Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0690200
Transcript ID	LotjaGi1g1v0690200.4
Related isoforms 9	LotjaGi1g1v0690200.1 LotjaGi1g1v0690200.2 LotjaGi1g1v0690200.3 LotjaGi1g1v0690200.5 LotjaGi1g1v0690200.6 LotjaGi1g1v0690200.7 LotjaGi1g1v0690200.8 LotjaGi1g1v0690200.9 LotjaGi1g1v0690200.10
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_chr1:125781284..125793786) extracted from Lotus japonicus Gifu genome v1.2.

ACCTCAAAAGAGAGGTGTGGATGAAACATTATCCCTCTTTCTATATAAATACCCACTCACTCTTCCCTTTACCTCTCAGG AAACCCACAACTCACCAAACTAACATTTCCACATTCAGCTCACCAATCTCTTCCTCATTTTCCCTTCTCATAACTCTAGC AAACTTAGTCCATTTTTCTTAAGATAATCAATCTTGTAAGTGAGAGATCATATATACTAAGATGGCACCAACCACCAACA GCAACCACGAGAGCCTAAATAGTTCCATCTTCTGCACTGCTGCTAAAGCAGGCAGTGATCCCTTGAGTTGGGGTGTAGCA GCAGATTCGATGAAGGGGAGCCACCTGGATGAGGTCAAGCGCATGGTGGCTGAGTACAGGAAGCCTGTGGTCAAGCTAGG CGGGGAAACTCTGACCATAGCTCAGGTAGCTGCCATTGCAGCAAACGACCAAGGCGTAAGCGTTGAGCTGTGCGAATCAG CTAGAGCTGGCGTTAAGGCGAGCAGTGACTGGGTGATGAACAGCATGAACAATGGCACTGACAGTTACGGTGTCACCACC GGCTTTGGCGCCACCTCCCACCGCAGAACCAAAAATGGCAATGCTTTGCAGCTAGAACTCATTAGGTAATAACTCAATTC CAATTTCAGCACACATAACTAACTACTTGCAGTTTAATTTATTTTCCATCCACTTCCTAATTAATTCATTCCTAACTCCT AATTGATTAGTCATCAGATATACATATACATTTCATTAAATAAAAGTTGTTGATGTTAATATGTTCTTGTTCTTCAGGTT TCTGAATGCTGGAATATTTGGCAATGGTACAGAAACAAGTCACACACTACCACAGCCTGCAACTAGAGCAGCGATGCTAG TGAGGATCAACACTCTTCTCCAAGGATACTCAGGCATTAGGTTTGAAATTCTAGAAGCTATCACCAAGCTCATCAACAAC AACATCACCCCATGTTTACCACTTCGTGGTACTGTCACGGCCTCCGGTGATCTGGTCCCTCTTTCTTACATTGCCGGCTT GCTTACTGGCCGACAAAACTCCAAAGCTGTTGGACCATCTGGCAAGGTACTTAATGCCAAGGAAGCTTTCCAATCAGCTG GCATAGACTCAGGGTTCTTTGAATTGCAGCCCAAGGAAGGGCTTGCTCTTGTTAATGGCACTGCTGTTGGTTCTGGGTTA GCTTCTATTGTTCTCTTTGATGCGAACATTTTGGCTATACTGTCTGAAGTTTTATCGGCTATTTTTGCCGAAGTGATGCA AGGGAAACCTGAATTTACCGACCATTTGACACATAAGTTAAAGCACCACCCTGGCCAAATTGAGGCTGCTGCTATCATGG AGCACATTTTGGATGGAAGTTCCTACATGAAAGCTGCAAAGAAGTTGCATGAGGTGGATCCTTTGCAAAAGCCAAAACAA GATCGATATGCACTTAGAACTTCACCTCAGTGGCTTGGCCCTCTGATTGAAGTGATTCGATTCTCAACAAAGTCGATCGA GAGAGAGATTAATTCTGTGAACGACAACCCTTTGATTGATGTTTCCAGAAACAAGGCCTTGCACGGTGGTAATTTCCAAG GGACCCCTATTGGAGTTTCCATGGACAACACACGTCTGGCCCTTGCAGCAATTGGAAAACTCATGTTTGCTCAGTTCACT GAGCTTGTGGATGACCACTACAACAATGGCTTACCTTCAAATCTCACTGCTAGTAGAAATCCCAGCTTGGATTACGGTCT TAAGGGAGCTGAAATTGCAATGGCTTCTTATTGCTCTGAACTCCAATATCTTGCAAATCCAGTCACAACTCATGTCCAAA GTGCTGAGCAACACAACCAAGACGTGAACTCTTTGGGTTTGATTTCTTCTAGAAAAACCAACGAAGCCGTTGAGATCCTT AAGCTCATGTCTTCCACATTCTTGATTGCACTTTGCCAAGCAATTGACTTGAGGCATTTGGAGGAGAACTTGAAATACTC