Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0253000
Transcript ID	LotjaGi3g1v0253000.1
Related isoforms 2	LotjaGi3g1v0253000.2 LotjaGi3g1v0253000.3
Lotus japonicus genome version	Gifu v1.2
Description	Aspartate aminotransferase; TAIR: AT2G30970.1 aspartate aminotransferase 1; Swiss-Prot: sp\|P46643\|AAT1_ARATH Aspartate aminotransferase, mitochondrial; TrEMBL-Plants: tr\|G7JCN3\|G7JCN3_MEDTR Aspartate aminotransferase; Found in the gene: LotjaGi3g1v0253000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:42660616..42674468) extracted from Lotus japonicus Gifu genome v1.2.

GAAACTCAATAAAATAAAGGAAAAAAAATCAAGTGGTGGTGGATCCGTCATTCCGTTGGCTTTCAATATTTTTTAGTTTT TTATTCTCTCGAAGTGTTCAACATATAACATTTATTACCTGATGACAAGACAGTGACTCTAACCGTTTCTTTCTCTGCTT TCACTGTGTCCTCTGTATCTTGGAAATTTCATCAGTTTCCGACTCACCAAGCATGGCGATCCGCAACTCGCTCAACGGTA GATTCCTCCGCCACAGCTCCGTCGCCGGAGCTAGGTTCATGTCGTCGTGGTTCCGGAACATCGAGCCAGCTCCCAAGGAC CCGATCCTCGGTGTTACCGAAGCTTTTCTTGCCGATCAGAGTCCAAACAAAGTCAATGTCGGAGTGGTGAGTTCTCCTTC GCTGTTCTCTCTGTGTATCAAAAACTCGAATCGGTTGAGAAAGAGAGTGTAATAATCCAATCACTCGAGCTGCAATTTTT GCAATTTTCTCTCATTTTCATTGAATGCATTTCGTTTATATTTTTTTTTCCTGTTCAGATTTCTGATTTAGGTAGCAATT GAAAGTAATCTTGAATAAAAATTCTGAAAAATGGTTAGAAACAGGCTTTTTGTGATTTTTTGAAACTTAATAATATTGTT ATTTTTATTTTGAGTGGATTGTTGATTGACTGTGTATTATCATGTACTAATTGCTTATGTAACTGAATTTAATTTTCTTT TTTATTTTTAATTTGCAAAAAAGGGAGCGTATCGCGATGACAATGGAAAACCTGTGGTTCTGGAATGTGTTAGGGAAGCA GAGAGGAGGATTGCAGGAAGCCAATTCATGTGAGTGAAAGATTTGTTTTTATTTTTTTCAATTTTAATGAGTGTTTTTGA AGTTATTAAAATTCCTGTTAAGTTTCAAATATGTTAAAAATTAAGTTGTGTTGTGATTGAATTCTGTTTTGTTTTTCTTA CCCTGTTTTTTCATGTTGTAATACAATTGTGATTGATTCCTTGTGCCAATTTGTGGTGATCACTTAAAGTTCACCCACTA GCTGAGTCTGCTTCTTGGGTGTGTTTTGTCTGCATAAAGCGCTTTTGGAAATATGATTCTACTTGTTTTGCTTTTGTCCT TTGGCTTTGAGATTTGAGAATGAGAACTACTATCTCATTACCCTTTGCAAGGGAATCACGGTTCCTTGCACTGCATAATT GGTTTCTGTAGGTGTTTTTGGATGGTATAGGGAATCCTGCTTTATTGCTGCTGCTTTTCTGGCGTCAAAGCTGAAAACTT TAGAAGTATCCTGTTGATATAATTGGTTAGGCATAATGTTATTGAAAATTTAAAATGGTTCAGTTCTAATGCTATAGAGC ATTGCCCTTTAAAGTCATCCTTTCACAATATATATTGGATATCTATAAACCATCTTGACTTTGCTTTTCTATTGGAATGA ATGCTAAATCAGCTGTCAATATATTTCTGAAAATAAGAAATTAAATGGCATATACATTTGACCTTGCAGATGAAGAGGAT GGTGACATTTTCTCTTTATTAAGGTGAAGGAAAAAAAAGGTGGACATGTTTTCCAGTCCAATTTTCAACTAATGCTACCA TGCCATGAAAACCCAGTTTGTGAAATTAGATTTTATTGCCTCTGTTTTTAAAAATAATTGACTATTTGAGCATGAAATAA ATAAATGAAACTTGATTCCACAAGGTTCATAGAACTAAATGAACATCTTATTCATGCTTACCTTCAGGGATATAAAGCTT CTAAGAAAGCCAGTTAGAAATAGAAATACTCTCCAGAAAACTATGTGTGTTTGAATATTTAAGTATTACACCAGTTTAAC TGGAATACTTGATCACTCTCCATACATGTGTCTGTGTTTGGCCAGGGAGTATCTTCCTATGGGTGGAAGCATAAAGATGG