Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0155900
Transcript ID	LotjaGi1g1v0155900.1
Lotus japonicus genome version	Gifu v1.2
Description	Aminoacylase; TAIR: AT1G44820.1 Peptidase M20/M25/M40 family protein; Swiss-Prot: sp\|Q99JW2\|ACY1_MOUSE Aminoacylase-1; TrEMBL-Plants: tr\|I1LW56\|I1LW56_SOYBN Aminoacylase; Found in the gene: LotjaGi1g1v0155900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:28053601..28070254) extracted from Lotus japonicus Gifu genome v1.2.

CTAAGATCGCGACTACGTAGAACTAAGTTTGGAAGGAATGGAAGATCCCGCCGTCAAGTGTGATTCCCCTACTTTATCAA GATGTAGTTGCTTAGTTTCGTTTTCTTCCTCTTTGTAACAAAAAAAAAATTCAGAAGCATCTCAATTTTTGTGCGCGGAA CTGTACTGAGCTGACTTGCATTCACTTCAGTCCACCATGGCCAGAACAACAACAACCACCCCACACCGCCACTACTTCAC TTTCTCACTCTTCCTCCACCTCACTCTCCTCCTCTCACTTCTTCCCTTCTCCGCCACCACCACCACCGAACAAGAACAAG ACAACCCCATCACACGCTTCCAACGCTACCTCCAAATCAACACCGCGCACCCAAACCCCGACTACACCTCCGCCGTCTCC TACCTCATCACCCAAGCCTCCTCCATCAACCTTCGCCACAAAACCCTCCACTTCTCCCCCGGAAACCCCCTCCTCCTCCT CACATGGCCCGGCTCCAACCCTTCCCTCCCCTCCATCCTCCTCAACTCCCACCTCGACTCCGTCCCCGCCGAGCCCTCCA AATGGCTCCACCCTCCCTTCTCCGCCACGCGCGACCCCGACACCGGCGCCATCTTTGCCCGCGGCGCGCAGGATGACAAG TGCATCGCTATGCAGTACCTCGAAGCCATCCGCAACCTGAAGTCCCAAGGATACGCGCCTGCACGCACCGTCCATATCTC GCTTGTTCCTGATGAGGAGGTTGGGGGATTCCGCGGCTCTGCGATGTTCGCGGAGTCGGAGGAGTTTGCGGCGTTGAGCG TTGGGTTTGCGCTGGATGAAGGGCAGGCTAACCCTGGGGATGAGTTTAGGGTTTTCTACGCGGATCGGATTCCGTGGGAG GTGAAGATCAAGGCGAAGGGGAGACCGGGGCATGGTTCGAAGATGTATGATGATAGCGCGATGGAGAATTTGATGAAGAC TGTGGAGGTTGTTAATAGATTCAGGGAGAGTCAGTTTGATGTGGTTAAGGCTGGATTGGCTTCGAATGGTGAAGTTGTTT CTATTAATCCTGTTTATGTCAAAGCTGGGGTTCCCTCCCAGGATGTGAGTTGATTATTGTGTGTTTTTGGTGTTTTTTGC TTGTGGAATGGATGGTGTGTGATGTGTGTGCTGTGCAGGGGTTTGTGATGAATGTGCAGCCTTCGGAAGCCGAGGCTGGT TTTGATCTTAGGTTGACCCCTACGACGGACCCTGAGGAAATGAAGAGGAGAATCGCAGCAGAATGGGCGCCGGCTGTTAG AAATATGTCCTATGAGGTTAGTTCTCTTATGGAATATCTGGTTAGCCTTTTGCATCTTTAATTAGAAATAGGTGATTGGG TTGCTTTGTGTTAGATAATTTTTGTTTTGTTTGAAGAAGCTTCTGTAGTTTGATTTAGTAAAAGTGTATTTGGAAACTCA TGGAGATTTTCATATTAATGGAAAAGTGATCAGGGAAAGCTTATAGGAGGGAATTTGTGGAAGAAAAGTGATCATGCATA TTATAATTGTAAATATGGAGAAATATGAACTAGCTTGTGGACTTTGTGGAAATTTATGCCACTGTCAGTCATTTTTACAA CGTCTTAGCTAGTATGGGAGAGTGAAAAGTAGGCTATAGTGGAGGCAAAATGTGTCTTTGTTGGATTTGAAATGAGGATA GGTAAAATCCCCAGAGATAGTCCTGTCATTTGAGTTGAAGATGTTGGTCAAATTATCTCATTTTTTTCTTGATGGGCAAG TTACTTATGCATATCTTATCACTGAATTCATGTCTGTTGGAATTAATGAGCTGCCTATGGGACTGGGAGGTTAGCTGATT GAGTTGCACCCCTGAGCAGAAACATAATGCTTGTTGAAATTTGATTGTTAGGTCGGATTGGATGGAAAGGGGAAAAGAGA TAATATATAAGTGATAGGACTCAAAGCTGACATAATACTTGTTTTGTTGCAAATAATAATCTGAATGAAGTGCAAGCTCA GTACAACTAGTACAAGCTTAGTCCAATAACACTACAAAAGTTAATAATAATCTTAATTCTGCAATTCTCTTCTTTAAACT GAAGTTAAATAAGCTCCAAGCTTGTTACAATTGTTAACAGTGTCATGGCATATATCCAGTGGATCTAAGGATATTTTAAA ATATCCTTGATGATATTTGACATATATTGATGATTCAAATAGTTTTCTAGTTAGGAAGCAATACTAGGAGTTGTTTCCAA ATGTACTTATATTTCCTAATTTGTTTGGTTATTTAATAGGGTTAAGGGTCTTATTTTTTTATTGTTAGGCCTGTTAGCCT GTAGCTTTAGCAGTACCAACTGCATTAGCACTTGACCAATTACAAATAAACACCCTTACAAAAAGAAACAACTTAAAAAA AGAATTGGCTCCATAAACTAGCTTTTAATGGGATTTAAAGTATAGTGAAGTAAAACAAGATCAAAGGAGAATACACTTGA