Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0361700
Transcript ID	LotjaGi6g1v0361700.1
Related isoforms 1	LotjaGi6g1v0361700.2
Lotus japonicus genome version	Gifu v1.2
Description	ATP-dependent RNA helicase DeaD; TAIR: AT1G10930.1 DNA helicase (RECQl4A); Swiss-Prot: sp\|Q8L840\|RQL4A_ARATH ATP-dependent DNA helicase Q-like 4A; TrEMBL-Plants: tr\|G7INR2\|G7INR2_MEDTR ATP-dependent DNA helicase RecQ family protein; Found in the gene: LotjaGi6g1v0361700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:67368666..67383013) extracted from Lotus japonicus Gifu genome v1.2.

GAAGAGAAATGATGAAATGAAAAATCCCGCCATTCGAAAGAGAACGAACGCACCTCTTCGCTGATCTCTGATCTCTGATC TCCGACCGCCACTTCCTCTCCCTCTTCTCTTCTCTTCATATTTCAGTTACTGGGTTTGCTTTTGCTTCAGTTTCTCTTCC TACCTTATTCTCATTTTGTTCCCTCACTTTTCCATTTCCATTTTCTAGGGTTTCATTTTTCCATTGCTGCTCCTTCTTCC GATTGTTTCATTGTTTCATTCATCTCATCACTGCTCAAATGCAACCAAGCGCCAAGCCTCCTCAAACCAATTGGTCGCAA CACGCCAATGCTCAACACAATTTCGCATCCCAAGCCAAGTTTCTGAGCTCCAATTTTCTCTTCTCTCTTCCAACTCACAA GAGCCCTTCCTATCAAGAACCACCCCCTGGGACTGGGTCTCAGAGGTATGCCTTTTATTGCAACAATATCTTACTCCACT TCAAATTTATCATATTGGATTTGAGTCAAACTTGATATAATTCATTGGTAGCTTAATTCCACCACAATTTCAATTTGCTC TCTAACACAACACATTCATTTTACCAGGTTTGTATTACGACAAAGTCAAGGTTCAGAAAGAGTACAAGTTGACAAGGTAT AATTCTATAAACGCTATGTGAGCATCAATAGTTTTACTACAGGTTATCGCTTTGTTATCACTGTGTAACTTTTTTGCAGT TATATCATTTGGTAATGACTTCTATTGAAACAAATGCTGATTTTGGTTCTGAGTTACTTAAATCAATGCTGAATGTTTTC TTTTTCTTTTTCTGAAACTTCTATAATTTGTAATAACTTCTGATGAAACAATTGCGGACAGGCTTGGCTTGCTATTACAA CTCCACAGAATTCTACCAGGAACTATGTCCAACCTGGAGAAACTGTTAAAGTTACTCCTCAGCTTCATGAAAGCATGGCA GCAACTTCCTTCCAAGGAAGCCATGAAAACAATATGCCTAGGCATTCTGATGTCACCACTACTCCAATTGTCATTAATCA TAGATCTCAGGTTTTGGATAGTTCAGTGAACAACCATACAAAGTACACAGACCAAATCAATGAGTCTACAAAATGCATGC CTGTTCATATTGATGATGATGATGACATACTTGAGGTAATGTAGTATGCTTTGGTTGATCTTAATGATCAAATCATTTCG ATCTTTCTATCAAAGGCATGTAAACGTCCAACAATATGAAGTAGCATCGTATTTTAGCATGTTTTTAAATGGTTGAATGG ACCAGTTATAATATCAAAGGGCTCATTTTTTAAGTTGCATCGATGTGGAATTTCACTTGTTTGTTTAACTTATACCACTT TGCTAATGAGTTTAGTTTTTGTTATCCAACAAGAAGGTACCTGTCTGCCCAACTTTTTCGTGAACTGGAAACTGTTGAGG AAGTTTGACAATTTTACTCATTTTGAAATCTTGTCCTCTTGTTCCTTCTTGTTGGTGTGACTGTTCTGTTATTTTTCTCA TCCTATCTCATCTTATCTTTTTTTTCTTTTCGAAATACATTAGTCATGCTTATCTCGCTCTTTATTTATGTCATTCTTTG GCTCTACCTTTTAGACCATTGATGTTGACCAAATCGTGGAACAATACCAGTCTAGTTGCACTCCCCAACCATCAATGTCC AGGCTTCCTCCAATTACACCAACTGCAGATAAAGATAATTTTGCTGGACATGATAACCTTTTGCCACCAGAGCTGTGTGT GGACTGCAGCCATGGTTGCAAGGTATTGATCAGACATATTTTATTCTTTCATTAACCACCCATATTTATATGTCAAATCA ATATACTTAATTCTGAAACTGGATGCAGTTAGGGCATTGCCCTGAAGCAGCAAGTCACTTGCAGGAATTGAAGGATAATC TAATTGTTATCTCTAATGAACTACTTGACAATGTTGAGAACCTCAGTTCTACAGACATATCCAAACTTCACCAAGATAGG TATGTCTTGGATTATTTTTTTCGTTTGTAACATTTTCACTTTTAATGTATACTGCATATAATACAAGGAAACCACTAAGA GGCTTCGTCATCATTACCTTTTTAATATATAATTATGATGGATCATTATGGTTGGAAAAGAAATGCAGCAGCATATCCCT TTAAACTGAATAGCATTTGGGTTGAAAATAAAATCTGTTGCTAATGCTAGGTCACAGCTCAAGAAGCAAATTCAGCAGCT TGAAAAATATATTCACTCCAGTAATCTTGCTGAGGAAAGACAAAAGTCACATTTTTCTGCATCAACTGCGCCGCCTACAT CTTTCGTGTATGAAACACCTCGGCAACCTTTCCTTAGTAGTGGACCAAAGACATATGATTCCCAGGCTTATATGGGTAAT GGGACATATGGGTCATCATTCCAGTCTGTTTCATTCTCTTCTGTAGATAGGTATGGTATGCCATCAGGTCCAGTAGAGAG GGAAGCATTCATCCCAAAAAATATTGAAGTTAATTACATCGAAGGTTCTGGAGACAAACGATGGAGCAGCCAAGATTTTC CTTGGACAAAAGACTTGGAGGTACTTAACTGAATTATTGTCAGTTTCCAGTGCATGTAACTCATCATGTTCATAGTTTTT TTTCTTTTCATACTCTTAGGTTAATAATAAAAGAGTATTTGGGAATCACTCATTTCGTCCCAATCAAAGAGAGGTCATTA ATGCAACAATGAGCGGATGTGATGTTTTTGTTTTGATGCCCACTGGTGGAGGAAAGAGTCTGACTTATCAGGTAACATTA TTTTTCAAGAGACCTCTATGAGTTATGGCCTTCTTCCTTCCTCATTTACAAGTATACTGTTGATACAATTTAACTGGTTT