Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0215700
Transcript ID	LotjaGi3g1v0215700.4
Related isoforms 3	LotjaGi3g1v0215700.1 LotjaGi3g1v0215700.2 LotjaGi3g1v0215700.3
Lotus japonicus genome version	Gifu v1.2
Description	mRNA-capping enzyme; TAIR: AT3G09100.2 mRNA capping enzyme family protein; Swiss-Prot: sp\|O55236\|MCE1_MOUSE mRNA-capping enzyme; TrEMBL-Plants: tr\|K7K355\|K7K355_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0215700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:32374844..32390402) extracted from Lotus japonicus Gifu genome v1.2.

ATGATAGTCGCAATGGACTTGAATGCCTCGCCGGTCCCTGAGGAAGATGAAGATACTTTTGAGGAGAGGATACATGTCGA GGAGTTTACTGCACCCGAAGAGCGCATTGAATCTGGAGCTGATATAGCACGCCGGGTACCATTTCCTCTCTGTTATTTTC ATTTTATCATTTTCTAGAATCATGATTGTGATGGTCTATTTGGCTATTTTGCTTGATTCCCTGGACTAGGACTACTGTGA TGGTTGTTTCTCGTTTTCTGGGATGAACTGGTGAAGTTCTTCTCATTTTCATTTGGTTTTGTTGCGACTTGTGAGCTTGG AACCTGTATTTGATAGGAACCTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCCGGGAGTGATAAACTGATGCTT CAAATAACCTTTATGGTTTTAGGATGTGAGTTGGTGCTTCCTGATATGGACATTTTAATCCTTGAATAGCTTGATAAGAG AATCCTAACATGGTCCGCAAACTATTATTTGCAGTTCTGCATGATCAATTTACCTTTTGTTTTCCTGATATGATGATTTG AGTGTTTGATATTAATGATGAACAGCTGGCTTCACATCCAGTGGAGTTAGGATTCTGGTTAACTTAGAAATTTCATTCTG TTGTTGCCTGGTATGCGACTCATAAAAATACACGAGTTTTCTATAATTTGGTCTATTGGAGCAATGTAGTTAAAATCGCA GTCTCACTCGTGAGATCAAACGTTTTTACGATCTTGAGGGTCCAGGACGTGCTCAGCCGCGTGGCTTCCTGGGCTCGGTC AAGTGGGTGCGTATAACCGTTAGAATTGAACGATTTTGACGAGCCCAACTTCAGGTTGCTTTGGGTACACGACCCGTTTT GCGACCCGGAACACTTAATCTGAGTGTCCATTTGAAGTGCTCTCCTGTGTTCGTCAAGCTCCGTCTTCCTCTGTTCAAGC TTGTACACTAACCTGACATGGCATATTATCAGATTATACATTTTTTATGACTGTTTGAAATGAATTGAATCCACATATCC TGCCATAAAAGGGAGCAATGTGAATACTTTACAATGTGAATACTATGTTAATCCATGCAGATGCACCCACGTAGTAGTCC ATTTAGATACTTACTTGAGACCTGTAACATAACTTTGTTAGTAGTTGAGCATGTATCTAGCTTGTAATTTTAGTGATTGG ATAATGGAAACTGCTTGGAGTACCTCAGTTCAATTTTTTGCGAGTTGTGATGAAAGGAAAATTATGATTTATGATTGAAG ATGAATTTAAGGTGTCCGAATTTCACTGCTGTTTGTTAAATTATACAGAGCATCTTCGTCAAGCAAACTTGGTTTTGAAA TGGCAAAGATTTTTTTCTTTCTATCTGTCTCTTAAGTCTTATCCCCATCCCCATCCGATTGTTCCTCTCCCTGTCACACT CTCTATCTTTCCTTCTCATAATAACAGTTATTGTTGTTTGGATTAGATTTTCTGGTGCTCGATAAAGAGCATAATCAAAA TGCTGTAGAGGGCTTTTAGCTGTTTTTTTTTGCATGGATAGAAATTAAGCGAAACCAGAAATAGGTTAATGGGAAGATAG AGTCTGATAGAGATTTTTTATAAACAGTTTGAAAAAAGAAGAAGCAAAACTACAAGTCCAAAATTTGATGCGTTGGACAC GCATTCTTTTTGGCTACTAAATCATATGTAGGGCACATATTGTGCTGCTTTTTTGTGCTTCATAAGTAACTAGTTTCTCA AACTGTATTTACCTTCACCTATCCTTTCATTAACACAATTCCTGACTTACTGCATCTTTTTAGGAGCGTGAAGAAAGAAA GAGACGGTTGAAGCGAGAACGTTCAGATGACAGACCCATGCAAGTATCTCAGTCAACCGGATATGATCCGCCATTTCATA CTAAGATCCTTAAACAATATGATACAAGTAGACTTCCTCCGGGTAAGGGTTTTTTCCGTGGTCCATTTGCTGACTTACCA GTGATAATTAGTAATGCCATTGAATCATATATCTTCCCAGCAATTTAATATATTCACATAATTATATTGCTCCCTGGAAT AATAAACTCTGATATTTCCTCGTACTCTACTATCCTATCTCAAACTATTTTTTATAGTGGATTTATTATATTGATTAAAC CAATGATATGCAAGAAACTTTGAGAAAGTTCTTACAGAGTAACTGAAGATATTGACTTCTGTTATTAGAATACTAACTGA AAACTTTACATGGCAGTTTCTGTAATACTTTCTGGACTTTACATGGGAGTTTCTGTAATACTTTATGGTTAGGCCGTTGA CTGCTAACTGAAACCAACTTTCTAACTACTTAACTGCTGTAGAAACAGCTACCTGAGTCAGCATACAACAGAAGCTACCC TAATATTCTCCCTTAAATACAAGGAAGATGGAGTGAGGAGAACTAATCAAAGACCTTCAGTTTGTTGCACATCTCTCAAA ACCTGTTAGTGCTAAACGCCTTAACTAAGCTGGTCAAAGTTTAGTTGGTTCAGTTCAATTTATTGGGTTGCACTTTGTTT GTTTTAACTGAACGTACAGATGAAATTTAAAAAAAAAAGAAAAAAGAAAAAAGAAAATGAAAGGTTGAAATGTGAAATCC CTAACCTTTTCCCCTCTTCTCTTCCTTTGTGGCTGCCTCCTTGTAGAACCAAAGTGCAGTTGTTTGAAAATCCACTCACT GCTGAATTGTTGGCTAGCATATTGTCATATACTCTTGCTTATCGTCGCTTGTCGCTTACCGTTTCTCATCGTTGGTAAGC TATTGGTCAAGCACTTATTGCTTGTGACCCATCACTGGTGGTGGTTTCATGTCGTCACTCGTCAATGGTCAGCCATTAAT