Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0037500
Transcript ID	LotjaGi3g1v0037500.1
Related isoforms 1	LotjaGi3g1v0037500.2
Lotus japonicus genome version	Gifu v1.2
Description	Protein recA; TAIR: AT1G79050.1 recA DNA recombination family protein; Swiss-Prot: sp\|Q39199\|RECAC_ARATH DNA repair protein recA homolog 1, chloroplastic; TrEMBL-Plants: tr\|V7AKD7\|V7AKD7_PHAVU Uncharacterized protein; Found in the gene: LotjaGi3g1v0037500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:4059006..4075352) extracted from Lotus japonicus Gifu genome v1.2.

GAACAACACAACCCAAATGTTGAAGATTTTTGTCCCCATAGATTCTTGTCCTTTTTCATGTACTACAGTCTCTGTCACCA AACACAAAATCTAAGCATGAGTTCTTTTTCTTACTCTGCAATGGATTTGGTGTTCCCTCTGAAACCCCACACACTGATTC TCAATGCACCCTCTTCATCCCTCTTCCTCCCTCGCCGTCTTCCTGTAAAGTTCCGCTCTTTAAGCCCCCTCTGTGCTTCC AAGCATGTCAAGATTCAATGCGAGCTTGAAGGGAAGATCAATGGTGCCCTTTCTGGTGACTTGGACCCTCGCTTCATCGA CAGGGTACTATAGCGTTTTTCTTTCACTATTATGATGTTATTCTCATGTTTTGATTGTGAACTGTTTTGCTTTTCCAAGC TTTTGTTCAATTTCATTCAAAAAGGTGTCACTTTTCTTTAGTTTTTCTTTTCTAAAGTGAATGAATGGTTGCATTTGAAG TTTGAACACATGTTGGCACTTTGTTGGTAGGTTGATTGTTCATTTCTCTTTGGAAAAAGTTACTTCCCTGTGAACCCTAT TGTGGTTTTATTGTCTGTATGTAACTACTCCAAAAGAGAGTTGTTTTTTGTTCTTTTATGTTGCTGACCTTAACTTGTAG TGTTTGCTTCAACCTTCAATCACTTGTAGTTGTTTGAAGTGAGTATTGAGGGGGAACTGATAAGAGGCTAGGTCCTGCTG TAAGTTTCATTAGGAAGTGTTGTTATGATCCCATCCCATGTAAAGGGGTTTTGTGAATTTGGTATGCTGTTGGTTGGGTT ATATTGTTCTGAAGTCACTGACTTGGCATATAGCCATGTAGGCGGTGGAGAAGTGTTGAGGAAAAGTATTGTTTGCGTTT TGCGGCATCCTCTATTGAACATACTGAAACTGTTAGGAATTTGGAGGCATAATTAGCCTTGACAGCTTAAGAAAGAGGCA TGGTTTTATTTTTACATTCTGTTGTTGATATGTTTTGTTTTGTTTTGTGAAGAGAAGGGGGGAGGACTGTGCATCAGTAA ACTTCACATCCTCACAAAGAAAACATGCTAACTTGTGAAATTTGCAGTCAATTCTTATCCCTTAATTTGGTCCATAACCT TTCTTTCTTTGATTTGGTCCCTTGAGTGATGAATTGTTTTTCCCCATTTGGCCCCATAACCTTTCTTTCTTCTATTTCGT CCCTTGAATTGTCAATCGGTGTTGTACTCCGTCACTGTTATGCCTCCAATGTTGGTAGGACAATTTTTTGCTTCTATGTT ATCATCTATTCTATTTACCTTTTCTGTTTCCTGAATCTTAGTATCTGTGGAAGTATACTGTTTTGTATTGGACTATTGGA CTCAATCAGCATGCTGGTTTTTAGGATATATTGTTCCATATTTGTTATATACTTGGTTTTAGATCATTGTTCTGATGAAA ATATGATGTGAGCATGGCACGTTAAAATAGTAGTTTATTATACTAATAGTAATAGGGTTTAGCTCAATGATTAGTACATT TTTTAAGAGATGAGATATGCTATTAATATACTGACAATGAAATTCTACTCTAGCAAAAAGCACTGGAAGCAGCGATGAAT GATATAAACAACTCTTTTGGAAAGGGTAGTGTAACAAGATTGGGCAGTGCCGGTGGAGCTTTGGTGTATGTAGCTTCTTT TCATTCTATGTCATCTGTATTCCTTTTGTTCCCAACCCAACTATTTTAAATTTTAAAAAATAACAAATTGTGCTCTGTCA CTATTTTGTGATTTAGATTTTGTAACATATGACAGGTTTTCAATTATCTTGAATGTTGCAGTGAAACATTTCCCAGTGGC TGTTTGACTTTAGACTGTGCTTTAGGTGGCGGTCTTCCTAAAGGAAGAATTGTAGAGGTATTTACTGTATGCTTTGTGCT GTCATTCATTTGCTTTGGTAATCTTATTTCCGTTCTGTGTGTTTTTGACGGAGTATGGAATACGATCTATATTGGGGTAT GGACTAGGAAGAATAAAGTATATTTGTACAGATTGGGATTTTATGTAAATTTGAGTATTTATTAAATAGTTTTGCTGGTT TGTTTTAGGCCTTAGGGTATCCTTAACTAAAAAAGGTTACAGATTTTACAGATTTTATTTACATTCTGTGGGTTCTTGAT GGAGTGTGGAATACAAACTATAATGGGAATGGATTAGGAAGAATGAGTTATATTTTTAAGCATTGGAATTTTGTTTAAAT TTGGGTATACATTAAATGATTTTGATGTTTAACGGGTACCTTTGTTTGGAGACTTACACTTAAAAGCAATCATCTGAGCA AAAATTTTTAAACATTAAGATGTCCTAATTCTTCCGTACTTTATTTTTGACCATGTGAAAGAATTGTTGTTTCGTCTATT GTGTTTTTTGTTGTCTCTTTACTCATTTGTTCTGTCATGTGCAACGTGACTTTATCTCCTTCATCTATTTCCAGATATTT GGACCAGAAAGCAGTGGGAAGACCACCCTGGCACTTCATGCTATTGCGGAAGTGCAGGTAATTCGTTTATCTGGACCTTT