Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0534100
Transcript ID	LotjaGi3g1v0534100.3
Related isoforms 2	LotjaGi3g1v0534100.1 LotjaGi3g1v0534100.2
Lotus japonicus genome version	Gifu v1.2
Description	Aminotransferase; TAIR: AT3G22200.1 Pyridoxal phosphate (PLP)-dependent transferases superfamily protein; Swiss-Prot: sp\|Q84P52\|GATP3_SOLLC Gamma aminobutyrate transaminase 3, chloroplastic; TrEMBL-Plants: tr\|I3SGH8\|I3SGH8_LOTJA Uncharacterized protein; Found in the gene: LotjaGi3g1v0534100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:95094954..95107319) extracted from Lotus japonicus Gifu genome v1.2.

GTTGGTTATTTGCTTGCTTTGCCTGTACATAATGCTGTACTCTTGATGGTGATCTACCTTACACACTAATTTATTGATCT GATTTGATAGTAATGGATGGTTCAAAAGCATGCCTGTTTTTTTTCCTTTCTCAGAGATTTTATATGTCTTAAGATAGTTA TTTTATTTTCTATTTACAGACTCTGTCATCTTTAGCATATGCTGCGGTTTCCAGAAGTTTTCAGGAAAATGTCCTTCAAG CTCCCTTATGGTCTAGATCATATAGTACAGAATCTTCCTTGGCAAAGGATGATTCAACCAGTGGTGACAAAAGTGAAGGG TATATGGTTCTGCTAACACTTTCTCCTGTACACTTTTGAGTACAGATTATAGCTGTGTGCCTGTATCTTGAATGTATCTA TATAAATTGGTGTGTTGCCATTGAGTTTGATAACAAAACCATTGATTTCTTTTCTATATTCCAATATAGAGCTGAATATT ATGATTATCTTTTTTCATGTTGAGATTTCAAATCATGATTTTTAAGAAAACAATGAAAAACTAGTATAAGTTAAAAATTG CAAGGCTGGTATGATTACCATGTAAATATGCTGAAATACTTCCATTTTTTTAGGTTCAAATCCCATGATATGCTTGCCCC TTTCACCGCTGGATGGCAGACTGATTTGACTCCTTTGATTATAGAAAAGTCAGAGGTGAACTTTCTTGCTATGTTTCTTT GATTATTTTTTAATTACTCTTGTGTACTAGATTTTTGTAAATATAACTTCAGTTTCACTTTGTTTACATTTCATAATAAC TAGTGTTCAATTATTTAATATACCTGATTAATGCGTCCAGGGAAGCTATGTATATGACGTTAATGGGAAGAAATATCTTG ATGCACTTGCTGGTCTATGGTCCACTGCTCTAGGTATATATGACATTTAATTTCTGCTTACTTATATTACTTTCTGAGCT TTGGTATCTCAATTTTTCTTTCTCATATTTTCTTAATGATTTAGTTCTTTTGGTTCATGTTCTCTATACATTTTGAGTAA CAAGGATGGCTATGAAGTTAAACTCATAAATACAGATATTTTAGCTTGGCATCTCTTCTTCCAACGACCAAAACATGCCA AGTTGGCAAGTTGCTCAGGGATCCATCTTTCTTCCCTCCGTTTAATCTTGGAACCTTATTATTTTTAATCCTCTTAGCAA GTATAGGGGGTCAGAGCTGTTTTGAGTTGTGACTATTTTTGCAGAATGCCCTGGGCATTAAACTTAAGGGGGTTGGAAGA GTTATTGTGAGTTTATAATTTGGAAGGAGGGTGGACGTGAGGTTGGTCTGGGGCTATTGTGTAAAGTTCCAGTATTTACA TCTTTTTATGCTTTTAGTTTCTGCTTACCAATAATAAAATAATATTGTAAAATGACTGAATTCTTGGTGTTCTCAAAATA TGGTTCTGAAGTCTGAACTAGTAAAAAAAGATGTTAGGTACCAGAAAAATAGAGCACTGAATGAAGAAGATGATATGAAT