GGTAGCTGGAATGGCACATTTAAAGTAAAATGCAGTGCTTGAAAGAATTATTACAGGACGGAGACTGGTCTGTTAAAAGA AATTCAGTACAGCAAGGTAAGGACACTGTTGGAAAGATACGTTGCGAAAACTCGGAAGTACCTTAAAAGTACCCTCTACG TTTAGATTCGAAGGGCATTTCCAGAAAACTGGAGCCTTCTCTATCCAGCTGAGATAGCGTGGGAAAGGCCGCGATTTTGG CTGCAAACCCAACCATGACGGAAAACTGGGATTTGATGGGGGGTTTTTGTCCTAGTACGTGGCCGATATGGAGTGGGAAA CCGAGATCCCGTGGGATCACGCCGGGATTGACAACATAGTTTTCTCCAAATCTCAAGTTAAGAATTGATCACTTCACTTG ATTCTTCCATTAGAACTATTATTTGGAAACAACATGTAGTTGCGAATGCCCTCCCTGAAAAATAAAAAATAAAAAAAGGT TGGAAGAAAAGTGATCTTGCGGGATCCAGGAGAACCGTTCCGTCGCGGCCCAAAGCTGGGACAAGGCTTACCATCAGGTC CTATTTTTGTTGCGACCATCACGTCAAGGAAGAGGTTCGAAGTTTATGTAAATGTCCTCCAATTTTATACATTGGGGTTG ACTTTTAGGAGCTTTTACGGGATTTCGGCATGAAAAATCCTAGATTCTGGAAGAGCTCGAGCCTCTCCTCACTTCCCTGC TCTCTTGTTTGCCTCTCTTCCCTGCCTTTCCTCTTCGCCCTTGTGCTCTCAAGCATGACAACCGGCTGACGACCACCGCG AGCCTCTGGCAACCACTGCGACCATCTCGTCGCCCTTGCGCTCAGGTAGGTCTGTTAGGCATCTCCTCATCTTTGCTGTT TTGTTTTGTTTCTCTCTTCCTTGCTTTATTCATTAATCTTGTCTCCTCTTCCAGACATGGCTTCCTCCTCCCAACTAGCC AGTGTGTCACCTCCTCCTGCTGGACTCTTCAAGCTTATTGGGGAGGAACCTTGATATTGCTTGACTGTGGAACATCTTGA AGGAAAGAGGGTCACTTGTGGGTTTTGTGGAAATACTACTTCTAGAGGGGAAAATGATTCAATGGGGCTAAAAGGGGAGG TGAATTTGTAGCAAAACCTCTTGAGAATATGAAGTTGTTGTTGAAGGAATCTTTGGATAAAAAGGAAAGGGGAAAATGAT TCAAACTTGAATGAATTACAATATGAGGAAGATGAGGTGGAAGAAATTATGGTCATTCGAAAAGGGAAAAGGCCTGCGAC CGAGCCATCCATGATTGCTACCAAGAAGCCAAATATTAAAGGCCCCATGGATTTACTACTTATGAGAAAACCAGAGACAA GCTTGAAGTTGGGAAGAGCCAAGAAGTAAACAAATATAAATGATGCATGTGACAAAGAAGCAAGAGTAACAATCCAATAC ATAGCTAAGTGCTTTTGTAGGAAAGACGTAGCTTTTAATGTTGTCAAGTCAAAGAGCTTTAAATTGATGGTAGAGGCTAT TGGGAACAATAACCCTCATTTGAAAGTTCCAAGTTACCATGAGATGAGAGTTCCACTTCTTAATAAGGAGATGGAATACA CAAAACATTTAGTCTAGGGTCATAAAAAAGAGAAGGTAAGGTATAGATGTTTGATTATGTCCGATGCTTGGATGGAGTGG AAGCAAAATAACATTGACAAATTTTCTTGTTAATTGTCCATTGGGATCTCTGTTTGTGAAGAGTGTTGATGACTCTTCCA TTATACAACTTTTTTGATAAGATTGAAGACTAGAATGTTGTGCAAGTGTTGACATAATGGAAGCAATTATGTATTGGCCA GTAAGAGAAAATTATCTAGTTATTCATTATTATTTACTTAGTTTTTTACTTCCTTTATTAGTGTTATATTGATTATCATT TAAATTTATTGTTTAAGGTCTAAGGTAAACTCTTTCAAGCTAAGAGGCCACATTTAGATTGGATTCCAAGTGTTGCACAT TGTCTAGATCTGACGTTGGAGGATATTGGTAAGCTAAGTAAGTAAAGTGCACAAGGTCATATAGAGAGGCATCAGTCTTG TAAGCTTTATTTACAACCATTCATTGGTATTGAACACCATGAGAAAATGCATACACAAATCAGATTTGGTTAGATGTTGG GTTACAAGGTTTGCCACCACATGTCACATTGCAACAGATGGATAATCAAAGAAACAACCTTAGAAAGATGTTCACTTTTG ATGATTGGTTGAATTCTGACTTTACTAAGGTCCGTAAAGAGGGAAAATTGCAGCAAATGTTGCACTCATGCCCTAGCTTT TGGAATGATGTTATGTATTCTCTTAAGAAAATGGGTCCACTAGTGCATGTCTTTAGGCTTGTTGACAATGAAAAGAAGCC CACAATGGGTTATGTATATGAAGCAAAAGATAGGGCTAAGGAGGCCATTCATAGTGGGTGTAAAGAGAATGAAAGCAAGT TCAAAGATATTTCTGAAATAATTGATTGAACATGTGATTGCCAACTTCGTCATCCATTGCATGCATCAAACCATTTTCTG AACCCTGAATTCTTTTATGCCAATCCAACAATGGATCTGGATGCGGAAATTATGAGAGGTCTCTACGAAATTATTGAGAG TGATGAGAATACTGATAAAATCCCAAATGAATTGTTAGTTTATTAGATGGTTGGAGGCTTCTTTGGAATGAAAGCGAGCA TAAAACGAAGGACTACCATATCTCCTGGTAAGTTAGAATGCTCAATTCTTTATAAAATTAAGTAGTTAAAGGCTTAGAGT ATCAATGCTAACTTACAAGATGTTGTTATTATATTTGTAGCTGAGTGGTGGAGGAGCTTTTGACAGCATACACCTAATTT GCAATCATTTGCTGTTAAAGTGCTTTGCTTGACTTGTAGCTCATCAGGTTGTAAGAGGAATTGGAGAACTTTTGAGCATG TAAGTTAACACTTCAAATTATATTTTTATAGTTTCATAAAATGGTTATGAACTTCACATTTTTTTTACAATATAGATTCA