TGTAGATTGACGTCAACTTTCACATGTCATTGCTCAGCCTTTACCCACCTCTGCCCCTGTGTCCTCTATCGTGATGGTTA GGGTTCCAACCATCGAATTGTTGTTAGTGAAGTTTGCTTGAGGTGAAGGAGCGAGAGACGACTGAGTACCTTGGATGAGG TTGATTGAAAGTTCAATAGAAAACTTCTTGTTCTCCTATACGCACACTTATTGAGCAAGAAGGAGGGACTCGATCTCATC AATGGCAGTGCCTGAATTTTGCTGCTCATGTGAACAAGGTTTACCAGAGATTCATACTCGGCCTTTTGAGAATAACATCA ACTTGCTCCTTAGGAGAAACCGGATCACAAAATGAGTAGAGTCTGAAATTGACTTGGTTCTCATAATTTCCTAGTGTTGT ACTGAGCAAATCAGTGTGCAACGGGCCAACGGCCTGTACTTTGCTTGAGTCTATAGTGAAATGGGAGTGAAGTTTGTCCC ATAGTTGAAACACTGTCATTTTGGTAAGAATTGGTGTGGAAGCAGAGGACTGTAGCCAAGAAAGTAGTAGAGCATCTTGT TGCTCCCAAAGTAGGCACCGTTCACTAACTGTACCTGAATCTTGACCAGCCTTAGATTTGACTCTTGAAGGAATTCTTGG ATTAACTGGGTATAAATGGAGATTATGACCAATAAATTTGCTGCTTCCGTAACAGGAACTTTTATTATTCAGTTTCTTAG AGATGGAGTGAGAAAATGAGATTGTAGAGTCCGCTGAAGCTGACACCGGGGAGGGACAGCAGAGAACGGTGTAGCTCTCA TATAGGTGATGGTGGCGGACAAGGAGAACTGACGTCGGTCATTGTCTCTGGGAATTTCAAGCTTTTGATATCACAAAGGG GGGAGTCAGAAGAATAGTGACTATATTGAACAGATAATCTGAGTGATACAATGGGTCTGTATATATAAGCTCAATGATGA TCTTCTAACTGAAGTAACAGAGTCAACCTAACTCTCTAGCTGATTAACTTACAGCTTTTACTAGTAACATGTATCTAACC CATTGCCTAATGGGGACAATCCTTTGTGCTCTAGTGGAGTTAGGGTAGTATACTGCTGTAGTGTTTGACTGTCTGTAAAG TATATGCTGTGCATTGATTCAGTTGATGATGAATCAGCTGGCTGTTACTCAGTTGGAAGTTAGTTACTGTTAGTAATCTG TCAAAATTAACCACAGGTACTAAAGCTGGTTTTTACTAATAATTTTCAGTAACATTTCTATTTTCTCATACTTTCTGTGA ATTTTTCTCTAACTTTCTCACTGAACAGTTTCTATCCAACTAAAAACTTAACAAGAGAACATCTGTTATGCATTTATTGC TAGGCTGCTGATAGCTAACTGAAAATAACTTTCTAACTGCCTAGCAGCTGTAGAAACAGCTAGCTGAGTCAGCATACAGC AGATCATGGATGGTATTTGGTTGTAACGTTTGTTTTTGGGAACAAGTTTGGCTCTTTTTCTTGCACTTTGTTTTTTTTTT TTGGACTGTTAGGGGTTGGATGGGCTGGTGGATTTTAGTGGTACAAAAAATGAGTACACTTCTAAGATTTTTTTTTAATA AAATGCAGATTGATAGGTGTTATAATTTGCTTTAGTCATATTTGAGATTATTGGTTTACATTTTATGTTACAAATTACAG TTGTACATGTGAATGGACAATTGATTATGCATTATCATTTTGTTTTTTACATGTAGGATGGTTGGATTGTCCTTCATTTG GCCAGGAAATTTGTTTCATGATACCTTCCAAGGTTCCACTTGGTGAAGCATACAATGATTGTGTTGCTCCTGGTAAAAGA TACTCATTTAAACAAGTGATACACAACCAGAGAGTTTTAGGCAGAAAAGTAAGCATACTTCATTTAGATATTTGTCCTTC TGTTTCTTTTGCTTCTTTGCCACTGAGTTTTTCTTTATTTTTAATTTGAAGAACTGGAGTAATCTAAATGAAAGGAATTT CTAGATTTGTACAAAACAAGAAAAAATATGAAAAGGATCCACATATCTAGTTGTTTGTCCAAATACAATCTAGAGAAATT TAACGCTCTATGCCAGACAAGAATCAAGTCTTTTTTGCATAACATTTACTTGTGTTTTCATCTTTTTCCTCTTGATGTGC AGCTTGGTCTTGTGATTGATTTGACGAATACCTCCCGATACTATCCAGTCACAGATTTAAAGAAAGAGGGCATCAAGCAT GTTAAGGTTTGTAGTGGCAATATTTTATTCACCAACGCATGCTTTTCTAATTTTGTCTTCAAAACTGCAACACCTATTCT TGTCCTTACATTTTATGATCATTGTTGTTGTTTAGATTCAATGCAGGGGGAGGGATTCTGTACCTGATAATTTATCTGTG AACAAGTTCGTATATGAGGTTTGTTTCTTGCTTGATAAGATTTTTGTAGTCTTGCCTAATTTTTTAGAATAATTTCGCAA ACATTTTTTGTTTCTTGGCTTAACAAGTAATTCATTGTTTACTTCAAAGACCATCTTTTGACCTTTGCAATGAATACCAT TGATGGTGGATGTGGCAAGCCAAACGTAGATGGCTTTGCAGCCAATTGCAGAAGCATGATGAAATAATATAATAATATAT TTGCATGGTCCACCATTCACACAAGATAATCTAAAATTACTGTTGAATATAACTGTTGAGATATTGTATGTAATGAGAGA GATATTCTACATATTTGGTTGATTTGTTTTGTGATTGTTTCCTTATATAACTTGATCTTAATCCCTAGATTGTATGGCTC ATCCTTGTATATATTGTACTCATAGTCATAGAATAGAATAGCAAGAATTTCATTCAAGTTGGTAGCAGCTCTCTCTAAGT TCGACCCCTATTTCACGCTTCCAGTTTTAAGAATTTTCTATTGTTCCCACTATCTAATTTATCCCAAATAAGCTACTCGT TCAAAGAATTCTCCTAAAAAATGCAAGAGCCACTCTCTTACTCATGCATGTTTGGATCAACTTATTTTTCCTCTGAATCA ATAATGGCATCTAGAAGCTATTCACAAAAAAGCTTCTCCACAGAATTGATTTTGACTTTAGAATCAATCGTAAAAAGATT ACCAAACATGCACTGGGGGATTATTATTTTTTAACCACGTGATTATTGACATTTCCAGGTTATTCAATTTATGTCGCGCC AAAAACACGCGAAGAAGTATATACTTGTTCATTGTACACATGGGCATAATCGTACAGGATACATGATCATCCATTATCTC ATGCGTGCTACATCAATGTCTGTTACTCAGGTCAGTTTTGGAGTTATAATATAACTGGCATTTTCTCTCTGTTAAAGATG TTGCTTAGTCTCAGTGGATATGATTTGCTTCTTGTAGGCAATAAAAAATTTTTCTGATGCACGCCCTCCGGGAATCTATA