TATAGCACTGAATCCTCTGGATAAACCCAGAAGCAGTGTTTAGGGGAATTACAAATAAGGAAAAATACAAGATAACCTTG AGCAATTCAAGAGTGCTCAATCTCTCCTAATTCCAGAATAATTTCTGCCTAGCGAATTCTCTCTCCATAACCAACCTATA TACTCAAATGCCTATGGTCCCCCCCTCACCCACATGGGTGCTGCCACCTCACCTGGTGGTTATTTTGAAAAGATACCTTC TAGAAGGTTAGCTCATCAGGTACAGCTTGCACCTGTTTGGGCTTTCTAGTATATACCTTCCCAAATCTGGGCCTGACCAA AGGGTCTGTATCATCTCTCCCCCCTTGAAGAATCACCTTGTCCTCAAGGTGATGTTCAGGAAATTGTTCCAACAGTTCAG TGTAGTCTTCCCAAGAGTTCTCAAACTCCGGCATGTTCTTCCATTTGACCAGAACCTTCACAGTACCTTTATCCCCTGCC CTGGAATCAATAATGCTTCAGGTTCCACCTTAAGTTCCCACTCTTCTGTCATGTAAACTGGAAGTGGCTGACTGTTGACT CCTTCATTAGGTGCCTTCTTGAGTAAAGAAACATGAAAAACAGGGTGTACTTGACTACCCTCTGGCAGTTGGAGTTTATA AGCTACTGCATTGATCTTCTCAATCACAGGATAAGGGCCATAGAACCTTGGACTAAGCTTTTGATTCTTCCTTCTAGCTA AACTCTTAAGCTTATAAGGTTGGATTTTGAGATAAACCATGTCTCCCACCTTCAGTTGTATGTCTCTTCTGTGCTTGTTA GCTTGCTGTTTCATTCTATTTTGGGCTTTCTCCAAGTTCTCCTTTAATGTGTCCAGAAATAGATTCCTCTCTGCTGTCAT CTTTTCCACTTCATTTACTGAAGCTAATGAATCAGTTCCCTTAATGATCACTGGTGGTTCTCTTCCATACAGAGCTTGAA ACGGAGTGGTTTTGATGGCAGAATGGTAGTTGGTGTTATACCAAAATTCTGCCCAACTTAACCATTTTGGCCACTGCTTG GGTTTAGCCCCAGTCACACACCTTAAATAGGTCTCAACACACCTATTCACCACTTCAGTCTGCCCATCAGTTTGAGGATG GTAAGCAGAACTGAACTTCAATTTGGTCCCAGCAAGCTTGAACAATTCAGACCAAAAAGAACTCAGAAACACCCTGTCTC TATCTGAGACTATAGATGTAGGAAACCCATGCAACTTAACAATTTCCTTGATGAAGAGTTCTGCAACTTCTTTAGCATTA TAGGGATGAGATAGAGCTAGGAAATGTGCATATTTGGTAAACCTGTCCACAACAACCAAAATGGTGTCCTTTCCCATAGT TTTTGGCAAACCTCCAATGAAATCCATTGAGATATCAGACCAAACTTGTGAGGGAATGGGAAGTGGTTGAAGATAACCAG CTGGATTAAGTGTTTCATACTTGTTTCTCTGACATATTTCACATTTTTGGACATAGGTTTGGATATCCAGCTTCATTCCT TCCCAAAAGAATAGAGCAGAAATTCTCTTGTAGGTCCTGAAAATTCCAGCATGTCCCCCAACAGCTGAGTCATGAAATTC TTGTAGTATGATAGGAATCTTCCCGGAAGTCTTAGGTAGAACAATTCTGTTTTTGTACAGAAGCCTGCCCCTCCTCATGT GGTAACCAGCTGGAACTGGTCCTTGAGTGGTGATCTCTTGAATGATTTTCTGATACTTGTCATCAGCTAGAATCTCAGTT TCTAAATCTTCCCAATCTTCACATTGAACTGAGGAAATGGCAGAAAATTGTAGTTTCCTAGAGAGAGCATCTGCTGCTTT GTTTTCAATACCTGGCTTGTATTTAATTTCAAAATCAAATCCCATGAGTTTGGAAACCCACTTTTGCTGCTCCTCTCCCA TGAGCCTTTGTTCAGCCAAGAACCTTAAACTCTTTTGATCAGTGTGGACTATGAATTTGCAGCCTAAGAGGTAGTGCCTC CATTTCTGTACAGCCAACACCACTGCCATCAATTCCCTCTCATACACTGATTTAGCTTGTGCTCTTTCTGAGAGGGTTTT GCTCATGTAAGCTACTGGCCTCCCCCCTTGCATAAGTACAGCTCCTAGCCCTTTCCCCGATGCATCAGTTTCCAACACAA