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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0690200 |
Transcript ID | LotjaGi1g1v0690200.2 |
Related isoforms 9 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Phenylalanine ammonia-lyase; TAIR: AT2G37040.1 PHE ammonia lyase 1; Swiss-Prot: sp|P27991|PAL1_SOYBN Phenylalanine ammonia-lyase 1; TrEMBL-Plants: tr|A0PBZ4|A0PBZ4_LOTJA Phenylalanine ammonia-lyase; Found in the gene: LotjaGi1g1v0690200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:125781156..125793801) extracted from Lotus japonicus Gifu genome v1.2.
CCATTCCACCTCTCCACCTCAAAAGAGAGGTGTGGATGAAACATTATCCCTCTTTCTATATAAATACCCACTCACTCTTC CCTTTACCTCTCAGGAAACCCACAACTCACCAAACTAACATTTCCACATTCAGCTCACCAATCTCTTCCTCATTTTCCCT TCTCATAACTCTAGCAAACTTAGTCCATTTTTCTTAAGATAATCAATCTTGTAAGTGAGAGATCATATATACTAAGATGG CACCAACCACCAACAGCAACCACGAGAGCCTAAATAGTTCCATCTTCTGCACTGCTGCTAAAGCAGGCAGTGATCCCTTG AGTTGGGGTGTAGCAGCAGATTCGATGAAGGGGAGCCACCTGGATGAGGTCAAGCGCATGGTGGCTGAGTACAGGAAGCC TGTGGTCAAGCTAGGCGGGGAAACTCTGACCATAGCTCAGGTAGCTGCCATTGCAGCAAACGACCAAGGCGTAAGCGTTG AGCTGTGCGAATCAGCTAGAGCTGGCGTTAAGGCGAGCAGTGACTGGGTGATGAACAGCATGAACAATGGCACTGACAGT TACGGTGTCACCACCGGCTTTGGCGCCACCTCCCACCGCAGAACCAAAAATGGCAATGCTTTGCAGCTAGAACTCATTAG GTAATAACTCAATTCCAATTTCAGCACACATAACTAACTACTTGCAGTTTAATTTATTTTCCATCCACTTCCTAATTAAT TCATTCCTAACTCCTAATTGATTAGTCATCAGATATACATATACATTTCATTAAATAAAAGTTGTTGATGTTAATATGTT CTTGTTCTTCAGGTTTCTGAATGCTGGAATATTTGGCAATGGTACAGAAACAAGTCACACACTACCACAGCCTGCAACTA GAGCAGCGATGCTAGTGAGGATCAACACTCTTCTCCAAGGATACTCAGGCATTAGGTTTGAAATTCTAGAAGCTATCACC AAGCTCATCAACAACAACATCACCCCATGTTTACCACTTCGTGGTACTGTCACGGCCTCCGGTGATCTGGTCCCTCTTTC TTACATTGCCGGCTTGCTTACTGGCCGACAAAACTCCAAAGCTGTTGGACCATCTGGCAAGGTACTTAATGCCAAGGAAG CTTTCCAATCAGCTGGCATAGACTCAGGGTTCTTTGAATTGCAGCCCAAGGAAGGGCTTGCTCTTGTTAATGGCACTGCT GTTGGTTCTGGGTTAGCTTCTATTGTTCTCTTTGATGCGAACATTTTGGCTATACTGTCTGAAGTTTTATCGGCTATTTT TGCCGAAGTGATGCAAGGGAAACCTGAATTTACCGACCATTTGACACATAAGTTAAAGCACCACCCTGGCCAAATTGAGG CTGCTGCTATCATGGAGCACATTTTGGATGGAAGTTCCTACATGAAAGCTGCAAAGAAGTTGCATGAGGTGGATCCTTTG CAAAAGCCAAAACAAGATCGATATGCACTTAGAACTTCACCTCAGTGGCTTGGCCCTCTGATTGAAGTGATTCGATTCTC AACAAAGTCGATCGAGAGAGAGATTAATTCTGTGAACGACAACCCTTTGATTGATGTTTCCAGAAACAAGGCCTTGCACG