CCCAATAATTAATTCCTAATCATGATGATCTATTTTGTTTTTACCCTAAACAAATGTTTTTGGGATCAATGTGCAATTTT GTTTATGATAAGCAGAAACTAGGAGGCAATGCTATGCTTGTTGATGCAGAGCATGCTTTTGATCCAGCATATTCTAAAGC GTTAGGAGTGGATGTGGAAAATTTGATTGTGTGCCAACCGGATAATGGAGAGATGGCTCTTGAGAGTAATAACTTTTCCT TTAATGTGATTGTATTGGCATGGATAAGATAAATTTTACAGTGTCTATATTGCATTAGCAGGTCTCTGTATCTACGAATT GATTGAACTTTCCACATTATAGTCGCAGATCGTATGTGTAGATCTGGTGCTGTAGATCTCATTTGTGTGGACTCAGTCTC TGCCCTCACTCCCCGTGCAGAAATTGAGGTAAACATCGGCTTTCTTGATTTTAGGTATTTTTGTTTCATAGTTTAGCGGA TTGCTTTTCTGTCTAACAATATTTTCATATAAATGCATAGGGTGAGATTGGAATGCAGCAAATGGGATTGCAGGCTCGTC TTATGAGTCAAGCTTTGCGTAAGATGTCTGGAAATGCCTCTAAAGCTGGTTGCACTCTTATATTTTTGAATCAAATAAGA TACAAGGTACTTGTTATTGATCACTCTAACTTCCATTTTGGGAAACTGCACACATTTAATTATAAGTAATGTATATTTGC AACTGCTGAATCAGTTGAGTTCATTGATAAATTTCAAGATGTTAAATCTCTAGCTTTTATTGATATGATTTATATTTTTG CTTACTTCTGTAGATTGGTGTCTATTATGGAAATCCAGAAGTGACAAGTGGTGGAATTGCATTGAAGTTCTTCGCATCAG TTCGGCTAGAAGTTCGTTCTACAGGGAAGATAAAGTCTGTAAGCACAGAGACTCTGTCATGACATTGTATTATATATCAT CTTAAACCTTGTTGTTGCCGATTGGCCTTTCTACTCCAATCATGAGCAGATTTTACATTAAAATAATTACCTGTAACTAA TCTGATATATTGACTATAATATCAAAATCGTTTAATGTGAAGCACTACTGTGTGCGTTTTCATTTTGCTTTAGGCTAAAG GAGATGAAGAAATTGGTGTTAAAGTTCGTGTAAGAGTGCAAAAGAGCAAGGTAACCACAGTATTTCTATATTTGAAAATT TTCCTTTTAAGAAATTTCTCTTCATTTTAATTATGTTGCTTTACACGACTTGAAACTTGACAGTTTTAATTACTTTCAGA AGTTTTCAATTTGAGTCTTAATTCCTGTTGATTATCAGTCTCTTACTGTTTAAATACCTTTGCTGAAATTATTCTAGTTT GGTGTAAAGTGAAAACGGGAGATCAAAGTTACACATTGAACATATATGATAAATTGATAATTTAAATTTCATATCACCAT ATCAAGAATTTTCTGGGGCTAGAATTTCAAGAAGTTTTTTGTTTCTGGCTATATCCATTTGTTTATGTTCACCTACATTC GGATGACATAATTACTCCTTTTTGAAAAAAAATTAGCATTGAGGCGAATCAGCAAAGTTTGGGCTCATAGATTCATTCAA CCATGAAGCAAGTTGTTAGGCCAGATAATACAATTGGGCCGTTAGTGCACAAAGGGAGTGGGCCTAAGGTTTGGCACGTA TATTCTAGAAGGGGGAAAGGAATCTCCAAGGAGCCACCTGTGATACATTCCCAACAGATTGGGGAGTGAGAGAATGAGAC GGTTAGTGAGCTGTTAGTGATTGTAAGAGAAGATGTATAAGAAGGCTAGGAGAGAGGTTGAGGGGTATCTTTTGATCATT GAATTCTGTGAGATGGATAGGAAGCTCTGAGCTTCCTATAAGGAGCATTGCTCTTGTCAGATTAGGGACCTTTCCCACTC TGTGTAAAAGCCAATTTCAATTCAATAAACAATCACATTTCTTTTCCTTTCACTGCAAATTACTTACTGTTTCATTGCTA GGAAATAGATTCCTAACAATTTGGTCCGACCTGCCGGATCATCTTCACGGGGATACCTGTGGATGCCACCCAGGAAAACC ACCAAGGTTGCAGTCACCCAAATGGAGGCGAAGATCGACGCGTTGGAAACGGAACTCGCAGCGATGCGAACTTCTCTATC GGCGGTCACATCGGCGGTGAAGGATCTGCCGGCTACTCTGGTAGCAATGGTGGAGAAGGCAGTAGGGAAGAAACCAGCGG AGGAAGAAAACCCTGGAGAAGAGTCCATTGGTAGATCCAGTGGCAAGACTCCGGAACCAATGGGAGGCATGATGGGAGAG TTGCGTCAGACTTCTCTCCGTGGCGATGCGTTGGAGGAATTCCGACGATCGGTGAAGAAGGTAGAGCTGCCCCCTTTTGA TGGAAAGGATCCTGCTGGGTGGATCTCAAGAGCGGAGGTGTACTTCCGCGTCCAGGAAACTTCATCGGAAGTGAAGGTGG GTCTCGCGCAATTGAGTATGGAAGGAGGTACAATCCATTTTTTCAACTCGCTCTTGGAAGCGGACGAGGTGCTGACATGG GAACGCTTGCGCGAAGCGTTGCTGGAGCGTTACGGCGGCAACGGCGACGGTGACGTGTACGAGCAGCTCACCGAGCTCCG TCAAAGGGGTTCCGTCGAGGACTATATTACAGATTTTGAGTTCTTGACTGCGCAGATCCCGAAACTTCCTGACAAACAGT ACCAGGGCTATTTTTTGCACGGATTGAAGGAAGAAATCAGAGGCAAGGTTAGAAGCCTCATCGCCATGGGAGGAATGAGT CGAGCACGTTTGTTGCTGGTAACGCGTGCAGTGGAGAAGGAGGTAAAGGGGGAGTTTGGAGCGGGTCAGGCACGGAGCAA TAGAATTGGACCATCGGGTTCGCGACCCGGAGGAACGAACCAGGGGAACGCCGGAAACACTGATTGGGTATGGGTCAGAG GAGGAAAGGACACGGGTCAGGAAAAAAGGCCCATTACTAACATGGCACGAGGGGAGCAAACAAAAACGGCCCAGGAAGGG