ATGTTTTCTGAAAGTCAGGCACAGCTAGAACAGGTACAGTTGTCATGATCTCCTTTAGTTTGTCAAATGCTTGAGTTGCT CCAGCACTCCAACTAAAATTGTTTTTCTTGAGCAATTGGTTTAGGGGTTGAGCCAACTTGCTATAGTTTCTGACAAACCT TCTATAATAGCCTGTCAATCCCAAAAATCCTCTCAATCCCTTCACATCCTTGGGAAGAGGCCAATTCAGCATATCTTTTA TCTTGCTAGGGTCAGCAGCCACACCCTCTTTGGATATCACATGCCCCAGGTAGATGAGTTCAGATTGTCCAAAGGAACAC TTCTTCTGATTGGCCACTAGGTGATTGTCCCTTAAAACTTGTAACACCTCCCTCAAGTGCTCCTTATGTAGGTCTACATT ATTGCTGTAAATCAGTATATCATCAAAAAATACCAGCACAAACTTCCTCAAATATGGCCTCAAAACCTGGTTCATTAATG CTTGGAAGGTAGATGGTGCATTGGTTAAACCAAAAGGTAGGACTAAATACTCATAGTGACCCTCATGTGTTCTGAATGCT GTTTTAGGGATGTCCTCTTCCCTCATCCTGATCTGATGGTATCCAGATTTGAGGTCTAGCTTAGAAAAAATCTCAGCTGT TCCAATTTCATCCAGCAGTTCATCTATGATTGGAATTGGGAATTTATCAGGAATAGTCACCTTGTTAAGTGCTCTATAGT CCACACAAAACCTCCAGCCACCATCCTTCTTTTTCACTAAAATAGCAGGGCTACTAAAAGGACTAGTGCTATGTCTAATT ATTCCAGCAGCTAACATTTCTTTTACTAACTTTTCTATCTCATTTTTCTGGTAAAATGGGTACCTGTAGGGCCTGATGTT AGGGATTGGTGCTCCTTCCTGTAGCAGAATAGCATGATCAGTGGCCCTCTTGGGGGGTAGCTCTTTTGGCTCCTGGAATA CCTCTGGGAATTCAGTAAGAAGCTTGATCCAGAGTTCAGGTATAGTGACATTGGCTGTAGGCTCCTCTTCTGAACATTCA TATGAGAGAATATTCTTCTCCCTCATCATGCTTTGTCTTTTTTATAGATTTCCATGTGGCTGCCACCTTACAAAAAGATG GTTCCCCTTGCATACACATCTTTTGTCCATTTAGTTCCCATTTGATGATCAGATCCTGGAAGTTGGCCTCAATATTACCC AAGCTAGCCAACCAATCCATCCCCAGCACCAATTCTGTTCCTCCTAAACCCAGAATAAAGAAGTGCTGAATGATGGGGAT TCCTTGCACCTCCAACTTCAAATTCTTACATACCCCAGAATTTCTTTCCCTAGCCCCATTTCCAACTTCCACAACATATT CTGAAGTAGCAACCACTGGTATTTCCAGTTCTGCTACTAGTTCCTGTGAAATAAAGTTGCTGGTGGCTCCACAATCTACT AGAATTAGGATCTCCCTTTCTCCTATCTTCCCTTTCACCTTGAAGGACCTGTTGGAAGTTAGACCCTCCTTACTGTTCAG AGAGAGTTGGAGTACCTTCCCTTCCAAGACAAATTCTCCATCCTCAGCCTCTTCAAACACTTCTTCTTCTTCCTCTTCAT CCTCACCTTCTATCAATATCAGTTGAAAATTCTTCTTGGCACAAATATGCTCCCTTCCCCATTTTTCTCCACATTTGAAA CATAAACCCCTTCTGCTCCTTTCCTGCAGTTCTGTTTGAGTAAGTCTTTGTCCCCCATTCCATTTCCTTTCAGGGATTTT TCCTTCATTATTGGTGTTCTCAGTCCCTTCCTTAAGATGCTGAGGTTTCCCTTCATTCCCCTGAGTTCCCCCTGCTCCCT TAGATTGGTAACTCACATTAGGGTGAATAGACCTTCCTCTGGTCTCTCCCGAATTAGTAGAAAATCTTCCTCCAAATCCT CCCTTCTCCTTCCATCCTCGTTTGTCTTCCTCCTTGGATTTGCCTCCTCTCATGGCTGAGTTTTTCTCTTCCAGTAAAAG AGCTCTATCCATGAGATCTGCCAAATCCTCTGATGGGTACAGCTTCATCTCAGCCTTAATCTCCTCATGCAACCCATTCA GAAACACTCCCTTTAGCACTTCCCTGTCAGCATTTCGCATAGGCGCAGCTAAGAGTTCAAAATGCTCCCTGTATTCCATA