GTGGTAATTTCCAAGGGACCCCTATTGGAGTTTCCATGGACAACACACGTCTGGCCCTTGCAGCAATTGGAAAACTCATG TTTGCTCAGTTCACTGAGCTTGTGGATGACCACTACAACAATGGCTTACCTTCAAATCTCACTGCTAGTAGAAATCCCAG CTTGGATTACGGTCTTAAGGGAGCTGAAATTGCAATGGCTTCTTATTGCTCTGAACTCCAATATCTTGCAAATCCAGTCA CAACTCATGTCCAAAGTGCTGAGCAACACAACCAAGACGTGAACTCTTTGGGTTTGATTTCTTCTAGAAAAACCAACGAA GCCGTTGAGATCCTTAAGCTCATGTCTTCCACATTCTTGATTGCACTTTGCCAAGCAATTGACTTGAGGCATTTGGAGGA GAACTTGAAATACTCAGTGAAGAGCACTGTAAGTCAAGTTGCCAAGAGGACTCTTACCACAGGTGTCAACGGAGAACTCC ATCCTTCCAGGTTTTGTGAAAAAGATTTGCTGAAGGTGGTCGATAGGGAAGCTGTATTTGCCTACATTGATGACCCTTGC CTTGCTACTTACCCATTGATGCAGAAACTGAGGCAAGTGCTTGTGGATCATGCTTTAGTAAATGGAGAAAACGAGAAGGA CTCAAAGACATCAATCTTTCAAAAGATTGCAACTTTTGAGGATGAGTTGAAGAGTCTCTTGCCAAAGGAGGTTGAAAGTG CAAGGGCTGCATATGAGAGTGGCAATCCAACAATTTCAAACAAGATTAACGAATGCAGGTCTTATCCATTGTACAAGTTT GTGAGGGAGGAGCTGGGAACTGAGTTGCTAACTGGTGAAAAGTCCAGGTCACCAGGCGAGGAGTGTGACAAATTGTTCAC AGCAATATGCCAGGGTAAAATTATTGATCCTCTTTTGGAATGCCTTGGGGAGTGGAACGGTGCCCCTCTTCCAATATGCT AACTTTATTAGTAACTTTTAGAAATGGTTTCTTTGTATCTTCGCAAGGGAAGCATTAATCATTCAGATTATCAAGTCCTT AGCAAACTAATAAGGAAAACTCCATCTCAATTTCCTCGATGTGAAAGAGGAGCTTGTAATTTAATATTATATAATAGAAT TTTTAGTTGTTTGCCAGAGCTTTGAGTATCACTATATTATAATACATAGTTTCATGTCTTTGAAACTGCAAACATTTTTC TTTATGTTGTATTTAGTTGAGTTCAAGTTTGTTTCTTAAGATCAGCATTACCTCAGCTTTTGGAAAATCACATCTAATCG TGTGGAATTACAACTGAAGACAAGGGCAAACAGTATATTCAAATACTCGTTAGTCAGCACATTTAACAGCAGCGAGGGGC TGGAGTCTTTAGTTCATTTAGCATATTTTGTCTATAATTCAGCAAAGAGTGTCTTTTCTCCATTCAGAAAATGGACAATT AGACACAGCAATCATTTCTCACTTTCATGTTTTGATGCCTAAAAATATCTGTTTTCATCAGCACATGTATAACCAATTTT AGTGTATGAGTTTCAGATGATGTTTCCCACCCTTTGTTCACTTGTTGTTCTAGCTATATCTTTTCTTGATTTTGTAAATT TTATACAATCTTCAAAAATTGTGCCAACAATAGGTTTAACCATGACAATGGTTTGATCAAATGAAATGTCCCTATTCACA TGCTTTGGTATTTTACTTTTGTTATAATGAACTCTGCACAGCTTTATATCTTTCTTCCTTGCATCCTGCTCCAAAATGTA GTGTCTCTTACCATCCCTACCCCACTGAAAATGAAATCCTCCAAAGATTCTTTAAAATTCACTCCACTTTCTTGAAGACA ATTTACTGATACTCATTGCACTAGATGCCTACAGTCCCTCCACTAATTCAGAATTTTGTAGAAGGTATATTAGCCAGGTC AGGTAGCTAAACATTTGAAAACCAAAGTCATCAGAGAAAGGAAACTATGTTTGTACAACCTGTCAGTATGTTTTACTTAT CCTACTTATCACTGATGTTGCACATTTGCAATAGAATTAACTTTGAAGCAAATATTGACATGATACTCTGGGTTGTCAAA GGGTTAACCACCAATTATGTAAATTGCTCAAATCTTTGAGCAGGAATATGAGAGGTATGGTTCCATGATACATGACAATT