AACCTGATTATATTGAGGCATTGTATACATTTTATCATGAAAAAAAGCCTGAAATGGTAGTTTGTCCTCCTACTCCGGAG TGGAAAAGATCTTCTGAATTTGATCTCAATGGTGAGGCAGTTCCAGATGATGATGATGATGGAATACCAGGCCCTGATTT GCAGGTATTGAAAATATACAGTGATTTCAATATTTTAGTTCTTGCTATTCATGCTATCTGAATTGCTTTTCTATCTTCTG GCAGGATTTGTTGTAAGTTCTTGTTAGTGTTATTCTGAGATTATATTAATGGCAATTTGCAGATTTATAATCTTCCTATA TCTCTCTTTCTCCATGTATTTTCTCTGCTGGTTGAATTCAGAAACTTCTTCGTTATCAAGTGGCTATTTCATTTGTCTGG CCCTGTGGATTTTCCTATTCAATCAACTTGGCCCCATGGCTTTCTGTGTGCAATAAAAAGAAAATCAGTCCTACACTCTT CGTGCTCTAGATGTCTAGTCCTGGAGTGTGTTGAGATCTCACATTGTCTAGGGATAGGACTATTTTTTAAAACCTTATTG TCGATTTTAGGACTTCAGAAGATGATATGATTCTTTAAGCACCCTTACTATTGGCCTGGGAACTTTACCGAAAATCATCG TGGATTCCTAAGCCCTAAAATTGACAATAAGGGTTAAAACAAGCTGGGGATGATGCTGACAATCATGTAGAGAATAAAAT TAACCGTAAGAGAGACATTCACATGAATGTAGCAAATTTTAATGTCTTTGTAAAATATTGTGTTCCTTTGAAAATAGGGG AGAGGGCAGTGTCACTTAAGAATCTATTAAGGGGGGAGTATTTTTATCCTTACATCTTTTAGTTTATTTACTTGTTGTTT GTCTAATAGTAATATACTAATATTCATAGAGAAATAGAGAACTCGGCCATTTGACATGTTTTAAACTTCAGGAGACACAT GAGACAGACGCACGAATGACAAATGATGATGTTTTAGGAGATGAGATACCTGCTGATCAGCAAGATGCACTTCGACAGTT CTGTTATCAAACACTTAAATTGGGTGCTGGGGTAAGCCTTTTTTTCATGCATGAGTTTATTGCTTTGATTTAAGAACCCA GTTTTAAATTATGATTTTTCCGCTTTTATGATTTCATTGCATCTGTACGTTTTTATTCAATTATATTACAATAAACGAAT TAATGGCGTGTATTATGCTTGTTTTTACACTATCATTTGATCCTTTGTCTTTTTGATTGTCCTCGTTGGGCTGTTGTGTT TGTCAGTTGATGTGCTTGGTCATGTCATTATATCTTTCCAAAATTGCACTATTCTATTAATATCCCTCATTTTAGAGGGT TTACTTTTTCTTTTGTTTAAAAATGTTACTTGATGCTGGGATGATGACATTTTCAATTGCTATATTTGTGTGTTTTCTTA TTCAACAGAAGCCTGGTTACTTAATCCTACATAACATGTAGATTGGATTATTGCTATATTTATGGATCAGTAATAATATA AGACGTTTTAATATGAGTAATTTGTGTAATATTTGTGTCTGACTAGTAAACGTTATAAGTTCCTAATGCTTCTTATAAAC TGTAAATCTTTCCTTAATTCAGGGAATAGATATTTTTTTTTAATTGGGATTGGGAATTATTATATTTTAAATGTTCATCA TTCAAGTTTGATGCTGTATAATTCTTGTTCACTGCTGTCTTCTATTTGGTTCTGTATGCGCAAACCTAAGCTGCTGATGA CATGGGTCCTTTATAAAGCTTTTATAGTATCTTGCCTTTTTTTCCTCCTTTTGATTTTGCTGATTTCCCTGCTTGATGGA CCTCGAATGCTTGGCGTACCTATTTCACTAATTATTAATATGCAGGCCAGAGGACATACACAATTTCCAGGTTCACACCC AGTTTCTCTCAACAGGTCTATTTATCTGAGCCATTAACATATATTTTGATTTTACAGTAGTTATGCATTAAACTTGGGTG CTGCTAATTCTTTTGCTATCATACTTATTTTGTTGATGTGTCTCCTAACAACACATCTTAACGAGCAAAAAAAATACTTA TCTCTTTATTGATTACTTATGGTAGAAAGTATTGATTTAAATTATTTCAGACTTTGAAGACGTTAAATGCTTTTATATTT ATTAGATATTTTTTATTTTTGATTCCTTAACATGTGCCCTAAGGGGCAAGACAAAAACTAAATATCTTTTCATTGGTTTA CACCAAATACAGTGTACCAGCTATAGTCTAGTACAGCTCTGGCAGTTAGTTATGGTTAGGATCCAGTTAAGCTCTCTAGC CCATCTATATGTAGGATATACTGCAACTGTGTAGCACTATTCAGTTTTCTTTCAAATCATTTTCAGTTCTCTCTATCTTT CTATGTTCATTCTCTCTCATTCTAATATGGTATAAAGTGCCTAATCATTGGAAAGCATGGATCCCAGCAAATCTCCGCTT CACTCTCCACTAACAGCGCAGATGCCCATGCATGCGAGGCTAGTCACAGCTGCCTCATACTCATAGGCTATTTCACTTCG TCAAGCATGTTGTTTTCCTTCACACACTATCACAAACAGTAGCAAAAGCTCTTCAGCTAAGAATTGAACTTCAGACTACC AATTATGTCTCTAGTTATAGTTATTTACACTGTTTAGTCGACAGTTATTCAGTCAGGATCAGTTATGTACTCTAGCCTTT CTATATATGCGGTAACACTCTGATCATTTTGTATTCAATATAAGCATATTCAATATAAGCATTCTCAGCTTCAGTCTCTA ATCAGTTGATTCTAACCGAATGAGCTAACTGATTAACTTCCCTTCCTTTACTAAGGAAGGTTGTTACTTCCTAATTGCGT AAGCCCTAGCTGGCATTTTAACTGCCAGAGTTAGCTATTAACTAACTTCCAACCCTCTTATTCCTTCTCTGGTATACTTT CTTAACCAGAGGCTTACAAGTCGACCTATCACTCTCTCTTGATATGATCATTTTCTCTCACTCGTACACTTTCTCAGATT TGTAAATTTACTACCGACATTGATTTCACGATTTTGTTCCTTATTAATTTTATGATTTTATCTGTAATCTATTTTAAATT TGGTTATGTTGGTCTGTGCAGGGATAATTTGCAGTTGTTACGACAACGCTATTATTATGCAACATGGAAGGCTGATGGTA CACGATATATGATGCTAATAACATTGGATGGGTGTTTCTTGATAGATAGAAATTTTAATTTTCGAAGGGTCCAGATGAGA TTTCCTTGCAGGAGTACAAATGATGTACGTGGGGTACTTCAAAATTTCTGATAGTGATTGTTAAGGCTTAGAGCTTTTAA CTTGAATAGATTTTTCAACATGTGTAAATACCATTATCAACTGTGATCATGATAATTAATTTACATTATCTAGTGATAGG