Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0690300
Transcript ID	LotjaGi1g1v0690300.4
Related isoforms 10	LotjaGi1g1v0690300.1 LotjaGi1g1v0690300.2 LotjaGi1g1v0690300.3 LotjaGi1g1v0690300.5 LotjaGi1g1v0690300.6 LotjaGi1g1v0690300.7 LotjaGi1g1v0690300.8 LotjaGi1g1v0690300.9 LotjaGi1g1v0690300.10 LotjaGi1g1v0690300.11
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: LotjaGi1g1v0690300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:125807218..125826021) extracted from Lotus japonicus Gifu genome v1.2.

CCAACACCATTTCTATTCTCTTTATAAATACCCACTCACTCTATCAGACAATCATCCCCAAATTAACATTTCCACTAGTT TCTTCTTCAATACGCCAATCTCTTAATCTCCTCAGTTTAATCTTTAATCACATCTAATCACTTTCCATTATTTCTTAATT AAGATTAACATGGCCCCAAACACCAACGCCACGCAAAACGGTTCCATCTTCTGCAACACTGTCAAAACCGCCGCCACTGA TCCGTTAAGTTGGGGGGTCGCGGCGGAGTCCATGAAAGGGAGCCACCTCGACGAGGTCAAGCGCATGGTGGCGGAGTACC GCAAGGCGGTGGTCAAGCTTGGCGGAGAGACTCTCACAATAGCTCAGGTAGCTGCCATCGCCGCAAACCACCAAGGCGTG AGCGTTGAGCTTTGTGAATCAGCTAGAGCTGGCGTTAAGGCGAGCAGTGACTGGGTCATGAACAGCATGAACAACGGCAC TGACAGTTACGGTGTCACCACCGGCTTCGGCGCCACCTCCCACCGCAGAACCAAAAATGGCAATGCTCTGCAGCTAGAAC TCATCAGGTACTATACTATACTATACTAACTCAATTCCACACATATTGCATTGTATACAAGTTGTTGATTAATCATCATA TTTACAATTGCATTGTATCAAAGTGTTGATGTTTATATATTAATTCTTGTTGTTCAGGTTTTTGAATGCTGGAATATTTG GCAATGGTACTGAATCAACTCACACCTTGCCACAGCCTGCAACTAGAGCAGCAATGCTAGTGAGGATCAACACACTTCTC CAGGGATACTCAGGCATTAGGTTTGAAATCCTTGAAGCCATCACCAAGCTCATCAACAACAACATCACCCCATGTTTACC ACTTCGCGGTACCGTCACGGCTTCCGGTGATTTGGTCCCACTTTCTTACATTGCTGGTTTGCTAACCGGCCGGCCGAACT CCAAAGCTGTTGGACCTTCCGGTGAGGTGGTTAATGCCAAGGATGCTTTCCAATTGGCTGGCATTGACTCAGGGTTCTTT GAATTGCAGCCCAAGGAAGGGCTTGCTCTTGTTAATGGTACTGCTGTTGGTTCAGGGTTAGCTTCTATTGTTCTATTTGA TGCTAACATATTGGCTATACTGGCTGAAGTTCTATCGGCTATTTTCGCTGAAGTGATGCAAGGGAAACCTGAATTTACTG ACCATTTGACACATAAGTTGAAGCACCACCCTGGCCAAATTGAGGCTGCTGCTATCATGGAGCACATTTTGGATGGAAGT TCCTACATGAAGGCAGCAAAGAAGTTGCACGAGGTGGATCCTTTGCAAAAGCCAAAGCAAGATCGATATGCACTTCGTAC TTCTCCACAATGGCTCGGTCCTCTGATTGAAGTGATTCGATTCTCAACAAAGTCGATCGAGAGGGAGATCAACTCAGTGA ACGACAACCCTTTGATCGATGTTTCCAGAAACAAGGCCTTGCACGGTGGTAATTTCCAAGGAACCCCTATTGGAGTTTCC ATGGACAACACACGTCTGGCTCTTGCAGCAATTGGCAAACTCATGTTTGCTCAGTTCACTGAGCTGGTTGATGATCATTA CAACAATGGCTTACCTTCAAATCTCACTGCTAGTAGGAATCCTAGCTTGGACTATGGTTTCAAGGGAGCTGAAATTGCCA TGGCTTCTTATTGCTCCGAGCTCCAATATCTTGCGAATCCGGTCACCACTCATGTCCAAAGTGCTGAGCAACACAACCAA GATGTGAACTCTTTGGGTTTGATTTCATCAAGAAAAACCAACGAAGCCATTGAGATCCTTAAGCTCATGTCTTCCACATT CTTGATTGCACTTTGCCAAGCAATTGACTTGAGGCATTTGGAGGAGAACTTGAAATACTCAGTGAAGAGCACAGTAAGTC AAGTTGCAAAGAGGACTCTTACCACAGGTGTCAACGGAGAACTCCATCCTTCTAGATTTTGTGAAAAAGATTTGCTGAAG GTGGTCGATAGAGAAACTCTATTTGCCTATATTGATGACCCATGCCTTGCTACTTACCCATTGATGCAAAAACTGAGGCA AGTGCTTGTGGACCATGCGTTAGTAAATGGAGAATACGAGAAGGACTCAAAGACATCAATCTTTCAAAAGATTGCAACTT TTGAGGATGAGTTGAAGAGTCTCTTGCCTAAGGAGGTCGAAAGCGCAAGGGCTGCATATGAGAGTGGAAATCCAGCAATG CCAAACAAGATAAATGAATGCAGATCTTACCCACTGTACAAGTTTGTGAGGAAGGAGCTGGGAACTGAGTTGCTAACCGG TGAAAAGACCAGGTCTCCGGGTGAGGAGTGTGACAAATTGTTCACAGCAATATGCCAGGGTAAAATTATTGATCCACTTC TGGAATGCCTCGGAGAGTGGAACGGTGCCCCTCTTCCAATTTGTTAACTTGCCTGCCAGTTATGTTTAGGAAATGTATTC