AGTGAAGAGCACTGTAAGTCAAGTTGCCAAGAGGACTCTTACCACAGGTGTCAACGGAGAACTCCATCCTTCCAGGTTTT GTGAAAAAGATTTGCTGAAGGTGGTCGATAGGGAAGCTGTATTTGCCTACATTGATGACCCTTGCCTTGCTACTTACCCA TTGATGCAGAAACTGAGGCAAGTGCTTGTGGATCATGCTTTAGTAAATGGAGAAAACGAGAAGGACTCAAAGACATCAAT CTTTCAAAAGATTGCAACTTTTGAGGATGAGTTGAAGAGTCTCTTGCCAAAGGAGGTTGAAAGTGCAAGGGCTGCATATG AGAGTGGCAATCCAACAATTTCAAACAAGATTAACGAATGCAGGTCTTATCCATTGTACAAGTTTGTGAGGGAGGAGCTG GGAACTGAGTTGCTAACTGGTGAAAAGTCCAGGTCACCAGGCGAGGAGTGTGACAAATTGTTCACAGCAATATGCCAGGG TAAAATTATTGATCCTCTTTTGGAATGCCTTGGGGAGTGGAACGGTGCCCCTCTTCCAATATGCTAACTTTATTAGTAAC TTTTAGAAATGGTTTCTTTGTATCTTCGCAAGGGAAGCATTAATCATTCAGATTATCAAGTCCTTAGCAAACTAATAAGG AAAACTCCATCTCAATTTCCTCGATGTGAAAGAGGAGCTTGTAATTTAATATTATATAATAGAATTTTTAGTTGTTTGCC AGAGCTTTGAGTATCACTATATTATAATACATAGTTTCATGTCTTTGAAACTGCAAACATTTTTCTTTATGTTGTATTTA GTTGAGTTCAAGTTTGTTTCTTAAGATCAGCATTACCTCAGCTTTTGGAAAATCACATCTAATCGTGTGGAATTACAACT GAAGACAAGGGCAAACAGTATATTCAAATACTCGTTAGTCAGCACATTTAACAGCAGCGAGGGGCTGGAGTCTTTAGTTC ATTTAGCATATTTTGTCTATAATTCAGCAAAGAGTGTCTTTTCTCCATTCAGAAAATGGACAATTAGACACAGCAATCAT TTCTCACTTTCATGTTTTGATGCCTAAAAATATCTGTTTTCATCAGCACATGTATAACCAATTTTAGTGTATGAGTTTCA GATGATGTTTCCCACCCTTTGTTCACTTGTTGTTCTAGCTATATCTTTTCTTGATTTTGTAAATTTTATACAATCTTCAA AAATTGTGCCAACAATAGGTTTAACCATGACAATGGTTTGATCAAATGAAATGTCCCTATTCACATGCTTTGGTATTTTA CTTTTGTTATAATGAACTCTGCACAGCTTTATATCTTTCTTCCTTGCATCCTGCTCCAAAATGTAGTGTCTCTTACCATC CCTACCCCACTGAAAATGAAATCCTCCAAAGATTCTTTAAAATTCACTCCACTTTCTTGAAGACAATTTACTGATACTCA TTGCACTAGATGCCTACAGTCCCTCCACTAATTCAGAATTTTGTAGAAGGTATATTAGCCAGGTCAGGTAGCTAAACATT TGAAAACCAAAGTCATCAGAGAAAGGAAACTATGTTTGTACAACCTGTCAGTATGTTTTACTTATCCTACTTATCACTGA TGTTGCACATTTGCAATAGAATTAACTTTGAAGCAAATATTGACATGATACTCTGGGTTGTCAAAGGGTTAACCACCAAT TATGTAAATTGCTCAAATCTTTGAGCAGGAATATGAGAGGTATGGTTCCATGATACATGACAATTGGAAAAGCTAGGCAT TGCCACTGTACAGGGGAAACATATTTAGTAGGGCTATTAAGATTTAAGAGGTGCATATGCATGAAACAGCACGACACCAA TAATATAAGGCATTCAATACATCAACAAATCTTCTGTCTAGGTACAGTACTTTCTACAAGCAATAAAGTTTAATGTAGAA TATGGAATTATGGCTAAACATGTGGCAATAGGCTAATTGCACCATACTAATTATTAGGTGTGTAAAAAGTAATTTTAGGA TGTACTCACTTGCCTTTGAGATAGACATCTGTGGTACCTGGGCTTTAGCCTTTTTGTGCTGGGCCTTTACGCTTTTAATA TGATCCACCTTTGACCCAAAAAAAGATCTTATATCAGCAATGAGGGATCAAAAGCAGTAATGAAGCAGAAGTTAACCATT GACCAAAAAAAAAAAGCAGAAGTTAACCAGAATAGCAGGGAGCACTAGTTTTGGACACATTGTCATGCACTAAGCAACAA TAGAAGCCAGTTCAACATACTATCACATAGAGGATTTAATTTTTAAGGTAGAGTTTTCAATTTTTTCCCTGATGTAATTT TTTTCTTTTTAGGTAGAGGAGTTGAATGAATCAAGTTGAGCTAATGAACCAGACAGAACTCCAAATCAAATAAATTAAAT TAAACTGGTTTAGATAGTTGTTAAAACTTGACCTACATGTTTAGCTTTTTCGTTGACTGAATACACCAAACCATGAAACT