TAGTAAGTTAGCTTATGGTCATCTCATCATTAACACGTTGATCAATTGTAGTATTGAATATTGAAACTATGAATAAGAAA TTAGTGTGCTGCCTGGTAATATGTCAAACGATGTCTTCCAACAAACCCTAACCCTCATTTTTATACTTCCATTTTACAAG GTTTCCAACACTTGCTGTTTTTTTATGCAACCTTAAATTTGAAAATCTTGTCAAACCACTGGTGTGACCACTGGCTTGTC CAGACTGGCCTGTGGCAACCAAATGTGCAGTATCTGTCGTGCTGTGATCTAATTCTACTGGTGCTCTTCTTTCATTTAGA CTGCATTTCCCTTTCTATACCCCTTTCCTCTTGGTGATCAACAGTTGTGCTATTTTCTAGTCACCACTAAAGCTACTTCT GATTACTAGTTGTCCTCACACCAGAAACAGAAAGGTCTCACCAGCCATATCTGCAGTGCCACCATCATTCGAATATGCAC CACCTGATCTTGCGAACTTTACTGTTGAAGCATGATTTCCATTCTCCATAGATGTTCACTTTCTTCATTTGGACTGAGCA TTCTTCTCGTTTATTCCATAAGAAGTCCTCAAGTTGGGGTAACAAGCTTGATGTATATAACCTACATACCCCTAATTCAA GATGGACTGTTACATATAGCACACGTGTAAAACTGTAAATATGATGACCAACTTTAGTTTTAATGGGATTGATGTAAATT TGCTTGGCAAGCTGCTGTTAGTTACTGATTAATCAGCCTTGTTTGTAATAAAAGATCAGGGTGTAGCCTAGAAATGAATT TTCTAAACACAGTTTTTACGATAATGATACACAAACTGATATTTGGTATCTTTGTATTCAAAGGGCTTGGGCGAGAAGAC CCACCAATTCACATTACTTGATGGTGAGATGGTTATTGATACCTTGCCAGATTCACAGAAGCAGGAGAGAAGATACCTTA TATATGATATGATGGCAATCAACCACGTATCAATAATAGAGGTTTGATTTATATATGATTGCATAAAATAATGCTGGGTG ATTCCATTTCTGTTTTGAGCTTGTTAGAAAGAATGTACATAGTGTGCTTAACATCATATAGTATCATAGAATTGCAGTAA TTCGGATGACTATACTGTATTTATTATTTTCAGTCTTTGTAATTCACCTCTGCTCTGTAGATTAGACACATGGATTCTAT CCCTCGCCTCCCACTTTCGTATTCCTTAACATGGTATCACAGCATGATGGAATTCAGCCCCATATTTTGTGCAGTTAAAT TTTATTTGCATGTATCTTTGTTATGCCTTCATTGTCAGTTTATCTGGTCTTGTAAGTTTAAGAACTGTTTCCAAAAACAG GTTTTGAAAACAAACAGGCTTTTAAATTCAGTTTTTAAAAACAGAAAGCAATTTTCAAAAACTGTAATCAACAGTGAATT TACGAAAGGATGATGTGGTAAAATTCGAGTCAGACTTTCTTAACATATGCTGATGGAAAACCTTGATTTGAGGAAACCAC AATTCAAGATGTCCATATTTTTTCCCCATTGAAGTTGTTTGTATCTGCTATTTCTGTGTTATCTGTCTTGCCTTCCTTGA TTCTTTGATATGAAGTGTACCAAGCTGTGTGTGATTACTGATTAAAGCCAAACTTGGCGCAGCGACCCTTCTATGAACGG TGGAAGATGCTTGAGAAGGAAGTGATTGAACCTAGGAACCATGAACGACACAGTATATACCAGAGCAGAAATCCTTACTA TAGATATGACTTGGAACCATTCAGGGCATGCATCTCTGACCTTAAATTGATCATAGAATACTTTAAGCTACTTCGTTTTT CTGCTTGTGGCTCAACTATTGATATACTCGAAATGTTTAGGTGAGGAGGAAAGATTTTTGGTTGCTCTCTACTGTCACAA AGCTTTTAAAGGAATTCATAAAAAGACTCTCGCATGAGGCAGATGGTCTTATATTTCAGGTGGGTTTTGATCAGTGCTCA TCTTCAATGTACTAAACACGAGAATGAGATTTTCTATTTTGTGCCAAGCTTCAGTGTATTTTAAATCATGTGTGGTATTG CCTTTTCTGATCTTTGGTTTTGAAATTCTTGATTGCTTTATGAAATGGGATGTACGTAATACATTCTATTTGCAACATAA TCAGCATGAGAATAAATTTCTGGGTCTGATACTTGTGAATCACGGCTAAAGATTTGAGAAGGAAAGGAATCATTGTACCT AGACTACTTCATGGTCTATTCCTTTTCCTTCCAAATCCTGTTTATAAACAAGGTGTTTCTTTCTTTTTCTTTTTTCTTTT GTTAATTTATTCAATGGAGGTTGTTACTAACACTGTTAATTTACCAGGGTTGGGACGATCCATATGTACCACGCACTCAT GAAGGACTCTTAAAGTGGAAATATGCTAATTTGAATTCAGTTGATTTTCTATTTGAGGTTGTGACATCACTTTATTGCAT ATGGTGTTGGGATATTAGTTCTAATGTCTCTCTTTCAGTCATAGTTTGTTGATGATGCAGCCAACTAATTTATATCTGCT TGTGCTTACAGGTTGATGGTGATCGTGAGCTACTTTTTCTCTATGAGCGTGGAAAGAAGAAACTCATGGACGGAAATAGG GTTACATTCGGAGGTCAGACAATATTTATTTTTCAGTTTATCTGTCCTACTCATTTAGTTTTGGTAGATATAATCTTCAT TCATGCTTCACTGTTTTTTATATAACATTGCGCTTCTTTATATAATAGGAAATCTATAATGTCAAGTTGTTAAGATTCTA CAATGACCAGAGATATGAAAAGTAGTATTTTTAAGGTAACCTCATGAGCTAGCTTGTGGGGTATAATCAAGCCTTCCCCT AATTCTAAGATGGTATCAGAATCAAATATTGAGCCACCTATAGATTTCTAAGAATCAATCTGGTCCCGCAACTATCCTAG TAAATGTGTCAACATGAAGATTTTACTTAGGATCAAGAGGGGGGTAAAAGATCGTATCATTAGATAGTAACACGGATCAT AAGATCCTCCACTAAAGGAAAAATTATATTTAAACTTATACTTGTGTTTAGAGAATAACATAGCTATAAAGTCAATGCAA ACAGTGATATTACTTTTAAATTTAATTAATACTAATTATTATGATTATAACTGTGTAACTCATTACTCATTAGTTTTATT TATTTATAATATGATAAAACTGGATAGTAAATATAACTAAAGACACGTGATAACATAGATGACTGAGACAAAATAACTAA AAAAAGATAATAATATCAGTACTAGAGTTTTAAAAAGCATAAATATAAACATTTAAATATGGAATGAAAACAAATTCGGT GATTGGGTTGAAAAAAAGATATATCTGAAATTGCTATTGGTTTGGTTTGGATTTAAAGTGAAGAGAACCAATTAATCAAT