TTGAAGAATCACTGAAGCTGGGATATGGTGAAAACTCTCAGTTCATCAATGATAAACAAATAGCTGCTGTGCAGGCTTTA TCTGGGACTGGTGCATGTCGACTTTTTGCTGCATTTCAACAGCGTTTTCACCCTAACACACAAATTTATATACCAGTGCC CACCTGGGCCAAGTGAGTATTTTATACAAAATAATATTGCATTTGATTTTATGATTCTTTGGATTTTGATATTTAGTTGT AAATTTTGTATTTTGTTAAAAACTTGCCTGGGTACTTATTACTAATATGAGAAATTTCAGCCACCATAACATTTGGAGAG ATGCTGGAGTGCCTTTGAAAACATTCCGTTACTATCACCCTGAGTCTAGAGGACTGGATTTTTCAGGGCTGATGGAAGAC ATAAAGGTATATTGCTCTCACTCCTAACACTTTATTGACATTCTTTATTTGTCAGATTCTATAGTTGAAACTTTGCTAGT ACTCTTCTCCACTCTTCTTTTCCTTAAAATGGCCATCTCATATGCAGAATGCTCCTGATGGTTCCTTCTTTCTGCTTCAT GCTTGTGCTCACAATCCTACTGGAGTAGATCCTACAGAAGAACAATGGAGAGAGATCTCTTCCCAGATCAAGGTAAAAAA TTTAAGGGAATGATATTCTCGATCACAGGATTTTGCTATTCTTGTTGCAGCTTTTGACTCTTCTTCTTTGTTGTCATGAT TGTTTCCAGGCTAAAGGTCATTTCCCTTTATTTGACATGGCATATCAAGGTTTTGCTAGTGGCAATCCAGAGAGAGATGC GAAAGCCATCAGGATTTTTCTTGAAGATGGTCATTTAATAGGACTTGCTCAGTCTTTTGCAAAAAATATGGGATTGTATG GCCAGCGAGTTGGATGCCTTAGGTAATTTTAAGATATCTCTTTGTTAAGTAGACTGTTGTAGTGTAAATTGAGTAAAGAA TGATATGATTAGGCTCTTCAGTGGCATTTCTTTTTGGTTGGGAGTGAGCTAGACAACCTATGTCTCTGCTAAACTCTGAT GCTGATTGTCTCATGCTAACATTACATCCTATTTGAATTTTGATCCTTCAATTGTTACAAATTTTAGCTTCCATCTCAGT CTTCTGCTTGAAGGGATATATATTGTTGGCCTCTTATAGTGGCAGTGAAATTCAACATTCTAGAAGTGATTATTTTGGTT ACTTGTATCTGCAATTGGCTTCAATTTATCAGAGATTTGTTAGCATATTAGCATTATAGAATCTATACTGTTGATTAGAT TAGAATGATTAATATTATTTGTCTAGAGATTAGTTTGTCAGCTGAGATTTCTCTCTAATTGATTGTAAATCAGTCAGTGA AAACCAGAACATGTGTTTAGCCAAATAAACAATTTCTCTCAATAATCCTCTCTTTCAACAAGACTAACAGCAAATCAGCA GTAAGGTAAAATATGAAACTAAAATTGATCACATTGAATGCCTTGTGGAATGAATCTCACACGTTGATATTAGTAATTTG TATGTAAACATGGGAAATACCTTGAGGTTTACAAAACCTCTGGCTTGGCTTTGAAATATGAATCACATTCTGCAAAGAAT GGTCACTCATAATTTTAAGTTTTTGCAGCTTACTTTGTGAAAATGAGAAACAAGCTGTTGCTGTAAAAAGTCAGTTGCAG CTGATTTCCAGACCCATGTACAGTAACCCACCTCTTCATGGAGCACTTATAGTTTCAACCATTCTTGGTGATCCAGAGTT AAAGACGTTATGGCTTAAAGAAGTTAAGGTAAAGTGCTGTTATTTAAGCTCGTCTCCACGTCTTTCTAAGTCTTTTCTTA TTTTCCCTAAAAAAGTTTATGGTCAAAAACACTATATTGGTTACTTTTTGGAGCGTTAGTAATTGAGCATAGCTTTCAAG TGGCAATGGTGCTTTGATAGTAAGGAATGTTACAAAGTATGTGCTAGCATGTGATGTTATTTAGGTTTCCATTAGTGTAT GTTAGTGGTAAAGTTAGTTAGCCCAAGATAGATTTTGAAAAAATTAGGCATGTTGGTTATAAATAAGAGGAGGTTGTGAG CAGAACAACTATCTAGTAATAAGATAAAAATTGAGAGCATTTTCTCTTTTATGTATTATAATAATCTTCTCACCAGTAAT ACAATCTCCCCTTTGTTCGATAAGAATTCTATATCAATTTTTGGGAGATTTTCCCTATTTTCTTTGCAATATATGCCTGG TTCTTATCAACTAGTAACAAAGCTATAGGAATTGTTTTTATTACATATGTAAATCATATATGCCACGTTGTGGGTTCCTT CTTATACGTACTAGGTTCATATGCACAACAAGCTTGTTACATATATAACTAATTTGAGGACCTCTTACTCTATTAGTGAT TTGGTGAAGAAATTTTCCAGTTGATCAATGGAAATTTTAAAGGTAGTGGTGATATCTTCGGATAAGATCTTCTCCACGAT GAAAGGAAATGAATCTATCTTTTTGTCCTCTTACGAAACACTAGATTTGAGGCGATAGGTAGTGCAGCTTAATTATCACC