TATTAGTAGAATATTAGATAAAATAATATGATTGTCATGTTGGTTGAAAAAATTACAAAATAAAAACCAAGCCGTCTAAA TTATTAGAATTCGGTGTGATGTAGAGGCTTGACTTGACTACGTTTGGAGTTGAACTAGCAAGAGTGGTGTTCCCACATTG CTTCCTTCGTCTAATGCTGACCCCAACAACCTACCTCCACATTTCGTTTGGAAACACAGCAGCCACGTTGCAAGATCATA GCCGCTGGTAAAGGGAGTAGCAATCCTACGGATATAATTAGTTTTCCACCAACCCCCTTTCTAACAGAGCCCGCCAATCC TATTCTACCTAACAAAACCACATGACACACACACCACATTCTCTATAAATTCCCACTCACCATTCCCTTCATCTCTCAGG AAATCAACAACCCTCCTAAGTATTTCCACATTCAACACAACAATCTCTACCTCATAACTTGAGCAAGCCAGCTCCATTTG TGTTTCAATAATCAATCTTCCAAGTAAACTATTTATCAGTTTGCATTTTTAAGATGGCACCAACCACCAACGGCCACCAC CAAAGCCAAACCGATTCCATCTTTTGCACTACAGCTAAAACTGGCAGTGATCCCTTGAGTTGGGGTGTAGCGGCGGAGTC AATGAAGGGGAGCCATCTAGACGAGGTCAAGCGCATGGTGGCGGAGTACAGGAAGCCGGTGGTCAAGCTTGGCGGAGAGA CCCTGACAATAGCTCAGGTGGCTGCCATTGCCGCAAACGACAGCGTGAGCGTTGAGCTGTGCGAATCAGCTAGAGCCGGC GTTAAGGCGAGCAGTGACTGGGTCATGAACAGCATGAACAACGGCACTGACAGTTACGGAGTCACCACCGGATTCGGGGC CACCTCCCACCGTAGAACCAAAAATGGCAATGCTTTGCAGCTAGAACTCATCAGGTACTATACTATACTAACTCAAATCC ACACTCATCATAACTAACTAGTACTAATTAATTAATCATCATATTTACAATTACATTCATTGTATAAAAGTTGTTGATGT TTATATATTATTGTTCTTCAGGTTTTTGAATGCTGGAATATTTGGCAATGGTACCGAGACAAACCACACACTGCCACAGC CTGCAACCAGAGCAGCCATGCTAGTGAGGATCAACACTCTTCTCCAAGGGTACTCAGGCATTAGATTTGAAATCCTAGAA GCTATCACCAAGCTCATCAACAACAACATCACCCCATGTTTACCACTTCGTGGTACTGTCACGGCTTCTGGTGATCTTGT CCCTCTTTCCTACATTGCTGGTTTGCTTACTGGCCGACAAAACTCCAAAGCTGTAGGACCCTCTGGCGAGGTGATTAATG CCAAGAAAGCTTTCCAATTGGCTGGCATTGACTCAGGGTTCTTCGAATTGCAGCCCAAGGAAGGGCTTGCCCTTGTGAAT GGTACTGCTGTTGGTTCAGGGTTAGCTTCTATTGTTCTATTTGATGCTAACGTATTGGCTATACTAGCTGAAGTTCTATC GGCTATTTTCGCTGAAGTGATGCAAGGGAAACCTGAATTCACTGACCATTTGACACATAAGTTGAAGCACCACCCTGGCC AAATTGAGGCTGCTGCTATCATGGAGCACATCTTGGATGGAAGTTCCTACATGAAGGCAGCAAAGAAGTTGCACGAGGTG GATCCCTTGCAAAAGCCAAAACAGGATCGTTATGCACTCAGAACTTCCCCACAGTGGCTTGGCCCTCTGATTGAGGTGAT TCGATTCTCAACAAAGTCAATCGAGAGAGAGATTAATTCTGTGAACGACAACCCTTTGATTGATGTCTCCAGAAACAAGG CCTTGCACGGTGGTAATTTCCAAGGAACCCCTATTGGAGTTTCCATGGACAACACACGCCTGGCGCTTGCAGCAATTGGC AAACTCATGTTTGCTCAATTCACTGAGCTGGTGGATGATCATTACAACAATGGGTTGCCTTCAAATCTCACAGCAAGTAG AAATCCCAGCTTGGATTATGGTCTCAAGGGAGCTGAAATTGCCATGGCTTCTTATTGCTCAGAACTCCAATATCTTGCAA ATCCCGTCACAACCCATGTGCAAAGTGCTGAGCAACACAACCAAGATGTGAACTCTTTGGGTTTGATTTCTTCTAGAAAA ACCTATGAAGCCATTGAGATCCTTAAGCTCATGTCTTCCACATTCTTGATTGCACTTTGCCAAGCAATTGATTTGAGGCA TTTGGAGGAGAACTTGAAACACTCAGTGAAGAGTACTGTCAGTCAAGTTGCCAAGAGGACTCTTACCACTGGTGTTAGCG GAGAACTCCATCCTTCCAGGTTTTGTGAAAAAGATTTGCTGAAGGTGGTCGATAGGGAAACTCTATTTGCCTACATCGAT GACCCCTGCCTTGCTACTTACCCATTGATGCAAAAGCTGAGGCAAGTGCTTGTGGATCATGCGTTAGTAAATGGAGAAAA