TCAATCTGAACCATTAGATTGGTTTGGTTAGAATTATTTGGCTTTTTGGGTCAATTCGAACCAATGAACAGTTGAACACC CCTTGCGCATGCCCATTTCTTCCAGTAAGATTTGTGATCGTCCAAATTTTTCTTTGTCATTTCAACTTTGTTTCAAATGT TTAACCTAAATCTAATGCTAAGAAGACTTAAATCAAATACCATGTCAGGCAATTATCTCACATCTCCTGGAACTCCACTT TGGCTAATGAAAAGGGATGACATTGGTGTAAAAAACAGGCAATTATTTGGCATGCATGCTCCCTTAAACTCTTCTTGAAA AATGGAGTTGTTGGTAGTTTGAGAGCTCACTCCCCTTCTCTTGAAAAGGATTGCAAGATTGTCAATTTCTTTCCTTTTCC TTTTTCGGACTCATTCAGAGATTCACCTCTAGAAGGTCCTTCATACTCTTCTGTACTTATTTATGTATTTTTCTTGTAAG CTGGGAACAATGTCCGGCATTTGCTTCCTAACATCATCAGGAACAGATGTGCACGCTACAACATCTTTCCGAGTTCCTGC TAAATGATGTTTTCATCTATTCTCACCTCCTATATAATCTTTCTTACAATGTTTGCATTTTATTTATCTTGCATCCTCAT CAGTATACACCCCACGGTTTCAGCCACATTGCTTGTGATTCTAGCTGCATTCTTATGAATGTTAGATTCTCCTCCACCAG CCGCACGTGAGGATATGATTTCTTCAAAAAGAACAGAAAATGAGCTCAGAAGTGAGGCAAAAGCATAGCATATTATAATC AAAGAGAGACAAATTAGAGCACTAACTTGATGTGCTAAATAGAGCACAAAAGGGAGATGAAACAGAGCACCAAAGAGAGA CCGAACAGAGCAGAGAACCTCGACGTTGTGCATCGAAGAATCAAATCATCATAGCCTCACGACTATCTCAGTGAACCAGC CTTACCAAAAAATAATAACAGTCCTACAATCTCTACGTTCTAGATGTTCAGTCTTCGGTTTTTTAGGTGTTTAAAATCCT ATATTAATTAGAGATACGACCAAAGTAATCATTGTAAACTTGAGTAATCCTCATCACACAAGTTACTTCTTGGGGTAGAG TTAGGTCTAGCCCAAAATATAAGACAAGTCTTGGCTTTTACGGGGTCGAAATGTGTCAATTGCTTGAATTTCAAACTTGG CCTAAAAAAATTTTCTCAAGTTTAAAGTTTGAGCTTCACTTGTCTGAACTTGAAACTTGAGCAGGGCTATATTAGTTTGT CTATAGCTTGATTGTTTGTTTCCTCTATCAAATTTCTAATTGAATTTTGTTTGTGTTTACTAATTTAGTATTTAGCAGAT ATTTATGCTAGAAGATAAAGTAAAAATATATGTAATTTTGCACTAAGGAATGTGACTGAAATTCACACATTATGGAGTTT TTTTTTCAGAGTGATAGAAACTCATCTAGAATATAACTCTTGAAAATTGGAGTTAGGTAACTGATAGATATAGATAATGA TCAAAACTACAATTCTCTAGGTATTAGGTAAATATAATAAATAAATTTGCTATAAACATACCCTAGTTATTTGTCAGCTG TGAATGCGAAGGTTACTAAGTTGAGCTTGAGCTTGAGCTTGTTTCTTTAACTAAACAACCGAGTTTAATTACTGAGCTCT TTTACAACCCCATTGGCATTATTTATTTCTCAATGTAGCGCATTTTCATATGCTACTTTAGAGTTAAAGTTTGGTTATTT TCATAATAACCAGTTTCTAGCACCATTCAAAAAGTGGTTGGAGAAGGAAGCTGTACCTATAAATTGTTTTGAATGATGCT TTAGTATTACTATTAATACATGATGTTGTTCTATTTTTATTTTTTTTGTCATTATTTTGATGTTGCTTGTTTAATTGTTA AGTCTGAAGTTTCTGGTCCTTGTTTTATTCTAACTGCATTTATTTTGATTACTTTCTGAAACCCTAAAATCTGCAGATGA CTCAGATCCCTCAGTTTATGCTGGAAAGATCATAGAGTGTTCCTGGGATTTTGATGAACTGGAATGGAAATTCTTGCGAG TCAGGACAGATAAATCAACTCCAAATGAGTTTAATACATACAAGAAGGTCCAATACTAAATCCCATTTTCTAATTTCCCT CAACTCTGATTCTGCACTTGGCCTCAGTCATTTACTTAATTTATTATTATAGGTGATGCGAAGCATAAGAGACAACATTA CGGAGGAGGACTTATTGAATGAAATAGATGAGATAATCCGGCTGCCTATGTATGCTGACAGGATAAGAATGGATAGTAAA GCAACTCAGCATGCAAATGCTGCAAGACGTAAGCAATGA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0215700.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGATAGTCGCAATGGACTTGAATGCCTCGCCGGTCCCTGAGGAAGATGAAGATACTTTTGAGGAGAGGATACATGTCGA GGAGTTTACTGCACCCGAAGAGCGCATTGAATCTGGAGCTGATATAGCACGCCGGGAGCGTGAAGAAAGAAAGAGACGGT TGAAGCGAGAACGTTCAGATGACAGACCCATGCAAGTATCTCAGTCAACCGGATATGATCCGCCATTTCATACTAAGATC CTTAAACAATATGATACAAGTAGACTTCCTCCGGGATGGTTGGATTGTCCTTCATTTGGCCAGGAAATTTGTTTCATGAT ACCTTCCAAGGTTCCACTTGGTGAAGCATACAATGATTGTGTTGCTCCTGGTAAAAGATACTCATTTAAACAAGTGATAC ACAACCAGAGAGTTTTAGGCAGAAAACTTGGTCTTGTGATTGATTTGACGAATACCTCCCGATACTATCCAGTCACAGAT TTAAAGAAAGAGGGCATCAAGCATGTTAAGATTCAATGCAGGGGGAGGGATTCTGTACCTGATAATTTATCTGTGAACAA GTTCGTATATGAGGTTATTCAATTTATGTCGCGCCAAAAACACGCGAAGAAGTATATACTTGTTCATTGTACACATGGGC ATAATCGTACAGGATACATGATCATCCATTATCTCATGCGTGCTACATCAATGTCTGTTACTCAGGCAATAAAAAATTTT TCTGATGCACGCCCTCCGGGAATCTATAAACCTGATTATATTGAGGCATTGTATACATTTTATCATGAAAAAAAGCCTGA AATGGTAGTTTGTCCTCCTACTCCGGAGTGGAAAAGATCTTCTGAATTTGATCTCAATGGTGAGGCAGTTCCAGATGATG ATGATGATGGAATACCAGGCCCTGATTTGCAGGAGACACATGAGACAGACGCACGAATGACAAATGATGATGTTTTAGGA