GGAAAAGCTAGGCATTGCCACTGTACAGGGGAAACATATTTAGTAGGGCTATTAAGATTTAAGAGGTGCATATGCATGAA ACAGCACGACACCAATAATATAAGGCATTCAATACATCAACAAATCTTCTGTCTAGGTACAGTACTTTCTACAAGCAATA AAGTTTAATGTAGAATATGGAATTATGGCTAAACATGTGGCAATAGGCTAATTGCACCATACTAATTATTAGGTGTGTAA AAAGTAATTTTAGGATGTACTCACTTGCCTTTGAGATAGACATCTGTGGTACCTGGGCTTTAGCCTTTTTGTGCTGGGCC TTTACGCTTTTAATATGATCCACCTTTGACCCAAAAAAAGATCTTATATCAGCAATGAGGGATCAAAAGCAGTAATGAAG CAGAAGTTAACCATTGACCAAAAAAAAAAAGCAGAAGTTAACCAGAATAGCAGGGAGCACTAGTTTTGGACACATTGTCA TGCACTAAGCAACAATAGAAGCCAGTTCAACATACTATCACATAGAGGATTTAATTTTTAAGGTAGAGTTTTCAATTTTT TCCCTGATGTAATTTTTTTCTTTTTAGGTAGAGGAGTTGAATGAATCAAGTTGAGCTAATGAACCAGACAGAACTCCAAA TCAAATAAATTAAATTAAACTGGTTTAGATAGTTGTTAAAACTTGACCTACATGTTTAGCTTTTTCGTTGACTGAATACA CCAAACCATGAAACTTATTAGTAGAATATTAGATAAAATAATATGATTGTCATGTTGGTTGAAAAAATTACAAAATAAAA ACCAAGCCGTCTAAATTATTAGAATTCGGTGTGATGTAGAGGCTTGACTTGACTACGTTTGGAGTTGAACTAGCAAGAGT GGTGTTCCCACATTGCTTCCTTCGTCTAATGCTGACCCCAACAACCTACCTCCACATTTCGTTTGGAAACACAGCAGCCA CGTTGCAAGATCATAGCCGCTGGTAAAGGGAGTAGCAATCCTACGGATATAATTAGTTTTCCACCAACCCCCTTTCTAAC AGAGCCCGCCAATCCTATTCTACCTAACAAAACCACATGACACACACACCACATTCTCTATAAATTCCCACTCACCATTC CCTTCATCTCTCAGGAAATCAACAACCCTCCTAAGTATTTCCACATTCAACACAACAATCTCTACCTCATAACTTGAGCA AGCCAGCTCCATTTGTGTTTCAATAATCAATCTTCCAAGTAAACTATTTATCAGTTTGCATTTTTAAGATGGCACCAACC ACCAACGGCCACCACCAAAGCCAAACCGATTCCATCTTTTGCACTACAGCTAAAACTGGCAGTGATCCCTTGAGTTGGGG TGTAGCGGCGGAGTCAATGAAGGGGAGCCATCTAGACGAGGTCAAGCGCATGGTGGCGGAGTACAGGAAGCCGGTGGTCA AGCTTGGCGGAGAGACCCTGACAATAGCTCAGGTGGCTGCCATTGCCGCAAACGACAGCGTGAGCGTTGAGCTGTGCGAA TCAGCTAGAGCCGGCGTTAAGGCGAGCAGTGACTGGGTCATGAACAGCATGAACAACGGCACTGACAGTTACGGAGTCAC CACCGGATTCGGGGCCACCTCCCACCGTAGAACCAAAAATGGCAATGCTTTGCAGCTAGAACTCATCAGGTACTATACTA TACTAACTCAAATCCACACTCATCATAACTAACTAGTACTAATTAATTAATCATCATATTTACAATTACATTCATTGTAT AAAAGTTGTTGATGTTTATATATTATTGTTCTTCAGGTTTTTGAATGCTGGAATATTTGGCAATGGTACCGAGACAAACC ACACACTGCCACAGCCTGCAACCAGAGCAGCCATGCTAGTGAGGATCAACACTCTTCTCCAAGGGTACTCAGGCATTAGA TTTGAAATCCTAGAAGCTATCACCAAGCTCATCAACAACAACATCACCCCATGTTTACCACTTCGTGGTACTGTCACGGC TTCTGGTGATCTTGTCCCTCTTTCCTACATTGCTGGTTTGCTTACTGGCCGACAAAACTCCAAAGCTGTAGGACCCTCTG GCGAGGTGATTAATGCCAAGAAAGCTTTCCAATTGGCTGGCATTGACTCAGGGTTCTTCGAATTGCAGCCCAAGGAAGGG