TGAGAAGGACTCAAAGACATCAATCTTTCAAAAGATTGGAAGTTTTGAGGATGAGTTGAAGAGTCTACTGCCAAAGGAGG TTGAAAGTGCAAGGGCTGCATATGAGAGTGGCAATCCAGCAATTCCAAACAAGATCAATGAATGCAGATCTTACCCACTG TACAAGTTTGTGAGGGAAGAGTTGGGAACTGAGTTGCTAACTGGTGAAAAGTCCAGGTCACCAGGTGAGGAGTTTGACAA ACTGTTCACAGCAATATGCCAGGGTAAAATTATAGATCCTCTTTTGGAATGCCTTGGGGAGTGGAACGGTGCTCCTCTTC CAATTTGTTAACTTTACTAGTTTCTTCAGGATATGTTTTCTTTGTACTTATGCTACTGTAACTTTATTCATTTGCTTTAT CAAGCCTTGGGCAAAATAATATGGAAAACTAATTTGCGGAATATGGAATTATGGCTAAACATGTTACTAGGCTATAGCTA TTTGTACCAAACTAATTTGTGGAATTTCTCCACAATATGCTAACTTTAAAGATCAAATTCCCTGTACAGGTATGACATTG AACTCTTAAGCAAGGTAAACAGGAAATAAAACTAAATAAGGATAGAAAGAAAGAGAACAAATAAACCCTGGCATTGCTCA TCAACTTTTAATATCTGCTAAACAACCACCTGGAATGTCCCCATCCAAAGCAACCTCAAGATCAATAAACCACTAAATCA TGATATGTGACATATATATCAAAGCAGAAAGACAAGAGATAAAAGTAGATTTTTGCAAAAGCTGGGTGCGAGGGGAAATG ATGAGAATCTGACATTAAATCAGAATAAGCCTGCAGACCCTAAACCAAGTTCTATAAATTTCATCTCACCTTATTCAAAT AAAAAAACCAGAATACCAACCATTAAAAGTTAGTCTAATATTTTGGAATTGCTCTTAAATTTCAGCAAGCTAGTAGTTTG ATTACCTGGCTTTTACCAAAAAGAGACTTATGTGAGAAACATGTTACAGACAACATGTTACAGAACATTTTCCCACCCTT TCCCAAAACTTATGCATCATAGATGCAGTTCAGTATATTAAGATCACCAACTCAGACCAGAATCTTTGGTTTTTAGCTTA TCTGAAACCAATTCAGGGAAGTAACAACACTTCAGTCTAGTACAGATAGAGGAGTAGAATCAAATGAAATCAATGTATAA GTTTTACATTTATACACCAATTTTAGGCCACTAGTTTGTTTTAATCCAATGTCTGCGAAGAATGCAAATCTTATATGTAA AATCCAACGCTAATTAGGGAAAAGGGATAAGCTCTAGACAGAATAAAACTATAATTGTTTCTAAAACTCTTACAGTTCGA GAGAAGACATTTTACCATGCTATGTGATGTGATGTGAGGTTTAAACTTCAGAATATAGTGATTTGTACCCTTTGCATCAT ACGTGTAATTGTTAAGTAATCTTATACTTTTTCTACCTCTTCCCACCGTTTTTGTCTGCTCACCTGTGCTTTCTGCTTTG AACTTCACTATGTTCATAATCCTGTTTGTCTTACCTCTCATTTCCACTCTGTTTTTGTTCTTATTTTTTCTCTATTCTAT CTCTATCACATCACTTATGCTATCACTCATTTCTCTCTCTTATATTTCTTTCAAAAAGTGTAGAGGGTAAAAGTATGAAG AGAACATTAATCTTCTGTTTTTCCTTCTTTTCTCATTCAATCGTATTATTAAGTACAAGAGCTCTTAAACTTATATCAAA TAAAAATTTCAAAAAAAAATTGCATTTTGTTAAATCCCGAATATATATATATATATATATATATATATATATATTTAATT AAAATAAAAACAAAATTACTATTTGATTCACATTTTTTATCAATATTTATATTTTCTTTCTAAGGTGTATAATTGTCAAT TATGATATGAGTATAATTCATTTACACTCTTATAATTTTCCACTTCATTTACTTTTTCTTAATTATATACACATAACATA AGGGGTAAGCCCTTCTAAGAAAATGAGAAGAAAAAAAAAATGGTAGTCCGTCCATCCAATCAGAACCATCCCAGAATGAA GTCTATAGATTAATCAACAAATTAATAACAGCAGAAGTGCAAAAAACCAGAACCACTAAAAGAAAACCAGCCAAATGAGA AATAAACCAAAATAGCAGGGGACACCAGTTTTGAACACCATGGTCATGCCTTAAGCAACAAAAGAAGCCGGCTCAGCATA ATATTTTTCTTTGTATTTCATCTCATCTCCACATATATTCTCTTCTTAATTATTTCTTATTTTTCTATCATATTACATAT CGTCTCTCTCATTTTCTCTTTTTTTTTCCTTTCTCCCACTTGGTATAAGTATGGGAGAAGTGTGAATAACAACTTATTCA TCATAATATAGAAGATGTTAACGTTTAAGAAAGAATTTTCTATTTTTTTCACTGAAGTAATTTTTTTCTTTTTAGGCACA