GATGAGATACCTGCTGATCAGCAAGATGCACTTCGACAGTTCTGTTATCAAACACTTAAATTGGGTGCTGGGGCCAGAGG ACATACACAATTTCCAGGTTCACACCCAGTTTCTCTCAACAGGGATAATTTGCAGTTGTTACGACAACGCTATTATTATG CAACATGGAAGGCTGATGGTACACGATATATGATGCTAATAACATTGGATGGGTGTTTCTTGATAGATAGAAATTTTAAT TTTCGAAGGGTCCAGATGAGATTTCCTTGCAGGAGTACAAATGATGGCTTGGGCGAGAAGACCCACCAATTCACATTACT TGATGGTGAGATGGTTATTGATACCTTGCCAGATTCACAGAAGCAGGAGAGAAGATACCTTATATATGATATGATGGCAA TCAACCACGTATCAATAATAGAGCGACCCTTCTATGAACGGTGGAAGATGCTTGAGAAGGAAGTGATTGAACCTAGGAAC CATGAACGACACAGTATATACCAGAGCAGAAATCCTTACTATAGATATGACTTGGAACCATTCAGGGTGAGGAGGAAAGA TTTTTGGTTGCTCTCTACTGTCACAAAGCTTTTAAAGGAATTCATAAAAAGACTCTCGCATGAGGCAGATGGTCTTATAT TTCAGGGTTGGGACGATCCATATGTACCACGCACTCATGAAGGACTCTTAAAGTGGAAATATGCTAATTTGAATTCAGTT GATTTTCTATTTGAGGTTGATGGTGATCGTGAGCTACTTTTTCTCTATGAGCGTGGAAAGAAGAAACTCATGGACGGAAA TAGGGTTACATTCGGAGATGACTCAGATCCCTCAGTTTATGCTGGAAAGATCATAGAGTGTTCCTGGGATTTTGATGAAC TGGAATGGAAATTCTTGCGAGTCAGGACAGATAAATCAACTCCAAATGAGTTTAATACATACAAGAAGGTGATGCGAAGC ATAAGAGACAACATTACGGAGGAGGACTTATTGAATGAAATAGATGAGATAATCCGGCTGCCTATGTATGCTGACAGGAT AAGAATGGATAGTAAAGCAACTCAGCATGCAAATGCTGCAAGACGTAAGCAATGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0215700.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MIVAMDLNASPVPEEDEDTFEERIHVEEFTAPEERIESGADIARREREERKRRLKRERSDDRPMQVSQSTGYDPPFHTKI LKQYDTSRLPPGWLDCPSFGQEICFMIPSKVPLGEAYNDCVAPGKRYSFKQVIHNQRVLGRKLGLVIDLTNTSRYYPVTD LKKEGIKHVKIQCRGRDSVPDNLSVNKFVYEVIQFMSRQKHAKKYILVHCTHGHNRTGYMIIHYLMRATSMSVTQAIKNF SDARPPGIYKPDYIEALYTFYHEKKPEMVVCPPTPEWKRSSEFDLNGEAVPDDDDDGIPGPDLQETHETDARMTNDDVLG DEIPADQQDALRQFCYQTLKLGAGARGHTQFPGSHPVSLNRDNLQLLRQRYYYATWKADGTRYMMLITLDGCFLIDRNFN FRRVQMRFPCRSTNDGLGEKTHQFTLLDGEMVIDTLPDSQKQERRYLIYDMMAINHVSIIERPFYERWKMLEKEVIEPRN HERHSIYQSRNPYYRYDLEPFRVRRKDFWLLSTVTKLLKEFIKRLSHEADGLIFQGWDDPYVPRTHEGLLKWKYANLNSV DFLFEVDGDRELLFLYERGKKKLMDGNRVTFGDDSDPSVYAGKIIECSWDFDELEWKFLRVRTDKSTPNEFNTYKKVMRS IRDNITEEDLLNEIDEIIRLPMYADRIRMDSKATQHANAARRKQ

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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
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	72	72	-	–
PANTHER	PTHR10367 View details on PTHR10367 Search for proteins/transripts with this domain View external data on PTHR10367	20	683	664	0.0	–
PANTHER	PTHR10367:SF10 View details on PTHR10367:SF10 Search for proteins/transripts with this domain View external data on PTHR10367:SF10	20	683	664	0.0	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	23	63	41	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	40	60	21	-	–
Gene3D	G3DSA:3.90.190.10 View details on G3DSA:3.90.190.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.190.10	67	284	218	1.3E-57	IPR029021 Show description in modal box View details on IPR029021 Search for proteins/transripts with this domain View on EBI InterPro Service
PIRSF	PIRSF036958 View details on PIRSF036958 Search for proteins/transripts with this domain View external data on PIRSF036958	76	684	609	6.7E-240	IPR017074 Show description in modal box View details on IPR017074 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52799 View details on SSF52799 Search for proteins/transripts with this domain View external data on SSF52799	89	278	190	1.9E-46	IPR029021 Show description in modal box View details on IPR029021 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd14502 View details on cd14502 Search for proteins/transripts with this domain View external data on cd14502	92	258	167	3.19309E-64	–