AATTAGATTCATCTGTGTAACATCTCCAAATCTTAGTTTTTTAAGTAACTGTTTCAACTACATATGTTTCACAGAGGGCT CCCGATATTTTGCTTCAGAACTTTATCTTGCAACAGCATTTTGTTTCTTGTTTTTCAAATAAATCTAATTATTACCAGTA GAAGTGTTGCATTATGAATAGGGATTTCTATCAATAGGAGAGTGACAGTCTTCTGAATTGCATCTGAATATATAATAACT TGGGTATGACCTTCATTTTCATACAAAACACATTTTCTTGGAGCTCATTTTATATATTTTGGCATCCGACTTATTACATC TTAGGGTCCTTAACAGAGGGAGTTAAGAAACTATCTCACCACACTGAATGCAAAAGGATGTCTGGATGATTGATAGTGAG ATAATCTATTACCCAATCAATCTTCACCTCTCTAGGTTTGGAAGTGGCTCCCTTGTCTTGGCAGTAGTTTGGAATTGGGA TCTGATAGGATCCCTAATGATTTGCCACATGTGGACTTAATTCATAATAGGACAAATAGGCCAAGAATCTTTCAGGTGTA TTCTAGAAGGGGCAAGAAGGAAAATAGTGGCTAAGTTAGTTAGAGGGATAACGGATAGGGAAAAGGAGAGCTGGCAGGTA GATAGAGAATATAAGGCAAGCAGAGGGAATGTGGAGATCATTGGGGGGGGGGGGGGAATTCTGTGTAATCATTATGTATA GGAAGTATTGACTTCCTAAGCGGAGCCTAGCTCTGAGTAAAGGAAATTCTAGGATTAATACTCCTTTTCCTTTGTAGTCC CATTTCAATTCAATAAAGCTCTCAGTACTCATCTAATTCATCTTTCTATTGATAAATACCTGTTGCTTGCAATCTGGTTC CTAACAAATTGGTCCGACCTGCCGGATTTCTTCGAGAGAGGACCAGTGAATGCCACCAAGGAAGAAGAAGCCAATGGAAG CTAAGGTGGATGCGCTAGAGAACGAGCTCGCAGTGGTTCGCACTGCTCTCGCTGATATGCAGTCCGCGGTGAAGGAGAAC CATACGAGTCTGCTCGCGATGCTGGAGCGAGTCCTGGAAAAAAGGGTTGCAGATGTAGGAAGCTCTGGCGGAGGCGGAGA AGAAACGCCGGTGAGAGATCTTTCGACAGGAAAGGGGGATCCAAAAGGCACGAATCCCAAATCACTGAGTGACGAGATCC TTTCTGATTATCGACACGCGGTGAAGAAGGTGGAGTTGCCTTCGTTTACCGGCGAAGATCCAGCGGGGTGGATCTCACGC GCTGAGATCTACTTCCAGGTACATGATACCGCGCCGGAGATCAAGGTGAGGCTAGCTCAGCTGAGCATGGAAGGACCCAC GATCCATTTCTTCAATTCGTTGATCGGAGAGGACGAAGAACTGTCGTGGGAAGGCCTGAAGGAGGCGTTATTGGGCAGAT ATGGTGGCCACGGTGATGGCGATATCTACGAGCAACTGACAGAGTTGAAGCAAGGAGGAACGGTGGATGAGTATATCACT GAGTTTGAGTATCTCATAGCTCAAATTCCCAGGCTTCCAGACAAGCAATTTCTGGGATATTTCCTCCATGGGTTACGATC AGAGGTGAGGGGTAAGGTTCGCAGCTTGGCTACAATGGGAGATATGAGTCGAACCAAGTTGCTACAGGTGACCCGAGCTG TAGAGAAGGAGACCCGCGGGCACGAGTCGGGTTGGACAAGTGGGCCAAGGGGAACCACTGGATCGTTCAGACCCAATACC CATGGGTCAGGAAGAGGAGGAACCGACTGGGTCATGGTAAAAAGGGACGTGAGAAAGAAACCGTTGGGCCACACACTAGC AAGGAAACCGGGTCAAGGTCTGAGAAGCCCAATTCCACTGAGAAGAGGCGCACAGGATATAGGGACAGAGGTTTCACTCA TCTGTCGTACAAAGAGATGATGGAGAGAAGACAGAAACGCTTGTGTTTCAAATGTGGAGGACCTTTCCACCCTATGCATC AATGTCCCGACAAGCACCTCAAGATCCTAGTAATGGAAGAAGAAGATGGGGATGAGGCAGAGGCCAAGGAGCTCGCAGTC GAGGTCGAGGATTCCAGCGAGGAAGACGTCGCCGAGCTATGTGTTGTTAGCTTAGATCACATAGCCAGAGAAGATCACAA AACCGTAAGGCTCCAAGGACAGGTAGAGGGAATTCCTGTGTTGATTCTCGTTGATAGTGGAGCCACCCACAATTTTGTGT CCCAGAATTTGGTACAAAGAATGGCTTGGCCATCTGAGGAGACTCCTCCCATGAGCATCAAGTTAGGCAATGGAACGCGT GATCATTCCAGAGGAGTTGTAAACAAGTTGAAACTTGAAATTGGAAATGTGGAGCTGTTTCCAAAATTGCACTTGTTCGA ATTAGGGGGGATTGATATTGTACTTGGGATGGCATGGTTGAAGTCCCTGGGAGATATGATTGTCAATTGGAAAAAACAAA TCTTGAGCTTCTGGCATAACAACAAATGGGTGACCTTACAGGGAATTGATGGAAAAGAAGATCAACTGGTGGCTTTGCAA