCTTGCTGCCAATCTGGACCAATGGACTTCTTGTAAGGCCCAAGTTTTTC AGCTTATGCTAAGTGAATAAACTTTCTTATTCACGATTAGGGTTTATGTAATGTGAAGGGAAACCTGAACAAAAGTTCAT TAAATGAAATATATTTATGAAGGAGAGAGTTCAGGAAAAATTCAAGGATTGCATTATGATCGATAAAAGTTATAGCACGA TCGTTATACGCTTAAACCCAGGTCAGAAACCCTAGTATATAGCTAGTTTTCACTTTTAGGCACGATGGAAGTTAATTCCA AAAAATCTTCAGAGAAATGTTAGAACTTCTCTTTTTTCCATATATCAAAATCGTTTCGAGGCGAAACTCTAGGATCTACG CACGTCCGATTCCAATCATCGGAAGTTTGCCGAAACCGAATCCCTGGTATTTCAAAACCCTAGAATCACCCGACTATGAG GGCTATTTCTATTCAGAGCTTCAAATGAAGATTCTACACGCGTACACCCATTTCTCTTGATGATTTCAATCTTTCTTCAG AAGGAAGTTTTCTATTCCGACATCCGATGCAAAAAGCAACTTATCGGGTAAAATAGTTTTATACCGACTATGCATTAGTT GCCAAAAATACAAGGAGACATCTTTTTAGTTTTGGAATTCTTTCGCCAAAACATATCTTAGAATTCATGGAGAATGACTC CTGAAAAATCAGATTCGCGAAACTTTCATTTTCCCGCGAATTTTCATCTTCTATATATAGCAAACAAGTGAGAAAAAAAC ACAAAACTCCTCCATTTTCTCTCCTCAAACCCGCGGCCAAGAACAAGGAAGAAGGAAGAAGAGTTTTTGTTCAATCCTTG CTTGATCGTCGATCAATCAGTTGCTGCTTCAAGGTTTCGAGGTATAGTCGCTAATCCTTACCTCTGATCGCTTTTTCCAT AGCTTTTCTGTAGACTTTTCTGAGCTGATAGTTTATGGGTTTTTGCAAAACTATCCCGAATCTTTCATTTCTGATTCTAA ACCTCTTCTTTATGTGCCCAAGATCACTTCTGCCGGATTAGATTTTCCGTTATGTCGCCGGAATTCCGCCGGAATCAATT TTAGCCTAAAATACCCATTTTTGGGAGTTTTTGGAGTAAAGCTTCAACCTTTAGGCTGAAAACTATCGCCTTAGCTTAGT GCTAGTAGGATTAGTTGTCATAAACGTCGTTGGTGACGTCCCTGCAAAATTTGGTTTTTGGGATTTCAGTTTTGAAAATC CTAAGTTAAAAATCATGACCAAAATACCCCTGCGACAGTTTTTGATCCGATAATTTTTCCGAGTTCAGAATACCCTTAGT TACGGCCAATGATAGCATAGGAACCAAGTTTGATCGAAGAAAAATCGAGTCTCCTAATTACCAAAAGTGGTCGAACCTAT TAAGGGGGGAGGAGGAAAATTTCCTTTTCCGAAAACTTGTCTTTTCGCGCTAGATTATCGTTCCTTAGAGTATAGATTAC TTCGAGTAACCTTAGTAAGTATCGATAGCTTAGTTTTCGATAGATTCTGATAGTATTTCTGTGGTTTTGCTCTAAAAGTG ATTTTGAGGAATTCCCAGAGGAGCAAGCCTTTGATTGTGAACAAGTGTTAGGAGATCGTCCTGGAGAATCTACAGGTGAG GGCTTCTCACTGAATCTCTAGTTAATACTTAGGGTCGATGCTTTCGACATTGTTTACTGTTTACGCACTGGATTGTGTGT GATTGGAAAATGTTTTCTGAGGCTTCGGCTGACAATGTAGATGATGAATCTACTGAATGCTTTTGAGATTGAATCTTCAT GCTAAGTGCTAATTGGGTAATTTAGGATGTGTGGTGCATGCCTTATATGCTAAGTGCTATGTGGTTATTGCTTAATATAT TGATATATGACATGTTGATTGGTTGTGCTGAGTTATTTATACTTATGCAATGAAATCTGAGTTTCTGAACGGTGAGAATA GCGGGCAGGTCATGCCGATTTTATTTTGAGAGTTTTGAGAAAGCTTGATAGGACGAATGAGATTCGGGCCTTGTTATGAT