TAATGCTGAATTTTTATCCATTTTAATTCTTCTATTCTATCATAATTGGTTGCATAGATTGCTTGGTATTAGTATTATGA ATTATGGTTTAATTTCTTTCTTATGCAAGTTTTTTGGAATTATGGTTTAATTATAAAGGAAATTGATGTTTCCTAGAGTA ACTTACATTAATTTCCTTTACTAGAAAAGTTGCTTTTAGATTTTACTGTGATATTAAAACTTTGATCTGTCTTGTGTTGC AGCTACCAGCTCTTATTTGTCCTGGTATAACATTAGTAATTTCTCCCCTTGTCTCCCTTATTCAAGATCAAATAATGCAC CTATTGCAGGTATAACTTATTTTTAACTGATATTCTTTCATTATTCATCATGTTTTTGTCTAATAGATATATGCTTATTT GCTCCTTATGGCTTGCCATATAGGCAAATATACCTGCTGTTTGCTTAAGTGCCAACATAGAATGGTCTGAACAACAAGAG ATCCTTAGAGAACTTAATTCTGATTACTGTAAATACAAGTTGTTGTATGTGACACCCGAAAAGGTTGCAAGGTAAGTGTT ACTATTTAGAGCGATTTAACTCTTCAAAGCGTTTTATTCTCTTGAGATATACACTTTTAACTTGAGAATCATATTTTTCA TTTCCATAATGTTATTTTTAATGCAGAAGCGATGTTCTTCTGCGACAATTGGAGAATTTACATGTCCGTGAGTTGCTGTC CAGGATTGTAATTGATGAGGCTCACTGTGTGAGCCAATGGGGGCATGATTTTAGACCAGATTATCAGGTTAGGACTTCTG TACCTTTCAATCTGATGTAATATATGTGGTATATAATTTAAATGTTAATCATTTCTTTAATTTCCACAGGGACTTGGTAT TTTGAAACAGAAATTCCCAAATACTCCTGTTTTAGCTTTAACAGCGACAGCAACAGCTAGTGTAAAGGAAGATGTTGTGC AAGCACTTGGTCTCATTAACTGCATTATTTTCCGGCAAAGTTTTAATCGACCAAACTTATGGTGCGTTACACAAAGATCC AGTTCTAAATAAACCTTGAACGTATGAATCATGTTCATTTTAAACATTGCAGGTATTCAGTTGTCCCCAAGACCAAAAAG TGTGTGGAGGACATTGACAAATTCATTAGGGAAAATCATTTTGATGAATGTGGCATTATCTATTGTCTTTCACGAATGGA CTGTGAAAAGGTTGCTGAAAAATTACAGGTTGGTCTACTCATTACTTGTATAAGTTGAAGGTTTGATTGATGAACGGATG GGATTTTCCTATTTGTTCTTTTTTTTCCTTTTTCCTTTTTCCTTTTTCCCTTTCCCTCTTTTCAGCATGCTGCTTGTTGT TTGGGTTTTACTGTTTCCACATGATGATATGAGTATCTGGTAAACCATAACTGCACTCTTGTGACCCTCCTACACATGGA ACCCAGTTTTAAGTAGCTAATTGAAATTTTTTCAATGAATATTATTTTTGAAATTAACATCTATTTGTATGGCTTGTGAA TATATATTATCTGGTTATGTTCATTTTTCAGGAATGTGGGCATAAATGTACATATTATCATGGGAACATGGATCCTGCTC AACGTGCTTTTGTTCAAAAGCAATGGAGTAAAGATGAGGTCAATATAATTTGCGCTACTGTGGCCTTTGGCATGGGTAAA TTTGCTTCTCTGCTACATCTTTTTGCACTGATTAATTAAATAGATTCATAATATAAAGTTGATATTTCAGGTATTAACAA GCCCGATGTTCGCTTTGTAATCCATCATTCGCTCCCAAAATCTATTGAAGGCTATCATCAGGTATTGGCAAATCATCAAA ATATGTATTGGGCTTAGGTTTTGGTTCTGTTGGCTTACATGTGTGTTTATCCTTTTCTTCCCAGGAATGTGGACGAGCTG GTAGAGATGGTCAACGTTCATCTTGTGTATTATATTATAACTATGGTGATTATGTTAGTACCAATTGCAACACTACTACT TCTTGAATGTTAATTTGTCTTAACATTTATATTACTTACGTGCAAACCATGTGAAACAAGTGATGATTGAGATCCTATTC TCCTTTCTTTTCTTTTATTCGTTCATTGCTTAATGCTTATATCTAGTTGTATATCATACTTATAGATACGAGTTAAGCAT ATGTTGAGTCAAGGAGCAATAGAGCAAAGCTCCATGACATCTGGATACAATCGTTCAAATATGACAAATTCAGGAAGAAT ACAGGAAACAAACTCAGAAAACCTTTTGCGAATGGTACCATTTTTTAAGCACTTTGGAATACTATACTATTACTAATTTT TATTTATTTATATATATGTGTGCATCACTCAATTCTTCCATTGAACTTTCTCAGGTCAGTTATTGTGAAAATGATGTTGA TTGTCGGCGTCTTCTTCAGCTTGCTCATTTTGGGGAGAAATTTGATTCTTCAACCTGTCAGAAAACATGTGATAATTGCT TGAGAGTTACAAGTTTCGTTGAGAAAGATGTCACAGGGATTGCAAAAGAACTGGTCGGGAAGCAATTTCTATCCATTATG TCTATCCCAAAACTTTATGTAATTATGTTAGTATGTAATAACTGAGCCTACTTGTTCTCAGTTTAAGTACTTTAATTGTC ATCTGTTTAGGTTGAACTAATTAAGCTAACGGGACAAAGGTTCTCTTCGTCTCATATATTAAAAGTGTATCGTGGTTCCT TAAGCCAGTTGGTATGTTAATGAGCATTGCTTGTTTTCTTTGTTTTTCTAATTTTTTCATTCTTTGCACTGTTTTCTGGA TTTTCATAGTCAGTAATGTTTCTCTTTGATCTTGTACTTGTACCATCAAAATTAGGTCAAGAAACACCGGCATGAGACTG TGAGGCTGCATGGTGCTGGGAAGCCTCTAGCTAAGGGTGAGGCTTCCCGTGTATTGCATCGTCTGGTTGTTGAAGATATT ATTTTGGAGGAGGTAAAAAAAAGTGATATTTATGGATCAGTATCTTCAGTATTGAAGGTAACATAGACCCAGCCTACTCT AATTTGTTTGTATGTTGCAATTCCCTCCAATTTTTATTTTTTTCCAATCATGCTTCAAACGAGTGATATAGCTTTTTAAT GTTACTTTCTATAATCAGATTTTACTAACTTCTAGTTGTCTAATGTGTTGAATTGTATTTTAGGTAAATGAGCACAAGGT CCGTAATTTGTTGTCTGGTGGCCAGAGAATTGTATTGAGGTTTGCCGATCTGATCAAGTTATCTCTTGCTTGAATTTGTG AATCAAGATGCTAATTCTTATGTTTGATTGAACAACTTTAACTGAGTTTCTTATTCTTGTGTGAGAGCTTATATAAAATG ATATTAATTGCCCAAGTTAGGGGTTTAATGCTGTTAGCCTTAGATTACTTTAGCTCGACTTCAGTTTCACTTGAATTCTT