TGAGTTGCTTGAATAAAGCTGTGCTACTTAATCGAACAGTACTCCAAGAGTCCAAGTCAAATAGATTAAACTGGTTTAGA TAATTGTTTCCTTTGATGTCAAAACTTGACCCATGCACGTGCTTTAGCTTACGTTGACTGAAACCAAACCGTGAAAACTT GGTATGTTACATTTGATCCTCACGTTGATTGAGAAAAACTACAAAAAAACAAACCAAGCCGTCAAAAGAATACTGTGTGG TACATGCTTGACTTGACTGTGTTTGGTGTACCTCGCAGATTCCTTCCTCTTCCAACTACCTTCTCATTTCGTTTGGAGGA CACAGCAGCCACATCTACCAACAAGCTTGAACAAATCTTGGAGTGACACGTAGCAGGATCCAAGTCGCTCGTGAAGGAAT GGCAATCAGACGGCCATTATAAATTTTTCACCAACCCCCTTTCTGTCCTATCTACCTAACAGCTACGCATGACTCACACA CCAATCTTCCTATAAATGCCCACTCACTCTCCATTCATCTCTCAGGAAATCAACAATTCTCCTAAGTATTTCCACATTTA ACACAACAATCTCTTCTCTCCCTCATAACTTGAGCAAGCTAGCTCCATTTTTTGTTACGATAATCAATCTTTCAAGTATA ATATCTATCAGTTTGCAATAATATTAAGATGGCACCAACCACCAATGGCCACCACCAGAGCCAAAATGATTCCATCTTCT GCACAGCTGCTAAAGCCGGCAGTGATCCCTTAAGTTGGGGTGTAGCAGCAGAGTCAATGAAGGGGAGCCACCTGGACGAG GTCAAGCGCATGGTGGCAGAGTACCGGAAGCCGGTGGTCAAGCTTGGCGGAGAGACTCTCACAATAGCTCAGGTGGCTGC CATCGCCGCAAACGACCAAGGCGTGAGCGTTGAGCTTTGTGAATCAGCTAGAGCTGGCGTCAAGGCAAGCAGTGACTGGG TGATGAACAGCATGAACAACGGCACTGACAGTTACGGTGTCACCACCGGCTTCGGCGCCACTTCCCACCGTAGAACCAAA AATGGCAATGCTTTGCAGCTAGAACTCATCAGGTACTATAATATACTAACTCAATTCCACACTCATCATAACTAACTACT AATTAATTAATCATCTTATTTGCAATTACATTCAATGTATAAAAGTTGTTGATGTTTATATATTCTTGTTCTTCAGGTTT TTGAATGCTGGAATATTTGGCAATGGTACCGAGACAAACCACACACTGCCACAGCCTGCAACCAGAGCAGCCATGCTAGT GAGGATCAACACTCTTCTCCAAGGATACTCAGGCATTAGATTTGAAATCCTAGAAGCTATCACCAAGCTCATCAACAACA ACATCACCCCTTGTTTACCACTTCGTGGTACTGTCACGGCTTCTGGTGATCTAGTCCCTCTTTCCTACATTGCTGGTTTG CTTACTGGCCGACAAAATTCCAAAGCCGTTGGACCATCCGGCGAGGTGGTTAATGCCAAGGAAGCTTTCCAATTGGCTGG CATTGACTCTGGGTTCTTTGAATTGCAGCCTAAGGAAGGGCTTGCCCTTGTAAATGGCACTGCTGTTGGTTCTGGGTTAG CTTCTATTGTTCTCTTTGATGCTAATGTATTGGCTATACTATCTGAAGTTCTATCAGCTATTTTTGCCGAAGTCATGCAA GGGAAACCTGAATTCACTGACCATTTGACTCATAAGTTGAAGCACCACCCTGGCCAGATTGAGGCTGCTGCTATCATGGA GCACATCTTGGATGGAAGTTCCTATATGAAAGCAGCAAAGAAGTTGCACGATGTGGACCCTTTACAAAAGCCAAAACAAG ATCGATATGCACTTCGTACTTCTCCACAATGGCTTGGTCCTCTGATTGAAGTGATTCGATTCTCAACAAAGTCAATCGAG AGAGAGATTAACTCTGTGAATGACAACCCTTTGATTGATGTTTCAAGAAACAAGGCCTTGCACGGTGGTAATTTCCAAGG AACCCCTATTGGAGTTTCCATGGACAACACACGCCTGGCTCTTGCAGCAATTGGCAAACTCATGTTTGCTCAATTCACTG AGCTTGTGGATGATCATTACAACAACGGGCTGCCTTCAAATCTCACAGCTAGTAGAAATCCCAGCTTGGATTATGGTCTC AAGGGAGCTGAAATTGCCATGGCTTCTTATTGCTCCGAGCTCCAATATCTTGCGAATCCAGTCACAACTCATGTCCAAAG TGCTGAGCAACATAACCAAGATGTGAATTCCTTGGGTTTGATTTCTTCTAGAAAAACGTATGAAGCCATTGAAATCCTTA AGCTCATGTCTTCCACATTCTTGATTGCACTTTGCCAAGCAATTGACTTGAGGCATTTGGAGGAGAACTTGAAACACTCG