TTCGAAGAAGAGAAGTCGTGTTGAGCATTAAAAGTTACAAGACTTGGTTTATATTTCCAAGCTCTTAAAGAACAACTTGA GTGTAGTGATGTCATTGAACCTATTGTTCCAAATGGCATTGATGAAATTATTGAGTGGTTGATGGTAGAAATGGGTGGAG ATGGAGATGCTGAAAAGGAATTGGTTTTTGATGATGAAAACTTAAATTGGGGGGATGTTGCCAATGTGTCGGGTGTTAAT GAGCCCTTAACATATACTAGGCGGTGAACGAGAGGGAGGCAAGCTATTGCCCCTGCATATATGGTTTCAGCCTCTAGAGG GAGGGGAAAAGGAAGAGGCAATGTGATGGAAGATGATAAAGAAGAAACAAGTGTAGAGGAAATTGAAGAGGATAGTGAAA AAGAAGAGTAGCCAACGCTAGAAGATTATGAATTTATGATTGATGATTTCTTATGTAGCTAGGAACTCTTATTTACCTTT CTTTCGATGGTTTTTAGTTGTATGACTTCTTGTTCAAGACCTATGACTTTAGTATTTAAGAAGTTAAAGGCTTAGAGTAT CGTGTATCCTTTTGTTTTTTAGTTGTATGACTTTTTGTTTAAGACCTATGGCTTTTGTTGCTAGTTTGCTACTGTGAAGT ATGATAATGTTATGAATTTCAAGTAATATTTATCATTGATTTTTAGTTGTATGTCTTTTTGTTCACGACCTATTAAGGCT TAGAGTAATATTCACTCTTCCGACCATCCTGTTATCTGCTATATTGCTATCCCAATTTTGGGGTCGGTAGGTACACTGAC ACCTGCGATTGGCAACATAGTCTGTTATATATCCCTAGTAAGTATGTCTTAAACCAGATTAAACTGGTTCAGACTCAATG GAATCCTAACATTATAGGAAAGTCGTTAGGCGAAAGAGTTCTCACACTTGTGTATGCCCCCTCATACATGTCTTATTTAG CTATTTTGAAGGAGAAACCGAGAGACAATATTGAATTGAATTCATGTGTTTCAACTAGTAAGTATGTCTTAAACCAGATT AAACTGGTTCAGACTCAAGGCTGAGCCTTGATGGAAACCTAACATTACATGCCTTATTTAGCTATTTTGAATAAGTAGAA ACCGAGAGACAATATTGAATTGAATTCATGTGTTTCAATTAAACAACGGAGTATATATAATAGGCATAAATACATGATGT CATTGTTTCCTTATTTACAATGATGGAACAATGTTTGAGCCATATAAGCTCACAAGTTGCGGAGGTCATGGCTCGATACT CTGCTTCTGCACTTGATCTTGCCACTACATTTCATTTCTTGCTTCTCCCAAAACAGAATGTAGTGGCAATGTCAAGTGCA GAAGCAAGACATAAGTAGCTTAAAGTGGATCTTCTCTCAGTAGAGAACTTGTCCAATCTGCATCACAATATCCGACAACT CGTGCAAGACGATTGTCTTCATACAAGAGGCCATTTCCGGTAGCTATCTTGACATATTTTAGAATGCGAATTACAACATG TCCTTTATATGGTGACAATGAGGTAGTTCAATTTCCTACTTTTACTGGGTACCTTAGCTCACTGGATACGAAAGTGGCTC CCTCTTACATGACATAAGTTCAGCATTGGGATTCATAGGAGTGTCAATAGGTTTAGCTTTATTGAACCAGATTTACAAGG AATTGATGATGCTGCTCAAAGGAGGCACCAGTTGACACTCACAGATTCACCAAGGTCTAAGATTATTCAATTTTTAGCAA AATTGCAAATGGAAAAACTGCAAAGGAGATGTCATATAAGATGTCCAATTCAGAAGCGCTGTTGAACAATATTTTTCACG TGTCATATCTCGTCAAGAAGATGAGAGTGTACATAAAAGACATCTCAAGTTAATTGATTCATCCCGTGAAGAAAATAACT CTTGTTTCCCACACATACTAGTATTATTTGCAATTTATATATTTTCCCTTCTATTTTCTATCTAAACATTCTATGATGGT TATACAAAGGTTTACATTATCAGCACAAATCTGTTCAAACCATTTTATCCTATTCTGACATGATAATCTTCTCCCGTATT AGGATCCTCTCTCAATTGAAAAAAACTTGACCATATTAAGTTTCATCATCTCACCATTAGTTTAATTCTCATTTATTTTT TAATTATTAAACACATAATAATCTGTTGTAAATAAGGAATTAATATAAGAATTATTATTAGAATATTATATTCAGTATTA GGAGATTTATTCTCTTATTAGGAGATTGTGTACATAATTAGTTATTTCCTTATTTAGGATTAGTCTTCTTCTATATAATG TAATTACCCTTTGTATTCTCTGATTAAGAAATAATAATACAGTTTCTCCTACTTTCAAGTTGGTATCAGAGCCTATCCTA GATCCATTTGTTGTTTGTTGTGGAGACCTCCCATTATTGGGCCACCCGTTGTTGTTGATCCCACGTTCCAGGTTGTTCAG TCCTGGACGTGAGGGGGTGTGTTAGAAGTCCCACATTGGCTAGAGATAGAGCATAAATAGCCTTTATAAGGGTAGTGCAA ACCTTAACTCTTGAGCTAGCTTTTGGGTTGAGTATAGCTCCCGATCTTGGGAGTTCTGCTTCTGCGAAAAAAAAAACCCT AGCCGTCTTATTACGGCCCTTTTATCTGGTAACGTTTTCTGTTTTGCCCTTGTTGGCTTATACTGTTTGGAGGCCTGTGC TCTTCATCACCGCCTGCCAACCTCTGTTCCTGACTGCGATTGCGATTGCACAGAGAGGGTTCCCCGTGCCTTCTGGTCCT GTTTCCGAGGGTCGTTTCCTCACTTTGTTGGTGTTTTTTCTTAAGAAGCCTTTGGTTCTTCCATTCAAGGAGAGTGCAAT CTTCTCTGTTTCTGTTATTTTCCTCTTATTTCCCTTCTACAGTAACATCTCTCAGTATGTCTGGAGACGAGATTCCCATA