GTTTCAGCTTTCTCTGGCCTCAAGTTCACAATACATGCATTTATGCATCTTTAACTTTCGTAGATTCCCGTCCCCTGTAA AGGCATCAAAGCATGGGAAATGTGATTTAACTCCAGCTAAAGGCCCTCTTACATCTGGGAAGCTGAATCCTCCAGTAATT GACATGACTGACCAACCTCAGACTGAAGTGGACTTGGTATAAAATGTTTTTTTTTTTTCTTAAACTTTTTCTGGTTTTGT TGAAATGTCTAACTCAGTTGAATTATATTTTTCAAAAAAAAATCTACTTCAGAATCTTTCAGCAAAGTTATACAGTGCTT TGCGGATGTTGCGGACAACTCTTGTTAGAGAAGCTGCAGATGGTGTTATGGCTTACCACATATTTGGGTAAGTTATTGGA TATTTTCATTTTCTTCTTATAATACAACAATTATTTTAGGGATTTCAAAAAAAAATCAATTATTTTATAGGGTTCATGTA CTCTTTGAGTTATGGCTTACCACATACTTGAGTGTAAAAGCATCTAATAAGCTGCTGTTTCTGTTGTTTAGTAATGCTAC GTTGCAGCAAATAAGCAAGAGAGTGCCAAGAACAAAAGAAGAACTTCTTGATATCAACGGCATTAGCAAGTAAGTTCATT CTTGGAATAGTTTATAGTCTGTTTGGAGACTCATTCAGAAAGAAGTCAAAATCATGGTGGGGAGAAGCTACTTTCCTTAG CTTCTCTAAAAGTAGAATCAATTCTAAGTTTTGTAGACAAGGCCAAGCATTCACTTAAGCGTCCTGGTTACTGAAATAGC TTCCGTTAACGTTTGGGTTTATCACAGGACTAAAGTAAGCAAGTATGGGGATCGGTTACTGGAAACCATTGAAGACACCA TAAATGAATATTACAAGTTGGACAAAAGCAGCAGCGGCAGCAAAGGCAGTGCTGATTCCGCCAAAAGGCGACGAGAGGCA GCAAGTGGAGATGCATCTGCAAATGCCGAAGATGACTTCACCAAAAGCACTGGTCGATCAAAGAAAATGACAGTGAAGAG ACAGACTAAAAGAACTGAGATTTATGATTCTGAAGAAGAAGATTATTACCATGGATGCCTTGATGAAGAACTAGACTTTG ACAACTTGGAAAACGAAGCATTAAATAAAACACCTTGTACAAATGCCGGAGGAAGGGTACTACCTCAATGGACAGGTTCT TGAAATTGTTATGTTATAGGGCTTTTGGTGGATCCACCTTCAAGTAATTATAGTTTTGGGAACGAAGTTTAATTCCACTA CAGCAGGCAAAGATGATCAATAAATGCAGATCAACGAAATAAAACTGCATAACTGAGTGTAATGGCAGTGAACTAGCAGG ATTTGTTGTCTAATTTATTCTGATATTATTAATTGAATAGTGCTGGCTAACAAGTACAAGTTCAATTTGGTAAATAAAAA CTTTGGCTGCTTTCCTTGTAAATAGATGAAATTTAGTTAAGTACGATTATAATTTTTGTCTTATTAAACAACAATGTATC TCTCTATAGCCATGTATCTCTATAGCCGATAACCGTAAGTGATAGAGGGCTGATCAAAGTTCTATTCACGGGAAAACTTA CATCAAAATCCAATTTTCAGTTACTTTAGCTAAATAAACACTGAAAATACAAATAGTCAAAGCGTGAAATTAGGATATGA ATCCCTTCAACTTGTCGTGAGGCAGCTGCAGTTACAGAGTTTTATGGATGCTCTGTGAAATACTAAAATATGACTTGTTA ACAAGTACTGCAATATCCAGCAGTGATTGAAGCGACTCTTAATTTAAGATAGTATTTAGAAAATTGATCATTGGTTGTTG GTTGCTAATAATTTATTTGGTAGTTTTATTTTCAGGAAACACAACAAAGATCAGAACGAAAAATAAATCACAAATTATAT ATACTAGCAATTTAAATCTTAAAGTTCAGATAGCTATATACATGGTTGTTCGTGACATCAAAAGAATTCTACAACAAACC TAAGATAAAACAGCTGACGACTTCACACACTAACTCCTATGTACAAACGTGTGCATTATTCTTCATGTACAGATGTACTT TACCAAATTATATTCACATGTTATCAGTCAAATATTTATACCATGGCTCATGAACATTGACTGATATAGTGGCAGCCACA ATCAAAATACCAGCAGCTTCCACTACCTTTTCAGTCAGAACACCACCTCCAACTTTCACCAGAGCCATTTCTGCTAATTT CCTCCCACGGGTCCCACTTCCCCCAAGCACAACTCCTCGCATAGCTGAATAGACAGCACTGAACACCCTCTCAAACACAA CATCCCCAGCTTGTAAACTCTTCCCTATCATCCTTGCAGCAACTTCCTTTCTTGACTGAACTTTTCCTGCATCTTCTTCA CCATCAACTGTGGGCAAATTGCAAATCACTTCCACAATATCCTGAATATTAGCATCTTCAACACGGTCTAAGAGATCTAA CAGTTGTTCAGCACACTTGGACACTACGTTTTCCAAATCTGCAGGTGTAGCTACCGCCTTTTCACTCAGAAGAATCTGGC GGCATATAAGAATGCTGCAATTCCCAAAATAAAGATAATATAGTAAAATATACATAAATACACACAAAATAACAATCAAT TGAAAAAACTCAGTTCAGTGTGACAACTTCAAGACACAAATATTATGCAATTCATTTACCTCGTAGAAATCACAATAATC TTTTGAACCTGAGCCTGAACAGATCTCAGCCTGGAGAAATTAAGAGATAAAGTTTCTGGTAGATCATCTTGTTTCAGGCC AGTTATTCCACTTACTAGTTTTAGCAAACCAAGCCTCACAACTAGATCAACTTGTTCTCCTTTGCATTCTGTCTGCTGAT TACCTGATAAAAAAACATACAAACTAGTATTAAAATGTGAACAGCGCAAACTTCTTTTTTGAAGCAAACTGAAAATGAAC AAAATAAGAAAGCTAGTTTCTCAAATGTAGAACCTTTAGTACTTGCACCATCAGGAGAAACTGCCATTGGACTGCCAGCA GTTTTGAGCATAATATTTCCCCCAGTTCTGAGAGTAGTTGAAGGAAGCCATTCTTGGAATGAATTGTCAGCCAATGCTGA GGAGAAATTCACATGTTCTTCCCATTCCTGATCTTTGCAATTCCAAATAGATGATAGCCACCTCACTGTTGACGGCAGAG AGGTACTGGCATCAGACGGAGATCCATATTTGTTAGCAAAGACATTCCTGAGGTAGTCCAGACCAGCAGGTCCCTTAATC AAAGGCTCCATTAATCTTATGCGTGCTTTGCTTATCTCTTTCTTAAGAATCTGTCACAAAAATTTGTTATCACATATCCA TGCTGGTGCAAATTTACTCAAAATAAAGTCTACAGGAAGATAAAGAGAACATGGCCTGTTTTATGTGAAGTTAGGTTTTG