SMART	SM00195 View details on SM00195 Search for proteins/transripts with this domain View external data on SM00195	103	263	161	0.0031	IPR020422 Show description in modal box View details on IPR020422 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00782 View details on PF00782 Search for proteins/transripts with this domain View external data on PF00782	142	261	120	1.2E-15	IPR000340 Show description in modal box View details on IPR000340 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50056 View details on PS50056 Search for proteins/transripts with this domain View external data on PS50056	186	255	70	13.456	IPR000387 Show description in modal box View details on IPR000387 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00383 View details on PS00383 Search for proteins/transripts with this domain View external data on PS00383	208	218	11	-	IPR016130 Show description in modal box View details on IPR016130 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	288	311	24	-	–
Gene3D	G3DSA:3.30.470.30 View details on G3DSA:3.30.470.30 Search for proteins/transripts with this domain View external data on G3DSA:3.30.470.30	307	553	247	6.7E-81	–
SUPERFAMILY	SSF56091 View details on SSF56091 Search for proteins/transripts with this domain View external data on SSF56091	316	554	239	5.18E-43	–
CDD	cd07895 View details on cd07895 Search for proteins/transripts with this domain View external data on cd07895	326	554	229	1.46024E-91	–
Pfam	PF01331 View details on PF01331 Search for proteins/transripts with this domain View external data on PF01331	355	553	199	2.8E-76	IPR001339 Show description in modal box View details on IPR001339 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50160 View details on PS50160 Search for proteins/transripts with this domain View external data on PS50160	437	581	145	9.304	IPR012310 Show description in modal box View details on IPR012310 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF50249 View details on SSF50249 Search for proteins/transripts with this domain View external data on SSF50249	556	668	113	1.46E-22	IPR012340 Show description in modal box View details on IPR012340 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03919 View details on PF03919 Search for proteins/transripts with this domain View external data on PF03919	573	651	79	2.5E-18	IPR013846 Show description in modal box View details on IPR013846 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.40.50.140 View details on G3DSA:2.40.50.140 Search for proteins/transripts with this domain View external data on G3DSA:2.40.50.140	593	660	68	4.4E-22	–

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:0003910 View details of GO:0003910 AmiGO InterPro QuickGO	Molecular function	DNA ligase (ATP) activity	Catalysis of the reaction: ATP + deoxyribonucleotide(n) + deoxyribonucleotide(m) = AMP + diphosphate + deoxyribonucleotide(n+m).	Subterm of View details of GO:0003909
GO:0004484 View details of GO:0004484 AmiGO InterPro QuickGO	Molecular function	MRNA guanylyltransferase activity	Catalysis of the reaction: GTP + (5')pp-Pur-mRNA = diphosphate + G(5')ppp-Pur-mRNA; G(5')ppp-Pur-mRNA is mRNA containing a guanosine residue linked 5' through three phosphates to the 5' position of the terminal residue.	Subterm of View details of GO:0008192
GO:0004651 View details of GO:0004651 AmiGO InterPro QuickGO	Molecular function	Polynucleotide 5'-phosphatase activity	Catalysis of the reaction: 5'-phosphopolynucleotide + H2O = polynucleotide + phosphate.	Subterm of View details of GO:0098518
