Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0605700
Transcript ID	LotjaGi1g1v0605700.1
Related isoforms 2	LotjaGi1g1v0605700.2 LotjaGi1g1v0605700.3
Lotus japonicus genome version	Gifu v1.2
Description	Flap endonuclease 1; TAIR: AT3G28030.1 5'-3' exonuclease family protein; Swiss-Prot: sp\|Q9ATY5\|UVH3_ARATH DNA repair protein UVH3; TrEMBL-Plants: tr\|K7K2I9\|K7K2I9_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0605700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:115056088..115068169) extracted from Lotus japonicus Gifu genome v1.2.

GGGCAATTACCCTACAATATTATATTGCCCTCATTAATCACCATGCCTTCACAATTATACATCAACACATCAATTAACTT TTTATTAGAGCAGTTTTAGACATTCAATCACCTCACTGGTTTAAGGAAAATTATTATAAAAAGTTGAAAAAGAAGTGTGA AATAAAGCTAGACCAAGTATCCAAATCAAACGGGTAAGAGGAGAATACTCTCATTCTGGTTGTGAGACGTGTTAGCACGA GTGTAATATTAGATGATTCCCCTCGAAATTGTAGAATAAGAGTTTTATTCATGATAGTTATCTTAGTTTACAACTTTAAT TTGTTTCCGAGCATTTACCCTCCTTTTAATAAAAATAATTATTTGCTTTGACAAAATAAAATTCACACGTGTATCGTACG GTTTATGATCGCTCATTGGAGAGGAAAGTCGTTTTGGCAAAACGACCGACTCATCCATGGTCGTATTAGTCCTACACTTG CCTTGGCGGTAGATTTCAACCGGCAAAGCAAAGGCAATTGAAGCAAAACTAGCAGCAGTAAAGCGACAATGGGAGTTCAC GGTCTCTGGGAACTACTCGCCCCCGTCGGCCGCCGCGTCTCCGTCGAAACCCTCGCCGGAAAAACCCTCGCCGTCGGTAC TCTCTCAAACCCTTCCTTTTCTCATTTCCATTAATCTCATCAAATAAATAAATAAACAATCCCGTGAATTTCATTTTTCT GTTTGTTCTCAGACGCGAGCATATGGATGGTGCAGTTCATCAAGGCGATGCGTGACGAGAAAGGTGAAATGGTTCGCAAC GCTCATTTGCTAGGTTTCTTCCGTCGGATTTGCAAGCTTCTGTTCCTCCGGACGAAGCCTGTTTTCGTCTTCGACGGCGG AACCCCCGCCTTGAAGCGACGCACCGTCATCGCGCGTCGCAGGCAGCGGGAGAACGCCCAAGCCAAAGTCCGCAAGACTG CCGAGAAATTGCTGCTCAATCATGTCAGTGTTTTGGTTTGATAGAAAGCATAATTTACTTCACATTTGCTTGGTAGTGTC AAATTCAGAATGCAATTTGTTGAATGTTGATACATTGATTGGCCTACAATTTTCATGTTGTGCAAAAGTGAGTGAAAATA AGAAACTGAAAAGTGGTTTTTAGGTCATTTACTATACAGCAATGAGTGTGACAATCTTGTGTTGATAGTTTTGTTCATAG TGTTTTTTGGAAATACGTGTTGATTCTGTAATTTTAGTTGGACACTTATGCCCAATCCTGTGCGATTTGCGATGTGAGTA ACATTCGATAACATTAAACATTAGTGTTTGATTGTAAAATATTCGTTACTCTGTGGGTCCTGAATATGAGGAACGTGAAT