GTGAAGAGCACTGTAAGTCAAGTTGCCAAGAGGACTCTGACCACTGGTGTTAATGGGGAACTCCATCCTTCCAGGTTTTG TGAAAAAGATTTGCTGAAGGTGGTCGATAGGGAAACTCTATTTGCCTACATTGATGACCCATGCCTTGCTACTTACCCAT TGATGCAAAAACTGAGGCAAGTGCTTGTGGACCATGCATTAGTAAATGGAGAAAACGAGAAGGACTCAAAGACATCAATC TTTCAAAAGATTGCAACTTTCGAGGATGAGTTGAAGAGTCTCTTGCCTAAGGAGGTCGAAAGCGCAAGGGCTGCATATGA GAGTGGAAATCCAGCAATTCCAAACAAGATAAATGAATGCAGATCTTACCCACTGTACAAGTTTGTGAGGGAGGAGCTGG GAACTGAGTTGCTTACTGGTGAAAAGACCAGGTCTCCGGGCGAGGAGTTTGACAAATTGTTCACAGCAATATGCCAGGGT AAAATTATTGATCCACTTATGGAATGCCTTGGAGAGTGGAACGGTGCCCCTCTTCCAATTTGTTAATTTTACCAGTCATT TTTTTATATGATTTCTTTGTATTTATAAAGCGTAACATTAGTCATTTGTTTTATCAATTCTTGTAACCACTGCGTGTAGA CCAAAATAGCTGCACAGCTTTGT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0690200.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCACCAACCACCAACAGCAACCACGAGAGCCTAAATAGTTCCATCTTCTGCACTGCTGCTAAAGCAGGCAGTGATCC CTTGAGTTGGGGTGTAGCAGCAGATTCGATGAAGGGGAGCCACCTGGATGAGGTCAAGCGCATGGTGGCTGAGTACAGGA AGCCTGTGGTCAAGCGCATGGTGGCGGAGTACAGGAAGCCGGTGGTCAAGCTTGGCGGAGAGACCCTGACAATAGCTCAG GTGGCTGCCATTGCCGCAAACGACAGCGTGAGCGTTGAGCTGTGCGAATCAGCTAGAGCCGGCGTTAAGGCGAGCAGTGA CTGGGTCATGAACAGCATGAACAACGGCACTGACAGTTACGGAGTCACCACCGGATTCGGGGCCACCTCCCACCGTAGAA CCAAAAATGGCAATGCTTTGCAGCTAGAACTCATCAGGTTTTTGAATGCTGGAATATTTGGCAATGGTACCGAGACAAAC CACACACTGCCACAGCCTGCAACCAGAGCAGCCATGCTAGTGAGGATCAACACTCTTCTCCAAGGGTACTCAGGCATTAG ATTTGAAATCCTAGAAGCTATCACCAAGCTCATCAACAACAACATCACCCCATGTTTACCACTTCGTGGTACTGTCACGG CTTCTGGTGATCTTGTCCCTCTTTCCTACATTGCTGGTTTGCTTACTGGCCGACAAAACTCCAAAGCTGTAGGACCCTCT GGCGAGGTGATTAATGCCAAGAAAGCTTTCCAATTGGCTGGCATTGACTCAGGGTTCTTCGAATTGCAGCCCAAGGAAGG GCTTGCCCTTGTGAATGGTACTGCTGTTGGTTCAGGGTTAGCTTCTATTGTTCTATTTGATGCTAACGTATTGGCTATAC TAGCTGAAGTTCTATCGGCTATTTTCGCTGAAGTGATGCAAGGGAAACCTGAATTCACTGACCATTTGACACATAAGTTG AAGCACCACCCTGGCCAAATTGAGGCTGCTGCTATCATGGAGCACATCTTGGATGGAAGTTCCTACATGAAGGCAGCAAA GAAGTTGCACGAGGTGGATCCCTTGCAAAAGCCAAAACAGGATCGTTATGCACTCAGAACTTCCCCACAGTGGCTTGGCC CTCTGATTGAGGTGATTCGATTCTCAACAAAGTCAATCGAGAGAGAGATTAATTCTGTGAACGACAACCCTTTGATTGAT GTCTCCAGAAACAAGGCCTTGCACGGTGGTAATTTCCAAGGAACCCCTATTGGAGTTTCCATGGACAACACACGCCTGGC GCTTGCAGCAATTGGCAAACTCATGTTTGCTCAATTCACTGAGCTGGTGGATGATCATTACAACAATGGGTTGCCTTCAA ATCTCACAGCAAGTAGAAATCCCAGCTTGGATTATGGTCTCAAGGGAGCTGAAATTGCCATGGCTTCTTATTGCTCAGAA CTCCAATATCTTGCAAATCCCGTCACAACCCATGTGCAAAGTGCTGAGCAACACAACCAAGATGTGAACTCTTTGGGTTT GATTTCTTCTAGAAAAACCTATGAAGCCATTGAGATCCTTAAGCTCATGTCTTCCACATTCTTGATTGCACTTTGCCAAG CAATTGATTTGAGGCATTTGGAGGAGAACTTGAAACACTCAGTGAAGAGTACTGTCAGTCAAGTTGCCAAGAGGACTCTT