GO:0004725 View details of GO:0004725 AmiGO InterPro QuickGO	Molecular function	Protein tyrosine phosphatase activity	Catalysis of the reaction: protein tyrosine phosphate + H2O = protein tyrosine + phosphate.	Subterm of View details of GO:0004721
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0006281 View details of GO:0006281 AmiGO InterPro QuickGO	Biological process	DNA repair	The process of restoring DNA after damage. Genomes are subject to damage by chemical and physical agents in the environment (e.g. UV and ionizing radiations, chemical mutagens, fungal and bacterial toxins, etc.) and by free radicals or alkylating agents endogenously generated in metabolism. DNA is also damaged because of errors during its replication. A variety of different DNA repair pathways have been reported that include direct reversal, base excision repair, nucleotide excision repair, photoreactivation, bypass, double-strand break repair pathway, and mismatch repair pathway.	Subterm of View details of GO:0006259 View details of GO:0006974
GO:0006310 View details of GO:0006310 AmiGO InterPro QuickGO	Biological process	DNA recombination	Any process in which a new genotype is formed by reassortment of genes resulting in gene combinations different from those that were present in the parents. In eukaryotes genetic recombination can occur by chromosome assortment, intrachromosomal recombination, or nonreciprocal interchromosomal recombination. Interchromosomal recombination occurs by crossing over. In bacteria it may occur by genetic transformation, conjugation, transduction, or F-duction.	Subterm of View details of GO:0006259
GO:0006370 View details of GO:0006370 AmiGO InterPro QuickGO	Biological process	7-methylguanosine mRNA capping	Addition of the 7-methylguanosine cap to the 5' end of a nascent messenger RNA transcript.	Subterm of View details of GO:0006397 View details of GO:0009452
GO:0006470 View details of GO:0006470 AmiGO InterPro QuickGO	Biological process	Protein dephosphorylation	The process of removing one or more phosphoric residues from a protein.	Subterm of View details of GO:0006464 View details of GO:0016311
GO:0008138 View details of GO:0008138 AmiGO InterPro QuickGO	Molecular function	Protein tyrosine/serine/threonine phosphatase activity	Catalysis of the reactions: protein serine + H2O = protein serine + phosphate; protein threonine phosphate + H2O = protein threonine + phosphate; and protein tyrosine phosphate + H2O = protein tyrosine + phosphate.	Subterm of View details of GO:0004721
GO:0016311 View details of GO:0016311 AmiGO InterPro QuickGO	Biological process	Dephosphorylation	The process of removing one or more phosphoric (ester or anhydride) residues from a molecule.	Subterm of View details of GO:0006796
GO:0016791 View details of GO:0016791 AmiGO InterPro QuickGO	Molecular function	Phosphatase activity	Catalysis of the hydrolysis of phosphoric monoesters, releasing inorganic phosphate.	Subterm of View details of GO:0042578
GO:0042025 View details of GO:0042025 AmiGO InterPro QuickGO	Cellular component	Host cell nucleus	A membrane-bounded organelle as it is found in the host cell in which chromosomes are housed and replicated. The host is defined as the larger of the organisms involved in a symbiotic interaction.	Subterm of View details of GO:0033648

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0215700.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0215700.4