CCTAAGGAGAAACTCACTTCTGGAGTGAAAGGGGTCTCTCGTCCACCTTTGACCCACAAAGATCTCCCGGTATTACAAGG TTCCTTTCGCTTGGATGGGCGCAACTACCTCCAATGGTCCGAGCTCGTCCGTCACACTCTCATAAGTCGCAAGAAAATCA GTTATATTGAAGAAACAGCCCCAGCTGAAACTGATCCACAATATGACACATGGCGTGAAGAGAATTCTCTTATTATGACC TGGTTTTGGTACTCTATGATTCCGGAAATTAGCCGGAATTATATGTTTTTCCCTACTGCCAAAGAGATTTGGAATAATCT GGCACAAGCATACTCTAAGAAACAAGATCTCTCAGCTTGTTATGAATTGGAAAATAAAGTTTTCAATTCTAAGCAAGGAA CTCTCTCTGTGACAGATTACTATGGGACCTTGAATGGTCTCTGGATTGAATTAGATCAGTATCAAAATCTGAAGATGAAG TGTGATTCTGACTCCACAACATTGAATAAGTTTATTGAAAAAGCGCGAATCTTTAAGTTTCTCTCTGGGCTTAACTCTGA ATTTGATCCGATTCGGGTCCAAATTTTGGGTAAAGAGCAACTCCCCTCTCTCTCAGAGGTGTTCTCTATAGTTCGTGGTG AAGAAACTCGGAGGACAGTGATGGTGGAAGACAAATCAGTTGATGGTTCAGCCTTAGCCTCTGGAAAGGGTCCCATAAAA GGATCCACCTCTTTCGGACGCCCTAACCGTGATGATCGCCCCAACCGTGATGATCGCTTTAACGGTGACGATCGCTTCAA CCGTGATGATCGTTGCACTTACTGTAAGAGGTCTGGTCACACCAAAGAGTACTGTTTCAAACTTTATGGAAGGGAAAACG TCCTTGCACGTATGAGCAAGTCCAAAGGTGCTCCGCAGAGGCGTGCAAATCACACAGCTTCTGACATGGAGAATGATGGT GAAGTCCCACCTGTACCACCAGCAGAAGATGTTCCTAGCCTTAGCAAAGCAGAATTGGAGCGTCTGAGAGCTTTTATGGA CTCATTGAGTAAGCCCTCTGGTTCTTGTTCTCTCACAATGACTGGTAAGAGTTCTACCTTCTTATCTCTTAATGCTTTGA GTACTGAAAATGACTGGATTATTGACTCTGGTGCTACAGATCATATGACACCTCACCCCTCACATTTATCTTCTTATTCC ACTTACCCTGGAAAACATTATATCACTGTTGCTAATGGATCCCAAAACCAGATTACGGGATGTGGTAACATTCACCTTAG TCCATCTCTTCCCTTAAAGCGTGTGCTTCATGTCCCAAAGCTTTCTAACAATCTTTTGTCCATCCATAAACTCACTCGAG ACTTGAACTGTGCAGTAACCTTTTTCCACTCTCATGGTGTTTTTCAGGATCTTGCCACGGGATAGATAATTGGGATTGCT AAGGAACAGGACGGGTTATACTGTCTGCAGCACGAGGAAAGCAAGTGTCATCAGACGAGTTCAGAGTCCTGGAATACTTC TCAAATATGGTTGCGACACAAGCGTCTTGGGCATCCCCCTTTTAGTATTCTTAGGACCATGTTTCCCCATTTATTTTCAA AAGTGTCAGTCGAATCTTTTCATTGTGATGTTTGTCAGTTTTCTAAGCATCATCGTTCAACTTTTCTTCCTAGTAATAAT AAATGTGCTCAACCTTTTGATCTTGTTCACTCTGATGTGTGGGGACCTTCGTCCATTTCTAATGTTTCTGGTGCAAAATG GTTTGTTACTTTTATTGATGATTGTACTCGGATTACATGGGTTTTTCTTATGAAAGATAAGTCTGAGGTGTTTCAATTAT TTGTTAACTTTTTCCACATGATTAGAACACAGTTTGGGAAACCTATTAAGAGGTTAAGGTCAGACAATGGGAAAGAGTAT GTTAACAAGAATTTTTCTGAATTTCTTACAAAAAATGGTGTTGTTCATGAGTGACTTGTGTTGACACCCCACAACAAAAT GGGGTTGCTGAAAGGAAAAATCGTCATCTTCTTGAAATCACTCGAGCGTTACTCTTTCAAATGAATGTTCCTAAGTTTTA TTGGGGGGAAGCTGTCTTAACGGCTGCTTATTTAATTAATAGGTTACCTTCTAGGGTTTTATCTAATGTTAGTCCTGTGC AGGTTATGACTAGCTTCTTTCCGTCAGTGCCCATTAAGTCAGGGCTTCAAAGTCGTGTATTTGGCTGTTCCGCCTTTGTT CATGTTCATGGTCATCATCGGGGTAAGTTAGATCCTCGGGCTATTAAGTGCATCTTTATAGGATATGCCTCAGATAAAAA GGGATACAAGTGTTATCATCCTCCTAGTCGTCGTGTCTATATATCCATGGATGTTACTTTTCAAGAATCAGAGTCTTTTT ATCCCAATCCTCAGCTTCAGGGGGGGAATACTCAGGAAGCTGAGTCTCCAGAATTGTCTGTTATTCCTCTTCTACAGGAG CCCTTGATGCCTTCCTCCATTCCTATCACTGAGGACAGTGATGTGATGACAATGGTCCTGAACAAGTACCAAATCAGAAT GATGACAATGGTCCTGAGTTAGTACCAGATCAAAATGATGACAATGGTCCTGAACTAGTACCAGATCAAAATAATGTTGA CAGGTTCAGGATAAAGTACCAGCGGAAAGTAAAACCCGTCCTGATCCAACAACAAGACCAACCATCTGATCCTGAGGTAA GTGTTCCGAACCCTGAGCCTAGTAATTCCTATGAGCATAACCTTGATGACTTACCTATTGCCTTACGAAAAGGAAAACGT TCTTGTGCCAAGTACCCTATATCCCAATTTGTGTCTACTCAAAATCTTTCTGTGCAGCATCAGAGTTTTATTTCAGCTAT TGACTCTATTAGAGTCCCTACATCAGTACAAGAAGCTTTAAAAGATAAGAACTGGATTCAAGCCATGAATGAAGAGATGC