TTAGTACCACTTTTTACTCTTATGGATGAGCAGATGTAGCACATTAAGTATATTAAGATGCTGCGTTCAATCTTATTTTG TAGGTGTGTGTATTCCGCTATCTCAGCTTGTTTCTTTTTTGTTTTCTTTTGACAGTTAAAGGCGATGAGGTTGAAGGAAC TGGCTAATGATATTAAGCACCAGAGGCAGAAGCAGGAGAGTGATGCTAAGGGTCAGAAAAAATCTAGAGACATGGACTTT GTTGGTAGCGATTCAGGAAGAAGTCATGTGAAAGAGAAAGAACTAGATGAAATGTAATCTGCGTGTGCTGTTGTATATCT TCGAATTTTTCTTCTATCCAATATTTGTTCATTATTTGGATAGTTTATTTAGGTCTGTAGCTAAATCTGCGGCCAAGGAA GACAGGAATTTATCACAGGCAGTAGCATCGGCAAGTTGCAACTTGGAGGAGCTTGATGAAATGTAATCCACCTATACCTT TATCTCAAATAAAAGGGCCAGAAAGCCATGGAGTATTTATATATGTTGCTTAAAAGATGTTTTTTTTTTCAATACAATTG ATCTTGAATATGGTTGATAACTTGTATATGATGTTTGAATGAGTTAATTTAGGCTGGCTGCATCTATAGCTGCAGAGGAA AATGGAATGCTTGCCAGAAAAGGAGTGGCATCTACCGTGAGTTATCCCTCAGAGGGGGAATGCGATGCAGATGAAGAGAT GATTATGGTAAATTTGCATATGCTGATAAATGGAATGATTTCAAATAGGCATTGCAATAATATGATTCTTTTATTATTTT GCGTATATGCTAGTTTCTTTTCCCCCTTGACTGTAGTTTATACCTTTCTAATAATGTATATGCTAGAGTTATTGCAGAAA GTAAGGAAATATTTGGTCTTTCTTTGTAGTTGTTACATTCTAATCCTCTCTGTTGATGCTCCTGAATGTAAAATGTTTTT GTTCATTGTTCAATTACAGCTTAAAGGAAAGAAAATAGAAGGACAAGTGGATGAAGTTGACAAACAGAAACCACATGAGG TCAATGACCGGGTCAAGGGTAAGGAGATTCTGTTCAATGAAACTGACATGGTAGGATGTAGCTCAAGATGCGATCATGTG ACATCAAGGAGTCATAATCAAGAGAAAATTGATGAAATGTGAGCTGCATGAAAAGTCACAATTTTGAAGTTGTAGTGATT TTGCTTTGTTATCAGCTCTGTCTTGATGCATTATTAGGTTAGCTGCAACTATTGCTATGGAGGAAAATTCAAATTTAGTA AATAATGTATCAACTTCTCTTGGGGCTTCCACAATTGAGGACGAGGATGGTGACTATGGTGATGATGAAGAGATGATACT GGTCAGTTTATAGCACTAGTCATCTGTGCCTTTGAGTTATTTAATCTGGCTTGTGCTAAGAGTTTAGACAACGGCTTGGC CATTTTCTAATTTGGTAAATTTAACTCCAAAAACCACAACTATTCCAAACTTCAAATTAATATTAAGTCAGGCTTCCCTG ACTCCAAACTCAGAAATTGTCATATATGGAATCTGTACATCAAGAATAAGTATAGTGAATTTATTTCACTTTGTTTTGAC AGCCAGCAATGTACGGTGAAGTTGATCCAGCTGTTTTGGCCTCTTTGCCTCCATCAATGCAACTGGACCTCCTTGTTCAG GTAATTGAGTTCACAGAGTATTTTCTAGCTTAAGTACTTTTAGTTTGTTCTGATGTTAGTTATTGTTTTACAGATGAGAG AGCGATTGATTGCAGAGAACAGACAAAAGTATCAGAAAGTCAAGAAGGTTGGTGAGAAAATTTTATATTTAACTTGGATA CGTTGAAAAGTTAAAGATATACTGAACTATAAATTGCAGTTATGATGAATAGTGTATCCTGTTAGACCATGGTCCTCTGT