TTTGTATTTATGCAAATGTAACGTTAATCATTTGATTTATCAAGCCTTGGGCAAAATAATATGGAAAACTTCATTTTAGT TTCCTTGATGTCATGGAGGAACTTGTAACACTACAGAAAAACACAAGAGTTCAGCTTCAGTGGCACTTTATATCTAGCAT TTAAGAAATTAGATTGAATCACTATCACGTGTATGCAACTCTTATTCGTTAAGAATTAATAACATTGTATACTGATTTAG AGCCATTCTTGTGTTTCTTCTTTGTTCTCCAGTTTTTGACAATAGGGATTTTGCCGATAAAGCTTCCTAGACCTGATCTA AGTGTATGAACTTCAATGATCTGAAGGAAATTTCAGGTGCTCCTTTCTTGTTAAGAAGCCCACCTATCTAAAGAACTAGA AACATTGGTGAGTACTCATTTCAAGATCTGTTTAACTTGACTCTGCTTACCGATTTGCAATTGTTCACAAATGCTGATTT TGTCATTATTTACAGTTAATGAGGTCTAGAAATTTCAAAGGGTTTTTGTTTTCAAGAATTTATCTGGCGTCGCTCAAGTT TTGGATCTAGCCTGGTCAGTTTTTCTATGGCTTTCACACTGGCATTATGATAACTTGTAGGCTCGACCTGAGGAGCCTAA TTGTTATGTTAATAAATTGTCTCGGAAAAGAATTTCACTTGCTTATACAATGGATAGGACCTATTCAGTTGAAGTTTCTC GAAACCGCACTTGTTTATTACCAATTTAGTTACCTATCTGCAATCTAGAGGATCGTTCCAATGGCCGAGAGTAACCAAGT TGACACCCTGTGACTCCAAGGTACAGAGACTTTATAGCATATATGCTACTTCTTCATTGGATTTAATGTGTTCGTTGGAT AGAAATATTTGAAACTTACCACATTTAGAGCTTCCTTTTTTTACTCTTCTGATGAATAACTTCATTGTAGGTTTAGTTAG TTATAGCTTTTCTTTTACTGAGAAGAAAGATATTTGAGGTGTAAAATTTGTATCGGTGAGACTTAAAATGAAAATAATTT TGAAAGTTGAGGTGTAAGATATTTGAGGTGTCGTTTGCATCCCTTTGTTTCCATGCCTGTGCTCCTGACTCTTCTCACAT GGTTCATGTACTGATTTCCACTCCTGATACTTGGGAAGCTCATCTTTCAGTTTTGTTGCTTGAGGACATTGTGGGGATCC TCAGTCACCTTCCCTTGCTTCATTCTCTGTTTAGAAAAGAAACATGTCTTAGTGTTGGTTCAAAGAAGAATGGTGAATAA AGACAAAATGAGTTGCAGTTGCCATAAAATTGGTTAAATAAAAAACTCCTTTTTGTTGGAACTTTTTTCTTTATTGGAAA TTGTGAAACATTGATCCTGAATATGAAATAGTTTTTTTTTTTCCCTTATAAAGTGGCAATATTATGTAAGTTTGCCTAAA ATTTATGCAAGATCATAGTTCTAAATTTATGTTAGTTGTCCTCTTTTGACCTGTAGTGCAGAGGAGCATAATTGGAATAG GGGGCTCTTGGGCAGAGTTTGTTGATTATTTTGCAACTTCCCTCAAGTCAGAAGATCTCAAGCTGGTAGAGGTGAATTCA AACTCATGGTAGCTAATACTCTTATTACTCCTACTCTTCGCTCCTTCTTTTGAAACTTTTAATAGTAAAAGTATTACAGG ATATGTTATTTATGAAGACATTTAATTGCTAAAGTGTGTAACCATAGCCTTATGTATTTCTTATTTTCAAACATACACTC AGTTCTATCTAATCCATGAGACTCTTTGGGCTGAGGAAATTGATGATTTGTGACCTTGGCATTGTTCATGAGACTCATAA AGTGATCTCTTTTTAATTTAACACGAAACTGGTTTGAAATGTTTAATTTGAAGATGATTGGTGCTCTGAACTCCCTTCTT TTTAAATTATTTAATTATTTAAGAGTATTTTATCCTGATATAAGTGAGCATTGTAAAAATTCATGGTATTGAACCTGATA CACAGTTCATATTCTCTTTATGAGTTGCAGGATATCATTTATGTGCTTTCATTATTTAATTTTGATTTTATGTTTGCTGT TATTCATACCTTCAATGTAACAGCTTCATATGTTTTGGTTCTTTCTCTTCCATTATAATTTTTGTTTTATGATTTATTAT TTGTCCAGAGTTTCAGGGTATATGTGTATATGTATCTTATTTTCAGCATAGTTTGATTACAGTTCTTATTGCTGAAGCGA TCTAGGGGTTTAAGACTTCTAGTAAATAATTTGTGGCACTTAATACCAGCATTTAGACAAAAGCCGCCACAAAACAACTT GTGGAATCCGTGGTTCTGGCATTCTAGTGAAGTGCCAGTAATAAACTCTGTGGCCCTCAGAAATGCCACAATTGTTATTT TCAGCTGCCACTATTTGTAGTGCAACACATAATTTAGTACTAGAACATGGCATCTTACTGACATCATATTTGTTTATTTG ATATAAAATTAATAAAGTTATACTATTTTCTCTTGTTCATTTGTTATTCTATTCTAAGTCTAATTAACTGTTTTATTTGA CGTCTGGAAACATGTTTAACAGACTTCCTGTAGATTGTGAAAGTAGAAACCCATGAAAGAAAGCCACAATTACGATGAGC AGAAAGGTACACATATATCCATGAGGTCTTCAAACGTGCTCACATCAAGAAGAATGACCAGACATGGGTCAGTAAAAGGT TTGAATATACTTGGGTTGGTATAATTTAGTATTCACTAGATTACTTCTAATTTGTTATATGAATAGTAATATTAATACTA TTTGAACACACTAAGTTTGAGGAGCAAATGATTCAATCCTCATATGATTCCCATAGGGGGGGCGTCAACAGAGGTTGACT CATCCACTGATGTGTAATTATCGATTGAGAAACAAGTGGAAAATGCTAGGGACGAATATATGACACATTTGATATGTCTG