AAGCGAGTTGGGTCACGAGACCGGGGTTTCAACCATTTGACCTATCCTCAGTTATTGGAGCGGAGGCAAAAAGGCCTGTG TTTTAAGTGTGGTGGACCCTTCCACCCGAACCACCAATGCCCTGATAGGCATCTACGCGTGCTGATTGTAGAAGATGAGG ATGACGACTCCGGCGAAGGGAATATCCTGGCAATGGAAGTCAATGAGGAGGAAGAAGACAACGTGGGAGAGCTGAGTTTG TTGAGTTTGGGGAGCATGGGAGCAAGGCCAGAAGAGGCTCCTCAAACCATGAAGATTCTGGGTTCCGTGAACGGCGTGCC GGTGGTGATTCTGATCGACAGTGGGGCTACCCACAATTTCGTGGACGGCCAACTGGTGCGAAAGATGGGATGGGAGGTTC TTGAGACTCCCCGCATGACGGTCAAGCTGGGAGATGGGTTCCGATCGCTGGCCCAAGGGCGCTGCAAGAGTTTAACGATA CAGATGCAGGGATACCAGCTTGAGTGCTCTCTGCAGTTGTTTGAATTAGGTGGACCCGACATTGTGCTCGGAGTTGAGTG GCTCCAAACTCTGGGTGACACACTTGTTAATTGGCAAGCTCTGACGATGAATTTCTGGAATGGTCTTGAATGGATCAAGC TTCAAGGAGAACGAGCAGGGAAGGACAACTTGGGATCCTTGCAAGGCATTCTTCGTTCAGGAATTGGCAAAGAACAGGGG CTCCTAGGACCTCTGGGAATGCACACACAAACTAAACCACTGCCACCGGGGCTCACACCAAGCCAGCAAGAGCAACTGAA CACCGTGCTCCTCCGTTTCGAAGGGGTCTTTCAGAGCAAACCAGGCCTTCCTCCAGGAAGGGGAAGAGAACATAGTATCA CCATCAAAGAGGGACAGGGGCCAGTCAATGTGCGGCCATATCGCTATCCCCACCACCAGAAGAATGAAATTGAGAAGCAA GTGCGTGAAATGCTGGCTGAAGGAATCATAAGACAGAGCAACAGTGCATACTCCAGCCCTGTGATATTAGTGAAGAAGAA GGACAATTCCTGGCGGATGTGTGTGGATTACCGAGCACTTAATCGTGTCACGGTACCGGACAAATTCCCAATACCGGTGA TTGAGGAGTTGTTAGATGAATTACATGGGGCACGATTCTTCTCCAAACTTGATCTGAAATCCTGTTACCATCAAGTCAGG GTGCGAGCTTCTGATGTTCACAAAACCGCTTTTCGCACTCACGAGGGACATTACGAGTTCCTCGTAATGCCTTTCGGTCT CATGAACGCTCCTTCAACGTTTCAGAGTTTAATGAATGAGATTTTTCGTTCTATGCTGCGACAAGGGGTCTTAGTATTCT TTGACGATATATTGGTATACAGTGAGACCTGGGAGGAGCATTTGGGCCACTTAGAGAAGGTGCTCCAGATTCTGCAGGTC CAATGCCTTACAGCAAACCGCAAGAAGTGCCAATTTGCCACAAAAACTGTGGATTATTTAGGTCACTTAATCTCAGAGGA GGGTGTCGCGGTAGATCCGGGTAAGATTGAGAGTGTGTTGACTTGGCCTGTTCCTAAAAATGTGAAAGGGGTACGGGGAT TCCTGGGTTTGACCGGGTATTATCGAAAATTCATCAAAGATTATGGCAAGGTAGCAAAACCTTTGACTGATTTGACAAAG AAAAACGCTTTTCAGTGGAATAGCGCGGCACAACAAGCGTTTGATGACCTCAAGGTCAGGCTCACCACTGCTCCTGTACT GGCCCTTCCTGATTTCAGTCAAGAGTTCCGTTTGGAGTGTGATGCTTCCGGAGTCGGGTTGGGAGCAATCCTTCTGCAGG GGAAGCACCCGATTGCGTATTTCAGTAAGGCACTCGGGCCCCGCAGCTTGGCCAAGTCAGCATACGAAAAGGAGTTGATG GCGGTGGCCCTCGCCATTCAGCATTGGCGGCCTTACTTACTTGGTCGCAAATTTGTAGTTTCAACTGATCAGAAGAGCTT GAAGGAGTTCTTGCACCAGAAAATAGTCACTGGAGACCAACAGAACTGGGCAGCGAAGTTATTGGGATATAACTTCGATA TCGAGTACAAATCAGGTAAGTCCAATCGCGGCGCTGATGCTTTGTCGCGAGTGGAGGACACAGGGGAATTCAATACGTTG GTTTCTTATCCTTTCTGGGCAGAACAGAATTCGATTCAGGAGGAGGTACAAGGAGACGAACGCTTGATGAAGATCATCAA GGACCTGGAAAAAGACACCCAAGCTCATCCCGGTTACAAGGTAATCCAAAACACACTGTTTTACCATGAGCGTTTGGTTC TGTCCAGTTCATCTGCTTACATACCCAAAATGATCCAAGAATTTCATACTACGCCTCAAGGAGGTCATTCGGGGTTCCTA CGCACATATAGACGTTTGGCAGCAAATCTGTATTGGTTGGGAATGAAGAACTCCATCCAAGAATTTGTCAGGAATTGCGA TACTTGTCAACGACACAAGTATTTGGCAGCGTCTCCCGCGGGTCTCCTCCAACCTTTGCCCATTCCTAGCCAGATATGGG AAGATGTCTCGATGGACTTCATCACCGGGTTGCCACGCTCCAAGGGATATGAGGCCATATTTGTGGTTGTCGATCGCCTT ACGAAGTATGCCCACTTTATCCCAATTAAGCATCCCTACACTGCGCGGAGCATGGCTGAGTTGTTTGCAAAGGAAATCGT GCGTCTCCATGGTATGCCTTCGTCTATTATCAGTGACCGTGACCCCTTGTTTATTAGTCATTTCTGGAGGGAGATTTTCA GATTACAGGGCACCCAATTGAAGCTCAGCTCCGCGTATCATCCGGAGACCGATGGACAAACGGAGGTTGTCAACCGTTGT TTAGAAACTTATCTCCGATGTTTCTCCGCTGACCAACCCAAGACCTGGGCAACGTGGCTCCATTGGGCGGAGTATTGGTT CAATACTACTTATCACTCAGCGACACAGATGACTCCGTTCGAAGCTGTGTATGGGAGAAAACCACCAGTCCTCACCCGTT GGGCTTTTGGGGAAACCAGAGTGGAGGCGGTGCAACGTGAGCTCCAGGATCGTGATGAAGCTTTGCGTCAATTGAAGGAT