GACATTTTAGTACATTTTGGAGGCAAAGTCTATTCTGGTAATTATGTATTTCATTGTTGGAATTGAGTGCTGGTCATTGT TAGTTTAGATTATAGTGATGCTTGATGGCATTGATATTTCACTTTCTCCATTTACTATGTCATATTACCATTGTTATCTC TTTTTCATTGGTCCTTTTGGTGTGAAAATTACTTTTCCACATTACTTATGGGGGATTAGATGCTTTAATTTTATGTTACT AATGTATGTCTGTATGTCATCTGGATCGCTCCTTTCAGGATCCTGCAAAATTCTCTGAGCTACAAATACAAGCTTACCTT AAAACTGTTGCTTTCCGACGTGAGATAGATGTAGTGCAGAAAGCTGCTACTGGAGGAGGAGTAGGGGGTGTACAGACTTC GCGAATTGCATCTGAAGCCAACCGAGAATATATATTCTCGTCATCTTTTACTGGTGACAAACAGTAAGTATGTTATATCT TCTATGTGTTTGGGCTTTTGATGACAAAATGTCCATCCTAGTAATCATAACTTTCTTTTTCTTTCCTCTCCTAAATATGC AGAGAACTCACCTCCACTAGAATAGAGAAAAATAATGAAGATAAACAACAGAAGGCACAAGGAACAAGTTCTTCACGGAA TTTTGCAAATATCATCACAGTAGGCAATAATTCTGGTACTTCAGTTGGATTGGTTTCTGCTGAACCTGGAGAGCCTGTTG ATGAAAATATTGAGACATATCTAGATGAGAGGGGTCGATTTCGAGTAAGTAGAGTAAGAGCTATGGGGATGCGCATGACT CGTGATATACAAAGAAATTTGGATTTAATGAAGGAGATTGAGCAGGAAAGGACATATGTCAATAATGCTGCGAACATTGA AACTGTGCTAAATATAGAGAATAGTGGTCCATCAGAAATTTCTGGGATCCACAATATTGGTAAATCACGAGAGGTAAATG TTGACTTTGTTGGAGAGAATGTGCAAAATGAACAATTAATACTTGACAGGGATACTTCGTTGGAGGTATCCTTTGAATAC GATTGCAAGAATAAGTTTGTAAATGGCGAGGATGATATATTTGCCAGTTTAGTAGGAGGAAATCCAGTGGCACTCTTCTG TGCTGATGCTACTACAGCAGAAGTGCAGTGTTCTGGTTCTGATTCAGATTGTGATTGGGAAGGAGTTGTTGGAGGTAAGA ATACCACATTTCCAAGTCATAATAAAGTGGAACTGAAATCCTCTTCTGCAGACGAGGATAATAATAATGACAGTGAAGTA GAATGGGAGGAAGGATATTGTGGTGGTGCTAAAAGCACCTCACTGTGTCCAGCTGAGTCAGGAAAATTGGCATCCCGAGG ATGCTTGCAGGAGGAGTCTGATTTGCAGGAAGCAATAAGGAGAAGCCTTGAGAATACATGGGACGGGAATCTTAATTGCA AATCAACTGTAGATGAGCATTCAAATGCTTATGAGAGAAAATTGGATTCTGAATTAGAACATGATGATAATTTTCGTTGC TCTGGCTCAACGGATTTAAATGATAATAGTATGGGTGGTTCCCCTTTGCCTATGAAGGGTAGTATTGAATCAATTGAATT TCAACAAACTGTAGATGCAGATAAAAAACATGATTGTGTGACTAGAAGTAACCCACAAACTTTCAATTTTCATGGAAGTC AGTCAAAGTCATCTGGGACATTTAATTTGAATAAGACAGAGATATTGATTGACAAACCTCGCGGACTGGATGGACACATT TGTTCTGAAGATTCAATTTCAGATGCAAATGTAATGATGAAGGATGAGGATCCTGTGGTTGCAGAGCAATCATTGGATAT ACATAATGATGATGGTCAAGTGTCTTTCTACTGTAACAAGGTGTCCAAGGTTTGTCCACTTGGTGTGACTGAAGAGGAGA