ACACTTCCCTTCTGCTTAGCACTGAGCAAAGGCCCGAAAGGATTCTGAACCAGTTCAGGTTGAAACCTGCGAATCAAGGC CTGTTTGAACGGTTCCCAAGCTCGCACTGGAGCTTGCTCCTCCCACCATTGGAACCAGCTGAGCGCGCGGTCCTCCATGG CGATCATCACCATCTCAACCTTCTCGGTTTCTTCGACTCGACTGAGTCGGAAAAACCTCTCCACCTTGGTAATCCATCCG TAAGCGTCGTTACCATTGAACATCGGGATATCCACACGCCGACCTGTGACGGCTCGAAGATGGCTCTGATGATGAACGTG CTCGTGAGGTTCACGACTACGAGTCACAGCTCGTGACCCGGTTCGTGACCCGGTTCGCGACCCGTCGTCTGAACGAGCCA GAGAAACAGAATTGTGGTCGCGTGAAACTCGCCGGTGGCGCGGGGTGTTGGAACGTCCCCTGGTGCGACGGCGCTCGCGA CTCATGAAGAGTCGTCGGAGCTCCTCGAACTGTTCGTGAGCTTCTTCCTTCATCTCCGTAATGGAACGCTCCAGATTGTC GACTCTCGATTCCATAGCGCTGCGGGTAAGCACCATACAAAGCTCCCTTTGGATCGGGAGCTCTGATACCAATGTTAGGT ACCAGAAAAATAGAGCACTGAATGAAGAAGATGATATGAATTATAGCACTGAATCCTCTGGATAAACCCAGAAGCAGTGT TTAGGGGAATTACAAATAAGGAAAAATACAAGATAACCTTGAGCAATTCAAGAGTGCTCAATCTCTCCTAATTCCAGAAT AATTTCTGCCTAGCGAATTCTCTCTCCATAACCAACCTATATACTCAAATGCCTATGGTCCCCCCCTCACCCACATGGGT GCTGCCACCTCACCTGGTGGTTATTTTGAAAAGATACCTTCTAGAAGGTTAGCTCATCAGGTACAGCTTGCACCTGTTTG GGCTTTCTAGTATATACCTTCCCAAATCTGGGCCTGACCAAAGGGTCTGTATCAAAAGACATAGTTAGATTTCTGTTAGA TAACGATATAATACATTTATGTCCATCTTTTTATCTGTATTTGTTTGATTGCTGTAAACTTTTGTGATTTTCTCTTCAAT CCCATAGTATAAACAAGAGACCAATGTGCAAGCCTAGACGCACATTTTTACTTAACCAGTCTGTGTGTCAACGAAGTACC ACATGGATGTCATCCATATTGATCTGGTCCTGTTACTGTTTCTGCTGTCAAGTCGAGTTCCCAAAAAATATCTGCATACT CTTTTCATCAACCTTCTCCTGTCCTGTGCTACCATGCACGTTTCCATCCAATGTTTTTCCTCTGCCTCTACTTCCAAATC TGGTTTTTATACCTTTTGCCTTCTATTTGACTAACTAGCATCACCATTTTTACAGGATGCTGGTTTTATCAGGAATTTTG AGTTTTCATTAAATTGCAAAGAAATGCGATCATGATTACATATCTCATTAGCTTGGAAATGTGAATTATATTTAGATACT CACGTAGCTGTGGGGTATATTCACATATCAAAAGTATAAATAATTTAAGTTTGTTAATTTTAATATCTTGTTCGTGTTTG AAAGTGATTTACTCTGACAGCGAACATATGTTATTTTGCAGGGGGAAATGAGCCCCGCCTTGTTGAGGCTGCCAATGCAC AGTTAAAGAAGTTACCGTTTTATCATTCCTTTTGGAATCGGACCACAAGACCTTCTTTGGTATTCATATGATCATATCAT TTTCTCATAGCTAACCTAAACATTATTTTATTCTTTTGTTTCTTATTTGTAATTTGCTTCTATAATATATATTTCTTTCA TTTTTCCATCCCTTCTATAGATGAGCCCACCACAATGTGTTACAAGATGCATACCAAGATAGAATTAGAAATAATGCATG AGAATAAGTTGGGGTGGCATTTATTGTAAACATAATGTACAATATAAATTATATTTAAAAATGATAATATATTATAAATT TATATTTCAAACTTACATATTTTAGAACACATTTTCCTCTAGATATTGCATGGGCTAATATGCTATTTTATTTTAGTGTT