GTTTATGGATCGAGACATTCTCTGGAGTCATTTGGGGATTAGGAGATCCTGAGAACTTATAAGATTTTGCGATAAGACTA AAAAGATATTATTTTGAAAAGAAAACTCATAAGACATTAAACAACCTCTAAATCTTCAATTAATGATAATAAACTCGAAA GGAAGTTGAGGACGCAAATCTTAGTTTTGGAAAACGAGAAGTGTCGCCGGATCCAAGTGTCGGGTATGTCGATGTTCTTG TGCTGTTAGAGCAGCTGTGTTGAGTATGTTGATGCTCTTGTGCTGTTGGAGCAGCGGTGTGTTGGACTATCCTGGGGATA AGTCCGGGGAATTGATAGTTCCCGAGTATGTTGATACTCTTGCTCGTTGAGCAGTTTCGACCATCGGAATGAGATGAGTC GGATGATTTGGAGATCATCATGAGTTATGCGTTGTTGGGAAGATGTGTCTTTTGGTCGCAGAATCGACCGTTACCTTAGG GTAAGCTTTTAGAGACTTAAATTTACCTAGAACACGTGGCGACGTGTCGAGTGAGATTCGGAGACGTTGTTTGACTAATG ATCCTGCATACATGCAACATTAATGAGGTATTAACACAGGACGTACTCTGGACCTCGTCGGTTTCCAAAATGGTCATAAG ACCCGGAATGCCGTGAAAGAGCGTTTGTAGACGTCTCTTGTAGCATACCGAAATGGCAGACCTACGGGTTTACTGCTGAT CTGACTACCGCTGTCGTTGGAGTAAGAGGCACGCGGGCCGAAATGGTCCCACCGTGGCTGGTGTTAGGGCTGATCCGTTT GATGTCCATCCCTTTCCGGAATGCATGTGGTTAACTGGGTTAACCGTCATTTGCATATCATGCAACATGCATACTAATTT AGTTGTCGAATGTGATTGTTATTTGTTAATCCTATTTGGAACATGTTAAGTGTTATCATTGTTGTTTATGCTATTGTGGA ATATGCAACCCTAGGATGTTATCCCTAGCTATAAGCCTAAGTGGCTATTCTATTATCTGTATCTATCGATGCTATTATTT ACATAATTCTTTGGAGTTGACCCTCGCGTCTTCTGTGTGTGCTTTGGCGGACAAACGCCCTTTGTCAGATGTCTTTGGCG GGCTGGTTCACGACGGTTCACCCTTCGGGGGGGACTAGGGTTGAAATGCTGGAACAAGAGCGCATCGCGGTCGCGAGAGG AGGACGGATGGTGTACAACGACTTGGTCGCCCTGGATTCAGATCCGGACGACGATCACGCTAGCATATAGTTTTGAGCGC TGGTGTGAGCTCCTCGAGATGGGATTAGTGTAGGAGTAGAGTCTTAGCTCTGAACATCATTTGTTTTTCTTTGGGAACAG GGTAGTTCCGCCTATAGCTTTTTGTGTGGTTTCCTTACGGGAATCACAGAGAGTTGGTTGGACTTAGGAGGTCTTATTTT CAGACCATTGGGTCAACTTATTCTCAGTTTTGAGGGATGGTGTTGCGGACACTTACCTTTTCATTTGGTTTGTACATATT GCCTACGGGCGCTACTCTTCTATTACCCGTCACTGGAGGTTCACTCGTGACGAGGTTGCTACTTACAGCGGGGGGGCTGT TTACATATATTGTATATTAGTTCTGATCATTGTTATCGTTGGGTTTTATTTATTTCAGTCTTGTCTTAGTTATTATCAAA AAAAAATATTCACGTTTTTCCGCATTAAGTTTATTTTGGTTACTAAAGTGACGCCACCGAAATCGGGGTGTTACACTTCT AGAATGGAACAGGGAGGAACCGCCAAAAACCGAGAACTGAAATTCTTATGCCTAAGAATCTGGAGAACATGTGGGCAAAA AGGAAAGAGAACAAGCGTGAGGGCACCATGTGTCTTGCCACAACTACACCAATTGTAGTTTTAAGTCCTAGTTTAGACTA CCAAGAGTAACCAAAAGTGATAACTACTGTCCCCCAAACCACTGCTCCATCAACAACTTGCAAACGAAACCCAAAGAAGC AAAAACCACAGTAACAGAATTCCACAGTAGCATGGTTCAGACACTTTAACACGAGTCACGGCCACAAACGACACGCAAGA AGGGCAGATATGGAGAAACCGACCGCTGGAACAGAATCAAGAGAGCATGGCGAACCTTTCTGTGGAAGTGGCATCACGAA