CTTGCCCTTGTGAATGGTACTGCTGTTGGTTCAGGGTTAGCTTCTATTGTTCTATTTGATGCTAACGTATTGGCTATACT AGCTGAAGTTCTATCGGCTATTTTCGCTGAAGTGATGCAAGGGAAACCTGAATTCACTGACCATTTGACACATAAGTTGA AGCACCACCCTGGCCAAATTGAGGCTGCTGCTATCATGGAGCACATCTTGGATGGAAGTTCCTACATGAAGGCAGCAAAG AAGTTGCACGAGGTGGATCCCTTGCAAAAGCCAAAACAGGATCGTTATGCACTCAGAACTTCCCCACAGTGGCTTGGCCC TCTGATTGAGGTGATTCGATTCTCAACAAAGTCAATCGAGAGAGAGATTAATTCTGTGAACGACAACCCTTTGATTGATG TCTCCAGAAACAAGGCCTTGCACGGTGGTAATTTCCAAGGAACCCCTATTGGAGTTTCCATGGACAACACACGCCTGGCG CTTGCAGCAATTGGCAAACTCATGTTTGCTCAATTCACTGAGCTGGTGGATGATCATTACAACAATGGGTTGCCTTCAAA TCTCACAGCAAGTAGAAATCCCAGCTTGGATTATGGTCTCAAGGGAGCTGAAATTGCCATGGCTTCTTATTGCTCAGAAC TCCAATATCTTGCAAATCCCGTCACAACCCATGTGCAAAGTGCTGAGCAACACAACCAAGATGTGAACTCTTTGGGTTTG ATTTCTTCTAGAAAAACCTATGAAGCCATTGAGATCCTTAAGCTCATGTCTTCCACATTCTTGATTGCACTTTGCCAAGC AATTGATTTGAGGCATTTGGAGGAGAACTTGAAACACTCAGTGAAGAGTACTGTCAGTCAAGTTGCCAAGAGGACTCTTA CCACTGGTGTTAGCGGAGAACTCCATCCTTCCAGGTTTTGTGAAAAAGATTTGCTGAAGGTGGTCGATAGGGAAACTCTA TTTGCCTACATCGATGACCCCTGCCTTGCTACTTACCCATTGATGCAAAAGCTGAGGCAAGTGCTTGTGGATCATGCGTT AGTAAATGGAGAAAATGAGAAGGACTCAAAGACATCAATCTTTCAAAAGATTGGAAGTTTTGAGGATGAGTTGAAGAGTC TACTGCCAAAGGAGGTTGAAAGTGCAAGGGCTGCATATGAGAGTGGCAATCCAGCAATTCCAAACAAGATCAATGAATGC AGATCTTACCCACTGTACAAGTTTGTGAGGGAAGAGTTGGGAACTGAGTTGCTAACTGGTGAAAAGTCCAGGTCACCAGG TGAGGAGTTTGACAAACTGTTCACAGCAATATGCCAGGGTAAAATTATAGATCCTCTTTTGGAATGCCTTGGGGAGTGGA ACGGTGCTCCTCTTCCAATTTGTTAACTTTACTAGTTTCTTCAGGATATGTTTTCTTTGTACTTATGCTACTGTAACTTT ATTCATTTGCTTTATCAAGCCTTGGGCAAAATAATATGGAAAACTAATTTGCGGAATATGGAATTATGGCTAAACATGTT ACTAGGCTATAGCTATTTGTACCAAACTAATTTGTGGAATTTCTCCACAATATGCTAACTTTAAAGATCAAATTCCCTGT ACAGGTATGACATTGAACTCTTAAGCAAGGTAAACAGGAAATAAAACTAAATAAGGATAGAAAGAAAGAGAACAAATAAA CCCTGGCATTGCTCATCAACTTTTAATATCTGCTAAACAACCACCTGGAATGTCCCCATCCAAAGCAACCTCAAGATCAA TAAACCACTAAATCATGATATGTGACATATATATCAAAGCAGAAAGACAAGAGATAAAAGTAGATTTTTGCAAAAGCTGG GTGCGAGGGGAAATGATGAGAATCTGACATTAAATCAGAATAAGCCTGCAGACCCTAAACCAAGTTCTATAAATTTCATC TCACCTTATTCAAATAAAAAAACCAGAATACCAACCATTAAAAGTTAGTCTAATATTTTGGAATTGCTCTTAAATTTCAG CAAGCTAGTAGTTTGATTACCTGGCTTTTACCAAAAAGAGACTTATGTGAGAAACATGTTACAGACAACATGTTACAGAA CATTTTCCCACCCTTTCCCAAAACTTATGCATCATAGATGCAGTTCAGTATATTAAGATCACCAACTCAGACCAGAATCT TTGGTTTTTAGCTTATCTGAAACCAATTCAGGGAAGTAACAACACTTCAGTCTAGTACAGATAGAGGAGTAGAATCAAAT