TACTCTACAACAAAGTACAAATCAAGCAAATTGATTGGAAGTTTGAATCTATTTAAATGGACAGTCAATCATAGCACATC CCAAGACATTTCAATGAAATACGCCAAAAAACAACATTTGAAAGCAGTGGCAAGTTAATGTTACCAAAGAAGCATCCCTC ATAGGTAACAAACAAATGAAAGGAGAAAAGGATAACATATTAATCAAGTAAACTTTAGGAGATAAAAAATCAAGTAAAGA GAACAAACAAATAGAAAGTGCAACACACCTGAATCTGTTCCAGGACAAATTTCAGACCCTTCACCAAGGCTACAACACAA GACTTGTTTGACTCATCTCTAGATTGACATATTTCACTCAACTCGGAGAATAATGTCTCGTGTGTGGCCTTCATTATCTC CTCATTGGCTGGAGATGAGAGCTTCTGCAAGCAACCTAGTGAAAACCGAAGAATTTTTCCAAGGCAATCAACATCCAGGT TACCAGATCTCAGCACCTTCAGATACACAAAAGATAACAGAAAAGGAGAAATTATGGTTAGCTATATGCCAATGATGCAA CTAATAGCCACCACATGTCGCATACAGAGAATTAAGTTACTACCTGAGAAAGAATTTCCAAGTCAATGGCTGCAACAATA TCCTCCTTCCAGCTTTTCGGAGCCATCTCACAAATTTCATCCCTAACCTCTCCCATGAGTTGAATAATCTGGTCATAGTT GGGCTGATCCTGCTCAACAGATTCCATGATACCATCCCAAAAGGCCTTCTCCATTGTCTGTTTTATTATATTCCCCTGCA AGATAAAAAGAGAATGAATCATAAATTAAAATATAATATAGGTCATCAGCAGTCCACAAATTTAAGATTATATATCGCTT TCGTATATTTAACAATAACTCCAAAGGGACAGATTCTTTGTTTAGAGGGAGGGAAATTTCGTAGTTGGAGGGATAACAGA GCAGCAGGTCAACATCAAAGGCCTGAAGCAGAGCCACTAACTAAAGCCTTCTCTAAAATCAGCCATCAATATCATGGTAG CAATTTTATAAAGACGTACTCACCTCAATGCGGTTTTGAATGTGATCAGATACATCAAGGCCATCAGCAAAACTACGGTG ATGCTCATGGACAAATTCATTAACAAGAAACTCATTCTCTGCCGCCAACTTTTCAGAGGAAGAACCGAGCTGACTAATTG AACTGGTTCTAGTTGCAGAGAAGCTGGACTCTATAGGGGAAGTGTTGGTCTCCTTAAAAAGGGAGCGAACTACTCGGCTT GTCTTATGATTACTCTCATTTGAAATATTTCTTTCACTTGAGCTGGCAACATTAGAAATTGGAGTTGGAGACACCGACTG AGTTGTAAACCTCATTGGGCTGTCGTTATCCTGTACACTTAAGTATCTGGATCTTGTCTCCGATAGTGCACATTCCATAC GCTCAATCCCAGCATTTCCACTCAGATGCAGCACTTTTTCTCTCAAAAGTTTTTGATCTTCAGTGACCTGCATTTGAAAG GCACAAAAAGAAGATAAAGCCAAAGCATACTTGCAGCAATACTGAAACAGTTAAAGGGAAGAAACACCCATATTGGAAGC AGAAAAGACCCAACTAGCTATAAGTCAGAATGCATATATTTTTTAGGAATAAATCTAAGTAAATGATCAGAAAACTGTTA AAGAAGGGAAAAAGAAATGCAACAATTTATACATCTGATTATCTTTAATATGCCTCACCTGATGCAGAATAGCTTTCATA TCATGACTAAGCTGACTACCAACTCCTTCTGGGGTTAATTTGCAAGTTTGAATCATAGAAGCCTCAAGCTGGCAAGCTGC TCTAACCAAATCTTCCTCCAATGATTGGGCATCCTTAACCTTCCAGACCACAAAACAATTTAAGTATGAGCACCATGCTT TATCAAAGGCGGAAAGCTGTGATCTGAAGGTACAACGCCTCATAACGGTTGAGAGAGACTCTTCATCAGAACTCTGTATC GGCCCCTCTAGAATAACCTTTATTAACAGCTCAAACATTTGGACAAATTCTTTAGCAGACTTGGCCAAAGAAATCTCACG TTCTCCCGTTCCACTGAAAACAGCATCTGGATGACCCAATATCATATAAGCACAAAGAACAATTCTCACTGGATATCTTG ATAACCCAGCTAAGCTATTGTTTGACCTCTTGACTGAATCTATTTTCCTCACCCCCCTGCTTCTCAAAGAACTCCTGGGA GTAGCCTTTTTCTTGGGGGTAGCAACCCGTTTCAGAAGGTGATCAATGTTATCCAAACTTGACATATGATTACGAGGAGC AACTGTTGTTGACAATTTGAGGCGGTTCTCCAACCGGTCAAGTAAAGTTTTCACGGTCTGAAGAGTAGAAGCTGATTCAA TCAGAAGAGCAAGCTGATCAAATGGCATCGACTTGACAGATTTTTCATTGAGCCCCAGCATATCATATGCCTTTGCCAAG GTAAAGGTTGTTCTCTTCTGCCTTTGGAACCGCCTCCAGCACCTTAAAGAAATTAATCAGGTTAGGAGAACTCCAATAGT AATATAGTAACATTTAGTAAAAAGCAGTTAAATACATCTGTTGCACTTCAATTTGGAAGGTGTGTTGTGCCCAATAAATG AAAAAAAAAAATATCTCCAAATAATAAATCCATCCTATAAAAAATAAATATATAAGCTTAAGCCTCCACCACAATGACCA CGACTGAATCAGTTATGTTCGAGAAGCTGCCTAAATGTTGCAATAGAAACATATCACATTTTAAATTCAAATAACCTTGC TAGTTTTTTGGAAAGATATTCTGCTTGCTTTGACATTCTAATCCAATTCTCTTGCGCATAAGCACTTAACCTCCCCCTGT GCCTGAGATATTCAGCTCGTTGTCTTTTTGCCTGATAATATAAATCAAGAGACTTGGTTATAAACAAGCACCATAAAGAA CCGTGTAACATTAGACATTTTTAAAGGGGGAAATGCCCCTGAACTTACCCTTTGTAATCGATCTTCCAACTCATCTTTCT TTTTCCTTCGCTCAATCTCACGCTGGTGAGTTACAGATTTCGCCACATGTCTCACCTGCAAGACTCGAGCGCGTGCCTTC TTCTTTTCAGCTTCCAACAACCCAAGTCGTTTTGTTTCAGCAGCAACTCGTTTCTGGTGAATTGCAGCACGTACGCACTC CTTGTATTTGATCTCTCGAGCCATTCTTCTCATCAATGACTGGGATGCCCTTTCTCTAAGAGATGCCCTTCTTTGCCTGT GAGCCTTGAGGATAAGCATCCTATTAGTCTCTGCCTGCTGAACACGTGATTCCACTTTTGTCCCAAGCTCCAGCCGTTCA TTCTCATGGCGCATTTCAACTCCATTTTTGGCTGCTTGACGCAACGCATCCTGCCTTGCTAAGCGCCTCTGAGCTTTTGT