ATGCACTGGACAAAAATGGCACTTGGGAGATTGTTGAGAAGCCAAATGACAAGAGGACAGTAGGTTGCAAGTGGATATAT ACCGTGAAGTACCGATCTGATGGCACACTTGACAGGTATAAGGCGAGGCTAGTTGCAAAGGGATACACCCAGACCTATGG AATTGATTATGATGAGACATTTGCTCCGGTAGCAAAAATGAACACCGTAAGGATCATTCTTTCCTTAGCAGCTCACTTTG ATTGGGAGTTGCAACAGTTTGATGTTAAAAATGCTTTCTTGCATGGAGATTTGGAGGAAGAGGTGTATATGGAGATTCCA CCAGGGTATGACCCTACTTCAGGAAGAAATAGGGTGTGCAAACTGAAGAAGGCTTTATATGGGCTCAAACAGTCACCCCG AGCTTGGTTTGGGAGATTCACTAATGCTATGGTGTCTCTGGGTTATAAACAAAGCCAAGGTGATCATACCCTCTTTATCA AACATACTCGAAATGGTAAACTCACTCTTTTGTTAGTCTATGTAGACGATATGATCATTGCAGGTAATGATGAACTTGAG AAGCAGAATCTGAGGAAAGAGTTGGCAGCCCAATTTGAAATGAAGGACCTTGGAAAGCTGAAATATTTCCTAGGTATGGA GGTGGCATACTCGAAGCAAGGGATTTTCATATCTCAAAGAAAGTATGTCCTTGATCTTCTCAAAGAGACTGGAAAATTGG GTTGTAAGCCCATGGGAGTGCCGATAGAGCAAAACCACAAGATTGGAAGTAGTGAGGAGGACCTTAGGGTTGATAAGGCT CAATATCAGAGACTTGTGGGGAAGCTCATTTATCTATCTCACACTAGACCTGACATAGCTTATCCTGTTAGTGTTGTCAG TCAATTTATGCATGACCCACAGGAGAGACACTTACAGGCTGTGGATAGAATCTTGCAGTATCTGAAGGCCAGTCCAGGGA GGGGTCTGTTGTTCAAGAAGAGTGAGCAATTGTCTATGGAGGTTTATACTGATGCAGATTATGCAGGGTCAATTGTTGAC AGGAGATCCACTACTGGATATTGTATGTTCTTGGGTGGAAATTTAGTTACATGGAGGAGCAAGAAGCAGAATGTAGTTGC CAGATCAAGCGCAGAGGCAGAGTTCAGAGCCATGGCTCAAGGAGTTTGTGAATTGTTGTGGATGAAGATCATACTAGATG ATTTAAAAATAAAGTATGAAGCTCCCATGAGACTCTTCTGTGATAATAAGTCTGCCATTAGTATTGCGCACAATCCAGTC CAACACGACAGAACAAAGCACATAGAGATAGACCGACACTTCATCAAAGAGAAATTGGATAGTGGTCTTATATCTACACA GTACGTCCCCTTAGGACTTCAGTTGGCTGATGTGCTCACCAAAGGACTTCCCTTGGAGCGGTTTAGAGAGCTTACTTGCA AGCTGGGAATGATAGATATCCATTCACCAGCTTAGGGGGGGTGTTGTAAATAAGGAATTAATATAAGAATTATTATTAGA ATATTATATTCAGTATTAGGAGATTTATTCTCTTATTAGGAGATTGTGTACATAATTAGTTATTTCCTTATTTAGGATTA GTCTTCTTCTATATAATGTAATTACCCTTTGTATTCTCTGATTAAGAAATAATAATACAGTTTCTCCAACTTTCAAGTTA ATCAATAGTTAAATGGTGAAACTTCACATGGTCAAGTTTTTTTACAATTGAGATGATCCATTTTGTCCCAAACTCTTTGA TGAGATTGGACAATATATTTATTCTAGTTCTTCTTTCAACCTTCATCTCTTACATTGGCCCCTTATGATCCCCCATCATT CATCATTCTACCTATTACTGGCCTCCTCTGCTTTTTGACCACCGCCATGGATGGCTTCTCTGAGCACCACTGTTGACACA CTGAGGGTTTCTGGCACTGCAAATGCCCACTAAAACCGCTTTTCTGACTATTTCTGCCTGCTACCCTCTTGATGTATGTG AGGAGCTGTCGTTCTTACTGCCTTGAAAACCTTGAAGAACCCATCTTCCAATCTGACACTTCTGCTGATATTACTGATGA AAAAGATAGACAGATAAATATCAGAAGAAAACTTTTATTTGAGAAGAAAGATATAGAGGTATATTTATACAACAGTATAG TGGCAATGGAAACTTTTTTCCAAAAGGAGTTGAATGTAACAACAAACAAACAATCTAATAGAATAGAAACTAACAGCAGA GATAACTGTATAAATTTCTTAACATGATCTAACAAATCATAAACCCGTTTTAATAATAAAAATGGAAATATTAGATCAAT ATTTTTTGATGATTTAGCCACGTTGGACTTTCTTGTTAGATTTTTTATATTTTGTGGATTTGCAAGACTGTATGATTAGA AATTAAAATTAATTATAGTGCTTAGTTACTTAATGGATATTACAATGATGACCCGTGAGTTGGACCATTTACTTATTGCT CTTTGAGAGCTGAGAGGTGCAGACCCTCATCTTATCTGTTCTACCCTATTAGTCACTCTGACACACTCTATGCATACCAG GAAGAGTAGTTTCTCTCACATTCAATTTTCTCCTATTATCTCCATAAAAATCCTTGTTCATGATTGATAAAATTTATTCT TCATTGAATAGTTGCTAGATGTCAAAATTGATTATGAGAGGAACAAAGTTGATCCAAACTTGCTTATTAAAAAGCACTTA CAATGTAAATTCATATATCCCAATGGATTGGGAATTGAACATCAATTGTCTTTGCCAAACTAATGAAGTTATGGCTCTGT TGCTAAAACCATTGTCAAAACCATTGTCTTTGCCAACAATTTCTTGACCACACCTCTTCTGTCTCATCACTCATGTTTGG CTAATCAAATATGATGGCAGATAAAAGAGAAAGGACCCCTCAAAGACCACATGGGACGTCCCTTGATGACCGCAACTAAT GACTCCAATCCATGGTGGTTAGTTTTCAAGCAGGCCATCACATCAGCTGGAGGAAAACTTTCAAGGCCTGAGATCCTTGC