GAAATCAATGTATAAGTTTTACATTTATACACCAATTTTAGGCCACTAGTTTGTTTTAATCCAATGTCTGCGAAGAATGC AAATCTTATATGTAAAATCCAACGCTAATTAGGGAAAAGGGATAAGCTCTAGACAGAATAAAACTATAATTGTTTCTAAA ACTCTTACAGTTCGAGAGAAGACATTTTACCATGCTATGTGATGTGATGTGAGGTTTAAACTTCAGAATATAGTGATTTG TACCCTTTGCATCATACGTGTAATTGTTAAGTAATCTTATACTTTTTCTACCTCTTCCCACCGTTTTTGTCTGCTCACCT GTGCTTTCTGCTTTGAACTTCACTATGTTCATAATCCTGTTTGTCTTACCTCTCATTTCCACTCTGTTTTTGTTCTTATT TTTTCTCTATTCTATCTCTATCACATCACTTATGCTATCACTCATTTCTCTCTCTTATATTTCTTTCAAAAAGTGTAGAG GGTAAAAGTATGAAGAGAACATTAATCTTCTGTTTTTCCTTCTTTTCTCATTCAATCGTATTATTAAGTACAAGAGCTCT TAAACTTATATCAAATAAAAATTTCAAAAAAAAATTGCATTTTGTTAAATCCCGAATATATATATATATATATATATATA TATATATATTTAATTAAAATAAAAACAAAATTACTATTTGATTCACATTTTTTATCAATATTTATATTTTCTTTCTAAGG TGTATAATTGTCAATTATGATATGAGTATAATTCATTTACACTCTTATAATTTTCCACTTCATTTACTTTTTCTTAATTA TATACACATAACATAAGGGGTAAGCCCTTCTAAGAAAATGAGAAGAAAAAAAAAATGGTAGTCCGTCCATCCAATCAGAA CCATCCCAGAATGAAGTCTATAGATTAATCAACAAATTAATAACAGCAGAAGTGCAAAAAACCAGAACCACTAAAAGAAA ACCAGCCAAATGAGAAATAAACCAAAATAGCAGGGGACACCAGTTTTGAACACCATGGTCATGCCTTAAGCAACAAAAGA AGCCGGCTCAGCATAATATTTTTCTTTGTATTTCATCTCATCTCCACATATATTCTCTTCTTAATTATTTCTTATTTTTC TATCATATTACATATCGTCTCTCTCATTTTCTCTTTTTTTTTCCTTTCTCCCACTTGGTATAAGTATGGGAGAAGTGTGA ATAACAACTTATTCATCATAATATAGAAGATGTTAACGTTTAAGAAAGAATTTTCTATTTTTTTCACTGAAGTAATTTTT TTCTTTTTAGGCACATGAGTTGCTTGAATAAAGCTGTGCTACTTAATCGAACAGTACTCCAAGAGTCCAAGTCAAATAGA TTAAACTGGTTTAGATAATTGTTTCCTTTGATGTCAAAACTTGACCCATGCACGTGCTTTAGCTTACGTTGACTGAAACC AAACCGTGAAAACTTGGTATGTTACATTTGATCCTCACGTTGATTGAGAAAAACTACAAAAAAACAAACCAAGCCGTCAA AAGAATACTGTGTGGTACATGCTTGACTTGACTGTGTTTGGTGTACCTCGCAGATTCCTTCCTCTTCCAACTACCTTCTC ATTTCGTTTGGAGGACACAGCAGCCACATCTACCAACAAGCTTGAACAAATCTTGGAGTGACACGTAGCAGGATCCAAGT CGCTCGTGAAGGAATGGCAATCAGACGGCCATTATAAATTTTTCACCAACCCCCTTTCTGTCCTATCTACCTAACAGCTA CGCATGACTCACACACCAATCTTCCTATAAATGCCCACTCACTCTCCATTCATCTCTCAGGAAATCAACAATTCTCCTAA GTATTTCCACATTTAACACAACAATCTCTTCTCTCCCTCATAACTTGAGCAAGCTAGCTCCATTTTTTGTTACGATAATC AATCTTTCAAGTATAATATCTATCAGTTTGCAATAATATTAAGATGGCACCAACCACCAATGGCCACCACCAGAGCCAAA ATGATTCCATCTTCTGCACAGCTGCTAAAGCCGGCAGTGATCCCTTAAGTTGGGGTGTAGCAGCAGAGTCAATGAAGGGG AGCCACCTGGACGAGGTCAAGCGCATGGTGGCAGAGTACCGGAAGCCGGTGGTCAAGCTTGGCGGAGAGACTCTCACAAT