CGATGGCTGGGAAGGCGGCACAGCGAACCGACCGTTGATTTGATAGTGGTTGAACATTACTAGGGTTCCAAGAGAAAGGG AGCCATAATCAGAAAGAAACGAGGCCGTAAGAAAACGGGTAGAACTAACAAGCGGAAGCAAAGTAAGAAAAATAAATCCA AAGAGATTTGGAAAGTCACCATGAGGGGGCTCACGGGGGAGGAGCCCCTCACAGCGGAGGGATCAAAACTAGCTCTGATA CCAACTTGAATTTGATAAAATAATACTTGTATTTCATTGATAATACGTGACTAAAGACTACAATATATATAGACTAACAA AGAGATCAAAAGAAACTAAATCTATCTATACTTATCTCTATTTAAATATATATCATCTCTATTTAAATAGATACTAATCT AAAATAGATAAACAAATCTAAACTATATCTCAGTGAGATAAGACTAATGATAAACTAAATCAAATAGATATTCAACAATT TCATTTTGCTAGAATCACATAGATGGCTGGAAATCATCTCAAAATCTATTTCAGTCCCAGAATTTTGTGAAAAGTTAGTA CTTTCTGCGTTAGACATAATCCGCTGTTAGATACAGAAATCATTTTTTTACAAATATATTCAAATAAAAATCAGTTCTCT TTCAACTTTTTTTTACCATAATAAACTTTACCAAAATCAATTCTTTCTGACCAATTTCATTGTATTTTCTTTTTGCTGTC AGGATGAATCAGATAACCCGAGTGAGGATGATGATCCTCTTGGATATAAGAACATAATTTCTGTTCATGCAGGGAAGCCA AAAGGTAAGGTAGAAAATTGGCTGATGAATCATGACCAAGTTCGGCGTCTTAGCTTGAGTGAACAAATGCTTGAAGATAT CACCAAAACTTGTGCAACAGATATTGTGAGGTGATTTCAATGATTTTGATTTGAGAGATACTGAATTTTAAGTTATAATG CATGTCTTTTTGTGGCTTCTTTTAACCTAGCTAGACATGTATTTTCTTTTACCATACAAATTTTGAGTTACCATCACATA CACAACAATTGATGTTCTTCTATGCCTTAGATTCACCCAAAGGAATTTGCTTAGAATATATCCAAAGGGTGCACGCCTGG ACTCCTCCAATTATGATCCCATGACTGGATGGATGCATGGAGCTCAAATGGTAGCATTTAATATGCAGGTTAGACTTTTC TTTCCAATATCATTTTGGCAATTTACAGAATAGGAAAATCTAAGTTATATATTTGAATTGAATGTGCTTGTAGTTAATGA GGTATTGGTTTTGATTCTCTAGAAGCCACTTAACATAGAGTGTGTTTCTACAAAAGCATCAGAATCACTTTGGAAATATT TCTACAATTGATTCTAAAGTAAGAAACAATTATGGGGAAAGCTTTTGTGAGTAGCTAGCTTATGGTAACCTGAATTGATT CTGAGGAAAAACGAGCTAATCCAAACATGTTATGAATTGATGCATTGAACTCAAAATGAACTATTTAAAGTAGATCACTA GCTTACATACATGGGATAATGACAGCTTGAGCTAACTAACATGATTAACTACTCCAACGACTATAACTGAATTAACTAAT GATTCAGTAAGTAAAGTCTATCAGTAAGTACTTAAAATTAGTTAATCTGAATCTGTTGGTGCCTTGTCATCCATCGCGCT TTCCATTATATATTTACTAATTAACTAGAACGCATGAATGTTGAATAGAAACCAAACATGATTTTATGCATATGTGCTTG TTTAGGGACATGGGCATTACCTAAGGTACATGGAAGGAATGTTCAGAGCCAATAACGGCTATGGCTATGTTAAGAAACCA GACATCTTGTTGAATGTTGGTCCCAATAATGAGGTTTATGATCCTAGAGTAATCAGACCAGTTCGGAAAAATCTGCAGGT AAAAGGGAATATGGATAATTTGATATCTAATCACATTTGAAAAGTGCAAGAAAATATCAATATGTTGTATCTTTTTGTAT CTAATTTAACTATGATGACAAAGTAAACAGGTTTTGGTATACATGGGTGATGGGTGGCATTCAGATTTCCACCAAACACA