AGCTTGTTGTCAAAATCAGAGCACCTTATTACTCAGGAATTGTGGGGAATGGATCAGAGAAGGGGTGAAACAGGAACCAA CTTATCTCAGGAACAACAGACAGAGCTGGTGAAGGTCTTACAACAATTTGCAGAGGTATTCAAGGAACCAACTAGTCTTC CCCCAAGGCGGAGCAAGGAGCATGCCATCAACCTAAAGGAAGGCCAGGGAGCAGTGAACGTGAGACCATATAGGTACTCA CATCACCACAAGAATGAAATAGAGAAGCAGGTTCAGGAATTGCTCGCTACAGGGGTCATCAGACATAGCACGAGTTCTTT TTCCAGCCCAGTCATCTTAGTTAAAAAAAAGGACAAGACATGGCGGATGTGTGTCGATTACAGGGCACTCAACAAAGCAA CCGTTCCCGACAAGTTTCCAATACCGGTAATTGAAGAACTCTTGGATGAGCTTCATGGAGCAGATTTTTACAGTAAACTG GACCTTAAGTCCGGGTACCATCAAGTACGGGTCAGGGACTCAGACATTGAGAAAACAGCCTTCCGCACACATGAGGGCCA TTACGAATATTTAGTGATGCCCTTTGGGCTAATGAACGCACCCTCTACCTTTCAAAGTCTCATGAACGAGGTTTTTCGCC CTCTGTTGAGAAAGTGTGTCTTAGTGTTTTTTGACGACATCTTGATTTACAGTAAAGGATGGAGGGAGCATATTGGGCAT CTGCAAGAGGTCCTCCAATTACTCCAACAGCACCAGCTTGTGGCAAACAGGAAAAAATGCTCATTTGGCCAACGAACCAT CGAATACTTGGGTCATTTGATTAGTGATCAAGGTGTAGCAGTGGATCCAGGAAAGGTTCAGAGTGTGCTCACATGGCCAG TTCCAAAGAATGTAAAAGGAGTCAGGGGCTTCTTGGGCCTCACTGGGTACTACAGAAAGTTCATAAGAGACTATGGGAAA ATAGCCAAGCCTTTGACAGAACTTACCAAGAAGGACAATTTCAATTGGGATGGAAGTGCTCAAATTGCTTTTGAGGAACT GAAGAAGAAATTAACTACTGCTCCGGTTCTATCCCTACCAGATTTCTCCAAGAAATTTGTGATTGAGTGTGATGCCTCCG GAGTTGGCATAGGGGCTATTCTTATGCAGGATACGAGACCCATAGCATACTTCAGCAAAGCTTTAGGAATTAGGAATTTG TCGAAATCTGCTTACGAGAAGGAATTGATGGCAGTAGTGTTATCTATCCAACACTGGAGACCATATTTGATAGGTAGAAA GTTCATTGTTTCGACTGACCAGAAAAGCTTGAAGCAGTTAATGCAACAAAGAATAGTGACAGCGGAACAACAAAATTGGG CTGCTAAACTTCTGGGATATGATTTCGATATAGTCTATAAGCAAGGGAAGATGAACAAAGGAGCGGATGCCTTGTCCAGA ATACAAGAGGGAGCAGCGCTGAACCAGATTAAGTCTTTCCCTTTATGGGAACAGCAACAACAACTTCAAAAGGAGCTAAG TCAGGATAAGAAGCTCCAGGAGTTGATTGCCCAACTGCTCCAGGACCCTACGGCCAAGCCAGGATATGCATTCAAGCAAG GCGTACTTCTCTATGAAGGCAGGTTGGTTATTCCACCCACCTCTCAGCTTATTCCTACTCTCTTAAAAGAGTTTCATTCT TCCCCTCTTGGCGGACACTCTGGATTCAATAAGACATACAGAAGGATTGCAGCCAATGTCTATTGGGTAGGGATGAAGGG TACTGTACAGGATTATATAAGGAATTGTGATGTTTGTCAACGCCAGAAATACTTGGCTACTTCACCAGGGGGTTTATTAC AACCCCTGCCCATTCCAGAGCAAATTTGGGAGGAAATTTCTCTGGATTTCATTACGGGATTGCCAAAATCCCGGGGGTTT GAGGCCATTCTGGTGGTAGTGGATCGTTTGTCCAAATTCTCACACTTCATCCCCCTCAAACATCCCTACACTGCAAGGAG TATAGCTGAGGTGTTTTGCAAGGAGATTGTGCGGCTCCATGGAGTTCCTATGTCAATAGTCAGCGATCGGGATCCAATCT TTATGAGTAATTTTTGGCGAGAACTGTTCAGAATGCAAGGTACCCAACTCAGGATGAGTTCTGCTTACCATCCAGAATCT GATGGACAAACAGAGGTGGTAAATAGGTGTTTAGAGACCTTTCTGCGTTGTTTCATTTCAGACCAACCAAAGACATGGAC AACTTGGGTTCCTTGGGCTGAATATTGGTTTAATACCAATTTTCATGTATCTACAGGGAAAACCCCTTTTGAAGTGGTAT ATGGGCGATCTCCTCCTAAAATCACAAGATGGCTACAAGGTGAAACCAAGGTTGAGGCTGTACAGAGGGAATTGCTTGAT CGAGATGAGGCCCTGAGACAATTGAGAAGTCAATTACTGCGCGCGCAGGAGAAGATGAAGGTACACGCGAATAAGAAAAG