CGCGTTACAAACCTGGGGTTGCTTCCCCGATACAAGAGCCATCATGACCTTCTCACCCGGGGTCTCAGGATTCTCAAACG AACACTAAGTTTCAGGAGATGATGCTCAAGGTGCACATGGTGCTACAGGAGAATGTTGTGCTCCGACAGAAGCTGAACCA GCAAGAGACCCAAACAGCAGAGCATCACCAGTGGACAACTTCACCGTATGCAGCCTTTGTTGTGGAGGTTGCAGAGTTGA GGGCTTAACAAGATGGTGGTGCTCATGCTGCTGCTCCTCAATTTCCTACTTACGAAGAGGAGGAGGAGGTAATTATCATT AGTTAAAAATAACAAGTTTATCTATGGTCTAAGCCATCGGTAATATGGTGGTCAAAGCCGTCGGTATTGTATCGACGATT TTGGTTGTAGGAAGTGTATCGAAGGGCACAACTGTTGGTAACTTTTGGAAGCTTTCGGTAAGTTACATATGCCTTTCTAA AAAACCGTCAGTAAAAAGTTATCGGTGAGCTCTATACCTACAGAAACAGAGTGGTCGATAGACCATCGGAAATATTCAAT TACTGACAGGTTTTTCCCTTACCAATGGCTTATGGTTGTCGGTAATCAACAATTTTCTTGTAGTGTCTTGGTTCCTTGAG ATTTTTTTTGGGGCTGGACATTTCTTGATCTAAGACAGATCATTCTTAATAAGAGGAAGTATACACTTGAACTCCTTAAA GATTCAAGCCAGTTTCCACACCTTGTACTTCATATGCTAGATTGCATACTAATCAAGGAAAGCCTTATTGTCCATCTGCT TATCGAAGATTAGTTGGAAGGTTTCTCTATTACACAACTAACTACACGGCCTGACATTTGTTATGTTGCCAGCAGGTAAG TCAATTTGTTCATGATCCTAGAGAAGCACATTTTGATGTTGCCATAAGAGTTCTCCTACAAAGGGCATTTTCTTCTCAAC CTCCAGGATCTCCACATTTTAGCTTCTTTGTACTGATTCTTGCAGGTCTAATTCATTTACTTCGAGTGCGTACTACAGCT CAATTAGCACATGCTTTCACAAAACCACTGCATTCTAATTCTATTCATGAGTTCCTGTCCAAGTTGGGCCTTCAGGACCT TCATAGTCCAAGTCCAACTTGGGGGGAATATTAGAGTGTTAGTGGTACTGTTAGCTATTTTTGACCAAAAAAAAAAACTC TGTTAGCTATTAGTTGTTGAAGAGTTCGTTAGGGGAAATGTAAGAAATAAAAAGTCCAAACGTGAGTCTTTTTTTAAATA AAAAATGAGTGTGAACTTCTAGTCCTAAAAATACAGAATCAGGTGTGTACTTAAAAATACAGAATGGTGACATTATAAAT AGAGATAAATGTAAAATCATATGTAATATGTTAATTGTGGATCTCATGTAAGCAGCTGGTATAGCTTGACTGCGTCAAAC ATACTAATGGGGTAGCACATCAAGTCAATGTTAGTCCAAAATATATATTAAAAAAAGGACAGTATTTCTGTCTAAACTTG ACCCCAATTGCGATATAGGGTCATGCACATGCTTTAGTAGCTTTTAAGTTGACTGAATTAGCCAACCATGAGATTAGAGT TATTACTAATATAGTATTAGATAAATTGATTTGATACATGTTGATTGAAAAAATTATAAAAAAAAAAGAATGCAAGCCGT GACAATTATCGGTGTGATCGATGTTGTTGAGAAGGAGACTTGACTAACGATATGTGTTTCCCTCGTTACTTCCTTCTAAC AACCTCCTCATTTCCTGAACAATAAACAAACTCACATCACTTTCCTCTCTCTATAAATGGCAATGCCCACTCACTCTTCC CTTCACCTCTCATAAAATCTACAATCCCAAATTCATACTTCTGCTACTACATTCATCACAGCAAGCTCTTAAGTCTTAAC CAAACACTTATATTTCACTTCCATTTTTTTGTTTCCAGATCATATCTAATCAGCTTGCATTATTTATTAATTAAGATAAA GATGGCACCAAACACAAACCAGACACAAAACGGTTCCTTCATCTGCACTGCTGCTAATGGTACTGCTACTGCTACTGATC CCTTAAGTTGGGGTGTGGCAGCGGAGTCAATGAAGGGGAGCCACCTGAACGAGGTGAAGCGCATGGTGGCGGAGTACCGG AAGCCGGTGGTCAAGCTTGGCGGAGAGACTCTGACAATAGCTCAGGTAGCTGCCATCGCCGCAAACGAACAAGGCGTGAG CGTTGAGCTGTGTGAATCAGCTAGAGCTGGAGTTAAGGCGAGCAGTGACTGGGTGATGAACAGCATGAACAACGGCACTG ACAGTTACGGTGTCACCACCGGCTTCGGCGCCACCTCCCACCGCAGAACCAAAAATGGCAATGCTTTGCAGCTAGAACTC ATCAGGTACTATACTATACTAACTCAATTCCACACTCATCATAACTAACTACAAGCTGTTTATATGTTGTTGATTAATCA TCATATTTACAATTGTATTGTATAAAAGTTGTTGATGTTTATATATTCTTGTTCTTCAGGTTTTTGAATGCTGGAATATT TGGCAATGGTACTGAGTCAACTCACACCCTGCCACAGCCTGCAACTAGAGCAGCCATGCTAGTGAGGATCAACACTCTTC TCCAAGGATACTCAGGCATTAGATTTGAAATCCTTGAAGCAATCACCAAGCTCATCAACAACAACATCACCCCATGTTTA CCACTTCGCGGTACCGTCACGGCCTCTGGTGATTTAGTCCCTCTTTCTTACATTGCCGGCTTGCTTACCGGCCGACCGAA CTCCAAAGCTGTTGGACCATCCGGCGAGGTTCTTAATGCTAAGAATGCTTTCCAATTGGCTGGCATAGACTCTGGTTTCT TTGAATTGCAGCCTAAGGAAGGGCTTGCCCTTGTTAATGGTACTGCTGTTGGTTCTGGGTTAGCTTCGATTGTTCTATTT