CTTTGATTTTTATTCTCCACCCGACTTCCAAGTAAAGGTAATACAAATCATGATGGAAATGTTGAAAACTTAATCCCTAT TTATTTGCTTTCAAATACGAAATTTTCATTTGTGGTTATGTTATCAATCCCAAATCCCAACTCCCCGCAATCAGCCTCAA AATTGGGATAGCGGGTCTCGAAAAGCGGGATGACTCATATAGTAATTTTTGTCTATATTTTGTATAATATATACCATATA TATACATACTAAATCAATGATAAATACAAGATAGAATAGTGGAGATGAGGGTTGAAGAGGGGGAATGTGGGAAGATAAAA CAAAGGAGAAGACTGTCGAAGTGGGTAAAAGGGAGATAAATGTCTAATAAAATCAAAGTGCTGGTTTTTCTGTTGTGAAA ACCCAAAAATGCCCCTAAATAAAACCTCGACGTTTATGTTTGCGGGGCATTTTTGAAAAATGAGACCTTCACTATCCTTC CTGAATCTCATGGCAATAGTTGGGATTTGAGCCGAGACAATAAGCTGGAATGGGAAATTCATCCTAAAGCATGGCTTGGA TGGGTTTAGAACTCGGGATTCCGCCGAAATTAACAACTTAGATTTACGATACACATTTTAAACGAGTAAATACAATCGAT GTTGTAAAACATAACTAATAGATGCACGATAATGTACCTGCAGATTAGCATTCATGGAGTCCCAGCTGATAAATATACCA AAACAACAAGGATAGTTCAAAACGAGTGGGTACCAGTTTGGAATGAGGAGTTCAATTTTCCATTAACTTTTCCGGAACTT GCCCTCTTATACATCAAAGTCATTGAGTGTGACATATCTGGCCAACATGATTTTGCTGGACAAACATGTTTACCCGTGTT TGAGCTTAAAGAAGGTATTCATGCAGTTCGCTTATGTGACCGCAAGGGTGAAGTTTACAAGTCTGCAAGGCTGCTAATCC ATTTTCGGTTTAGCGATTATGGTGCAAATGATATTCATTCTGATATTATATGATTTAGCGATCTATTAAATTGTCTCTTA TAATATTCTTTTTAACTTATAATAATATACTTCTAAAGTACAAATATTAACAAATATTCTTTTATTAGATACAAAAATGT TGATAGTACAATTATTAAATAACATTATTAGGCTATGTTTGGTTTGAAAATAAAGTAAGAGGAAAGAAAAG
CDS sequence (LotjaGi1g1v0120100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCCAACATTTCTGGCTTCAGACAAACCTCTACTAAGATGTCTAAACAGCACTTCAAAGTGTGCTTTTGTTTCAACAG AATGTTCAGGCTTAATGTGGCTGAAGCTCCAGAGGAAATAAAAAACATCTTTGATATGTATTCATACAATGGCCACATGA GCATGGAAGGCCTGTACAACTTTTTAGTTCAAATTCAAGGAGAAAAGAGTGGTGATGCCACCATGAAACATGCTCAAGAC ATTTTTGACAGCCTCAAGCATCTCCACATATTTCAAAGGAAAGTCCTTCAATTTGAGGCCTTCTTCCGTTATCTCCTTAG TGACCGTAATGGGCCACTTACTGAGGTGCACCATGACATGAATTTTCCGTTAGCTCATTATTTCTTGTACACAGGCCACA ACTCCTACTTAACTGGAAACCAATTCAGCAGTAAAAGCAGCACTAGCCCAATAATAAAGGCACTGAAGAAAGGGGTTAGA GTCATTGAGTTGGATTTATGGCCAAATTCTAAAGGAGATGGTGTAGAAGTTCGCCATGGAGGGACTATGACTTCTTCAGT AAAACTCAAAGACTGTTTGTTTGCCATTAAGGACCATGCATTTCATGCCTCTCCATATCCTGTCATCATAACTTTTGAAG ACCATATAACACCCTATCTTCAAGCCAAAGTGGCCAAGATGGTTGATCATATATTTAGAGGCATGTTGTTTCGCCCTGAT TCACAATTGAAGGAATTCCCTTCCCCGGAATCATTGAAGGGAAAATTTTTGATTTCAACTAAACCACCAGAGTCTCCTGA