GAGGGATCAGAATTTTGCTGTTGGAGAGTGGGTTTTTGTTAAACTCAGGGCTCATAGGCAGCAGTCAGTGGTGACTAGGA TCAATGCCAAGTTAGCAGCCAGATACTATGGTCCCTATCCTATTCTTGAACGTGTCGGGGCTGTAGCTTATAAATTAAAG CTTCCTTCTGGTTCTAAAGTGCATCCAGTATTTCATGTATCATTACTTAAGAAGGCTGTCGGAAGTTATCAAGAAGATGA GGCCCTGCCTGAGCTTTTGGAGGAGGATCAGATAGGTGACTATGAACCGATAGCTGTGTTAGCCACCAGGGTAGTGAAAC AGCAGGATGAGGAAACTAAACAAGTTTTAATTCAGTGGAAGGGAAAGTCAGCTGAAGAGGCCACTTGGGAAGAAGTTGTC ATGATGCAGAGTCAGTTTCCTACTTTTAACCTTGAGGACAAGGTTGCAGCTGAAGGAGAGGGTATTGATAGGATCCCTAA TGATTTGCCACATGTGGACTTAATTCATAATAGGACAAATAGGCCAAGAATCTTTCAGGTGTATTCTAGAAGGGGCAAGA AGGAAAATAGTGGCTAAGTTAGTTAGAGGGATAATGGATAGGGAAAAGGAGAGCTGGCAGGTAGATAGAGAATATAAGGC AAGCAGAGGGAATGTGGAGATCATTGGGGGGGGAATTCTGTGTAATCATTATGTATAGGAAGTATTGACTTCCTAAGCGG AGCCTAGCTCTGAGTAAAGGAAATTCTAGGATTAATACTCCTTTTCCTTTGTAGTCCCATTTCAATTCAATAAAGCTCTC AGTACTCATCTAATTCATCTTTCTATTGATAAATACCTGTTGCTTGCAATCTGGTTCCTAACAGGATCTGTAGGTATGTT GATAGGTTAATGTTCATCAACACTGTCTCTGAAATGTCTATGCATACTGATACACATCATTTAGGTGGCTATTTAAGCTA GCCCCATTCTTGTAATTGTTATGTTGTTGATGATGATAGTAATGAAATTCCTAAACCCCTCTCTCTCTGTTTCTCTCTAT TCTCTCTCTGTTTCTATCTTCTTCTCCCTTCTCTAGATTCTTGACCTATCACATACTTCCTCTGATAAATCACAATCCCA TGCATGGGTTCTATCCCCAAGAAGTATCAAATTCTGCCAAGATCGTTTGATTGAAATTGGTGACATGGATATTGTTTTAC ATGTGTGGTGCATGATGCTAGTTACTTCTATTGACAACATCGTAGACACATACCACCAATGAAATGCACCTTGGAATTGA ATGTTATTGAAAAAGTGAGCCAACCTTCGAGTCATACCAAACTACTAAACCAAAGTACTGAATCTGCCCAACATCCTTAG GAAATTACCCAAGACTATATAAGGATTTGTGGACACAATAGACAAGCCCGGATGACTGCCTTTGAGCAACTAACCCACAA GATTGCTCCATATAAACTTCTTTTGTGAGCTCACCATAGAGAAAAAGCAACTTTGTTATCAACTCGGTATTAAGGTTAGA GATGAATCGCGGCCCTAGACTAGAATACTCTGACAGAAGCCATTCTTTCCATAGAAGAGAAAGTGCCACCATAATCTAAT CTACAACCTGTGTATATCCTTTGATCACCAAACGAGCCTTGAGATTGTGCCTTCAGGACCAAGTTTCACCATATAAATCC TCCTGCAACCAACAACAGGATTCCCTAGATGAAAGGAAAGGGATCGTGGTCCCAAGTATCACTATTTTGAAGTACATACA TGATACATCTCAACAATTATAGCTTGTCTCCAACAGGATGGGCTATGATATCACGTGTAGTTATAGGAATAAACACAAAG AACAAGGGAGAGAGACAAGTATAATGGGAAAGAGACAAATAGTGACATCTCAAGACTCAAATAACATATTAAGCATTATA AGTTGAGGGCATGCCATTTTGAAGTGAAATGGAGAGATCAAACATTGGTGTAGCGTTGAGGAGACAGCAGGTGACCTTGA AGGATAGTAGGAAGTGGTCCCGTCACTAGTCAATGGTGGCAAAGGAGGGATGTTGCTGATAATCATACACTTACAGAGGA CTCGGAGGTGGTGGGTCTTCTAAAAGATGAGACATCAATAGGGATAGGAAGAAGAGCGGTAAGGTAGTTGAGAAGACTTA GAAAGTGGGTGATGTGGACGCGAAGAAAGGAACCGACTCAAAGAAGTTAATGTCACTTGAGATCAGATAATGGTGAAGAG TTGGGGAGTAATATACCCTTCAGATTATGCAATTAGTTTGCAGAATAGCAACATAGATAATTGTTATCCTACAAGTCTTT TCAGATTATGTTATTTATGTTAAATATGCCTTTTATTTCTGTTTCTATACTTAGTTTTGTCAATAGTCATATTATTCTAT AATAACATATTTCCAACAGTAATTTAAAAAGACAAGGTTATTAAATTTAGCAAATCATCAGTACAAAATAAGAAAACGAC CATAATTTTGTTGTAAAAGATAAAAGATGCTTACGTAGATAGTATCTTTACAGGTTATGGCAGATCGTATCATTGGAATG