AGCTCAGGTGGCTGCCATCGCCGCAAACGACCAAGGCGTGAGCGTTGAGCTTTGTGAATCAGCTAGAGCTGGCGTCAAGG CAAGCAGTGACTGGGTGATGAACAGCATGAACAACGGCACTGACAGTTACGGTGTCACCACCGGCTTCGGCGCCACTTCC CACCGTAGAACCAAAAATGGCAATGCTTTGCAGCTAGAACTCATCAGGTACTATAATATACTAACTCAATTCCACACTCA TCATAACTAACTACTAATTAATTAATCATCTTATTTGCAATTACATTCAATGTATAAAAGTTGTTGATGTTTATATATTC TTGTTCTTCAGGTTTTTGAATGCTGGAATATTTGGCAATGGTACCGAGACAAACCACACACTGCCACAGCCTGCAACCAG AGCAGCCATGCTAGTGAGGATCAACACTCTTCTCCAAGGATACTCAGGCATTAGATTTGAAATCCTAGAAGCTATCACCA AGCTCATCAACAACAACATCACCCCTTGTTTACCACTTCGTGGTACTGTCACGGCTTCTGGTGATCTAGTCCCTCTTTCC TACATTGCTGGTTTGCTTACTGGCCGACAAAATTCCAAAGCCGTTGGACCATCCGGCGAGGTGGTTAATGCCAAGGAAGC TTTCCAATTGGCTGGCATTGACTCTGGGTTCTTTGAATTGCAGCCTAAGGAAGGGCTTGCCCTTGTAAATGGCACTGCTG TTGGTTCTGGGTTAGCTTCTATTGTTCTCTTTGATGCTAATGTATTGGCTATACTATCTGAAGTTCTATCAGCTATTTTT GCCGAAGTCATGCAAGGGAAACCTGAATTCACTGACCATTTGACTCATAAGTTGAAGCACCACCCTGGCCAGATTGAGGC TGCTGCTATCATGGAGCACATCTTGGATGGAAGTTCCTATATGAAAGCAGCAAAGAAGTTGCACGATGTGGACCCTTTAC AAAAGCCAAAACAAGATCGATATGCACTTCGTACTTCTCCACAATGGCTTGGTCCTCTGATTGAAGTGATTCGATTCTCA ACAAAGTCAATCGAGAGAGAGATTAACTCTGTGAATGACAACCCTTTGATTGATGTTTCAAGAAACAAGGCCTTGCACGG TGGTAATTTCCAAGGAACCCCTATTGGAGTTTCCATGGACAACACACGCCTGGCTCTTGCAGCAATTGGCAAACTCATGT TTGCTCAATTCACTGAGCTTGTGGATGATCATTACAACAACGGGCTGCCTTCAAATCTCACAGCTAGTAGAAATCCCAGC TTGGATTATGGTCTCAAGGGAGCTGAAATTGCCATGGCTTCTTATTGCTCCGAGCTCCAATATCTTGCGAATCCAGTCAC AACTCATGTCCAAAGTGCTGAGCAACATAACCAAGATGTGAATTCCTTGGGTTTGATTTCTTCTAGAAAAACGTATGAAG CCATTGAAATCCTTAAGCTCATGTCTTCCACATTCTTGATTGCACTTTGCCAAGCAATTGACTTGAGGCATTTGGAGGAG AACTTGAAACACTCGGTGAAGAGCACTGTAAGTCAAGTTGCCAAGAGGACTCTGACCACTGGTGTTAATGGGGAACTCCA TCCTTCCAGGTTTTGTGAAAAAGATTTGCTGAAGGTGGTCGATAGGGAAACTCTATTTGCCTACATTGATGACCCATGCC TTGCTACTTACCCATTGATGCAAAAACTGAGGCAAGTGCTTGTGGACCATGCATTAGTAAATGGAGAAAACGAGAAGGAC TCAAAGACATCAATCTTTCAAAAGATTGCAACTTTCGAGGATGAGTTGAAGAGTCTCTTGCCTAAGGAGGTCGAAAGCGC AAGGGCTGCATATGAGAGTGGAAATCCAGCAATTCCAAACAAGATAAATGAATGCAGATCTTACCCACTGTACAAGTTTG TGAGGGAGGAGCTGGGAACTGAGTTGCTTACTGGTGAAAAGACCAGGTCTCCGGGCGAGGAGTTTGACAAATTGTTCACA GCAATATGCCAGGGTAAAATTATTGATCCACTTATGGAATGCCTTGGAGAGTGGAACGGTGCCCCTCTTCCAATTTGTTA ATTTTACCAGTCATTTTTTTATATGATTTCTTTGTATTTATAAAGCGTAACATTAGTCATTTGTTTTATCAATTCTTGTA ACCACTGCGTGTAGACCAAAATAGCTGCACAGCTTTGTAATAAATCTATTACTTTCTCTATATGTATCCTATTTTCTCAC ACTAACAGGGCATCAGCTAACTAAAGAAGTCTACGGCTTTAAGGTTTGCGTCGCTTCTCCCTACTTCTAAACGTCACGCC TCACCC