TAGGGGAAAATAATATCTCTTTGTGACTTTATAGGTCATTCACAGCTAGTTTTGAACCTTTACTATCGGTTCTGAGAGTC AAGACGGAATAAATATTTCAAATCAAGTTAGGGGCTAATAGTAGAATTTCATTGTATTTTCCCAAAGTTGATAGTAGGTG TTCCAACTTCCAAGTCTGTGACCATGAAAGTTGGAGAGAGAGGAAAATGCCCTCGTGAAATGGTCAATCGTCATGATTGT TCATCACTAGTTCACTACTGAGAAGGGTTGTTCACATTCAAATTTCCAAATGGAATTGTAATTTCCCGAAGTAGATGGAA GGGCAGTATATTTGAGCTCTTTCTGGTGAAAAGTGAATTTAACCCGCATTTAATTGAGGGGTTGAGTGTTAGGGTGGGGG GTGATATTGCGTTGCCTATCCTAATCCAACTCACAAGCATTACCTAGGTGCCTTTCACTGCAAAGGAAATTGATTGAGAA CCTTCTTGTCATATACACAGTTGATAAAATAGTTGGTTTCCCTTTTGACATTTAATCAATACATATTTCCACGTACAGGA TTTAGCCAAGGAACTCCTAGAAATGTTTACAGCAAGAAAAATGGCTAAAGCTTTTTTTGTTAATAGTGGATCAGAAGCCA ATGACACACAGGTGCGTTACATTAAATATCCTCTTTGATTTGTTAGAGTTGCATGTTTTCTTCTGAATTCTATTCAACTG TAGGCTAGATATTTAGAATGTGTGTATTACTGTATTTTCACTTGCAAAATAAAGTTTTAGTGTCATTTCAAACAGTAGAA TATATAATGCATGTGAAGGAACCAACGAGAGGCAAAATCTAAAAGCAAAATACTAGAAGACAATGAAATAAATTCTCAAT GCCAAATGTGGTTCTGTAAATAAATATAGATCCATCTTAATAAGTGTTTTAGCAAAGATCAATCTATGTAATGTAAACAT ATTTTGTAGTACATAGTTTATGCAGTATAAATTCTTAACTATATTTCTCCTTGATATATTTTCTAACAGGTGAAACTTGT ATGGTATTATAACAATGCACTTGGAAGACCGGATAAGAAGAAATTCATAGCTCGTTCTAAATCGTACAGATGTCAACTCA ATCTATGCAATTTTCTCTATTATGCCTGAAAAGTAGGTTTTGTAGCTTATGTATTTTTGCATTTGTCAGGTATCATGGTT CTTCATTGATAACAGCCAGTCTATCCGGGTATGATGAACTCAAGATTTTGTTTTTTCAGTGAACTAGTACTTATATAGAA CAGTCTGATGTTATTCATAAAAAAAAATTGTTGTTAAAAAAACTTGACTATGTGTATTTTAGCCTTCCAGCTTTGCATCA AAAGTTTGATCTCCCAGCACCTTTTGTCTTGCACACTGACTGTCCACATTATTGGCGGTTTCATCTTCCAGGTTATTATT TCGATGGACGCTTGTCTAGTAATATTTCTGGCATTTATTTTTTAAGTCATAATAACTATTAAGCATGCTTATGAACATCT CAGGTGAGACAGAGGAAGAGTTTTCAACCAGATTGGCCAACAATCTGGAGGAGCTAATTCTGAAAGAGGGACCAGACACA GTAATATTCATATGCATGGAAGTGTCTCCTGCAACCAGCACATTGACTTTATCACTGACTTCAATGTTTATTTTTTATTT TTTATTTTTTATTACAGATTGCTGCATTCATAGCTGAACCAGTGATGGGGGCAGGAGGTGTAATACTTCCACCATCAACA TATTTTGATAAGGTATTCTCTTATGATCAATGCTTCACACATGAGTTCCAAACTTTCATGCTGGATGTGAGGACTATTTG GTATCGGTAAACGTTCTTCATTTTCATTTTTTATATTCACTTGTACTCATATAAATGCCACCCTGTGTTCTGTTTTCAAG GATTTATAGAGAAAATGGTGAAAACAAAATTAAACATAAAACGTTTTCAGTTTTCTCAAACAAAACAGGCCCCAAGAGAT TGGTTCTGGGTGTTTTGCAATATTTGGGCATTTCCATTTGTATACTCAGTCCCAAAGACATGAGAACTTACTAAAAGGAA TTTTTGTTTAATAAATTCTAGTTTCATTTTTAGATAATGTTAATCTAATTGTTATTGGTCTTCAGCTTGAACTAGTAATG