GATGCGAACGTATTGGCTATACTGGCTGAAGTTCTATCAGCTATTTTCGCCGAAGTGATGCAAGGGAAACCTGAATTCAC TGACCACTTGACTCATAAGCTGAAGCATCACCCTGGACAAATTGAGGCTGCTGCTATCATGGAGCACATTTTGGATGGGA GTTCCTACATGAAAGCAGCAAAGAAGTTGCACGAGGTGGATCCTTTGCAAAAGCCAAAACAAGATCGATATGCACTTAGA ACTTCACCTCAGTGGCTTGGTCCTCTGATTGAAGTGATTCGGTTCTCAACAAAGTCGATCGAGAGAGAGATTAATTCTGT GAACGACAACCCTTTGATTGATGTTTCCAGAAACAAAGCCTTGCATGGTGGTAATTTCCAAGGAACCCCAATCGGAGTTT CTATGGACAACACACGCCTGGCTCTTGCAGCGATTGGCAAACTCATGTTTGCTCAATTCACTGAGCTTGTGGATGATCAT TACAACAACGGGTTGCCTTCAAATCTCACAGCAAGTAGAAATCCCAGCTTGGATTATGGTCTAAAGGGAGCTGAAATTGC CATGGCTTCTTATTGCTCCGAGCTCCAATATCTTGCGAATCCAGTCACAACTCATGTCCAAAGTGCTGAGCAACATAACC AAGATGTGAATTCCTTGGGTTTGATTTCTTCTAGAAAAACAAATGAAGCCATTGAAATCCTTAAGCTCATGTCTTCCACA TTCTTGATCGCACTTTGCCAAGCAATTGACTTAAGGCATTTAGAGGAGAACTTGAAGTACTCGGTGAAGAGCACTGTAAG TCAAGTTGTGAAGAGGACTCTTACCACAGGTGTCAACGGAGAACTCCATCCTTCTAGATTTTGTGAAAAAGATTTGCTGA AGGTGGTCGATAGGGAAACTCTATTTTCCTATATTGATGATCCTTGCAGCGCTACATACCCGTTGATGCAAAAACTAAGG CAAGTGCTTGTCGATCACGCACTAGTAAACGGAGAAAACGAGAAGGACTCGAAGACATCAATCTTTCAAAAGATTGCAAC TTTTGAGGATGAGTTGAAGAGTCTCTTGCCAAAGGAGGTTGAAAGTGCAAGGGCTGCATATGAGAGTGGAAATCCAACAA TTCCAAACAAGATCAATGAATGCAGATCTTACCCGCTATACAAGTTTGTGAGAGAGGAGTTGGGAACCGAGTTGCTAACC GGTGAAAAGACCAGATCACCAGGCGAGGAGTGTGACAAGTTGTTCACAGCAATATGCCAGGGTAAAATTATTGATCCTCT TTTGGAATGCCTTGGGGAGTGGAACGGTGCCCCTCTTCCAATTTGTTAACTTACAAGTTATGTTTAGGAAATGCATTCTT TGTATTTAAGCAAATGCAATGTTAGTCATTTGATTTATCAAGCCTTGGGCAAAATAATATGGAAATCTTCATCTTAGTTT CCTTGATGTCAAGGAGGAACTTGTAATTGAATATTGCAATAGAAGTTTTAGTTATTTTTCAAAGAATACAAAATACAAAA ATTAAGTCATAATTTATCATAACCAGAGCATTTACTTTGATATTAAGGTCTCTCTTGGATTGTAGGCTGTCAAGCGACTC AAGTAAATATGAATAATTTTGTAATAGAGATGACTAGATTTTAGCCACCTATAAGTTGTAATCTATCACCTCTGTGTAGT AGGGGCTTGATTTGGAGACATTGATTCAGAGAACCAGGGACTACAAGAAAGAGTATGGGGGTTCATTTGTTTCAGTTGTT CACTTGGTTCTTGGTTTTACCCAAGATCAACGATTTGGGAAGCAGTTGTTTAGATGATATTTTTAAACATCCCAGCAGGC TCTAAAATCTGCAAGAGTCCATAGGAGAGACCAGTCAGTTGACGAAGGTAGTGGCATAATCCATTTGTCTTAATATATGC TATAGATGTGCCTCTGCCGTGTCTTGTTTTATCTTACCTCTTGTTTTAGGGGAGGGGTGATGAAAGATTTTTTACCACTC TACGTTTGAATCTCTCAAGACTCAATTGTAGTATAGTAAAGGGTTTTGTCGTATCCCCAGGGAGGTGTAATACTTACGCC GTTCAATAGTTAACAAACTTAAATGATGATTACACAATGAGATTGATTGATTGTTTGAACATAAAACTAAATGGAAAGCA AATAAACTAACGGATTAAATACACAATGAGATTGATTTTTGCATTCTAGTGATTTAAATACATAACATGTTCAAGCATAT GATTCATCTACACCAATTCAATCCTACGTCATCGATGTCTCGAGTGGATAACAATAACTCTATAATCCTAAACATTGATG TCTCACATGATTAAGAAAGAAAGTTATCATGAAGTTTGGGTGTTTAATGACTAACAAACCTAACTCTATGTCTAGCAATT AGGATTATTAGGTGATTAACTCTAGTTCGGACTCAAACGTTGTAGCTTTCGCTCACAAGTCGAATCAAACAAAATATCAT AGGTGATCAATCTAAGATATATCATGAAGATCAAGAGAAAACCACTAATTCAACAACTAGAAACATGCTTTATATTGAAG AGAATCACATAGAGAGCATAAGTATCATACAACTACATCAAATCCCAACAAAAGAGAGATTAGCTATCCATTTTCATGGA TAGCTTTACAAATAGAGAAGAAGAATGAGAAGAACCAAAACCGTCGCGATGTCTCGCCGCCGAATCCGATACCCAAGCCT CTTCTCTAGCCTCCTAAGCCTCTCTCCTTGTCCCTCAAGTGTTTCCTTCTGTTAGGGTTCTATTCTCCTCAAGTTCTCTA TCAAAAATCTGAAAATGACATTTTTATAGTGTAAAACGCAGTACAGGGCGCTGAGCGGCCTGTTTTGGGCGCTGGGCGGC CAGATTCCTTCAAGGTTGGGTTTCTGGAACCGTCATGGGCGCTGGGCGGCCTCTGCAACCCGCTGAGCGCCCAGCACATC TTCAAACTCCATTTTTCTTGCCAAAACATGCATCTTTTCCCGATCCAACCGTTCAAGTTGAAGTCCCATGTGTTATAAAC