Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0506000
Transcript ID	LotjaGi1g1v0506000.1
Related isoforms 3	LotjaGi1g1v0506000.2 LotjaGi1g1v0506000.3 LotjaGi1g1v0506000.4
Lotus japonicus genome version	Gifu v1.2
Description	Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G17680.2 disease resistance protein (TIR-NBS-LRR class); Swiss-Prot: sp\|Q40392\|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr\|A0A0R0LCQ5\|A0A0R0LCQ5_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0506000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:102421745..102433675) extracted from Lotus japonicus Gifu genome v1.2.

GTGAAAAAAAAAAAGCCCTATTATATATACACGAATTTGTTTGAAAAAATGATGACATCGATCATCATTCATCAGTTGCA AGTTACAACCTAACTACAATGCTCACTTCTCAACCTAAGTTATAACCAAACCTAGTTTTTGTCAATAGTGGATTATTGTC TTTTTACTCCGCCGTGAAACACCCAGAACCACCGTGCACGTTGTTGGTTGAGCATCCATGCGGCTTCTTCCTCTGTTCCA ATCACTCCCCAAAACCACTCACTACTCCTTGAGGTTTGCATCAACTGCACTTGCCCACGTTGATTCACCATCTTTCTCAG ACACCCCACCTCGTGTCCCTGAGCTTCACAAGGACACCTCCAACGTGCTCCAAACGCTTCACCGTCTGCACAACCGCCCT TCTCTTGCTCTTTCCTTCTTCACTCAGCTCAAGCAACAGGGGGTGTTCCCTCACACCACTTCAACCTACGCCGCCATTAT CAGGATCTTGTGCTACTGGGGATTGGACAGGAGGTTGGATTCTGTCTTCCTTGACCTCATTGCACTTTCCAAACAAGACC CATCATTTGAAATCCATGACTTGTTTGAAGAGCTTTTGGAGGGGGATGAGGGTGTTGATAGGAAACCCCACTTGCTCAGA GCATTTGATTGGTATGTTAAATCTTGTGTCAGTCTTAACATGTTTGAAGAGGCTTATGATTTCTTGTTTCTAACTAGGAG GCGTGGGATTCTGCCTAGTATTTGGACTTGTAACTTTCTCATCAACCGGTTGGTTGATCATAATGAAGTGGAGAGGGCTT TGGCCATTTATAAGCAGCTCAAGAGGCTTGGTTTGAGCCCCAACAATTACACCTATGCCATTGTTGTCAAGGGACTGTGT AGGAAAGGTTACTTGGAAGAGGCGGAGCACATGTTAAAAGAAATGGATGAAGCTGGGGTGAATCTTGATTCCCATTGTTG TGCAGCTTTAATTGAGGGCATTTGCAATCATTGTAGTTCTGATTTGGGATATGAAGCGCTCCAAAAATTCAGAATGATGA ATGCCCCTATAGAGGATCATGCCTACGCCGCTGTTATTCGTGGGTTTTGTAATGAAATGAAATTAGATGAAGCGGAGATT GTTGTTTTGGACATGGAAAGCCAGGGATTGGTTCCTGACGTGCGTATTTATTCTGCATTGATCTATGGATATTGTAAGAA TCGTAATCTACACAAAGTTTCAGAGTTATGTAGTCAAATGACTTCAAAGGGTATAAAAACAAATTGTGTAGTTGCTAGCT ACATCCTTCAATGTCTTGTTGAGATGGGCAAGACCTCAGAAGTGGTAGATATGTTTAAAAGATTGAAAGAATCAGGTATG TTTCTCGATGGGGTAGCTTATAATATTGTGTTTGATGCTTTATGTAGATTAGGCAAAGTGGACGATGCAATAGAAATGCT GGAAGAGATGAGAGTGAAGAACATCGATTTAGATGTTAAACACTACACAACCCTTATTAAGGGGTATTGCCTTCAGAATA AGCTCTTAGATGCCTCGGATATGTTTAGTGAAATGATAAAAAAAGGTTTTGCACCTGATATTGTCACATATAATGTACTA GCTGCTGGGTTGTCTAGAAATGGCTGTGCTTGTGTGGCAATTGACAATTTGAAAGCTATGGAAGAACAAGGAGTGAAGCC AAACTCAACTACACACAAGTTGATCATTGAAGGTTTATGTTCAGAAGGCAAGGTTGGAGAAGCTGAGACATACGTTAACA TTCTAGAAGATAATGGATTTAAACCTGATATTGTGATATATAATGTACTAGTTGCTGGGTTGTCTAAAAATGGCCATGCT