ATCCACAACTGATGCTCGATACATTAGACAAAAAGGAATTCCTGTACTTGGTTTTTCCCCAATGAAAAATACTCCAATCC TGCTTCATGACCACAATGAGGTTAAACACTGCTTCTATTTTTCCTTATTGTTTAAGTGTATGTTTGGGTACACAGTGGAA AATCACAATGAGGCTCAAATCAAGGTGAGCAGCCGTAAAAGCTAGAGGAAGTTGCTTCTGTCCACCGTGATTTTTGCTTC ACTGTGTATTCAAACATACACTAACTCTCATCGCATTCCACATGACGTACACTAGTACATGTTTTTCACTCACTGTGACC TTCACTTGCAGCACCTACGAGATACTGTATACTTGGAGGGAATACAGGTATACGAGTCTCTGATAAGTGCCTTGAGTTCA TTTACAGAAGTCTCACAATAAGCGCCTGCAGTTGTATTAAGGAGGGGCTGGGTTGCTTATCTCAATGTGAAAGAAACTGG TGAATGGTGATGGGCATGATTTTATCAAAATAATCAAATTAGTTAGTTACTAAATGATATGGTTTCGCTCATATTAGTTT CTCAGTGCTTGTTTGGAACCACGCTCGGAAGACAGTAAACATGGATATCCGGTTGAAGCTTCAAGTTGTAGCGTCTACCT AAATGTGCATTGGAGCCTTATGTTACCTGGATCAATAGTGTTATTTATAAAAATTCAATCATAAAATGGGCTACACCCAC TTATTTGTAAGAAAGTTCATTTCCTTTGTTTGGAGAGTGGTAAAATAAGGGAATGGAAAGAAAATATATTATGGGTCTCA CATTGTTTCCCTCCATATATGGGAGGAAAGCTGACATTGAGTGTACTTAAATAAAAGTACCATTCTGTCCTCTAATTGTC TGACATATTTCAAAGTTGGGATATTTTTGTAAATTTTTGTTGATGTGTTTTCTACTTTCCCTTATTATTCAATGAGAGAT ATTTTCGAGCTTTTTTCTTTCATAATTGTCTCCTAACAAAGAATCTAAAATCATTGCACTTTTACTTCTTTTCCTTCCTA CTGTCTTATTTTCCTTTCACTTTCTTTCCACAACTAAATAGTTAGAAGAACAATGATATTCGAACGGAACCAAAATGATG TTTGGGTTGGATCAGATGGATTGATCAGAGCTCTATTAAAATAATATTAAATCTGGAATGTAAAAGTAAAATAAATGGAT CGGATGGATCTACTCCTATGGCTTCAGGTCAGATGAGTTGATCGGATTGAACCGTGACTGTTGATTATTTCATCCATGGA CCAGGTGGAAATTTTGGCAAAAGGTTTGAAATATTTAGTTCTTGATCATGATCATAAACAATTGGATCAATGACAGAAGC TTTAAGGTGTAAGAAATTTGGCTTACATAGTAGTTCAAGCTTTTGAATTTTTTTTGTTGGGGTCACAGTGAGCACTTGTT TTTTTTTTCTTGGTGCAAGCGAGAAAAGAAAAAGAAAACAGACAGCAAAAGAAAACCCCAGCTTAAGAGACTAAGTCCTA GCAAAACTGATTCCTACAACATCCGCAATCAATAGAAGCACAAGTTTAGGCGGAGGATCTTGAACCAACATGAAAACCAC AGATTGTCTCGCACCCGCTTCTGCTAGAAAGTTTGCACAAACATTGTTCTCTCACAAAGTATGGGAAAATTTTATTATGG ACCAGTTTTTGGTGGTCTAAACTTAGACCACTACCTGTTGACTTGGTACTGGAGGTAATATTGAATTTTTTGAAAATTTG AAAAAACAAATAATTAATATATAAAACAGAAATTATTTAATTAGTAAGTAAAGATTAGTAATTAACACCATTTCATTTCA AAAAAAAAAAATCAGATTATGTGCTCATTCCACCTCTCTTCAAAACCCTAACACAAGTTGCCTTCCATCCATAGCCGTCG GCCACCACTCTCACCCTATCTCCTAGCCGCGCAACCACCTTAGCACCTCTCGCCCTGGAGATGAGTCACCTCCACCGCCG GCGACCACAACACCGTCTTTCTCTCCCCGACGCCTTCCATCTCCCTCCTCCACTTCTAGTTTCAGATCTGCGTGGAGGTG GAGTGGGGTGGGTTCAGAAGTTGAGCATCAGTACCCCCTTCTTCATCTCATATCTATTTTCCTCTTCTTCTCTCAGATTC TTCTCTCAGATCTG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0155900.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCAGAACAACAACAACCACCCCACACCGCCACTACTTCACTTTCTCACTCTTCCTCCACCTCACTCTCCTCCTCTC ACTTCTTCCCTTCTCCGCCACCACCACCACCGAACAAGAACAAGACAACCCCATCACACGCTTCCAACGCTACCTCCAAA TCAACACCGCGCACCCAAACCCCGACTACACCTCCGCCGTCTCCTACCTCATCACCCAAGCCTCCTCCATCAACCTTCGC CACAAAACCCTCCACTTCTCCCCCGGAAACCCCCTCCTCCTCCTCACATGGCCCGGCTCCAACCCTTCCCTCCCCTCCAT CCTCCTCAACTCCCACCTCGACTCCGTCCCCGCCGAGCCCTCCAAATGGCTCCACCCTCCCTTCTCCGCCACGCGCGACC CCGACACCGGCGCCATCTTTGCCCGCGGCGCGCAGGATGACAAGTGCATCGCTATGCAGTACCTCGAAGCCATCCGCAAC CTGAAGTCCCAAGGATACGCGCCTGCACGCACCGTCCATATCTCGCTTGTTCCTGATGAGGAGGTTGGGGGATTCCGCGG CTCTGCGATGTTCGCGGAGTCGGAGGAGTTTGCGGCGTTGAGCGTTGGGTTTGCGCTGGATGAAGGGCAGGCTAACCCTG