CAAAATGCTCAACCTGTCAAAAAGGCAGTAAATGATCTCAATTGTAGAAGAAATAATTAAGTATAAGTCAAATAATTTTA TAAAAATATATATAATTGGATTACAAGACTTAAACCCAAGCATTGATCCTAAGAAAAGCCACCTCTTCTGTTCAGCAGCT TGCAGCTTTGCTTCTAGTCGCTGAGCCGGATCAGGATCATCATCCTGAGATGAAGACCGTGAGGGGCTTCTTGGCTTTGC ACGTGCCTTACTTGACAGTTCCTCATAGTGCTTCTGCAGTCAAGAGAAGTTTGATAAGGAGAAAGGATCATAAACCAACA CAATCCATATTATAAAAACTTGAATCAGAGGCAAGAATAAAAACATGAGTAAAAAGGGAGGAAAGGGAAACAGAAGAACA TCGCGTAAAAGAAAAGAAACCATAACAATAACATGCTTGATGCTACAAACTTAAACATGCTTGCTTTCAAACCAATACAC ACAACAAAACTTAGCAATTCATACATAAAAGTGATTAATCAAACAAATTAAATGAATTACACGTGGTTGAGTAATAATAT GTAAGAAGAAGGGAAAGGGGGAAAATAAAAAAGTTGAATATTGAATTTGAAGTCCCTAAACTTTTGTGATTAGAAACGCC ACCTGTCTACGAAGATGAGCATCACGAAGCTTGGCTTCGATTTCCTCCACCGAACTCGGGGACTTGCACTCCGTCTCAAG AAGCCTTTGACGGAGCCTCTTCGGCACCCTCGGCGGCGAAGACAACGACTCCTCATCGCCTACAGGGAATTCCATCACAA TTCCAGCGGCTCTTCCCTCCGGTAACTCCACTCCGGCAGCCATCCTTCAATCAATCAAATTCTCCGCAACGACGTCGTAC CAACGCAGCAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAGAATCGCAACGCAACGAAACGGCAGAAAATAACAA CGGATGATCGCAAATAGAAGAAACAGTTGAGAATTGAATTGAATACCGAAACAACGATTCAGAAGAGAAACGTTGCGACG AGTGGACTCAGCTTCCAGAGAGAGAGAATGAATGAAAATATGAAGGGCGTGTTTGGTTTCGTTTTATTTATATCATATCA TGGAATGGGTTTATAAGGCGTGTTCGTG

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0361700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCAACCAAGCGCCAAGCCTCCTCAAACCAATTGGTCGCAACACGCCAATGCTCAACACAATTTCGCATCCCAAGCCAA GTTTCTGAGCTCCAATTTTCTCTTCTCTCTTCCAACTCACAAGAGCCCTTCCTATCAAGAACCACCCCCTGGGACTGGGT CTCAGAGGTTTGTATTACGACAAAGTCAAGGTTCAGAAAGAGTACAAGTTGACAAGGCTTGGCTTGCTATTACAACTCCA CAGAATTCTACCAGGAACTATGTCCAACCTGGAGAAACTGTTAAAGTTACTCCTCAGCTTCATGAAAGCATGGCAGCAAC TTCCTTCCAAGGAAGCCATGAAAACAATATGCCTAGGCATTCTGATGTCACCACTACTCCAATTGTCATTAATCATAGAT CTCAGGTTTTGGATAGTTCAGTGAACAACCATACAAAGTACACAGACCAAATCAATGAGTCTACAAAATGCATGCCTGTT CATATTGATGATGATGATGACATACTTGAGACCATTGATGTTGACCAAATCGTGGAACAATACCAGTCTAGTTGCACTCC CCAACCATCAATGTCCAGGCTTCCTCCAATTACACCAACTGCAGATAAAGATAATTTTGCTGGACATGATAACCTTTTGC CACCAGAGCTGTGTGTGGACTGCAGCCATGGTTGCAAGTTAGGGCATTGCCCTGAAGCAGCAAGTCACTTGCAGGAATTG AAGGATAATCTAATTGTTATCTCTAATGAACTACTTGACAATGTTGAGAACCTCAGTTCTACAGACATATCCAAACTTCA CCAAGATAGGTCACAGCTCAAGAAGCAAATTCAGCAGCTTGAAAAATATATTCACTCCAGTAATCTTGCTGAGGAAAGAC AAAAGTCACATTTTTCTGCATCAACTGCGCCGCCTACATCTTTCGTGTATGAAACACCTCGGCAACCTTTCCTTAGTAGT GGACCAAAGACATATGATTCCCAGGCTTATATGGGTAATGGGACATATGGGTCATCATTCCAGTCTGTTTCATTCTCTTC TGTAGATAGGTATGGTATGCCATCAGGTCCAGTAGAGAGGGAAGCATTCATCCCAAAAAATATTGAAGTTAATTACATCG AAGGTTCTGGAGACAAACGATGGAGCAGCCAAGATTTTCCTTGGACAAAAGACTTGGAGGTTAATAATAAAAGAGTATTT GGGAATCACTCATTTCGTCCCAATCAAAGAGAGGTCATTAATGCAACAATGAGCGGATGTGATGTTTTTGTTTTGATGCC CACTGGTGGAGGAAAGAGTCTGACTTATCAGCTACCAGCTCTTATTTGTCCTGGTATAACATTAGTAATTTCTCCCCTTG TCTCCCTTATTCAAGATCAAATAATGCACCTATTGCAGGCAAATATACCTGCTGTTTGCTTAAGTGCCAACATAGAATGG TCTGAACAACAAGAGATCCTTAGAGAACTTAATTCTGATTACTGTAAATACAAGTTGTTGTATGTGACACCCGAAAAGGT TGCAAGAAGCGATGTTCTTCTGCGACAATTGGAGAATTTACATGTCCGTGAGTTGCTGTCCAGGATTGTAATTGATGAGG CTCACTGTGTGAGCCAATGGGGGCATGATTTTAGACCAGATTATCAGGGACTTGGTATTTTGAAACAGAAATTCCCAAAT ACTCCTGTTTTAGCTTTAACAGCGACAGCAACAGCTAGTGTAAAGGAAGATGTTGTGCAAGCACTTGGTCTCATTAACTG CATTATTTTCCGGCAAAGTTTTAATCGACCAAACTTATGGTATTCAGTTGTCCCCAAGACCAAAAAGTGTGTGGAGGACA TTGACAAATTCATTAGGGAAAATCATTTTGATGAATGTGGCATTATCTATTGTCTTTCACGAATGGACTGTGAAAAGGTT GCTGAAAAATTACAGGAATGTGGGCATAAATGTACATATTATCATGGGAACATGGATCCTGCTCAACGTGCTTTTGTTCA AAAGCAATGGAGTAAAGATGAGGTCAATATAATTTGCGCTACTGTGGCCTTTGGCATGGGTATTAACAAGCCCGATGTTC GCTTTGTAATCCATCATTCGCTCCCAAAATCTATTGAAGGCTATCATCAGGAATGTGGACGAGCTGGTAGAGATGGTCAA