AAATCAAATCCAAAAGGTACAAGAGGAAGAAGGAGAGAGGCTTGATGACAGAGATGATAGAATTGGAGCTAATCATAAGG ATGAATCAGATAACCCGAGTGAGGATGATGATCCTCTTGGATATAAGAACATAATTTCTGTTCATGCAGGGAAGCCAAAA GGTAAGGTAGAAAATTGGCTGATGAATCATGACCAAGTTCGGCGTCTTAGCTTGAGTGAACAAATGCTTGAAGATATCAC CAAAACTTGTGCAACAGATATTGTGAGATTCACCCAAAGGAATTTGCTTAGAATATATCCAAAGGGTGCACGCCTGGACT CCTCCAATTATGATCCCATGACTGGATGGATGCATGGAGCTCAAATGGTAGCATTTAATATGCAGGGACATGGGCATTAC CTAAGGTACATGGAAGGAATGTTCAGAGCCAATAACGGCTATGGCTATGTTAAGAAACCAGACATCTTGTTGAATGTTGG TCCCAATAATGAGGTTTATGATCCTAGAGTAATCAGACCAGTTCGGAAAAATCTGCAGGTTTTGGTATACATGGGTGATG GGTGGCATTCAGATTTCCACCAAACACACTTTGATTTTTATTCTCCACCCGACTTCCAAGTAAAGATTAGCATTCATGGA GTCCCAGCTGATAAATATACCAAAACAACAAGGATAGTTCAAAACGAGTGGGTACCAGTTTGGAATGAGGAGTTCAATTT TCCATTAACTTTTCCGGAACTTGCCCTCTTATACATCAAAGTCATTGAGTGTGACATATCTGGCCAACATGATTTTGCTG GACAAACATGTTTACCCGTGTTTGAGCTTAAAGAAGGTATTCATGCAGTTCGCTTATGTGACCGCAAGGGTGAAGTTTAC AAGTCTGCAAGGCTGCTAATCCATTTTCGGTTTAGCGATTATGGTGCAAATGATATTCATTCTGATATTATATGA
Protein sequence (LotjaGi1g1v0120100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MANISGFRQTSTKMSKQHFKVCFCFNRMFRLNVAEAPEEIKNIFDMYSYNGHMSMEGLYNFLVQIQGEKSGDATMKHAQD IFDSLKHLHIFQRKVLQFEAFFRYLLSDRNGPLTEVHHDMNFPLAHYFLYTGHNSYLTGNQFSSKSSTSPIIKALKKGVR VIELDLWPNSKGDGVEVRHGGTMTSSVKLKDCLFAIKDHAFHASPYPVIITFEDHITPYLQAKVAKMVDHIFRGMLFRPD SQLKEFPSPESLKGKFLISTKPPESPENQIQKVQEEEGERLDDRDDRIGANHKDESDNPSEDDDPLGYKNIISVHAGKPK GKVENWLMNHDQVRRLSLSEQMLEDITKTCATDIVRFTQRNLLRIYPKGARLDSSNYDPMTGWMHGAQMVAFNMQGHGHY LRYMEGMFRANNGYGYVKKPDILLNVGPNNEVYDPRVIRPVRKNLQVLVYMGDGWHSDFHQTHFDFYSPPDFQVKISIHG VPADKYTKTTRIVQNEWVPVWNEEFNFPLTFPELALLYIKVIECDISGQHDFAGQTCLPVFELKEGIHAVRLCDRKGEVY KSARLLIHFRFSDYGANDIHSDII
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 | 16 | 572 | 557 | 5.7E-266 | ||
| PANTHER | 16 | 572 | 557 | 5.7E-266 | – | |
| Gene3D | 35 | 116 | 82 | 1.2E-5 | – | |
| SUPERFAMILY | 36 | 117 | 82 | 7.29E-10 | ||
| Gene3D | 117 | 434 | 318 | 3.0E-83 | ||
| SUPERFAMILY | 118 | 425 | 308 | 1.11E-101 | ||
| ProSiteProfiles | 118 | 261 | 144 | 41.508 | – | |
| SMART | 118 | 261 | 144 | 1.3E-60 | ||
| Pfam | 120 | 261 | 142 | 5.0E-47 | ||