CTGACACTTGACCCAATAAGTGTATTAATAGGTGGTTACTTTTTTTTGTGACATCTTAACCTATCTAATAATACATTGTT GGCTGTAGTTTATTTTTTATTTTTTATGATTCCTTGTCTAAACTCTGTAATATTTTATGAGAGATGTAATGAAATGGAAT TGAGTATGATGAAATGACGTGGAAACAAAATGGAAGTGATGTTAGTTTGCACTTTCCAAAAATTCCATTTTGCAAACTGA GACATGCATCATTTGCTTGATCGGTGTTTTTTGTTTAGTATGTGACATTAAATTTTGTCATTTTCAGTTTTTCACTCTTT CCTTAAAAGAGTTTAAAAGGAATGAAACACAAGTTTTTCTCAGCATTTAATTTTCATGCAGATCCAAGCTGTTCTCAAGA AGTATGACATTCTACTTATTGCGGATGAGGTGCTTCAATAATTCTAAAAATTCTGTTATATAAGATAGAGAGTTTTTCAT TCTGATTGATGTGTTAAATGTCTCTTTTTGAAGGTGATCTGTGCCTTTGGAAGGCTTGGGACAATGTTTGGATGTGACAA GTACAACATTAAGCCTGACCTTGTTTCCTTGGCAAAAGTAAAATGAAGCAGCTCTAAGTACATATTCACATTTTAATATT TTCAGAGGTTTTCTCATTTTTTGTTTGACTTCTAGGCACTTTCTTCTGCCTATTTACCAATCGGAGCTGTCCTTGTGAGC CCAGAAGTTTCAGAAGTCATATACTCGCAGAGCAACAAACTTGGTATGCTGGTTTACTCAGTTATCACCACATTTTTTTG TGTTTAGTCATTTCTGACTTGCTATTGCATGTTTTAGGTAATTTTTCTCATGGATTCACTTATTCTGGACACCCTGTATG CTGTGCTGTTGCAATTGAAGCACTCAAGATTTACAAGTGTGTTCCTTTATTTCTAGCTTTTAAAAACTAATAGGAAGCTT ATTATATCTACTTGTACTTATTAATCTTTTGGCAATAGAGTGTGATAATTTCTCATCATCGCAGGGAAAGAAATATCCTT GATGTAGTGAACAAGATATCCCCAAGGTTCCAAGATGGCATGAGAGCTTTTTCTGACAGTCCTATCATTGGAGAGGTATA TATTTTTCGCTGAGCAATTTTTAAGTTTGTGGTTAATATTAATGTGTGGAAAATACAACACTTCTGGATCTGCAGATACG GGGAACTGGCTTGATTATGGGGACGGAGTTCTCAGACAACAAATCACCTAATGATCCATTTCCTTCTGAATGGGGCAAGT TCAATACTCATTTTTCTCCTATCTATCAGTCTGTTTAACTACTGTACAGAACATGGTTTTTATCCTATCTGGTGATATTA TTAACAGTAATTATTGCAATATACTACTCCCTCCGTCCCTTATTATAAGACCCCTTATTGTGAGATAAAAAGGGGTCTTA TAATAAGGGACGGAGGGAGTATTATTGAATATATGGCCATCCTTTAATGAACTTGCACAATCTAGGTGGGACAATACAAC CATTAAGTGATCATAATAATGGATCATCTTGGCTGCATTTTTTTGGGTATACTAACAGTGATCTTATTGGTTTATAGAAT GTTAGAGTGGTAGTGAGCTGTGAGCAGAGCAGAGAGTAAGAGGGAGAAAATCAGAAGCGATAGAGAATGAGTCTGAATTC TGTTAGGGTTAGCTCCTATATAATGAGCTGAAAGAACGCATACAAGAAAAGCTTTGCAGCAGCAGAACTAATTCCTTATT CTAACCATAACCAACTCTAACCATACCCGCATAGTCTAACAAATAAGTATGCTGTTTTTATGTGGATGTGGACATTTTTT TTATAGTATGTTTTAACCCTGTGATGCATATTTTCCATATTACAGGAGTAGCGACTTATTTTGGAGAACAATGTGAGAAA AATGGGCTGTTAGTTCGTGTAGCTGGAGATAATATCATGATGTCTCCACCATTTATAATTTCCCCAGAAGAAGTTGATGA GGTAACTTAACAAATAACCTATTTTTGTCACTTATTAAAATTGAGGAAAATTTAATCTATGTGTAAATAGTTACAGTTAG AGAGAAATTTGGCCTTTGACATGTAGCAATATGCAGCTCAGCACTGAGTTTTTTCCTCCCTGGTTTTTATTCTTGTTCAG TAGACAATTTGTGCCAATGTTATAAGTTGCATTTCTTTTTCTGCCTCCCAGTTAATCAGCAAGTATGGTAAAGCTTTAGC AGCGACGGAAAAGCGAGTTCAGGAGCTCAAGTCTCAGCGCAAGTAG