CDS sequence (LotjaGi1g1v0690200.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCACCAACCACCAACGGCCACCACCAAAGCCAAACCGATTCCATCTTTTGCACTACAGCTAAAACTGGCAGTGATCC CTTGAGTTGGGGTGTAGCGGCGGAGTCAATGAAGGGGAGCCATCTAGACGAGGTCAAGCGCATGGTGGCAGAGTACCGGA AGCCGGTGGTCAAGCTTGGCGGAGAGACTCTCACAATAGCTCAGGTGGCTGCCATCGCCGCAAACGACCAAGGCGTGAGC GTTGAGCTTTGTGAATCAGCTAGAGCTGGCGTCAAGGCAAGCAGTGACTGGGTGATGAACAGCATGAACAACGGCACTGA CAGTTACGGTGTCACCACCGGCTTCGGCGCCACTTCCCACCGTAGAACCAAAAATGGCAATGCTTTGCAGCTAGAACTCA TCAGGTTTTTGAATGCTGGAATATTTGGCAATGGTACCGAGACAAACCACACACTGCCACAGCCTGCAACCAGAGCAGCC ATGCTAGTGAGGATCAACACTCTTCTCCAAGGATACTCAGGCATTAGATTTGAAATCCTAGAAGCTATCACCAAGCTCAT CAACAACAACATCACCCCTTGTTTACCACTTCGTGGTACTGTCACGGCTTCTGGTGATCTAGTCCCTCTTTCCTACATTG CTGGTTTGCTTACTGGCCGACAAAATTCCAAAGCCGTTGGACCATCCGGCGAGGTGGTTAATGCCAAGGAAGCTTTCCAA TTGGCTGGCATTGACTCTGGGTTCTTTGAATTGCAGCCTAAGGAAGGGCTTGCCCTTGTAAATGGCACTGCTGTTGGTTC TGGGTTAGCTTCTATTGTTCTCTTTGATGCTAATGTATTGGCTATACTATCTGAAGTTCTATCAGCTATTTTTGCCGAAG TCATGCAAGGGAAACCTGAATTCACTGACCATTTGACTCATAAGTTGAAGCACCACCCTGGCCAGATTGAGGCTGCTGCT ATCATGGAGCACATCTTGGATGGAAGTTCCTATATGAAAGCAGCAAAGAAGTTGCACGATGTGGACCCTTTACAAAAGCC AAAACAAGATCGATATGCACTTCGTACTTCTCCACAATGGCTTGGTCCTCTGATTGAAGTGATTCGATTCTCAACAAAGT CAATCGAGAGAGAGATTAACTCTGTGAATGACAACCCTTTGATTGATGTTTCAAGAAACAAGGCCTTGCACGGTGGTAAT TTCCAAGGAACCCCTATTGGAGTTTCCATGGACAACACACGCCTGGCTCTTGCAGCAATTGGCAAACTCATGTTTGCTCA ATTCACTGAGCTTGTGGATGATCATTACAACAACGGGCTGCCTTCAAATCTCACAGCTAGTAGAAATCCCAGCTTGGATT ATGGTCTCAAGGGAGCTGAAATTGCCATGGCTTCTTATTGCTCCGAGCTCCAATATCTTGCGAATCCAGTCACAACTCAT GTCCAAAGTGCTGAGCAACATAACCAAGATGTGAATTCCTTGGGTTTGATTTCTTCTAGAAAAACGTATGAAGCCATTGA AATCCTTAAGCTCATGTCTTCCACATTCTTGATTGCACTTTGCCAAGCAATTGACTTGAGGCATTTGGAGGAGAACTTGA AACACTCGGTGAAGAGCACTGTAAGTCAAGTTGCCAAGAGGACTCTGACCACTGGTGTTAATGGGGAACTCCATCCTTCC AGGTTTTGTGAAAAAGATTTGCTGAAGGTGGTCGATAGGGAAACTCTATTTGCCTACATTGATGACCCATGCCTTGCTAC TTACCCATTGATGCAAAAACTGAGGCAAGTGCTTGTGGACCATGCATTAGTAAATGGAGAAAACGAGAAGGACTCAAAGA CATCAATCTTTCAAAAGATTGCAACTTTCGAGGATGAGTTGAAGAGTCTCTTGCCTAAGGAGGTCGAAAGCGCAAGGGCT GCATATGAGAGTGGAAATCCAGCAATTCCAAACAAGATAAATGAATGCAGATCTTACCCACTGTACAAGTTTGTGAGGGA GGAGCTGGGAACTGAGTTGCTTACTGGTGAAAAGACCAGGTCTCCGGGCGAGGAGTTTGACAAATTGTTCACAGCAATAT GCCAGGGTAAAATTATTGATCCACTTATGGAATGCCTTGGAGAGTGGAACGGTGCCCCTCTTCCAATTTGTTAA