TGTGGGGCAATTGGCAAATTGGATGATATGGAGAAACAAGGTGTGAAGCCTAACTCAACTACACACAAGTTGATCATTGA AGGTTTATGTTCAGAAGGCAAGGTTGTAGAAGCTGAGGCATATTTTAACCGTCTGGAAGATAAAGGTGTGGAAATCTATT CTGCGATGGTGAATGGCTATTGTGAAGCATACCTTGTCGAAAAATCGTATGAACTTTTCCTTGAGCTGTCAGACCATGGG GATATTGCAAAAGAAGATTCTTGTTTCAAGCTACTTAGTAACCTCTGTTTGGCAGGTCACATTGACAAAGCTATGAAGTT GCTGGACAAAATGTTGTCATTTAAGGTGGAACCTAGCAAAATAATGTATTCTAAAGTATTAGCTGCTTTGTGCCAGGCTG GGGATATAAAACAGGCTTGCTCTTTGTTTGATTTTTTGGTTCGGAGAGGATCTACTCCTGATGTTCAAATGTACACAATT ATGATAAATAGTTTATGTAGGATGAATTACTTGAAAGAGGCCCATGACCTCTTCCAGGATATGAAGAGGAGAGGGATCAA ACCTGATGTCATTGCCTACACAGTCTTACTTGATGGGAGCTTTAAAAATGGAGCGACATCGGATGTTCTCACCATCTGGG GTGATATGAAGCAAATGGAAACAAGTCCAGATGTTATTTGTTACACTGTTTTGATTGATGGACTCATAAAGACAGATGAC TGTGTAGATGCAATTAACCTATATGAAGACATGATTCACAATGGACTAGAACCAGATACGGTAACATACACTGCTATGAT TTCTCTCTTCTGTAAAAGAGGTCTCGTGAAGGAAGCTTCTGAATTGCTTGATGAAATGTCTTCAAAGGGAATGACACCAA GTTCGCATATCATCTCAGCTGTAAATCGCAGTATTCAAAAAGCTAGAAAGGTGCCATTTCATGAGTAGGTTGTCAGCTCA GACTGTCAGTGCTTGGATCTATCTCAAGTTCTAAAATCTATCTGGTCAATATCAATACTCAATACCTGAAGGTGAAACAT AATCTTACGTGCTATTGACTAATTTACTAAGACTTACTACTGAATCATTGTTTTTTAAGTATTACACTGAAAGGCTTTGT TGGATTCTACAGATTGGAAAGAGAAGAGCTATGCAGTTTGCAGATTGATTACCAGGATGTATTTGTATTTAGGTATGGAA TCTGCCTTATACTGATTTAAATTATGTGATATTGTGAAATTATTTTACTGGACTAAAAAAAGACTTTAATGTAAATATTT CTTGCAATAATAACTCTTTCTGTATTTTTAATATTGCATTATTAAGTCACTCCGTGATTTTGTTATTTCAATTTCCTTTA ATATCTGTGAACACTACAGTGGTTAAGCTTCTTTGCTACTGTACATTTACTGTTCCTATTAAGGGTTTTATCCTATGAGG TCCTGCTCTATTTTGTTTTATTACCCACGTTTGCTTCAACGAAAAAATTGAGGCTTTGGTGTGCCCATGAAGCAACTATC ATATCTTCCAATTAAATAGTTTATGTGAACCATCCCGTCGGCCACACACTTGCTGGAAGAATTTATTGTTTCAGTTACCC ATTTTTCCTTTGAACTTTTTTGTTTTCAGACTCCCTTTTAAGTGGAAATGGAGTGGATAGAAAAGAGAGAGAAAAAGTCA GAGATGTGATAAGTGATATGATTGAATGAGAAGAAATAAATAAATTGAAAGTAAATGTATAAATAAAAATGGATAGTATG CATAAATTTATTTTTATGCATAAAAGTTAAAATAAATTTATGCATACTATCCATTTTTATTTTTACAAATATTTATAAAC TGGCAAAGTTTTTTGCTTGTTTATAACCTGTAATAGCTAATTACAAAATGTTGTTTGTTATTCATCATCTTGGTTTTGGT AAGTGGTGCTTTCAAGCCATGCGAATTCACTTTTACTTTGTGGTTTACTTTATGTGTTGGCATTAATAGGTGATTATTTT TATTGCTGCAGGTATCTATTTCAAAATCATTTGGATATGGTGGACACTCCCACAACTCTGGTTTCAATTTCTGCACTCAG GCGCTGCTTGGCGAGCTTGTCCCCACTTTATGGTGAGCACGAGTCATCAGTCATCACTAAGCCTACTCATATTATTTGAG TCCATGATTCGTAAATGTAGTACGCATGTGCATGTAGAGTTAATTGTGATTTGACAGCTAATTTGATATCCATTTTAAGT TTTTAATGTACAACTTTTTGAGTAATTTCTATAAAACTCCAGTTAAAAACAACAGCGGAAAGGCTTAATTTAACAATAAA ATCAAGATCGAATAGTTTCTATGTAACTCTATTTACAAACTAAAATCTTATCATTTTTACTTTTTCTTTATAAAAAAATT AGAATTATACAAAAGTGGGGAATCCGTATTCTTGTTATGCACTCACAAGTTCTGTTCTTTGTCAGCAGTTTGTGAAGATG