CATTTGTGCACAGCACAAGCACGCATGAAGGCGCAGGCCAATGCTAAGCGACGGGACCAGTCGTTTGAGGTTGGCGAATG GGTCTTCGTGAAGCTGAGAGCTCATCGACAATTATCTGTCGTGAACAGGGTTCATGCGAAGCTTGCCCCTCGTTACTATG GGCCGTATCCCATCACTGAGAGAATCGGGGCAGCAGCGTATCGACTGAAGCTTCCTGAGGGCTCTCGTGTTCACCCTGTT TTCCATGTTGCGTTGCTCAAGAAAGCTGTTGGAAATTACGCTGTTGAAGAAGAGCTGCCAGAGCAGTTGGATGGCGATGA GTTCTCGAGTATCCAACCGTTCCACATTCTGGCTCATCGTACAGTGTTACGCCATGGAATTGATGTGGCCCAAGTTCTAG TTCAGTGGCAGGGCCAACCTCTTGAAGAGGCCACGTGGGAAGACAAAGTTACTATTCAAAGCCAGTTCCCCGCCTTCAAC CTTGAGGACAAGGTTGCTGTTGAAGGAGAAGGTATTGTTAGGCCAGATAATACAATTGGGCCGTTAGTGCACAAAGGGAG TGGGCCTAAGGTTTGGCACGTATATTCTAGAAGGGGGAAAGGAATCTCCAAGGAGCCACCTGTGATACATTCCCAACAGA TTGGGGAGTGAGAGAATGAGACGGTTAGTGAGCTGTTAGTGATTGTAAGAGAAGATGTATAAGAAGGCTAGGAGAGAGGT TGAGGGGTATCTTTTGATCATTGAATTCTGTGAGATGGATAGGAAGCTCTGAGCTTCCTATAAGGAGCATTGCTCTTGTC AGATTAGGGACCTTTCCCACTCTGTGTAAAAGCCAATTTCAATTCAATAAACAATCACATTTCTTTTCCTTTCACTGCAA ATTACTTACTGTTTCATTGCTAGGAAATAGATTCCTAACACAAGTCCAACATAATATAGTGATGTTGCATGACAGTCAAA CTCCAGAAGAGAGCTAACTCAAAATAACTAACGAACATTTAAAGATGTGTGTCTTTATCGAATAAATATGTTGCATTATT ATTCTAACTCTCCCGCCCCACTCAATGCCATGTCAAAACACAAAAGAGTAGGTTACAGAATTTAAGATACATAAAGATCC AACCATACCAAACACCCTTTGGAGAGGAACCAAGAAGACAGAGGCAAGGTGTCATTAGATTGGCCACATCAAGGTGAGAG GAGATTGTGGCCAGAAAAAAGGACTTCAGGCATTTGCATGTGCAATGAAGAGCTAAACTTGTCAGATTTGTTGGTGTGTT AGGGCTTCAATGACGGTGTGCAACTTTAGTACCTGCTGATGTAGACATGCATGGGCTGATGACGAACCAAATATTTTAAA AGCTTAAGCTATTCGATGAAAGCACGTGAGTGATGTTTTATATAACACCCTTTTATGCAAGAACCCTTTGGCTTGTGCTG AAATTTAACTTCTTTTCTTTATTTAAAAGAATGGGTGTAACAAGGATTGGATTCTTGACCACTTTGTTACAGAGGCTTTG ATACCATGTCGTGAACCAAAATTGTTTTATATTTATAAGCACGAGTGGGCCCAATAGCGAGGTATAAAGATGCACGCTTA AGGATAGATTTGGCAATCCAAGTTGCGCAAGAAAGAAACAGAAGTGACATCCTATGGAGTTGGTGGTAGAATTTGTGCAC AGCCATAGTAAAAAAGAATGATGGAGATGGCAAGAGTTCCATATTTTAGGGAACTCAGCAACAATAGTGATGAGATAGGG CATGAAGTATGGTGCCACTTTGATACTGTGCTCTGAAATTATGAAAATGTAAGGACTATGGAATAATAATCTATTTTTTA TAAACGTATCATACAAATACAGCACTAAGCTTTATTTATATTGATACTAGACTCTTATCCTAATCAAATAAGGAATAAAT TGGGAAATATAATTAGATATGTGAATCATTGAAATTATCTAAGATAGTAAAATACTCTGAAGATGCAATCAAGATATTAT GAGATATTCTAGGAGATATTATGCTGTATTTTTCATTGACTTCATACTTTGTGCTGAAGGTCCTTAACATGATAAGTTGT TTTAGGTATCAAGACCGTACAAACTAGCTGAATTTGAGATTATATTTGGAGAGGGAGTCAATAAGCTGGTGAGTGCTGCA AGCCTGCAACATAAAAGCATTTTTGAATTCTGACCTGAAGTGTTTATCATCATTATGACTTTTCATTTGAATTCAGGGTT GCATTTTAGATTGTGCGGAAATGATGGATATTGTCTTAAAGAAGGGATCTTGGTACAGCTATGGGGACCAACGGTAATGT CTCAACCTCTTTTTGAAGCTTAGTATTTATTTATTTAGTTATTTGATGATCTCTTTCATTATTTTGCTTTGCTTTTTACA TCCTCCAAATTAAGGACCTGACAAGGAAATTTTGGTTCAGCTTAATGGGAATTTGATCAGGAAGTTAATTAGATTTATGC AGTTCTATGATCTGTCTGTGAGAGAATAAGTAATAACTAACAAGAGATCAATTGAAATAATTATTCAGAAAAGACAGACA TTCAACTGCAGTAATGTGTGACTTAAAATTTGATGAGTAAAGAGATAGAGGGACTGGGGGACAAATATTAGATTTCCATC ATCAACAAAAAAACTAATTTATTGTTTTGTCATGTAACTTTATATTGAAAAAGAAAAGAGAGAATATGGTGTAATCTGCT GTTAGGTTAGGAAATAATCCAACAGCAAATATAAAAAAGATAGAAGTGATGAAGAGAGATGATAGACGACAACAATCCTA ATGGATTCAAACAAGGAGAACCTTCTTTCCAAGGGTGAAGAGAAAATCCCTTTACAAACTGTAATGCTCAAATCATGCTC TAATGTAAGGAGAGTACTCCTATTTATAATAAACTAACCCTACTAAGTTAATGACACTGGCCCAACTAAAATCAGAAAAG CTAACTTAATACCAAAGCAAACAGATAAAACCAAACCCAGGTCCCAACACAACAGGCCCACTGACTCTAATTTATAACCC TAACATCTGTGGTGTAACGTGTAACTACATAGCTGAGAGCAAACTGTATCGATGTAAAGTAATAAATAAGAAGACCACAG