GGGATGAGTTTAGGGTTTTCTACGCGGATCGGATTCCGTGGGAGGTGAAGATCAAGGCGAAGGGGAGACCGGGGCATGGT TCGAAGATGTATGATGATAGCGCGATGGAGAATTTGATGAAGACTGTGGAGGTTGTTAATAGATTCAGGGAGAGTCAGTT TGATGTGGTTAAGGCTGGATTGGCTTCGAATGGTGAAGTTGTTTCTATTAATCCTGTTTATGTCAAAGCTGGGGTTCCCT CCCAGGATGGGTTTGTGATGAATGTGCAGCCTTCGGAAGCCGAGGCTGGTTTTGATCTTAGGTTGACCCCTACGACGGAC CCTGAGGAAATGAAGAGGAGAATCGCAGCAGAATGGGCGCCGGCTGTTAGAAATATGTCCTATGAGATAAAAGAGAAAGG ACCCCTCAAAGACCACATGGGACGTCCCTTGATGACCGCAACTAATGACTCCAATCCATGGTGGTTAGTTTTCAAGCAGG CCATCACATCAGCTGGAGGAAAACTTTCAAGGCCTGAGATCCTTGCATCCACAACTGATGCTCGATACATTAGACAAAAA GGAATTCCTGTACTTGGTTTTTCCCCAATGAAAAATACTCCAATCCTGCTTCATGACCACAATGAGCACCTACGAGATAC TGTATACTTGGAGGGAATACAGGTATACGAGTCTCTGATAAGTGCCTTGAGTTCATTTACAGAAGTCTCACAATAA

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Protein sequence (LotjaGi1g1v0155900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MARTTTTTPHRHYFTFSLFLHLTLLLSLLPFSATTTTEQEQDNPITRFQRYLQINTAHPNPDYTSAVSYLITQASSINLR HKTLHFSPGNPLLLLTWPGSNPSLPSILLNSHLDSVPAEPSKWLHPPFSATRDPDTGAIFARGAQDDKCIAMQYLEAIRN LKSQGYAPARTVHISLVPDEEVGGFRGSAMFAESEEFAALSVGFALDEGQANPGDEFRVFYADRIPWEVKIKAKGRPGHG SKMYDDSAMENLMKTVEVVNRFRESQFDVVKAGLASNGEVVSINPVYVKAGVPSQDGFVMNVQPSEAEAGFDLRLTPTTD PEEMKRRIAAEWAPAVRNMSYEIKEKGPLKDHMGRPLMTATNDSNPWWLVFKQAITSAGGKLSRPEILASTTDARYIRQK GIPVLGFSPMKNTPILLHDHNEHLRDTVYLEGIQVYESLISALSSFTEVSQ

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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
Phobius	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	33	33	-	–
SignalP_EUK	SignalP-noTM View details on SignalP-noTM Search for proteins/transripts with this domain	1	34	34	-	–
Phobius	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	17	17	-	–
SignalP_GRAM_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	33	33	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	13	35	23	-	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	18	29	12	-	–
PANTHER	PTHR45892:SF3 View details on PTHR45892:SF3 Search for proteins/transripts with this domain View external data on PTHR45892:SF3	22	449	428	3.5E-238	–
PANTHER	PTHR45892 View details on PTHR45892 Search for proteins/transripts with this domain View external data on PTHR45892	22	449	428	3.5E-238	–
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	30	33	4	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	34	451	418	-	–
Gene3D	G3DSA:3.40.630.10 View details on G3DSA:3.40.630.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.630.10	34	228	195	2.5E-52	–
PIRSF	PIRSF036696 View details on PIRSF036696 Search for proteins/transripts with this domain View external data on PIRSF036696	34	448	415	4.3E-169	–
TIGRFAM	TIGR01880 View details on TIGR01880 Search for proteins/transripts with this domain View external data on TIGR01880	35	446	412	2.3E-180	IPR010159 Show description in modal box View details on IPR010159 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF53187 View details on SSF53187 Search for proteins/transripts with this domain View external data on SSF53187	36	443	408	1.91E-51	–