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0534100.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCTTGCCCCTTTCACCGCTGGATGGCAGACTGATTTGACTCCTTTGATTATAGAAAAGTCAGAGGGAAGCTATGTATA TGACGTTAATGGGAAGAAATATCTTGATGCACTTGCTGGTCTATGGTCCACTGCTCTAGGGGGAAATGAGCCCCGCCTTG TTGAGGCTGCCAATGCACAGTTAAAGAAGTTACCGTTTTATCATTCCTTTTGGAATCGGACCACAAGACCTTCTTTGGAT TTAGCCAAGGAACTCCTAGAAATGTTTACAGCAAGAAAAATGGCTAAAGCTTTTTTTGTTAATAGTGGATCAGAAGCCAA TGACACACAGGTGAAACTTGTATGGTATTATAACAATGCACTTGGAAGACCGGATAAGAAGAAATTCATAGCTCGTTCTA AATCGTATCATGGTTCTTCATTGATAACAGCCAGTCTATCCGGCCTTCCAGCTTTGCATCAAAAGTTTGATCTCCCAGCA CCTTTTGTCTTGCACACTGACTGTCCACATTATTGGCGGTTTCATCTTCCAGGTGAGACAGAGGAAGAGTTTTCAACCAG ATTGGCCAACAATCTGGAGGAGCTAATTCTGAAAGAGGGACCAGACACAATTGCTGCATTCATAGCTGAACCAGTGATGG GGGCAGGAGGTGTAATACTTCCACCATCAACATATTTTGATAAGATCCAAGCTGTTCTCAAGAAGTATGACATTCTACTT ATTGCGGATGAGGTGATCTGTGCCTTTGGAAGGCTTGGGACAATGTTTGGATGTGACAAGTACAACATTAAGCCTGACCT TGTTTCCTTGGCAAAAGCACTTTCTTCTGCCTATTTACCAATCGGAGCTGTCCTTGTGAGCCCAGAAGTTTCAGAAGTCA TATACTCGCAGAGCAACAAACTTGGTAATTTTTCTCATGGATTCACTTATTCTGGACACCCTGTATGCTGTGCTGTTGCA ATTGAAGCACTCAAGATTTACAAGGAAAGAAATATCCTTGATGTAGTGAACAAGATATCCCCAAGGTTCCAAGATGGCAT GAGAGCTTTTTCTGACAGTCCTATCATTGGAGAGATACGGGGAACTGGCTTGATTATGGGGACGGAGTTCTCAGACAACA AATCACCTAATGATCCATTTCCTTCTGAATGGGGAGTAGCGACTTATTTTGGAGAACAATGTGAGAAAAATGGGCTGTTA GTTCGTGTAGCTGGAGATAATATCATGATGTCTCCACCATTTATAATTTCCCCAGAAGAAGTTGATGAGTTAATCAGCAA GTATGGTAAAGCTTTAGCAGCGACGGAAAAGCGAGTTCAGGAGCTCAAGTCTCAGCGCAAGTAG

Download CDS Sequence

Protein sequence (LotjaGi3g1v0534100.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MLAPFTAGWQTDLTPLIIEKSEGSYVYDVNGKKYLDALAGLWSTALGGNEPRLVEAANAQLKKLPFYHSFWNRTTRPSLD LAKELLEMFTARKMAKAFFVNSGSEANDTQVKLVWYYNNALGRPDKKKFIARSKSYHGSSLITASLSGLPALHQKFDLPA PFVLHTDCPHYWRFHLPGETEEEFSTRLANNLEELILKEGPDTIAAFIAEPVMGAGGVILPPSTYFDKIQAVLKKYDILL IADEVICAFGRLGTMFGCDKYNIKPDLVSLAKALSSAYLPIGAVLVSPEVSEVIYSQSNKLGNFSHGFTYSGHPVCCAVA IEALKIYKERNILDVVNKISPRFQDGMRAFSDSPIIGEIRGTGLIMGTEFSDNKSPNDPFPSEWGVATYFGEQCEKNGLL VRVAGDNIMMSPPFIISPEEVDELISKYGKALAATEKRVQELKSQRK