TTGTCCTAATTACCATCATCATGTGTTTATGGTTAGCTCATATACGACGAATCTTGTATACTAACACTCCCCTCAAGCTG AAGCTGGGTATATAGATCATATGCACCAAGCTTATTACATTATTAACTTATCTGGAGATCAAGGACTATGTGAAGACATC CTCGTCATTTGAATTGAGAAATGAGTGGTTGTCTCAACATTAGATCATCGCTCACATGTAATGGAATGTATTTCAAGTAT TTAGTCCTCATGAAATGCTGGATTATAGATACATACACACAATGTAGATTGATTGTCGCAAATAAGTGTCATTTGTACAA CTTTCCCGAATTTGAGCTCTTGAACTGATTGTTTGATCAAAATGAGTTTACAAGTAGCTGACAACCGTGGCTTAATGCGC ATAGTATCCAGTCCCCAATAAGGTAGTTACCTTACTAGTTAGTTAGTTGGAAAACTTGGAATATTAGGTTGAGATGGTTA GGCCGTTAGGGAAGATAGGATATATTTATATAAATAACAGGCGGGAATGGAAGGGAGATCAACCAGTCATCTGAGTAGAT GTTTACATTTAGGAAAAGTGCAAATCCTTGAAATTTACAACATCAATCGATATCTTTAACTAAGTGGCTTTCTATCAACT AGTACTAGAGCTATGGGTATTGCATCTTGAAGTTGATCCAGGAGCTGTTTAAGGGTTCAACAAGAATGGATAAGAAAATT CTTGAAGAACTGGGGAGAGAAGCTGCAACTTTCAGGAGAGAACTCAGGGAGCAATGTATAGGAATTCCCAATTCCCACGT TACCCTAGCATTAATGACCTCCCACTGTTGATACCAATGGTAGGCACAGTCTTCCAGTCCTTCCATAGTCAGTGATAGCC ACCCTCCTTCGTATCTTTCATTATAAAGTGCCGCCCTTACTCATTATCCCCTTGAAATCCCAGAATTCCAATATGTTCCT CCTTCAGTTCCCTCCTGACAATCTCTCCGCAATTCCTCAAAAATTCACTAAGTGATGGAAGATGGCATTATACTTAAGAG AAATGGAGTAGTACTAGTGCTTGAAGCATGCACTGATATATATTATTTTGGATCACTAAGTGATGGTAGATCAATCACTA GGCACAGCCGCACAGGATACATCAAGTTTCTTGGGTGAAATCTTGTGACTTGAAGTAGTAAAACATGTAAGTGCTGAGAC AGAACTTAGAGGAATAGCTGAAGGTGCCTGAACTACTTTTGTTAAAAACCATATTTGAAGATTTGAAGATCATGTGCCAA TACCATTGGACTTAGTTTCAAGTGGCACCTGAAACAGAAGATATTGGAATTAAAACGTTATTAAATGAGTGGCTAGTTCC AGCAGCATTGGAACCTTAGTTTTATAAGGGAAAAAAATCAGCTTGTTTATTTTTATTCCTATAAATAGCAAGATGGTAAT GTATGTATAAACCGAAGATGCTGTGTTCAATTGATTCGAGTGGTTCAGTAAATAATATTTTCATTTTCTTAATTTCTGAA ACCTATCAAATTTGTTAGGTGAAAACACATTAACGGTTTTGTTCAATATTTTTAACATACCTCCCACGAAATGGCCTTTT GGGTTTGAAGCCTGGGATATTACCAGGCGCACGGCCTAACCAAATTGTGCTGAAATTTAACTTTTTATTAAATAATGAGA ACAATTAGGATTGAACTCTGAAACTACTTGGTTGCAGAGGCTTTAATACCATGTAAATTTTGAGAAATTATGTGACTAAT CAGTCTACAAAAGCATCTAGTTATTTCCTTACAATACTGAATGCAATTGAATGTGATGCTAAATCTAATCCATACAAATC AGTAATAGCTTATAATCAGTTACAACTAATATTTACTTGTGATTGATTCTAACATAGATGAAAAGTAAAAAAAATGCAAA AATCATAATTATCCTAATTAGTGTAAAAGCGTGATTATGTTTAAGCATGCATGTAATGAACCTTTGACACTATTTACATA CATTTCAATACTTTCCATCTGATGTCATGTCACATGCTTTTAATTATAATGAACCTTCTCCCTTCTGTGTCTCCTTTTTA TTCTTTTCTCATTCATGTTACACATTCTTCACAGTTCAGTTATGAAGGAAATTCTTGAATTGAATTTGTTTTTCTATGTC ATCGTTGTCTCACATTTCTTTGTCTTTTCCTTTGTCTGTCTCTCTATGGTGGGTGGGGGCTGTCTTTACATGTGAGTTCT CACAATCATCGAATTTGTGTCTTGAAACAGGTTAGGACAGGGAAGGGACAAAGCAATACAATACTTGAATGAGAACCCAC ATCTTCTACACGAAGTTGAAAAGGTCTGGTGATCTGAACCTGCTATATTGACTGTGTATTAAATTTGATGTGATGCTGTA TATTGTTCTGTTTCTTGCGTGCTTGCTCATTCTTGGGCTTTATAGGAATTCGTTCAATTGTCTGGACAAAACTGGAATAC CATTTAAATGATCTTGGACAAAAGATTTCATGGTATAGGTGGTTTCCGATTTCATTTTGTGTTTAGTCTGTCATTCAAGT ACATCTGGTCACCAAGCAATGGATACTTGGTTATAGCCCAACTTGAAGTTCTTCAATCTGACCCTAGCTATTACGCATTA CCTGCATCAGTCATGCTAATGTCTTATTAAGAATCAGATCATGCTCATTTTTAGCTTGAAATAGTAACTTTTGAGTCCAC TTAACCATGCTGTAAGTTGCCACTGGTTTTGGCTTCATATTTAGAGTTATTCTTTGGTGAGCACAAACCTAACACATCGT ATTTATGCACATTCAATCAGAACATTACACTTCAGAAAATTAAAAAAATTGAAACACGTTTAGCTCTTCCACCGCTCCCT TTCCCTCTTCTGCTTCTCACACCTCTTTGCTTCCTTCTCATTGAAAATTACCTAGCCACCGCTTCCCCTTCACAAGTCAT CGGCCAACCTCACACTCCTTCTTAACTTCACAACCTCTCAGGCTCGATCCCCTTGCGAGCCATCAGCTAGCCGTGCATGC