| PRINTS | 123 | 141 | 19 | 1.6E-42 | ||
| PRINTS | 149 | 169 | 21 | 1.6E-42 | ||
| PRINTS | 245 | 262 | 18 | 1.6E-42 | ||
| MobiDBLite | 254 | 306 | 53 | - | – | |
| MobiDBLite | 270 | 304 | 35 | - | – | |
| SMART | 308 | 424 | 117 | 9.6E-51 | ||
| Pfam | 335 | 421 | 87 | 4.4E-25 | ||
| ProSiteProfiles | 337 | 423 | 87 | 33.962 | ||
| PRINTS | 362 | 383 | 22 | 1.6E-42 | ||
| PRINTS | 383 | 401 | 19 | 1.6E-42 | ||
| ProSiteProfiles | 430 | 537 | 108 | 11.463 | ||
| Gene3D | 440 | 583 | 144 | 3.6E-27 | ||
| CDD | 443 | 572 | 130 | 4.07463E-34 | – | |
| SMART | 444 | 552 | 109 | 1.9E-10 | ||
| SUPERFAMILY | 445 | 571 | 127 | 2.56E-23 | – | |
| Pfam | 467 | 545 | 79 | 2.7E-10 | ||
| PRINTS | 538 | 548 | 11 | 1.6E-42 |
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 | Phosphatidylinositol phospholipase C activity | Catalysis of the reaction: 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate + H(2)O = 1,2-diacylglycerol + 1D-myo-inositol 1,4,5-trisphosphate + H(+). | ||
| Biological process | Lipid metabolic process | The chemical reactions and pathways involving lipids, compounds soluble in an organic solvent but not, or sparingly, in an aqueous solvent. Includes fatty acids; neutral fats, other fatty-acid esters, and soaps; long-chain (fatty) alcohols and waxes; sphingoids and other long-chain bases; glycolipids, phospholipids and sphingolipids; and carotenes, polyprenols, sterols, terpenes and other isoprenoids. | ||
| 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. | ||
| Molecular function | Phosphoric diester hydrolase activity | Catalysis of the hydrolysis of a phosphodiester to give a phosphomonoester and a free hydroxyl group. | ||
| Biological process | Intracellular signal transduction | The process in which a signal is passed on to downstream components within the cell, which become activated themselves to further propagate the signal and finally trigger a change in the function or state of the cell. |
Expression pattern of LotjaGi1g1v0120100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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