CGTTCATCTTGTGTATTATATTATAACTATGGTGATTATATACGAGTTAAGCATATGTTGAGTCAAGGAGCAATAGAGCA AAGCTCCATGACATCTGGATACAATCGTTCAAATATGACAAATTCAGGAAGAATACAGGAAACAAACTCAGAAAACCTTT TGCGAATGGTCAGTTATTGTGAAAATGATGTTGATTGTCGGCGTCTTCTTCAGCTTGCTCATTTTGGGGAGAAATTTGAT TCTTCAACCTGTCAGAAAACATGTGATAATTGCTTGAGAGTTACAAGTTTCGTTGAGAAAGATGTCACAGGGATTGCAAA AGAACTGGTTGAACTAATTAAGCTAACGGGACAAAGGTTCTCTTCGTCTCATATATTAAAAGTGTATCGTGGTTCCTTAA GCCAGTTGGTCAAGAAACACCGGCATGAGACTGTGAGGCTGCATGGTGCTGGGAAGCCTCTAGCTAAGGGTGAGGCTTCC CGTGTATTGCATCGTCTGGTTGTTGAAGATATTATTTTGGAGGAGGTAAAAAAAAGTGATATTTATGGATCAGTATCTTC AGTATTGAAGGTAAATGAGCACAAGGTCCGTAATTTGTTGTCTGGTGGCCAGAGAATTGTATTGAGATTCCCGTCCCCTG TAAAGGCATCAAAGCATGGGAAATGTGATTTAACTCCAGCTAAAGGCCCTCTTACATCTGGGAAGCTGAATCCTCCAGTA ATTGACATGACTGACCAACCTCAGACTGAAGTGGACTTGAATCTTTCAGCAAAGTTATACAGTGCTTTGCGGATGTTGCG GACAACTCTTGTTAGAGAAGCTGCAGATGGTGTTATGGCTTACCACATATTTGGTAATGCTACGTTGCAGCAAATAAGCA AGAGAGTGCCAAGAACAAAAGAAGAACTTCTTGATATCAACGGCATTAGCAAGACTAAAGTAAGCAAGTATGGGGATCGG TTACTGGAAACCATTGAAGACACCATAAATGAATATTACAAGTTGGACAAAAGCAGCAGCGGCAGCAAAGGCAGTGCTGA TTCCGCCAAAAGGCGACGAGAGGCAGCAAGTGGAGATGCATCTGCAAATGCCGAAGATGACTTCACCAAAAGCACTGGTC GATCAAAGAAAATGACAGTGAAGAGACAGACTAAAAGAACTGAGATTTATGATTCTGAAGAAGAAGATTATTACCATGGA TGCCTTGATGAAGAACTAGACTTTGACAACTTGGAAAACGAAGCATTAAATAAAACACCTTGTACAAATGCCGGAGGAAG GGTACTACCTCAATGGACAGGTTCTTGA

Download CDS Sequence

Protein sequence (LotjaGi6g1v0361700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MQPSAKPPQTNWSQHANAQHNFASQAKFLSSNFLFSLPTHKSPSYQEPPPGTGSQRFVLRQSQGSERVQVDKAWLAITTP QNSTRNYVQPGETVKVTPQLHESMAATSFQGSHENNMPRHSDVTTTPIVINHRSQVLDSSVNNHTKYTDQINESTKCMPV HIDDDDDILETIDVDQIVEQYQSSCTPQPSMSRLPPITPTADKDNFAGHDNLLPPELCVDCSHGCKLGHCPEAASHLQEL KDNLIVISNELLDNVENLSSTDISKLHQDRSQLKKQIQQLEKYIHSSNLAEERQKSHFSASTAPPTSFVYETPRQPFLSS GPKTYDSQAYMGNGTYGSSFQSVSFSSVDRYGMPSGPVEREAFIPKNIEVNYIEGSGDKRWSSQDFPWTKDLEVNNKRVF GNHSFRPNQREVINATMSGCDVFVLMPTGGGKSLTYQLPALICPGITLVISPLVSLIQDQIMHLLQANIPAVCLSANIEW SEQQEILRELNSDYCKYKLLYVTPEKVARSDVLLRQLENLHVRELLSRIVIDEAHCVSQWGHDFRPDYQGLGILKQKFPN TPVLALTATATASVKEDVVQALGLINCIIFRQSFNRPNLWYSVVPKTKKCVEDIDKFIRENHFDECGIIYCLSRMDCEKV AEKLQECGHKCTYYHGNMDPAQRAFVQKQWSKDEVNIICATVAFGMGINKPDVRFVIHHSLPKSIEGYHQECGRAGRDGQ RSSCVLYYNYGDYIRVKHMLSQGAIEQSSMTSGYNRSNMTNSGRIQETNSENLLRMVSYCENDVDCRRLLQLAHFGEKFD SSTCQKTCDNCLRVTSFVEKDVTGIAKELVELIKLTGQRFSSSHILKVYRGSLSQLVKKHRHETVRLHGAGKPLAKGEAS RVLHRLVVEDIILEEVKKSDIYGSVSSVLKVNEHKVRNLLSGGQRIVLRFPSPVKASKHGKCDLTPAKGPLTSGKLNPPV IDMTDQPQTEVDLNLSAKLYSALRMLRTTLVREAADGVMAYHIFGNATLQQISKRVPRTKEELLDINGISKTKVSKYGDR LLETIEDTINEYYKLDKSSSGSKGSADSAKRRREAASGDASANAEDDFTKSTGRSKKMTVKRQTKRTEIYDSEEEDYYHG CLDEELDFDNLENEALNKTPCTNAGGRVLPQWTGS

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	PTHR13710:SF128 View details on PTHR13710:SF128 Search for proteins/transripts with this domain View external data on PTHR13710:SF128	7	105	99	0.0	–
PANTHER	PTHR13710 View details on PTHR13710 Search for proteins/transripts with this domain View external data on PTHR13710	7	105	99	0.0	–
PANTHER	PTHR13710 View details on PTHR13710 Search for proteins/transripts with this domain View external data on PTHR13710	111	1130	1020	0.0	–
PANTHER	PTHR13710:SF128 View details on PTHR13710:SF128 Search for proteins/transripts with this domain View external data on PTHR13710:SF128	111	1130	1020	0.0	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	263	283	21	-	–