TACACATCAAGGAAGAAAATCTACAAGGGTAAGGATGCTGATCCTACTGAGTTTGAAGAGTTAGTCGAGCAGGTGTTGTT TGAATGTTGTTGTGGATGCAGTTGCTGATTGCACTTTTTGCCAATGTGTAAGTGTTTTTGATTGAGTTTTGTTGTTGCAG CTTACAGGGACTTTTTGATCTGGAAGATACCTATCAGGAGCTTAAAAGTATTTGAAGGATCTATAAATCAATTCAGCAGT GTAAGGATGAGTATTACATGCTTCTCTGTGTGTGTGTGAAGGGTCATGAATTTTCTGTCTGTATTGTGACTTGTGTTTTT ACTGATTCGCTGACAAATTGATGTTTGCGGGAACCGCAAGGCTGTTGTTATTCATGTCCCCAGGTTGAGAAAATCTTTCA GTAAGATTCGTGTTAGACTGTTAGACTTGTCAGTGACCTTGAGAAGAAGTTTAGTGGCAAGGTAAATTTAGTTTAATTTA TTTCTGTTGTGTAGACTAAGTAGTTAATTTGTTTTCATTGACATTTTTTGTTAGTTTGAATTCATTACAGAAGAGTGCTA ACAACTCACTCTTTTAGAGACACATTTATATTTTGAAAAGTCAACACATTTCTACCTCAAAAAAATGTATTGACTTTTAA AAAAATGAACCGAACACAGTGAGTGTGTTGGAGTGTATCTTTAAAAGAGTGTGCTACTAGCATTTCTCTTCATTTGATAT TGTTAATTCTCCTTCTATTGGCCATTCTGATGTAATAATTGCATGAGAGGCAGCATTCTATAATTTCAGAAATGTTTTAT CATGCCTGAGGGAAGTGCTTTGGTGTAACCTCCTGGTAATGAAATAGTAGAGTTATATCCACAAACCAAATACAGGATTA CTTCAACTAGTTGAGAGTGTAATTTATTTATTACATGCAGGCTATATTAACTTAGTTATTCCTCTGTCCTGAGGAATTTC TTTGTGACCCTTCCGAACTAGCTCTTACTAAGTATTTGCCCCTCAGTAAGTAGAATTGTTGAACAATCTCATTTTGATTA TTCTTTACTTTCGAGTTGCTTTATTTTTCATTTTGTCACTGACCTGTTTAAATCATATTAAACTTGTAGGATGTAATTTT GATTGCCACCCGGAGGATATTGAGGCCACCAATGAAGGGTTTTATTGTTCAACGTCCCTGCACGCAAACCCTTAGAGCTG TTTATGAAGCAATGCTGGAGGATATCGTGTTGTCTGCTGAGATTGTTGGGAAGCGTGTGAGGTACCGAGTTGATGGATCC AAGATTATGAAGGTAGAGCTGTTGTTTCCTATCAACTTCTAAAGCTTTCTTATAAGATAAAACGCCTCTTTACCATGTCA ATGTATGTACATGTTTGTATTGGAAATGAATTCCCTTGGTAAAATGTGTGTGAAAGTTGTCATTTTTGCCTTTGAAACTT GCAAATTGATTACCTTTGCACAAGTTTTTATTCATTCATTCAGAATTGTATCTTTGTACTCCTGTCGATAGATTTTCTTG AACCCAAAGGAACGAAAAAGCACCGAATACAAAGTTGAAGACTTTTGCCGCAGTATACAGGAGGCTATCCGGCAAAGATG TTGTGTTTGAGCATCCCATCACAGATGCTTAGTTTCATTTCCTTTGCCAGCTTTCAATTTGTTCTAGAGTTGCATATTGT GTATGCTGGTTAAAATTTGTCCGAATAATTTCCTTTCATGCTGGTTTTTTTATCCTGGTTTCTTAAAGTACAAGGGACTC GTTTCATCAATGTAGGATGAGTTTTAATTTTCTTATAAATTTCAGGTTCTTTTCGCAAAACTGAAAGATAATTCACAAAA TGAAAAACAGATTAAAAGCTTAGTTCATAGCCAACCTGATATAGACATACCTTCCAAAATTAAATCAATGTAATGCTAAA CCCTTCCCAAAATATATGAAAAAATATTAAAGCGTAATTCAGTTCTTACTTTATTATGTGCTTATCTATTCACAGTTTCA CTTCATTTATATCTGACTTCCTATCTATCTTTCACTTCTCTTTCAATTATATCACGAATTACATTGTGAGAACAAAATCC CTTATGTGTAGTCCATTGGTATTATTCACTAAGGTAAATGGTGATGATATGATCTGCTTGATTTCATATATAGATTCTAT ACAAAGCGTGTTTTTCAGAATTTTCCATGGAAAACATTCATCTGCGAAAGCTTGATTTTCATGGAAAACATTCATCTTTA AATTGTTAGTACGTTTTAAGAGATTTTTCAACAAGAAAATGAGGGAATAGTGTGATGTGAAAGGTTGAACGCTTAGTAGG TCAAAAAGTTTAATCATGACGCGGAAAGCAATAATATCAATTATCAAAGGATGGATAATATAGATGAGAAGTCAACATAT