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	PTHR42684:SF9 View details on PTHR42684:SF9 Search for proteins/transripts with this domain View external data on PTHR42684:SF9	1	438	438	1.9E-274	–
PANTHER	PTHR42684 View details on PTHR42684 Search for proteins/transripts with this domain View external data on PTHR42684	1	438	438	1.9E-274	–
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	3	432	430	5.8E-155	IPR015422 Show description in modal box View details on IPR015422 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00610 View details on cd00610 Search for proteins/transripts with this domain View external data on cd00610	5	432	428	6.75648E-149	IPR005814 Show description in modal box View details on IPR005814 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	11	432	422	3.63E-116	IPR015424 Show description in modal box View details on IPR015424 Search for proteins/transripts with this domain View on EBI InterPro Service
PIRSF	PIRSF000521 View details on PIRSF000521 Search for proteins/transripts with this domain View external data on PIRSF000521	11	434	424	1.1E-27	IPR005814 Show description in modal box View details on IPR005814 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00202 View details on PF00202 Search for proteins/transripts with this domain View external data on PF00202	14	431	418	1.4E-90	IPR005814 Show description in modal box View details on IPR005814 Search for proteins/transripts with this domain View on EBI InterPro Service
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	50	330	281	5.8E-155	IPR015421 Show description in modal box View details on IPR015421 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00600 View details on PS00600 Search for proteins/transripts with this domain View external data on PS00600	240	277	38	-	IPR005814 Show description in modal box View details on IPR005814 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	425	445	21	-	–

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: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: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 LotjaGi3g1v0534100.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0534100.3