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	367	595	229	1.8E-89	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	380	737	358	1.55E-42	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd17920 View details on cd17920 Search for proteins/transripts with this domain View external data on cd17920	396	595	200	3.40636E-103	–
TIGRFAM	TIGR00614 View details on TIGR00614 Search for proteins/transripts with this domain View external data on TIGR00614	397	872	476	4.9E-165	IPR004589 Show description in modal box View details on IPR004589 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00487 View details on SM00487 Search for proteins/transripts with this domain View external data on SM00487	401	604	204	7.9E-33	IPR014001 Show description in modal box View details on IPR014001 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00270 View details on PF00270 Search for proteins/transripts with this domain View external data on PF00270	407	575	169	1.1E-18	IPR011545 Show description in modal box View details on IPR011545 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51192 View details on PS51192 Search for proteins/transripts with this domain View external data on PS51192	413	588	176	22.795	IPR014001 Show description in modal box View details on IPR014001 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00690 View details on PS00690 Search for proteins/transripts with this domain View external data on PS00690	527	536	10	-	IPR002464 Show description in modal box View details on IPR002464 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	594	862	269	2.36E-60	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd18794 View details on cd18794 Search for proteins/transripts with this domain View external data on cd18794	596	728	133	9.18517E-74	–
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	596	814	219	3.7E-67	–
Pfam	PF00271 View details on PF00271 Search for proteins/transripts with this domain View external data on PF00271	613	718	106	2.9E-17	IPR001650 Show description in modal box View details on IPR001650 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51194 View details on PS51194 Search for proteins/transripts with this domain View external data on PS51194	613	762	150	19.791	IPR001650 Show description in modal box View details on IPR001650 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00490 View details on SM00490 Search for proteins/transripts with this domain View external data on SM00490	638	719	82	4.7E-28	IPR001650 Show description in modal box View details on IPR001650 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF16124 View details on PF16124 Search for proteins/transripts with this domain View external data on PF16124	731	812	82	3.8E-16	IPR032284 Show description in modal box View details on IPR032284 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.10.10 View details on G3DSA:1.10.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.10.10	815	936	122	7.9E-18	IPR036388 Show description in modal box View details on IPR036388 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF09382 View details on PF09382 Search for proteins/transripts with this domain View external data on PF09382	819	932	114	1.1E-18	IPR018982 Show description in modal box View details on IPR018982 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00956 View details on SM00956 Search for proteins/transripts with this domain View external data on SM00956	821	932	112	8.5E-21	IPR018982 Show description in modal box View details on IPR018982 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	939	959	21	-	–