CACATATCCAAGTTTTAGCTCGATCCGATGGTTAACGAATGTGGGATTCCAATTTTTCTCAGACCGATTTTAACTTTCTG CATCAAAAAGTTGGGATTAGAATTAAAATCATCATAAAACCTATCCTAAACCTAAATAATAACTAAACTAATAAATTTAT GATTAAAATGATATAAATTGAAGCACACAAGTCAAATAAGTGCCTAAAATGATATTCAAATATACGTAAAAATGACACTT ATCAAGGGGTAGCAAGATTGTGGTCCTTGATTTTTTGCCCCATCTTTATGTTGCCTGTAACTACCAGCATCTTTATTCCT CAAGCCTCATCTTTATTTTTGTATGACATTTGTTTAATACCAAAATAGATTAACTTTTAGTTGTTTGCGTTTTGCTAAAT TTGAGATTATCTAGCAGTGTTTATCCTGTGTCAATTATAACTACTAACTGCACTGAAGCTTGCTGCTTGTATATATCTGT CAAATTTTGAAATTGTTGATATTGAAATAGTTGTGCTTGTTTGGTTCTTGATCATTTTTAAGCATGAGAGTCATGGTTTT TGTTAATAACTGAGCTTCAAACTACACTTTGTGCCTCCTGATACATTCACTGATAAGATTGCTACAATCATATGCATTCT TGAAATTCTTTTCATCACAGTTATTATGTTAAATAACATTTCATGCATCCTTCGCTCTGCTATGCTTTTCTGTGGTGATT AGAGCAATGTGTAGTATTTTGAGTAATTTTATATTTCATCACATGTTCTCAACCAATCATAACCTTGCTGGGTAATTCCA CTATTGCTGCAGGACACTGCCAATAGTTCTTCTTAACTCTAAAAGGGCTGCTGTCAAGTTTTCCTTCTTCAAGATTGCTT GTCTGGTAGGTGATGTTCTGTTTTCACATATAGTCTAATTTGTGTTCTTTTGCTGTTAGACAGACTAGTGTAGTTCATGT AAGTTGGGAAATTCAAGGGAAAAAAGAACAGTCCTCTTAAAACTGTAGGCTAGATTTCGTTTTGCCCTTGTTCTCAAGTT CTTCATGGCAAAGAGATATATAGTATATACATATGATCGGTGTCCTCATCGCTTCATTTGCTATTTCTCTCTTTTGATCC CAAACCCCTCACCCTCAACACCAAGGGGATCTTTCCCTTGTTTGATTTCAGTTTCCCTCTTCACCATAATCTATCCATTT TTATTTTCTAATTATTCATTCTTTTGTTCCTGCATCAACAAATACCAGCATTTGCTTAGCTAGGTATTGTCTTCTTTACT TTCTATTTTTCTGGCAGTGAACTTGTTCAAAACCTTATGTGAAGCCTGTCTTTCAGGGCATCATGTTTTCAAGAGAAGGA TGTGGTTTTTCTGTATTATGTTTCCTATGCTCTTGAATATTGTCTAGAAAGGATACTGAATACTATATCACTAACCTAGA CTTATGAAGTTCTAAGTTTTCTTTGCTTCAACTTTTTTTTCTTGTTACTGCAATTCAATTCTATCTAGTAAAAACCACTT TCCAAATTCCAAAATCACCACCAACGCACAAGTCATTAACTTATTTAAGTCTCATTTGCATTAAAACATACTTGTATCTC TCTTTCTTCTCACTACAATATAACAATAACTACTTGTTGTAGGAAGTCAAATTTTGGTGATGGCATTGGTAGCAAACAAA TCTGACTTGGAGCCAAAGAGAGAGGTTGAGATTGAGGTAGTGTTCAGATAATCTTCATACCCTGTACTTCTGTTTCTTTG GGTAGAAAAATCTAGATTATATGAGTACGTGAGGTTACTCCCATTATTTACTTATTTTGTCAATTCTCACATTTTTTAAC TCTTTCTTTACCATTTCTTCATTTGAAAACACATCAAGATTAGTACCTTAGAAAAATTCTGAGGACATTATGTTCACAAT TTGCTAGTTTTTTTTTAAGAAAAATTAATCTTAACAGTATTTTGAGGATAGTGCTATGTTATATAATTGCAAAGGGTCCC CCCCCTTCCTTCTCTTTTATCATTTTATTTGTTTGAGTAAATTAAACCCCTTCAGGAAGGAGGGCAATTTGCTCAAGAGA ATGGAATGTTCTACATGGAGACGTCTGCTAAGACTGTAGAGAACATCAATGACCTTTTCTTTGAAATAGGTATGTGTTGG AACGTCTTCAAAACACTTTGGCCTATTCAATTAATGTCCTTTAGAGAACAATTTTCTGTATGCGTGTTTCCTCTTTTATG ATTCCAATTTAAGTGCTTCTGAACTAATTATAAAGGAAGGTCGCCAACTTGGGTTGGCATTACTAGTCATAAGTTCCGGT TTTAACCATCACCTCCCCATAGGTCGAGGGTTCGAATCCCCGGGGAGATCCTCCTATGCTCCTACAAAGGAGTGGGCCTC TGCTGGCCTCTCCAGCATGCCACCGGTGTCCTGTTCGGTAGTCTAGAGATATTTTCTCTATGTTCTGCTTGTGAACATTC TTCATAGTATACTAATCTATCCCCGGTGTTTAGAATTTAGATGGGAAGGAGCACCAAATTTACATTTTTGGGAGGTCCAA CACTGCCAATGAAGTTTCCATAGAATAATCCTTGGTGCATTTTGTGGCGGTAACATTCCGCCTTATAGCCGTCATATGTT CGATGGCATCTCAAACCAGTTATTGGGTAAAAAACTGCCGCAAGTAGCTTGTGGCACATTGAAAGGTGGCGGCTGAGGTG AAACGTCTAGTAAGAGTGTGAAACCGCCACTAAATGTAAATAAACCGCCACTATATAGTTTTGTGGTAGTGGGAAAATGA TGGTGAAACAGAAACAATTTTTTTAGTTTTGTGACTAGTGACTACCCACTATAATTTTGTCACCACCATAATTTGCACTG TGTATCCAAATATGAAAAATACACGTTATTTTTTTAAGTGAACATCATATTATTATTATTATATTAAATGTTGTTGTTTA