ACCACTGGTGTTAGCGGAGAACTCCATCCTTCCAGGTTTTGTGAAAAAGATTTGCTGAAGGTGGTCGATAGGGAAACTCT ATTTGCCTACATTGATGACCCATGCCTTGCTACTTACCCATTGATGCAAAAACTGAGGCAAGTGCTTGTGGACCATGCAT TAGTAAATGGAGAAAACGAGAAGGACTCAAAGACATCAATCTTTCAAAAGATTGCAACTTTCGAGGATGAGTTGAAGAGT CTCTTGCCTAAGGAGGTCGAAAGCGCAAGGGCTGCATATGAGAGTGGAAATCCAGCAATTCCAAACAAGATAAATGAATG CAGATCTTACCCACTGTACAAGTTTGTGAGGGAGGAGCTGGGAACTGAGTTGCTTACTGGTGAAAAGACCAGGTCTCCGG GCGAGGAGTTTGACAAATTGTTCACAGCAATATGCCAGGGTAAAATTATTGATCCACTTATGGAATGCCTTGGAGAGTGG AACGGTGCCCCTCTTCCAATTTGTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0690200.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAPTTNSNHESLNSSIFCTAAKAGSDPLSWGVAADSMKGSHLDEVKRMVAEYRKPVVKRMVAEYRKPVVKLGGETLTIAQ VAAIAANDSVSVELCESARAGVKASSDWVMNSMNNGTDSYGVTTGFGATSHRRTKNGNALQLELIRFLNAGIFGNGTETN HTLPQPATRAAMLVRINTLLQGYSGIRFEILEAITKLINNNITPCLPLRGTVTASGDLVPLSYIAGLLTGRQNSKAVGPS GEVINAKKAFQLAGIDSGFFELQPKEGLALVNGTAVGSGLASIVLFDANVLAILAEVLSAIFAEVMQGKPEFTDHLTHKL KHHPGQIEAAAIMEHILDGSSYMKAAKKLHEVDPLQKPKQDRYALRTSPQWLGPLIEVIRFSTKSIEREINSVNDNPLID VSRNKALHGGNFQGTPIGVSMDNTRLALAAIGKLMFAQFTELVDDHYNNGLPSNLTASRNPSLDYGLKGAEIAMASYCSE LQYLANPVTTHVQSAEQHNQDVNSLGLISSRKTYEAIEILKLMSSTFLIALCQAIDLRHLEENLKHSVKSTVSQVAKRTL TTGVSGELHPSRFCEKDLLKVVDRETLFAYIDDPCLATYPLMQKLRQVLVDHALVNGENEKDSKTSIFQKIATFEDELKS LLPKEVESARAAYESGNPAIPNKINECRSYPLYKFVREELGTELLTGEKTRSPGEEFDKLFTAICQGKIIDPLMECLGEW NGAPLPIC

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
PANTHER	PTHR10362 View details on PTHR10362 Search for proteins/transripts with this domain View external data on PTHR10362	13	58	46	0.0	IPR001106 Show description in modal box View details on IPR001106 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10362:SF45 View details on PTHR10362:SF45 Search for proteins/transripts with this domain View external data on PTHR10362:SF45	13	58	46	0.0	–
SUPERFAMILY	SSF48557 View details on SSF48557 Search for proteins/transripts with this domain View external data on SSF48557	26	728	703	1.57E-259	IPR008948 Show description in modal box View details on IPR008948 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR01226 View details on TIGR01226 Search for proteins/transripts with this domain View external data on TIGR01226	26	717	692	0.0	IPR005922 Show description in modal box View details on IPR005922 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.275.10 View details on G3DSA:1.10.275.