ACTGCCAAAAAAGGCATAGCAATTAGCAACCAGCCAGAGCCCAGGAGAAAAGATATCTTGATTCCAGTACTGTTGTTAGC GAGTTCAAGTTCTGCTGCTGCTGCTGCTATTGTTATGGCAGCTTCTTCTTCATCTCCTCCTGCAAAGTATGATGTGTTTT TGAGCTTCCGAGGGAAAGACATGCGTGACAACTTTACCAGTCATCTTTATGCTCAACTTTGCAGGAAAAACATCAATGCG TTCATAGATTACAAATTAGACGTCAGATCTCACCTGAACTCTACAAAGCAATTCAAGAATCCACGATTTACGTCATCATT TTCTCTGAAAACTATGCTTCTTCCTCGTGGTGTTTGAATGAACTTGTGAAGATTTGTGAATGCAAGAAGATATATCATGA TCAAAGGCATGTGATACCTATTTTCTACAAGGTGGAACCAGCAACTGTTAGGCATCAGAAGAAAGGGAGCTATGCAGATG CGTTTGTTAAGCATGAAAAGCGCTTTCCAGAGGAAGTAATACAGAGCTGGAAGGATGCACTAGCCGAAGCAGCTGATCTC TCCGGTTGGGATTCAAATGCGACCAGGTGACCAACTTTTGGGTTGTAATTTCCACCTTCAATCATGTTTTCTTTTTCTTC TTTTTTTTAATGTGTTTTTGGTACATTTTTTTAAGGGTAGTACTAGTGGATTTGCCACCCTATCCACATAATTCTTGATT GTTGCTTCATATTAACTCCTATGTACAGTAGAATGGAAGACTAATGCTTTTGTTCCTTTTATATGTTCCAGACCAGAATC CAAGCTTATTGATGGTATTGTGGAAGATATTTTAACAAAATTGGATCGTTCTTTCTCAAGTGATCATACTCAAGGAATGG TTGGAATTGAAGAGCATATTTCACAAATCCAGCCCTTGTTGCAACTTGAATCAGTGGGCGATGTTCGGATCATAGGAATT TGGGGCATGGGAGGAATAGGTAAAACTACGCTGGCTAAGGCACTACATAAGAAACTGGCGACCCAATTCAGTTCCACTAG CTTGATTGAGAATGCTCAACAAGAAATAGAAAGAGTTGGAACATCTATTCTACGTAAAACATACTTATCCGAGCTTTTAG ATGAAGTCTATACATCACGTTTATTAGATGAAATGCTCAAACGGGCAAGGGTTCTTGTTATTCATGATGACATGAAAGAT TCGAGTCAAGTTCAAGAATTAATTGGAGGGCGTGAAAACTTCGGCCCGAGCAGTAGAATCATTGTGACTAGCAGAGACTT GCAGGTGCTTAAGAATGCTGATGCTGATGAAATATATGAAGTCAAGGAGATGAATTTCCAAGATTCTCTACAACTCTTCA GTATAAATGCCTTTAAACCAAACTACCGTGTACAAGTTGATGCACGCTTGGTAGAAAAGGTATTAAAATATGCTAAAGGG GTTCCATTAGCTCTCAAAGTTTTAGGCAATTTGCTTTACGGTAGAGCAGAACAAGTATGGAAAAGTCAGTTGGAAAAGCT GGAAAAGCTTCCCGGTCCTCAGATTTTCAATGTGTTGAGATTAAGTTATGATGGGCTGGATGATGAACAGAAGGACATAT TTCTTGACATAGCTTGCTTCTGTGCAATCCGTCGTGTGTTATATGTTGAAGTAGTGGAAATGCTAGATGGTTGTGGTTTC TCTATTGACATTGGAATGGATGTTCTCAGAGATAGGGGCCTTCTATCTATTTCTGAAGATTATATCGAGATGCATGATCT AATCCGGGAAATGGGAGTAGAAAACAATGTGTCAATGATCCTGGAAAACGCAGTCGTTTATGGAAACATGAAGAAATTTA TCACGTTTTAAGAAAGAACAAGGTATATTCTTTTGCACCTCATGTCCCACTTGATAACTCATATAGTCTCACAGATTTCT TCCTGTCAGACTATAAAGCATTGAGCAGTTGTTAAATTTCATACAACTACACTTGAACACATCCTTTCATGTTTATTTAT CTCTAATTTCTTGCATTTACTTCCAGGGGACTGATGAAGTCCAGTGTATATTCCTCGACATGTGCAAAATAAAAAAAGAT CAACTGCAATCTGAAGTTTTCAAAAGCATGCCTAATCTGAGAATGCTTTATTTCCATAGGAATTTTTTTAAAGGGGAATG TCTACCAAATGAGATCCTTCCTGCATTGCTTGAAAGTCTTCCGGATGGTTTAAAAGTTCTTCATTGGGAAGACTTTCCTC TAAGATCTTTGCCGCTCAAATTTTTTCCAGAAAATCTTGTTAAACTTTATATGCATGATAGTCATCTTGAACAACTTTGG TGGGGCAATAAGGTATTTCAAGCTTTATGTTGAATTGCTTTATTTTATTTCTGGAGATATAATTTAATGCTCTAAATTAA TTCTTCATACTTTGTATAATATTATAGTGCCCTTGTTCATTATGTGAATTATATATTAGGGTTTGCATACTTTTATTGTC