AAAGGAACCATATTAATGAATCTGAACTATTGAGTAATTCTACCAAGAGTCCAAAGCCTACTATTCTTTTGATGGGGTCA TCCTTGAATAGATCTACAGAAGACCTTGATATTGAGCCAAAATTGCCTTCAGAAGACAATGATGGAAATTTATCTGAGGA AAGGAATAAACTTGTCATAGATGCAATGAACACGCCTGGAGTTTTTCCTGCACAATTACCTGAGGTCCAATTGGAGGATG AAATGGAAATTCTTGGTCAAGAGTATATCAACCTTGAAAGTGAGCAGAGGAAGCTTGAGCGTAATGCAGAATCTGTTAAT AGTGAATTATTCACAGAATGTCAGGTGCAAAACTAAAGCTGGTCTATATATCATATCGTTACTGACTGTTATTTTTTCAG TAAACTGCTCCTGGCTGCTCCATGCTTGTTCTACCACTTTAATTTTGTCATATATGCTTAACTCTTGGATATGTAATTTT GATTGAAGACTTGTACAGTGTACAGCATATCAGTCTATAAAAAAGACATACTTTGTATTTTGCATTATTGAGGTGCAGAT TTAATATAAAACACTATCTTGTATTTATATTTTGATGTTTTTCATGAACGGGAAACAGCACTGGTTGAAAACAAGGGCGG AACGGAACAATGTTTCAAAGAAGAACATGTATAGAAATGTTATTGGAACACATTAAACTAGACTTTTGAGAAAGTTTTGC TCAATATTAGTTCTAACAAACAAGGTAGACTCAAAGCCAGCAAACATACCTAATTTTCCTTTACAGATGTGCCATACTAG TGAGACCAAAGATAATTAAGAGTACATATATATCAGCCATATAGTGTGCAGTTAGGAAGTCATAAAGCTAAATCATGTGT AAATAGGGACCACAAGCAACCATATCTAGTTTAATTGAATAGTGTTGCATGGTTTGTTGTATACATGTCATCCAATTGTG TAAGAGCTTAAGCTTTATTTTGTGGTTTTCCTTCTTGTTCAGACACTGGTTAACTGAGTAGTCTTTAGACTTCGATGTTG CTGAAAAACATGATTAGTTGGCCTACATTTTGTTAAGGTTTTGAAACATTAAAGCTCAGTTTGATGTGATAATTTGATGA AGTCATGGTCCTCAATGCTGAGTTTAATATTTACATTGTGAACTCTTTTCCAAGCCTTTTGGATTAAGATTTGGTTGTAA ATAGACAGTCATATATGTACCTCTTGATCAGTTATTTTCCTTACATGTACTTAATATGTTTGTGATGCATCTGTATTCTG TAGGAACTACTGCAAATGTTTGGCTTGCCTTATATTATTGCTCCAATGGAAGCTGAAGCGCAGTGTGCTTACTTGGAACT CGCAAATCTGGTTGATGGTGTTGTAACTGATGACTCTGATGTCTTTTTATTCGGGGCTCGTAGTGTTTATAAGAATATTT TTGATGACCGCAAATATGTAGAGACATACTTCATGGAGGTCAATATCTTCTAAAGGCTGTGACCATGTGAATAAGTTTGT GTTGTAAAAACTTTCTAATTGTGATGCTTTTCTTTATTACCGGTTCAGGACATTGAAAAGGAGCTTGGATTAACAAGAGA GAAGGTGATTCACATGGCACTACTTCTTGGGAGTGATTATACTGAAGGTGTAAGGTGTGACAACTATTGAGTTACTTGCT TCAGTACTTGGTTATGGCTAGTGATGCATTGCCTTTCTGCATGGAGATGGTGCTAAATATCTATATCTGGCTTTTCTATG TCCAACTTGTAGTATAATATTTGCATATATCTTATGCTGATATGCTTATACTGACTCCACATTTATGAACTTGACTGTAT CTTTTTGTTTGTATGCTTGTGTAGTGGGATTGGCATTGTTAATGCTATTGAGGTTTTAAATGCGTTTCCTGAAGAAGATG