CAGTATTCCTGGCGTGAGAAGCGACAAAGGGAACTGTAGCTGGTGACTGATTTTGACACGGGATGGTGGAATACTGATTT CTCATGCCTGGTTTCCTCCCTCATCATTTCTCTGCTTCTCACACCTCGTTTCCTCCATCCTTGTTGGAACCAAACACTGC TCCCCACCATAGTTGTGCTTGGCTGCTTGAGTCCGTTGATGAAGTGTTTAACTCTTTCTCTTCCACCACGTTTCAGAGAG GAACTGATATGCAGGAAGAGAAAAAAAAAAGAGCGAGTTAGATTGAGTAACAAGGGATCGAGAGTCTAGATGGTGAAAAA AGTGAGATTGAGTTGAGAATGACACTAATGCAATTTTGCAGGTTGAAGAGCTTAGGACAAGAGTTTCTGTCAATGTGTTT TATTTTAACTGTAAATTGCATTTTGCTGAGTTGTAATGTTTTGATTGGGTGTGCCTAAATATGATGTTTAGGTTTGTGCT CACCCAAGAATTACTCTCATATTTTATGGTTAACTGGTTTAAAGTTGCAGATTTTTTAGCACAATGGTTACTTGAGATTC ACAATCTGTCATGTGTACAAGTTATGGGTGATGAACAAATTTAGCTTTTGTGAGCACAAATTTAACTTTTGAGATTTAAT GTCATGACGAAATCTTCAATAAACTAATTTTCAGATAGTTCGTTCTTCATTGATTGATGGAACTAACCAAACAAGCCTGG GGTACATGAAGTTTAGTCCAACGCTCCATCAAGATGACGACGACACATTTGAGGAAGCTCAATGATAAGGAAATTGTTTT CTGATAGTTCGGGCGATAAGTCACGAGTTGGAAAAATTCTTTCTACAACACAACTTGAAATGGAGGTGGTTTTGATGATT AGATAATTTTTTTGGTTCATCTTGTTCCATTTGAAGTGTTGAAGAAATTGATGGCATGTGATTATGTGAAGCATGAGATA TACTACAAAAAAAAGGGTGTAAGTGAAATTAAAAGGGGGTTTGAATTATTGTTTCTCCCACTCAAAATGTGCAGTGAATT GCCACATCATGTCATCTTGATTATTTGTATATTCGGTTCTCATCTAGTGCTTGAATTATTTTCCATTGCATGTGTTTCTG TTAGCTTTCTTTTTCTTTAAGGTCATTTTGGTTGCTGAGCAATACTGTTGATGATTCCTAAGGACCAGATTACCATATCA AACACTAATTAACGTGATTCATCAAGAGGAGGTGACATTGCAATGTCCAACTTGTAGAGTTTTATTATGCTTAATATGTA AACCTTTCCTTAAGTGGCTGGTTATGATGTCCTTTGATAATAAGTGATACTGAAATGATTCTCATGATTTTTGGTTATTG GATGATGATTCTTTAGGCCTCAACAAAAAGTAGCTTGAGTTACTGTGTCTCAAGGTTATAACATAAATATTAAGAAATAT AATTAATATTTTTAAGTTATAAAAATT

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0037500.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTACTACAGTCTCTGTCACCAAACACAAAATCTAAGCATGAGTTCTTTTTCTTACTCTGCAATGGATTTGGTGTTCCC TCTGAAACCCCACACACTGATTCTCAATGCACCCTCTTCATCCCTCTTCCTCCCTCGCCGTCTTCCTGTAAAGTTCCGCT CTTTAAGCCCCCTCTGTGCTTCCAAGCATGTCAAGATTCAATGCGAGCTTGAAGGGAAGATCAATGGTGCCCTTTCTGGT GACTTGGACCCTCGCTTCATCGACAGGCAAAAAGCACTGGAAGCAGCGATGAATGATATAAACAACTCTTTTGGAAAGGG TAGTGTAACAAGATTGGGCAGTGCCGGTGGAGCTTTGGTTGAAACATTTCCCAGTGGCTGTTTGACTTTAGACTGTGCTT TAGGTGGCGGTCTTCCTAAAGGAAGAATTGTAGAGATATTTGGACCAGAAAGCAGTGGGAAGACCACCCTGGCACTTCAT GCTATTGCGGAAGTGCAGAAACTAGGAGGCAATGCTATGCTTGTTGATGCAGAGCATGCTTTTGATCCAGCATATTCTAA AGCGTTAGGAGTGGATGTGGAAAATTTGATTGTGTGCCAACCGGATAATGGAGAGATGGCTCTTGAGATCGCAGATCGTA TGTGTAGATCTGGTGCTGTAGATCTCATTTGTGTGGACTCAGTCTCTGCCCTCACTCCCCGTGCAGAAATTGAGGGTGAG ATTGGAATGCAGCAAATGGGATTGCAGGCTCGTCTTATGAGTCAAGCTTTGCGTAAGATGTCTGGAAATGCCTCTAAAGC TGGTTGCACTCTTATATTTTTGAATCAAATAAGATACAAGATTGGTGTCTATTATGGAAATCCAGAAGTGACAAGTGGTG GAATTGCATTGAAGTTCTTCGCATCAGTTCGGCTAGAAGTTCGTTCTACAGGGAAGATAAAGTCTGCTAAAGGAGATGAA GAAATTGGTGTTAAAGTTCGTGTAAGAGTGCAAAAGAGCAAGGTATCAAGACCGTACAAACTAGCTGAATTTGAGATTAT ATTTGGAGAGGGAGTCAATAAGCTGGGTTGCATTTTAGATTGTGCGGAAATGATGGATATTGTCTTAAAGAAGGGATCTT GGTACAGCTATGGGGACCAACGGTTAGGACAGGGAAGGGACAAAGCAATACAATACTTGAATGAGAACCCACATCTTCTA CACGAAGTTGAAAAGATAGTTCGTTCTTCATTGATTGATGGAACTAACCAAACAAGCCTGGGGTACATGAAGTTTAGTCC AACGCTCCATCAAGATGACGACGACACATTTGAGGAAGCTCAATGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0037500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MYYSLCHQTQNLSMSSFSYSAMDLVFPLKPHTLILNAPSSSLFLPRRLPVKFRSLSPLCASKHVKIQCELEGKINGALSG DLDPRFIDRQKALEAAMNDINNSFGKGSVTRLGSAGGALVETFPSGCLTLDCALGGGLPKGRIVEIFGPESSGKTTLALH AIAEVQKLGGNAMLVDAEHAFDPAYSKALGVDVENLIVCQPDNGEMALEIADRMCRSGAVDLICVDSVSALTPRAEIEGE IGMQQMGLQARLMSQALRKMSGNASKAGCTLIFLNQIRYKIGVYYGNPEVTSGGIALKFFASVRLEVRSTGKIKSAKGDE EIGVKVRVRVQKSKVSRPYKLAEFEIIFGEGVNKLGCILDCAEMMDIVLKKGSWYSYGDQRLGQGRDKAIQYLNENPHLL HEVEKIVRSSLIDGTNQTSLGYMKFSPTLHQDDDDTFEEAQ