ACCTAATCATTTAGTTTTTACACCAGGAATTACCAAATTTGAAAATCATTGATCTTAGTTATTCTTCTTCCTTGATTGGA ATATCAAGCCTTTCTAAGTCCCTATGTATTGAAGAAATAATTCTCGTTGGTTGTGTATCCCTTACAAGCCTTCCAAGCGA CATGTGCAAGTTAAAATTGTTAAGAAGACTTGATCTGTGTGGTTGCTCGAAATTGAAAAAAATCCCTGATATCAAGGACA CAGTGGAAAATTTAGTGGAACTAAACTTGCGCAATTGCTCAAGACTTGAGATGATTCCCTCTTCAATTGGAAGACTCACC AAGTTAGACATTATCCACTGCCAATCACTTAAAACTTTTCCAAGCAGCATTTTCAAATCGTTCACAGAACTTGATTTATC TGGTTTCTCAAAGCTAAATACTTTCCCAGAGATCTTGGAGCCTTCAGAAAGTTGTGCTTACATTAACTTAACAGAAACAG CAATTAAAGAACTGCCTTCATCATTGGACTGTTTGGTGGGACTTCAAAAATTGTATCTGGACCGGTGCCGTGATCTTGAA TCACTTCCAAATAGCATAGGTAGTATAACTTTCTCTATGTGCTTTTCTTTGTTAACATTTTCCAAATAGTAAATTAACAG AAATCCCTAGTGACATAGGTCGCTTGTCATCATTAAGGAAATTGTCACTGCAAGATACTGGAATCGTGAACCTTCCGGAT AGTATTGCTCATCTTTCAACCTTGGAATCACTTGATGTGAGTCATTGCAGAAAGCTTAAATGTATCCCACAACTTCCACC ATTTCTTAAGGAGTTATTTGCACTTGATTGCCCATCCATTAGAAGAGTGATGCCAAATTCAAGGTTTAAACACCGGTATG ATTCTAAAGAAGGTACCTTCGAATTTCATTTCACCAATAATGAAGAAAAGGATCATCAAAGTGCTCACAGTGATGCTCTG GCCGATGCAAGACTTAGGATCAGTGAGGATGCATATAGGTTTGTGTTCTACTGCTTTCCAGGGCGGGCAGTTCCTGATTG GTTCCCTTATCGTTGCCAGGGAAATTCAGTTACTGTGGATAAAGATTCTCTAAATTGGCACAATGATAATAGGCTCATTG GTTTTGCTATGTGTGTCGTTTTGCGACTTGAAAATATGAATCATTTACAATATAGATTTGATGATTTTAGATGCAGATCA ACATTTGAATATGATGGCTGCACACACATCCTTCCCAATGATGACCAGCTAAATGACTCTTTCTATAGGAGTGGTCAACG GATGGGACATGTGATGCAAGACCACACATTCCTATGGAAATATAAGTTAATGGACTCTACAAGAATAGACAAAGGCAACT TTCATGCCCTCAGCTTCAGTTTTGGGATAGGCCATTTTGGCGGGTTCGGCCATCCGTGGGTAGATTTTGAACCATGGTTC CTGGTGAAAGAGTGCGGAATACGCCCTCTTTATGCCAAAGAGAAAGATGATATTGGTGGCCTTGTTGACTCTATCAGCGT TTTGAGAGTTTCAAATAATGACTTTGCAGAATGTAGTGGTGGGAGGAGGCATTGTCTGAGGTGAAACATGCCTATATATT ATATGGTTTAGCTGTGCAACTTTGATATACTCACACAAACTTTCTCTTCCATATCATTTTCACTCACTTTTTCTTCTCAT ATCTCTATTATTTTCCTATCACAACTCATATCATATCTCTCATTCCTCTCTCTTCTATTCATGTCTCTCTCTCTCTCTTG TTGGTTTACTGTAGGTGGAATTGGTTTGAATGAAGTTTTTCCTTAGCTGTGAACCACGATCATATGCCATTACTTTATAC CAGTTAAAAAATCAACGGACGAGATTGTGCAGAGGTTACTTGAAAAATCAGGTGTTTATTTGCTTTATTTTTCATATAAG TTTCTAGCTATGCTTTTCTTTACATGGCATTGGTATATTAGATTGGTGATCTATCATAGCATTTGATCTGTTGTCAGTCT CATTATGCAAAGTGTTGTTCTAATTGTTTTTACATGGGAAATGTTCCTGGGACTGGGGTATGATTTTTGCATTAGAATTT CTCTCAATTACCTTATGTTCTCTAGACTTCTCCGGCTTCTTCAACAGCCAAAAAGCCTAATTTAACACTTCAAGTCCAGA TCGAATAATTTCCAGGTAACTCTATTTAAAAACTAAAAAGCTATCATTTTTTACTTATTATTTAAAAAAAAAATTGGTTT ATGCAAATGGGGAATCCTTATTCTTGGAATGCACTCACAAGTTCTGTTATTTGACAGCAGTTTGTGAAGATGTAAACATC AAGAAAGAAAATCCACAGGGGTTCAATAAGGATGCTGAGCCTACTGAGTTTGAAGAGTCAGTTTGGCAGGTGTTGTTTTG AATGTTGCTGTGGATGCAGTTGCTGATTGCACTTTTTTCCAATGTATAAATGTTTTTGTTTGTTTTAATTTTGTTGTTGC