Gene3D	G3DSA:1.10.150.80 View details on G3DSA:1.10.150.80 Search for proteins/transripts with this domain View external data on G3DSA:1.10.150.80	969	1056	88	1.6E-23	–
SMART	SM00341 View details on SM00341 Search for proteins/transripts with this domain View external data on SM00341	973	1055	83	1.3E-5	IPR002121 Show description in modal box View details on IPR002121 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50967 View details on PS50967 Search for proteins/transripts with this domain View external data on PS50967	973	1055	83	18.188	IPR002121 Show description in modal box View details on IPR002121 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF47819 View details on SSF47819 Search for proteins/transripts with this domain View external data on SSF47819	976	1049	74	2.83E-14	IPR010997 Show description in modal box View details on IPR010997 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00570 View details on PF00570 Search for proteins/transripts with this domain View external data on PF00570	978	1045	68	8.2E-16	IPR002121 Show description in modal box View details on IPR002121 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	1056	1108	53	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1066	1080	15	-	–

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:0000166 View details of GO:0000166 AmiGO InterPro QuickGO	Molecular function	Nucleotide binding	Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose.	Subterm of View details of GO:0036094 View details of GO:1901265
GO:0003676 View details of GO:0003676 AmiGO InterPro QuickGO	Molecular function	Nucleic acid binding	Interacting selectively and non-covalently with any nucleic acid.	Subterm of View details of GO:0097159 View details of GO:1901363
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:0004386 View details of GO:0004386 AmiGO InterPro QuickGO	Molecular function	Helicase activity	Catalysis of the reaction: NTP + H2O = NDP + phosphate, to drive the unwinding of a DNA or RNA helix.	Subterm of View details of GO:0017111
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:0006260 View details of GO:0006260 AmiGO InterPro QuickGO	Biological process	DNA replication	The cellular metabolic process in which a cell duplicates one or more molecules of DNA. DNA replication begins when specific sequences, known as origins of replication, are recognized and bound by initiation proteins, and ends when the original DNA molecule has been completely duplicated and the copies topologically separated. The unit of replication usually corresponds to the genome of the cell, an organelle, or a virus. The template for replication can either be an existing DNA molecule or RNA.	Subterm of View details of GO:0006259 View details of GO:0034645
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:0043138 View details of GO:0043138 AmiGO InterPro QuickGO	Molecular function	3'-5' DNA helicase activity	Catalysis of the unwinding of the DNA helix in the direction 3' to 5'.	Subterm of View details of GO:0003678
GO:0044237 View details of GO:0044237 AmiGO InterPro QuickGO	Biological process	Cellular metabolic process	The chemical reactions and pathways by which individual cells transform chemical substances.	Subterm of View details of GO:0008152 View details of GO:0009987

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Expression data

Expression pattern

Expression pattern of LotjaGi6g1v0361700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0361700.1