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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
PANTHER	PTHR45900 View details on PTHR45900 Search for proteins/transripts with this domain View external data on PTHR45900	80	426	347	7.0E-181	–
PANTHER	PTHR45900:SF1 View details on PTHR45900:SF1 Search for proteins/transripts with this domain View external data on PTHR45900:SF1	80	426	347	7.0E-181	IPR013765 Show description in modal box View details on IPR013765 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00983 View details on cd00983 Search for proteins/transripts with this domain View external data on cd00983	88	411	324	0.0	IPR013765 Show description in modal box View details on IPR013765 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR02012 View details on TIGR02012 Search for proteins/transripts with this domain View external data on TIGR02012	88	408	321	1.8E-143	IPR013765 Show description in modal box View details on IPR013765 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	89	352	264	6.84E-54	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
Hamap	MF_00268 View details on MF_00268 Search for proteins/transripts with this domain View external data on MF_00268	89	414	326	45.085	IPR013765 Show description in modal box View details on IPR013765 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00154 View details on PF00154 Search for proteins/transripts with this domain View external data on PF00154	91	353	263	7.2E-118	IPR013765 Show description in modal box View details on IPR013765 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	117	352	236	1.3E-73	–
ProSiteProfiles	PS50162 View details on PS50162 Search for proteins/transripts with this domain View external data on PS50162	119	277	159	28.944	IPR020588 Show description in modal box View details on IPR020588 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00382 View details on SM00382 Search for proteins/transripts with this domain View external data on SM00382	140	311	172	5.7E-9	IPR003593 Show description in modal box View details on IPR003593 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00142 View details on PR00142 Search for proteins/transripts with this domain View external data on PR00142	176	205	30	1.2E-74	IPR013765 Show description in modal box View details on IPR013765 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00142 View details on PR00142 Search for proteins/transripts with this domain View external data on PR00142	210	239	30	1.2E-74	IPR013765 Show description in modal box View details on IPR013765 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00142 View details on PR00142 Search for proteins/transripts with this domain View external data on PR00142	248	277	30	1.2E-74	IPR013765 Show description in modal box