Protein sequence (LotjaGi1g1v0690200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAPTTNGHHQSQTDSIFCTTAKTGSDPLSWGVAAESMKGSHLDEVKRMVAEYRKPVVKLGGETLTIAQVAAIAANDQGVS VELCESARAGVKASSDWVMNSMNNGTDSYGVTTGFGATSHRRTKNGNALQLELIRFLNAGIFGNGTETNHTLPQPATRAA MLVRINTLLQGYSGIRFEILEAITKLINNNITPCLPLRGTVTASGDLVPLSYIAGLLTGRQNSKAVGPSGEVVNAKEAFQ LAGIDSGFFELQPKEGLALVNGTAVGSGLASIVLFDANVLAILSEVLSAIFAEVMQGKPEFTDHLTHKLKHHPGQIEAAA IMEHILDGSSYMKAAKKLHDVDPLQKPKQDRYALRTSPQWLGPLIEVIRFSTKSIEREINSVNDNPLIDVSRNKALHGGN FQGTPIGVSMDNTRLALAAIGKLMFAQFTELVDDHYNNGLPSNLTASRNPSLDYGLKGAEIAMASYCSELQYLANPVTTH VQSAEQHNQDVNSLGLISSRKTYEAIEILKLMSSTFLIALCQAIDLRHLEENLKHSVKSTVSQVAKRTLTTGVNGELHPS RFCEKDLLKVVDRETLFAYIDDPCLATYPLMQKLRQVLVDHALVNGENEKDSKTSIFQKIATFEDELKSLLPKEVESARA AYESGNPAIPNKINECRSYPLYKFVREELGTELLTGEKTRSPGEEFDKLFTAICQGKIIDPLMECLGEWNGAPLPIC
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 | 13 | 717 | 705 | 0.0 | – | |
PANTHER | 13 | 717 | 705 | 0.0 | ||
Gene3D | 25 | 263 | 239 | 8.4E-96 | ||
SUPERFAMILY | 26 | 717 | 692 | 3.22E-263 | ||
TIGRFAM | 26 | 706 | 681 | 0.0 | ||
CDD | 62 | 527 | 466 | 0.0 | ||
Pfam | 64 | 535 | 472 | 1.4E-152 | ||
ProSitePatterns | 199 | 215 | 17 | - | ||
Gene3D | 264 | 706 | 443 | 2.3E-217 | – | |
Gene3D | 530 | 644 | 115 | 2.3E-217 |
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. | ||
Cellular component | Cytoplasm | All of the contents of a cell excluding the plasma membrane and nucleus, but including other subcellular structures. | ||
Biological process | L-phenylalanine catabolic process | The chemical reactions and pathways resulting in the breakdown of phenylalanine, 2-amino-3-phenylpropanoic acid. | ||
Molecular function | Ammonia-lyase activity | Catalysis of the release of ammonia by the cleavage of a carbon-nitrogen bond or the reverse reaction with ammonia as a substrate. |
Expression pattern of LotjaGi1g1v0690200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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