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.275.10	56	274	219	3.8E-86	IPR024083 Show description in modal box View details on IPR024083 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10362 View details on PTHR10362 Search for proteins/transripts with this domain View external data on PTHR10362	57	728	672	0.0	IPR001106 Show description in modal box View details on IPR001106 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10362:SF45 View details on PTHR10362:SF45 Search for proteins/transripts with this domain View external data on PTHR10362:SF45	57	728	672	0.0	–
CDD	cd00332 View details on cd00332 Search for proteins/transripts with this domain View external data on cd00332	74	538	465	0.0	IPR001106 Show description in modal box View details on IPR001106 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00221 View details on PF00221 Search for proteins/transripts with this domain View external data on PF00221	76	546	471	1.2E-152	IPR001106 Show description in modal box View details on IPR001106 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00488 View details on PS00488 Search for proteins/transripts with this domain View external data on PS00488	210	226	17	-	IPR022313 Show description in modal box View details on IPR022313 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.20.200.10 View details on G3DSA:1.20.200.10 Search for proteins/transripts with this domain View external data on G3DSA:1.20.200.10	275	717	443	1.5E-217	–
Gene3D	G3DSA:1.10.274.20 View details on G3DSA:1.10.274.20 Search for proteins/transripts with this domain View external data on G3DSA:1.10.274.20	541	655	115	1.5E-217	IPR023144 Show description in modal box View details on IPR023144 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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0003674
GO:0005737 View details of GO:0005737 AmiGO InterPro QuickGO	Cellular component	Cytoplasm	All of the contents of a cell excluding the plasma membrane and nucleus, but including other subcellular structures.	Subterm of View details of GO:0044424
GO:0006559 View details of GO:0006559 AmiGO InterPro QuickGO	Biological process	L-phenylalanine catabolic process	The chemical reactions and pathways resulting in the breakdown of phenylalanine, 2-amino-3-phenylpropanoic acid.	Subterm of View details of GO:0006558 View details of GO:0009074 View details of GO:0042737 View details of GO:1902222
GO:0016841 View details of GO:0016841 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0016840

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0690200.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0690200.4