AGGCATTGTTTGATCTGGAAAATACCTATTGGAGCTCAAAAGTGATTTAAAAGATCCATACATCAATTCAGCAGTGTAAG AATGAGTATTACATTCTTCTTTGTTTGTGAAGGGCCATGAGTTTTCTGTCTGTCTTCTGACTTGTGTTTTTATTACTGAT CTGCAGACAAATTGATATTTGTGGGAACCGCAAGGCTGTTGTTATCTGTTAGAAGTCCCACATTGGCTAGAGATAAGGCC AATCAAGTGTT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0506000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAGGGTTTTATTGTTCAACGTCCCTGCACGCAAACCCTTAGAGCTGTTTATGAAGCAATGCTGGAGGATATCGTGTT GTCTGCTGAGATTGTTGGGAAGCGTGTGAGGTACCGAGTTGATGGATCCAAGATTATGAAGGAAAAACATCAATGCGTTC ATAGATTACAAATTAGACGTCAGATCTCACCTGAACTCTACAAAGCAATTCAAGAATCCACGATTTACGTCATCATTTTC TCTGAAAACTATGCTTCTTCCTCGTGGTGTTTGAATGAACTTGTGAAGATTTGTGAATGCAAGAAGATATATCATGATCA AAGGCATGTGATACCTATTTTCTACAAGGTGGAACCAGCAACTGTTAGGCATCAGAAGAAAGGGAGCTATGCAGATGCGT TTGTTAAGCATGAAAAGCGCTTTCCAGAGGAAGTAATACAGAGCTGGAAGGATGCACTAGCCGAAGCAGCTGATCTCTCC GGTTGGGATTCAAATGCGACCAGACCAGAATCCAAGCTTATTGATGGTATTGTGGAAGATATTTTAACAAAATTGGATCG TTCTTTCTCAAGTGATCATACTCAAGGAATGGTTGGAATTGAAGAGCATATTTCACAAATCCAGCCCTTGTTGCAACTTG AATCAGTGGGCGATGTTCGGATCATAGGAATTTGGGGCATGGGAGGAATAGGTAAAACTACGCTGGCTAAGGCACTACAT AAGAAACTGGCGACCCAATTCAGTTCCACTAGCTTGATTGAGAATGCTCAACAAGAAATAGAAAGAGTTGGAACATCTAT TCTACGTAAAACATACTTATCCGAGCTTTTAGATGAAGTCTATACATCACGTTTATTAGATGAAATGCTCAAACGGGCAA GGGTTCTTGTTATTCATGATGACATGAAAGATTCGAGTCAAGTTCAAGAATTAATTGGAGGGCGTGAAAACTTCGGCCCG AGCAGTAGAATCATTGTGACTAGCAGAGACTTGCAGGTGCTTAAGAATGCTGATGCTGATGAAATATATGAAGTCAAGGA GATGAATTTCCAAGATTCTCTACAACTCTTCAGTATAAATGCCTTTAAACCAAACTACCGTGTACAAGTTGATGCACGCT TGGTAGAAAAGGTATTAAAATATGCTAAAGGGGTTCCATTAGCTCTCAAAGTTTTAGGCAATTTGCTTTACGGTAGAGCA GAACAAGTATGGAAAAGTCAGTTGGAAAAGCTGGAAAAGCTTCCCGGTCCTCAGATTTTCAATGTGTTGAGATTAAGTTA TGATGGGCTGGATGATGAACAGAAGGACATATTTCTTGACATAGCTTGCTTCTGTGCAATCCGTCGTGTGTTATATGTTG AAGTAGTGGAAATGCTAGATGGTTGTGGTTTCTCTATTGACATTGGAATGGATGTTCTCAGAGATAGGGGCCTTCTATCT ATTTCTGAAGATTATATCGAGATGCATGATCTAATCCGGGAAATGGGAGTAGAAAACAATGTGTCAATGATCCTGGAAAA CGCAGTCGTTTATGGAAACATGAAGAAATTTATCACGTTTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0506000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKGFIVQRPCTQTLRAVYEAMLEDIVLSAEIVGKRVRYRVDGSKIMKEKHQCVHRLQIRRQISPELYKAIQESTIYVIIF SENYASSSWCLNELVKICECKKIYHDQRHVIPIFYKVEPATVRHQKKGSYADAFVKHEKRFPEEVIQSWKDALAEAADLS GWDSNATRPESKLIDGIVEDILTKLDRSFSSDHTQGMVGIEEHISQIQPLLQLESVGDVRIIGIWGMGGIGKTTLAKALH KKLATQFSSTSLIENAQQEIERVGTSILRKTYLSELLDEVYTSRLLDEMLKRARVLVIHDDMKDSSQVQELIGGRENFGP SSRIIVTSRDLQVLKNADADEIYEVKEMNFQDSLQLFSINAFKPNYRVQVDARLVEKVLKYAKGVPLALKVLGNLLYGRA EQVWKSQLEKLEKLPGPQIFNVLRLSYDGLDDEQKDIFLDIACFCAIRRVLYVEVVEMLDGCGFSIDIGMDVLRDRGLLS ISEDYIEMHDLIREMGVENNVSMILENAVVYGNMKKFITF