GCCTCCTCAAATTCCGGCAGTGGGTTGAGTCACCAGATCCCACAATTCTTGGAAAGTTGGGAACAAAAAGTGGATCCAAT ACCAGAAAGAAAGGGTCCAAAGTTGAAGAAAAGATAAATATCGAGTCTGCTTCAGACCAGAACATCTCACAGGTTCAGGA GCAAAAGGAGCCGCCTGATCACATGCCAGAAATAATGCAAACTTTCATGGATAAGCATGTAATTGATTTGATGCATTCTC TGCTATCCAGTAATTTGAAGATTATTTTGCATTTATTTCATCCCGTTTGTGCATGACCTTTCCGGTTTCTGTTTTCTGAA TAGAGAAATATTAGCAAGAATTGGCATATACCTCCTTCTTTTCCAAGTGAAACGGTTATATCTGCTTACTGTTCTCCACA AGTTGACAAGTCAACTGAGCCGTTCACGTGGGGAAAACCAGATCATCTTGTTCTTCGCAAGTGAGTTCATATGTTTCTTT CCTTGTTTCCATATCCCTTGTTTCTGCCAAATGGCCATTCAGTTCATTGATTATTATATATGACACTTTGGATAGACCTT GAAAAGAGTTTGTTTGAGTATGTTAGGGTAGTCTCTCATTTCTTTCGTTCACTAAGCCAACAGGAGTTCTCTTCCTCAAC TGCTTATTGTTTTAGCTAGGGGTGTGGTTACATTCAGAAGGTTTGATTCCTCTCATCCCCATTTTCTGTGGTCCAATAGC ATCTCTCTTATACCATAAAACAAAAGGGTTTTCATTCTTGCTTACACAAATCAATATGTAGTAGTCAATCCATTGGTATG TATGTTTTGAAAGTTCAGTATGCTTGATGTATGTATGTAGTAGCTTTCATTCTTTTGGAGGAGTTTCAAAGAAACTATGC TATGCTTGATCAATAGAGGTTTATTAAGTAACAGTTTCCCTAGAAATTGGTCCTTAATTTTCTATCCATGTTATCAATCT GAGCATAATTATCCTATATCTTAACTTTTGAGACTATATATTGATCCCACCTCTAGAATGTTCTTAAAGAATACCTTCTT TACTGTTTTGCATATGTATTTCTGCATTGTATGATATTCTGAATTGCGTCCTGCAAACAGATTGTGCTGGGAGAAATTTG GGTGGACCAGCCAGAAAGCTGATGAATTGCTATTACCTGTTTTAAAAGAATATAACAAACATGAGGTCAGAGACTTTGTT TTATTGATCTCCCTTGTCCCTGCTTCTACTGGATGCTGTTTGTTACTTCTTTTTTTGTATTAAAGGATGGATTTAACTTG ATCACTATATAGGCAAGCTTTCTAATTGTTGGTTATCTATTGTCTTCTTAATACTCTTAGGATATGAGAGTTGAGAATTA AGTATGGGCTGTTATAGCTGGCAGTTAGTTAGGAGGGGATTGGTTAGATAAATGAATGGGGAATGTGAGGTTGGAGAGAG CATTAATTCAGTTTGTTACTGGGAAAAACAGTGGCTCAGTTGTAAGGGGGAACCCTCAGAAGAGAATCTTCCCTCCTTTT CTGTTCATTTTTTTCATTCAATAATAATAGGCTCTTTCAGTTCTGCATTGCGGGTTCCTAGTAAATTTTCAACTTCTGCT ACAATCTCCTCTATCAGCAGGTCAGGATTAAATTTTGCCACCTGTCCCTTTCTTCACATACCTTCTCCAACAGCTCGGTT TAGGATCCATTGAAGAGTGTTTTTAGTGACACCTCCCAATTGGTTGGTCCTATTGTAGGTGGCTAGCTCCACCGTTCTTG TCCTGAAAAGGTCATTACTACCTCCAATTTCTGGTGAATCATGATCAAGATTCGTTTCTGGTTGTCTCTTTGGCTGAGAG GATGCACTATGGTGCTAGTGTTGGTCCTCCTCTTCTACAGTAATTTCTTGCTACCTTACCCAACCACCCAAGAGAAGCTT