TATTTTTTTAACTCTCATCTTTTTATTTTTTATCATTTTTTGACGTAAAAGTGGAACTTCATTGAAATAGAGAATGTAAA ATGTTTGAACGAATACAAGAGAGAAAATAAGACGGAACATCAACATACCAAATAGTGTTTGGATGAGAAACATAATACAT AGCTAAGTTATGAACTAATCTATTTGTCTCCCTGTGCATATGGTGAAAAGAAATAGAAACAAAAATTGAGGTAAACAATT TAATCTCATCAATCAATCAGTAAGGATAAATAAGAAATATGTTTGGCATTCTCGTTTATGGCTTGCATCGCTCAATGACA ATCAGATTCCACATAAAGATTAGAGAATTTTGTTTTCAATAGCCAGTTTCAAATCTTTCCTTATTCTCATAGCTTCGAAC ATTTCGTTATTCTCACAGCTTCAGTGAATTCCCCCTCCCCTTTAGTCCAAACAATCACTTGAAATTGCAGCAGTCACTAC TTCGCCATTGTGGTTGCAAAACACAGCATCATAATCTCAACCAGATAAAGCTTTGGTTGCATCGACATTGAGCTTAGGAT AGTTTGTCGATGAAGAACGCCAAACATGTTTCCGGAGCTGGTGCACCAACTACAAAATCCTAGCAGAATGCAATTGAGTT CTTGGTATTATTTAGGGTTATTAAATAAACTTAGTTATATCAACTATTTAATTTAATTTTTATAAAATTATGTATAAAAA TAATAATATGTGTGGAAAATTTATAAATATCTTTTTTGTTACACTTGCAAAATAAAAAATAATAATAACTCGTGAATTGC ATGTGAAATGATAAGAGAGAGAATATTAATTGCAATGAATTAAGTTGTGCTAATGAACCCAGCAGTACCTCTCAAAATAA AATAATATAATCTGGTTTAGATAATTATGTTGACAAAAGTTGACCCTGTTTAAGATGGATCATGCACATGCTTTCAATAA GACTCATTGGAGTCACGTCATTGCCCATTTTGACCTAATTTTGTGACTGTTGCATTTACTGAATTCATAGACAAAACCAT GAAATTATTAGGTACTACTAATATATTAGATAAATTGATGTGTGTGTGAGTGATTGTCATGTTGATTGATAAAACTATAA AAATAAAAAAAAACCAAGCCATCAAAAGATCAAGTATAGTGTGATGTAGAGGCTTTGACTTGACCAACGTATGCAGTTGG ACTACCAAGACCAAGTTCCACTTTCTTCCCTCGTTGCTTCCTCCCTTCCTCCTAGTCGCACCAACAACCCCCATTCTGTT AGATCAGCCTCTTAGTCTCACCTACCAAGCACACACATTAGAATTTGGAAAAAGTCCTTTAAAACAAAAAGACTGACAAA CAATAAACAAACCAATCCACCTACTCTTTCTATATAAATACCCACTCACTCTTCCCTTTACCTCTCAGGAAACCCACAAC TCACCAAACTAACATTTCCACATTCAGCTCACCAATCTCTTCCTCATTTTCCCTTCTCATAACTCTAGCAAACTTTGCCC ATTTTTCTTAAGATAATCAATCTTGTAAGTGAGAGATCATATATACTAAGATGGCACCAACCACCAACAGCAACCACGAG AGCCTAAATAGTTCCATCTTCTGCACTGCTGCTAAAGCAGGCAGTGATCCCTTGAGTTGGGGTGTAGCAGCAGATTCGAT GAAGGGGAGCCACCTGGATGAGGTCAAGCGCATGGTGGCTGAGTACAGGAAGCCTGTGGTCAAGCTAGGCGGGGAAACTC TGACAATAGCTCAGGTAGCTGCCATTGCAGCAAACGACCAAGGCGTAAGCGTTGAGCTGTGCGAATCAGCTAGAGCTGGC GTTAAGGCGAGCAGTGACTGGGTCATGAACAGCATGAACAATGGCACTGACAGTTACGGTGTCACCACCGGCTTCGGCGC CACCTCCCACCGTAGAACCAAAAATGGCAATGCTTTGCAGCTAGAACTCATCAGGTACTATACTATACTAACTCAATTCC ACACTCATCATAACTAACTACTAGCTGTTTAATTAATCCATTCCCAACTCCTAATTAATTCATATCATATTTACAATTAC ATTCATTGTATCAAAGTTGTTGATGTATATATCTTCTTGTTCTTCAGGTTTTTGAATGCTGGAATATTTGGCAATGGAAC TGAGACAAGTCACACACTACCACAGCCTGCAACTAGAGCAGCCATGCTAGTGAGGATCAACACACTTCTCCAGGGATACT CAGGCATTAGGTTTGAAATCCTTGAAGCCATCACCAAGCTCATCAACAACAACATCACCCCATGTTTACCACTTCGTGGG ACTGTCACGGCTTCTGGTGATTTGGTCCCTCTTTCTTACATTGCCGGTTTGCTTACTGGGAGACAAAACTCCAAAGCTGT TGGACCATCCGGCGAGGTGGTTAATGCCAAGGAAGCTTTCCAATTGGCTGGCATAGACACAGGGTTCTTTGAATTGCAGC CCAAGGAAGGGCTTGCCCTTGTGAATGGTACTGCTGTTGGATCAGGGTTAGCTTCTATTGTTCTATTTGATGCTAACGTA TTGGCTATTCTGGCTGAAGTTCTATCAGCTATTTTCGCCGAAGTGATGCAAGGGAAACCTGAATTCACTGACCATTTGAC ACATAAGTTGAAGCACCACCCTGGCCAAATTGAGGCGGCAGCTATCATGGAACACATTTTGGATGGAAGTTCCTACATGA AAGCAGCAAAGAAGTTGCACGAGGTGGATCCTTTGCAAAAGCCAAAACAAGATCGATATGCACTTAGAACTTCACCTCAG TGGCTTGGCCCTCTGATTGAAGTGATTCGATTCTCAACAAAGTCGATCGAAAGAGAGATTAACTCCGTGAATGACAACCC TTTGATTGATGTTTCCAGAAACAAGGCCTTGCACGGTGGTAATTTTCAAGGAACCCCTATTGGAGTGTCCATGGACAACA