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
Pfam	PF01251 View details on PF01251 Search for proteins/transripts with this domain View external data on PF01251	7	47	41	1.0E-12	IPR000554 Show description in modal box View details on IPR000554 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00255 View details on SM00255 Search for proteins/transripts with this domain View external data on SM00255	21	159	139	3.6E-13	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.10140 View details on G3DSA:3.40.50.10140 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10140	38	184	147	1.8E-46	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11017 View details on PTHR11017 Search for proteins/transripts with this domain View external data on PTHR11017	53	498	446	5.2E-134	–
PANTHER	PTHR11017:SF255 View details on PTHR11017:SF255 Search for proteins/transripts with this domain View external data on PTHR11017:SF255	53	498	446	5.2E-134	–
SUPERFAMILY	SSF52200 View details on SSF52200 Search for proteins/transripts with this domain View external data on SSF52200	56	162	107	3.27E-21	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01582 View details on PF01582 Search for proteins/transripts with this domain View external data on PF01582	60	199	140	1.0E-31	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50104 View details on PS50104 Search for proteins/transripts with this domain View external data on PS50104	62	159	98	18.728	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	180	441	262	8.13E-55	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	185	344	160	1.5E-24	–
Pfam	PF00931 View details on PF00931 Search for proteins/transripts with this domain View external data on PF00931	201	413	213	9.7E-25	IPR002182 Show description in modal box View details on IPR002182 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	221	236	16	6.9E-17	–
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	289	303	15	6.9E-17	–
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	382	396	15	6.9E-17	–
SUPERFAMILY	SSF46785 View details on SSF46785 Search for proteins/transripts with this domain View external data on SSF46785	418	498	81	6.8E-10	IPR036390 Show description in modal box View details on IPR036390 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:0003735 View details of GO:0003735 AmiGO InterPro QuickGO	Molecular function	Structural constituent of ribosome	The action of a molecule that contributes to the structural integrity of the ribosome.	Subterm of View details of GO:0005198