AGGACCACACTCCGTGATAACTTAGAAAAGCTGGGTTCTCCTTTGCCATGGCAGCACATAACCAATCAGGTTCAGTTGAA TTTGTTAATTGCACGGCTGTCTCAACCACTTTGACTTCTTTTCTTTGCTTATTTTAATTCATGTATGGATACAAGACAAA GTCACAGTGGACAACCACAAAAGCTAAATGAAGTTGCTTCTGTCTGCCGTGATTTTCCACTGTTGCATTTCCAAGCATGC AATTAGTTGCTTGAGGGGTTTTGCCACATGTTGTTTTTGTTATTGGAGTGAAAGCATTATGTCCTATTGAAATTCCTAAA TTATTATCACACCAAAATATTAAAAACTTATTAGGCCAGTGCCAATTAAGCTGTAAATTGGTTTGCTAGTTGCTGTGTTT TCAAAACAAGCCTCTGTTACTTGTGCAGATTGGAATGTTCTGCTACACTGGGTTGACACCAGAACAGGTTGATCGTTTGA CAAACGAGTTTCATATTTACTTGACTCGCAACGGTCGTATCAGGTAAATTCTTCACTTTCTCACTGCCATTAGTACTACT CTGAGTTTCTGAGAAATCGGAGTTTAATTAAGTTTACTATGTACTTACATATATGTGATTATTACAGTATGGCTGGAATT AATTCGGGGAACGTTGCATATGTGGCTAATGCTATCAACGAGGTCACTAAATCTTCCTAGATTATTCAACTAGCAAGAGA CCAATTTTTTGTCCTAGGGAAAGACAAATCCTCCGAAATAGTACTATTATTCCGGGGAGAGCAATAAAATTTGATCACTT TTTACCATCGTATGCAACTGCATTTTGATCTTGCATATTGAAGACCGCAATAGCATTGTAACCATTTTTTCAATCCTCAC CTCTTCATTTTAAATAATAATTGGAGAGGTAGATTGAATAAGAGGGTTTATTTATGATGATGATGGACAACTAGTCAGTT CATTCATTACTAAGTTGTAAAAGGATTTTGTTGTTGTTGTTGTTGTAATGCATCTTTACAAATGTTGATGCTAGCTTGAA CGGCTAATTTCCTGAGGTGGTTTAGATGCGATGCCTATATTGTTGGAATAACAACAGCGTAATTTAATCTTGACCATGCA GTTCTGAGATCTAGTTTGAATGAAAATAAGAATTCATAATTCTCCATCTATATAAGGGAATATTGACTTGAGATATCAAT GTTGTTGATCATTCTTCGCGTATCTACATCTCATAATTATGCCATCTAATTACTGTTAGTTCAGGTGGGTTATAAGGGGC AATACTTGCACCGGTGCAAGATACATTAATAACCACATAAATAGAATATTCCATTAAGAACTTATTTCTACAACCTGTTA AACTTGTAATCTTATATTTGTATTTTATTATAATTTTAATTTGCTTTTTACAATAAAGCCCCTCTAATGCATTTCTCCCT CAACCTTCTTAAACCTCACCACCAACCGCCGCCGCCATGGCCGGAGGTCTTGACCACCCCAAATACCTCCATGACCAAAG GTCTTGACCACCCCCAAATCATCCAACATCAATACCCTTTTCCCAAACACCCAAGAACAATCAAACATATATGTAGTTCA GTAAATCCAAAATCCAGTGCAGCGCTGGAATTGGGAGAGATTTGCTTAGTCCTCCATTGACCAGCAATTTAACCATCAAC TAATAACACAGACTACACTCCAATGGGAATTGGGTTTGGCGCCCCACCCCTTAGGCTCCCCACCCCACTTAAAGTGGGGA AATTACCGTAAAG

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0253000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGATCCGCAACTCGCTCAACGGTAGATTCCTCCGCCACAGCTCCGTCGCCGGAGCTAGGTTCATGTCGTCGTGGTT CCGGAACATCGAGCCAGCTCCCAAGGACCCGATCCTCGGTGTTACCGAAGCTTTTCTTGCCGATCAGAGTCCAAACAAAG TCAATGTCGGAGTGGGAGCGTATCGCGATGACAATGGAAAACCTGTGGTTCTGGAATGTGTTAGGGAAGCAGAGAGGAGG ATTGCAGGAAGCCAATTCATGGAGTATCTTCCTATGGGTGGAAGCATAAAGATGGTTGAAGAATCACTGAAGCTGGGATA TGGTGAAAACTCTCAGTTCATCAATGATAAACAAATAGCTGCTGTGCAGGCTTTATCTGGGACTGGTGCATGTCGACTTT TTGCTGCATTTCAACAGCGTTTTCACCCTAACACACAAATTTATATACCAGTGCCCACCTGGGCCAACCACCATAACATT TGGAGAGATGCTGGAGTGCCTTTGAAAACATTCCGTTACTATCACCCTGAGTCTAGAGGACTGGATTTTTCAGGGCTGAT GGAAGACATAAAGAATGCTCCTGATGGTTCCTTCTTTCTGCTTCATGCTTGTGCTCACAATCCTACTGGAGTAGATCCTA