CACGTCTGGCTCTTGCAGCAATTGGAAAACTCATGTTTGCTCAGTTCACTGAGCTTGTGGATGATCATTACAACAATGGC TTACCTTCAAATCTCACTGCTAGTAGAAATCCCAGCTTGGATTATGGTCTAAAGGGAGCTGAAATTGCCATGGCTTCTTA TTGCTCTGAACTCCAATACCTTGCAAATCCTGTCACAACCCATGTCCAAAGTGCTGAGCAACACAACCAAGATGTGAACT CTTTGGGTTTGATTTCTTCTAGAAAAACCAATGAGGCTATTGAGATCCTTAAGCTCATGTCTTCCACATTCTTGATTGCT CTCTGCCAAGCAATTGACTTGAGGCATTTGGAGGAGAACTTGAAACACTCGGTGAAGAGCACTGTAAGTCAAGTTGCCAA GAGGACTCTTACCACAAGTGTCAATGGAGAACTCCATCCTTCCAGATTTTGTGAAAAAGATTTGCTGAAGGTGGTTGATA GGGAAACTCTATTTGCCTATATTGATGATCCATGCAGTGCTACATACCCATTGATGCAAAAACTAAGGCAAGTTCTTGTG GATCATGCATTAGTAAATGGAGAAAACGAGAAGAACTCGAAGACATCAATCTTTCAAAAGATTGCAACTTTTGAGGATGA GTTGAAGAGTCTCTTGCCAAAGGAGGTTGAAAGTGCAAGGGCTGCATATGAGAGTGGAAATCCAACAATTCCAAACAAGA TCAATGAATGCAGATCTTACCCGCTGTACAAGTTTGTGAGAGAGGAGTTGGGAACCGAGTTGCTAACCGGTGAAAAGACC AGATCACCAGGCGAGGAGTGTGACAAGTTGTTCACAGCAATATGCCAGGGTAAAATTATTGATCCTCTTTTGGAATGCCT TGGGGAGTGGAACGGTGCCCCTCTTCCAATTTGTTAACTTACAAGTTATGTTTAGGAAATGTATTCTCTGTATTTATGCA AATGCAATGTTAGTCATTTGATTTATCAAGCCTTGGGCAAAATAATATGGAAATCTTCATCTTAGTTTCCTTGATGTCAA GGAGGAACTTGTAATTGAATATTGCAATAGAAGTTTTAGTTATTTTTCAAATACAAAATTAAGTCATAAATGATTATAAC CAGAGCATTTACTTTGATATTTAGGTCTCTCTTGGATTGTAGGCGGTCAAAGGACTCAAGTAAATATATAACCTACTGGG GTATGATTTTGTAATAGAGATGACAAAATGAGATGTCAGATGACTAGAGTTTATTCACTTATAAGTTGTGATCTTGTGTT CACATATTTCCTGGTTATGACAAATCTTTCTTACTATAGCTGTTTGGATTTTAATTGCTCAGGAATTAAATTTTTATTAT TTATTTTATTTGACATTTATGAATCGCTGTCAGTGCAATTCGTGTCCCTGAGACATTTTGAGCCTTTTATGTTATTTGAG GTGT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0690300.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCCCAAACACCAACGCCACGCAAAACGGTTCCATCTTCTGCAACACTGTCAAAACCGCCGCCACTGATCCGTTAAG TTGGGGGGTCGCGGCGGAGTCCATGAAAGGGAGCCACCTCGACGAGGTCAAGCGCATGGTGGCGGAGTACCGCAAGGCGG TGGTCAAGCTTGGCGGAGAGACTCTCACAATAGCTCAGGTAGCTGCCATCGCCGCAAACCACCAAGGCGTGAGCGTTGAG CTTTGTGAATCAGCTAGAGCTGGCGTTAAGGCGAGCAGTGACTGGGTCATGAACAGCATGAACAACGGCACTGACAGTTA CGGTGTCACCACCGGCTTCGGCGCCACCTCCCACCGCAGAACCAAAAATGGCAATGCTCTGCAGCTAGAACTCATCAGGT TTTTGAATGCTGGAATATTTGGCAATGGTACTGAATCAACTCACACCTTGCCACAGCCTGCAACTAGAGCAGCAATGCTA GTGAGGATCAACACACTTCTCCAGGGATACTCAGGCATTAGGTTTGAAATCCTTGAAGCCATCACCAAGCTCATCAACAA CAACATCACCCCATGTTTACCACTTCGCGGTACCGTCACGGCTTCCGGTGATTTGGTCCCACTTTCTTACATTGCTGGTT TGCTAACCGGCCGGCCGAACTCCAAAGCTGTTGGACCTTCCGGTGAGGTGGTTAATGCCAAGGATGCTTTCCAATTGGCT GGCATTGACTCAGGGTTCTTTGAATTGCAGCCCAAGGAAGGGCTTGCTCTTGTTAATGGTACTGCTGTTGGTTCAGGGTT AGCTTCTATTGTTCTATTTGATGCTAACATATTGGCTATACTGGCTGAAGTTCTATCGGCTATTTTCGCTGAAGTGATGC AAGGGAAACCTGAATTTACTGACCATTTGACACATAAGTTGAAGCACCACCCTGGCCAAATTGAGGCTGCTGCTATCATG GAGCACATTTTGGATGGAAGTTCCTACATGAAGGCAGCAAAGAAGTTGCACGAGGTGGATCCTTTGCAAAAGCCAAAACA AGATCGATATGCACTTAGAACTTCACCTCAGTGGCTTGGCCCTCTGATTGAAGTGATTCGATTCTCAACAAAGTCGATCG AAAGAGAGATTAACTCCGTGAATGACAACCCTTTGATTGATGTTTCCAGAAACAAGGCCTTGCACGGTGGTAATTTTCAA GGAACCCCTATTGGAGTGTCCATGGACAACACACGTCTGGCTCTTGCAGCAATTGGAAAACTCATGTTTGCTCAGTTCAC TGAGCTTGTGGATGATCATTACAACAATGGCTTACCTTCAAATCTCACTGCTAGTAGAAATCCCAGCTTGGATTATGGTC TAAAGGGAGCTGAAATTGCCATGGCTTCTTATTGCTCTGAACTCCAATACCTTGCAAATCCTGTCACAACCCATGTCCAA