View details on IPR013765 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50163 View details on PS50163 Search for proteins/transripts with this domain View external data on PS50163	282	357	76	27.625	IPR020587 Show description in modal box View details on IPR020587 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00142 View details on PR00142 Search for proteins/transripts with this domain View external data on PR00142	293	321	29	1.2E-74	IPR013765 Show description in modal box View details on IPR013765 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00321 View details on PS00321 Search for proteins/transripts with this domain View external data on PS00321	296	304	9	-	IPR020584 Show description in modal box View details on IPR020584 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00142 View details on PR00142 Search for proteins/transripts with this domain View external data on PR00142	328	357	30	1.2E-74	IPR013765 Show description in modal box View details on IPR013765 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.250.10 View details on G3DSA:3.30.250.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.250.10	353	411	59	1.1E-22	IPR023400 Show description in modal box View details on IPR023400 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF54752 View details on SSF54752 Search for proteins/transripts with this domain View external data on SSF54752	354	409	56	1.57E-17	IPR023400 Show description in modal box View details on IPR023400 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00142 View details on PR00142 Search for proteins/transripts with this domain View external data on PR00142	382	399	18	1.2E-74	IPR013765 Show description in modal box View details on IPR013765 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:0003677 View details of GO:0003677 AmiGO InterPro QuickGO	Molecular function	DNA binding	Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid).	Subterm of View details of GO:0003676
GO:0003697 View details of GO:0003697 AmiGO InterPro QuickGO	Molecular function	Single-stranded DNA binding	Interacting selectively and non-covalently with single-stranded DNA.	Subterm of View details of GO:0003677
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:0006259 View details of GO:0006259 AmiGO InterPro QuickGO	Biological process	DNA metabolic process	Any cellular metabolic process involving deoxyribonucleic acid. This is one of the two main types of nucleic acid, consisting of a long, unbranched macromolecule formed from one, or more commonly, two, strands of linked deoxyribonucleotides.	Subterm of View details of GO:0044260 View details of GO:0090304
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:0008094 View details of GO:0008094 AmiGO InterPro QuickGO	Molecular function	DNA-dependent ATPase activity	Catalysis of the reaction: ATP + H2O = ADP + phosphate; this reaction requires the presence of single- or double-stranded DNA, and it drives another reaction.	Subterm of View details of GO:0042623

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0037500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0037500.1