GO:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0005840 View details of GO:0005840 AmiGO InterPro QuickGO	Cellular component	Ribosome	An intracellular organelle, about 200 A in diameter, consisting of RNA and protein. It is the site of protein biosynthesis resulting from translation of messenger RNA (mRNA). It consists of two subunits, one large and one small, each containing only protein and RNA. Both the ribosome and its subunits are characterized by their sedimentation coefficients, expressed in Svedberg units (symbol: S). Hence, the prokaryotic ribosome (70S) comprises a large (50S) subunit and a small (30S) subunit, while the eukaryotic ribosome (80S) comprises a large (60S) subunit and a small (40S) subunit. Two sites on the ribosomal large subunit are involved in translation, namely the aminoacyl site (A site) and peptidyl site (P site). Ribosomes from prokaryotes, eukaryotes, mitochondria, and chloroplasts have characteristically distinct ribosomal proteins.	Subterm of View details of GO:0043232 View details of GO:0044444 View details of GO:1990904
GO:0006412 View details of GO:0006412 AmiGO InterPro QuickGO	Biological process	Translation	The cellular metabolic process in which a protein is formed, using the sequence of a mature mRNA or circRNA molecule to specify the sequence of amino acids in a polypeptide chain. Translation is mediated by the ribosome, and begins with the formation of a ternary complex between aminoacylated initiator methionine tRNA, GTP, and initiation factor 2, which subsequently associates with the small subunit of the ribosome and an mRNA or circRNA. Translation ends with the release of a polypeptide chain from the ribosome.	Subterm of View details of GO:0034645 View details of GO:0043043 View details of GO:0044267 Part of View details of GO:0010467
GO:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	Biological process	Signal transduction	The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716
GO:0043531 View details of GO:0043531 AmiGO InterPro QuickGO	Molecular function	ADP binding	Interacting selectively and non-covalently with ADP, adenosine 5'-diphosphate.	Subterm of View details of GO:0032559 View details of GO:0043168

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0506000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0506000.1