AGTGCTGAGCAACACAACCAAGATGTGAACTCTTTGGGTTTGATTTCTTCTAGAAAAACCAATGAGGCTATTGAGATCCT TAAGCTCATGTCTTCCACATTCTTGATTGCTCTCTGCCAAGCAATTGACTTGAGGCATTTGGAGGAGAACTTGAAACACT CGGTGAAGAGCACTGTAAGTCAAGTTGCCAAGAGGACTCTTACCACAAGTGTCAATGGAGAACTCCATCCTTCCAGATTT TGTGAAAAAGATTTGCTGAAGGTGGTTGATAGGGAAACTCTATTTGCCTATATTGATGATCCATGCAGTGCTACATACCC ATTGATGCAAAAACTAAGGCAAGTTCTTGTGGATCATGCATTAGTAAATGGAGAAAACGAGAAGAACTCGAAGACATCAA TCTTTCAAAAGATTGCAACTTTTGAGGATGAGTTGAAGAGTCTCTTGCCAAAGGAGGTTGAAAGTGCAAGGGCTGCATAT GAGAGTGGAAATCCAACAATTCCAAACAAGATCAATGAATGCAGATCTTACCCGCTGTACAAGTTTGTGAGAGAGGAGTT GGGAACCGAGTTGCTAACCGGTGAAAAGACCAGATCACCAGGCGAGGAGTGTGACAAGTTGTTCACAGCAATATGCCAGG GTAAAATTATTGATCCTCTTTTGGAATGCCTTGGGGAGTGGAACGGTGCCCCTCTTCCAATTTGTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0690300.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAPNTNATQNGSIFCNTVKTAATDPLSWGVAAESMKGSHLDEVKRMVAEYRKAVVKLGGETLTIAQVAAIAANHQGVSVE LCESARAGVKASSDWVMNSMNNGTDSYGVTTGFGATSHRRTKNGNALQLELIRFLNAGIFGNGTESTHTLPQPATRAAML VRINTLLQGYSGIRFEILEAITKLINNNITPCLPLRGTVTASGDLVPLSYIAGLLTGRPNSKAVGPSGEVVNAKDAFQLA GIDSGFFELQPKEGLALVNGTAVGSGLASIVLFDANILAILAEVLSAIFAEVMQGKPEFTDHLTHKLKHHPGQIEAAAIM EHILDGSSYMKAAKKLHEVDPLQKPKQDRYALRTSPQWLGPLIEVIRFSTKSIEREINSVNDNPLIDVSRNKALHGGNFQ GTPIGVSMDNTRLALAAIGKLMFAQFTELVDDHYNNGLPSNLTASRNPSLDYGLKGAEIAMASYCSELQYLANPVTTHVQ SAEQHNQDVNSLGLISSRKTNEAIEILKLMSSTFLIALCQAIDLRHLEENLKHSVKSTVSQVAKRTLTTSVNGELHPSRF CEKDLLKVVDRETLFAYIDDPCSATYPLMQKLRQVLVDHALVNGENEKNSKTSIFQKIATFEDELKSLLPKEVESARAAY ESGNPTIPNKINECRSYPLYKFVREELGTELLTGEKTRSPGEECDKLFTAICQGKIIDPLLECLGEWNGAPLPIC

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:SF45 View details on PTHR10362:SF45 Search for proteins/transripts with this domain View external data on PTHR10362:SF45	4	715	712	0.0	–
PANTHER	PTHR10362 View details on PTHR10362 Search for proteins/transripts with this domain View external data on PTHR10362	4	715	712	0.0	IPR001106 Show description in modal box View details on IPR001106 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	23	261	239	1.4E-95	IPR024083 Show description in modal box View details on IPR024083 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48557 View details on SSF48557 Search for proteins/transripts with this domain View external data on SSF48557	24	715	692	1.73E-262	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	24	704	681	0.0	IPR005922 Show description in modal box View details on IPR005922 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00332 View details on cd00332 Search for proteins/transripts with this domain View external data on cd00332	60	525	466	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	62	533	472	1.3E-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	197	213	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	262	704	443	7.5E-219	–
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	528	642	115	7.5E-219	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

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0690300.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi1g1v0690300.4