CDD	cd05646 View details on cd05646 Search for proteins/transripts with this domain View external data on cd05646	42	444	403	0.0	–
Pfam	PF01546 View details on PF01546 Search for proteins/transripts with this domain View external data on PF01546	108	441	334	6.4E-34	IPR002933 Show description in modal box View details on IPR002933 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00759 View details on PS00759 Search for proteins/transripts with this domain View external data on PS00759	144	183	40	-	IPR001261 Show description in modal box View details on IPR001261 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF07687 View details on PF07687 Search for proteins/transripts with this domain View external data on PF07687	227	330	104	6.5E-7	IPR011650 Show description in modal box View details on IPR011650 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55031 View details on SSF55031 Search for proteins/transripts with this domain View external data on SSF55031	228	341	114	7.18E-7	IPR036264 Show description in modal box View details on IPR036264 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.70.360 View details on G3DSA:3.30.70.360 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.360	229	336	108	2.1E-11	–
Gene3D	G3DSA:3.30.70.1640 View details on G3DSA:3.30.70.1640 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.1640	365	446	82	7.6E-33	–

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:0004046 View details of GO:0004046 AmiGO InterPro QuickGO	Molecular function	Aminoacylase activity	Catalysis of the reaction: an N-acyl-L-amino acid + H2O = a carboxylate + an L-amino acid.	Subterm of View details of GO:0016811
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:0006508 View details of GO:0006508 AmiGO InterPro QuickGO	Biological process	Proteolysis	The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds.	Subterm of View details of GO:0019538
GO:0006520 View details of GO:0006520 AmiGO InterPro QuickGO	Biological process	Cellular amino acid metabolic process	The chemical reactions and pathways involving amino acids, carboxylic acids containing one or more amino groups, as carried out by individual cells.	Subterm of View details of GO:0019752 View details of GO:0044238 View details of GO:1901564
GO:0008237 View details of GO:0008237 AmiGO InterPro QuickGO	Molecular function	Metallopeptidase activity	Catalysis of the hydrolysis of peptide bonds by a mechanism in which water acts as a nucleophile, one or two metal ions hold the water molecule in place, and charged amino acid side chains are ligands for the metal ions.	Subterm of View details of GO:0070011
GO:0016787 View details of GO:0016787 AmiGO InterPro QuickGO	Molecular function	Hydrolase activity	Catalysis of the hydrolysis of various bonds, e.g. C-O, C-N, C-C, phosphoric anhydride bonds, etc. Hydrolase is the systematic name for any enzyme of EC class 3.	Subterm of View details of GO:0003824

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0155900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0155900.1