CAGAAGAACAATGGAGAGAGATCTCTTCCCAGATCAAGGCTAAAGGTCATTTCCCTTTATTTGACATGGCATATCAAGGT TTTGCTAGTGGCAATCCAGAGAGAGATGCGAAAGCCATCAGGATTTTTCTTGAAGATGGTCATTTAATAGGACTTGCTCA GTCTTTTGCAAAAAATATGGGATTGTATGGCCAGCGAGTTGGATGCCTTAGCTTACTTTGTGAAAATGAGAAACAAGCTG TTGCTGTAAAAAGTCAGTTGCAGCTGATTTCCAGACCCATGTACAGTAACCCACCTCTTCATGGAGCACTTATAGTTTCA ACCATTCTTGGTGATCCAGAGTTAAAGACGTTATGGCTTAAAGAAGTTAAGGTTATGGCAGATCGTATCATTGGAATGAG GACCACACTCCGTGATAACTTAGAAAAGCTGGGTTCTCCTTTGCCATGGCAGCACATAACCAATCAGATTGGAATGTTCT GCTACACTGGGTTGACACCAGAACAGGTTGATCGTTTGACAAACGAGTTTCATATTTACTTGACTCGCAACGGTCGTATC AGTATGGCTGGAATTAATTCGGGGAACGTTGCATATGTGGCTAATGCTATCAACGAGGTCACTAAATCTTCCTAG

Download CDS Sequence

Protein sequence (LotjaGi3g1v0253000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAIRNSLNGRFLRHSSVAGARFMSSWFRNIEPAPKDPILGVTEAFLADQSPNKVNVGVGAYRDDNGKPVVLECVREAERR IAGSQFMEYLPMGGSIKMVEESLKLGYGENSQFINDKQIAAVQALSGTGACRLFAAFQQRFHPNTQIYIPVPTWANHHNI WRDAGVPLKTFRYYHPESRGLDFSGLMEDIKNAPDGSFFLLHACAHNPTGVDPTEEQWREISSQIKAKGHFPLFDMAYQG FASGNPERDAKAIRIFLEDGHLIGLAQSFAKNMGLYGQRVGCLSLLCENEKQAVAVKSQLQLISRPMYSNPPLHGALIVS TILGDPELKTLWLKEVKVMADRIIGMRTTLRDNLEKLGSPLPWQHITNQIGMFCYTGLTPEQVDRLTNEFHIYLTRNGRI SMAGINSGNVAYVANAINEVTKSS

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	PTHR11879:SF45 View details on PTHR11879:SF45 Search for proteins/transripts with this domain View external data on PTHR11879:SF45	16	423	408	4.7E-243	–
PANTHER	PTHR11879 View details on PTHR11879 Search for proteins/transripts with this domain View external data on PTHR11879	16	423	408	4.7E-243	IPR000796 Show description in modal box View details on IPR000796 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF53383 View details on SSF53383 Search for proteins/transripts with this domain View external data on SSF53383	23	422	400	4.16E-117	IPR015424 Show description in modal box View details on IPR015424 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.90.1150.10 View details on G3DSA:3.90.1150.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.1150.10	30	417	388	1.0E-169	IPR015422 Show description in modal box View details on IPR015422 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00155 View details on PF00155 Search for proteins/transripts with this domain View external data on PF00155	52	417	366	1.7E-87	IPR004839 Show description in modal box View details on IPR004839 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00609 View details on cd00609 Search for proteins/transripts with this domain View external data on cd00609	54	419	366	1.01467E-40	–
Gene3D	G3DSA:3.40.640.10 View details on G3DSA:3.40.640.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.640.10	85	325	241	1.0E-169	IPR015421 Show description in modal box View details on IPR015421 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00799 View details on PR00799 Search for proteins/transripts with this domain View external data on PR00799	199	218	20	1.0E-36	IPR000796 Show description in modal box View details on IPR000796 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00799 View details on PR00799 Search for proteins/transripts with this domain View external data on PR00799	230	242	13	1.0E-36	IPR000796 Show description in modal box View details on IPR000796 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00105 View details on PS00105 Search for proteins/transripts with this domain View external data on PS00105	268	281	14	-	IPR004838 Show description in modal box View details on IPR004838 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00799 View details on PR00799 Search for proteins/transripts with this domain View external data on PR00799	298	323	26	1.0E-36	IPR000796 Show description in modal box View details on IPR000796 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00799 View details on PR00799 Search for proteins/transripts with this domain View external data on PR00799	366	384	19	1.0E-36	IPR000796 Show description in modal box View details on IPR000796 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: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:0008483 View details of GO:0008483 AmiGO InterPro QuickGO	Molecular function	Transaminase activity	Catalysis of the transfer of an amino group to an acceptor, usually a 2-oxo acid.	Subterm of View details of GO:0016769
GO:0009058 View details of GO:0009058 AmiGO InterPro QuickGO	Biological process	Biosynthetic process	The chemical reactions and pathways resulting in the formation of substances; typically the energy-requiring part of metabolism in which simpler substances are transformed into more complex ones.	Subterm of View details of GO:0008152
GO:0030170 View details of GO:0030170 AmiGO InterPro QuickGO	Molecular function	Pyridoxal phosphate binding	Interacting selectively and non-covalently with pyridoxal 5' phosphate, 3-hydroxy-5-(hydroxymethyl)-2-methyl4-pyridine carboxaldehyde 5' phosphate, the biologically active form of vitamin B6.	Subterm of View details of GO:0043168 View details of GO:0050662 View details of GO:0070279

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0253000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0253000.1