GACCTCATCGATTCCCTCAAAACTCTTCTTGATTTCAGAGGCTTGCACCTCTACCCTCTCTTTGCCACCACCATGGTTTT GTTTCTTGACCATTGGCCTTCTTCATCTTGGTTTTCATTCTCTGTATCCAATGACTGTGGTATGTCACTGCCACACTTAA GACCACTACCCTTGGAATTCTTTTCCTCCCTCTCTATTCCCTCAGAAAATTTCCTTCTTCCTCCTCCATTATATCTAGTT AGCATCTTGAGTGGGTCAAATCAAATCCCTCAAGTTTCGACTTAATCACCGATAGCTGCGATCCCTGCTCCCAAATAACC TTTATCAACATCTCCACTGTCAATGGAATTAGCTCGAAATATTGGTTATTATTACTAGCATATTTGGTCATTTAAATCAG CATCCTGCATTTAAGTTCATTATTGCAGAGCTGTAATTATGCAATTATAATATAGCCAGCTATAGGATAGCATTTCAGGC AGTTTAGCTACATTTTAGGGATTGTATCATACTATTAATATGAGAATTCTCCAGCAAGGGAGAACACAGTTCAAACGTAT ATTTCTCAGAGGAGGGAAATTTATCTAGGACTTATGACTGTTATAGCTGGCAGTTCGTTAGTAGGAGGGGATTAGTTAGA GAAATAAGTAGTGGATATGAATTGGAGAGGGCATTGATTCAGCTTGTTACTTGGCTTGAGAAATTAGAGCAGTAGCTCAG TTATAAGGGGAAACCCTAGAGGAGAGTCTTATCTCCTTTTCTGTTCATTCTTTTCATGTAATAATAATAATCTTTCATTT TGATTTGTGGATTCCTAACACACTCCTAGTCTCCTAGTTATATGAATATCCTGACATTATTGAACCTTTTCATGTAGACT CAATTGCGATTGGAAGCATTTTACAGTTTCAATGAAAGATTTGCAAAAATTCGTAGCAAGAGAATTAAGAAAGCAGTGAA AGGAATTACTGGTAAGCAGCCTTCAGATTTGATAGATGGTTCTGCAGAAAACTTGTCGAAGAGTAGAAAGAGTGGGACAG GAAATCCTGTTGAAGCTGAGGATAACAAATTTGAGACTTCAAAGGTAACAGAAGAAAGTCTTGCGGGTCGGAAGAAATCA AAAGTGAAAGAGTCAATGAAAAGGAAGAATGATGGGAATACAGCAGCTAAGGCACAGTCAAAGAAAAAGAAAATCTATGA TGATCCTTTATCAGCACCTGGTACATCTGAGGTGTCAAATTTACAGTCATGTGTACAAACCAAAGAAGGTCGATGTCATA AGGAATTGGTTCCTAATAGAAGTGGCAGAGGAAGAGGAAGAGGCAGAGGTGGAAGTGTAGGAGTAAAAGGAGGAAAGCGA AAGGGAAGTCTCATTTTTGAAACATGTGAAACTGAAACATCATCTAGTAGCACTGACATTGATGATCATGGGCCAAGAGC GCAAGTTGATGTATCACAAGTTCCAGAAGTTGTGCGAAGGGTAGGTTTCATTCTGATTCTTCTAATTTATGAATTGAAAA TATGAATGATGCTCCTTCAAATTATTTCTTTGTTGAAAACTTTCCTTTATTCACCATTAATAATAAACAAATAGTGATGC TTTGGTGCTTCTCAATCCTGTCAACTTCATGAAATGTAACTGTTATCTCTATATAGTTATAAATGAAAAGGTCACCATTT CTTCATAGACTTTCTTAAATCAGAGAGTGAGTTCTCTATTTTTTTTCCTAATCTAATTTAGTCTCCTCTATGGAACTGAC TTCCTAACCAAGCTAACGACTTCAACTCAGCTTTATGTATCTTAACATTTAAATTTTGTGTGCTTACTAGTCAACACGAT CACGGAAACCTGTCAACTATTTAAAGGACCTTGAAGTTGAAGATGGTGTTGATTCATTTGATCAGAGCAATCAGACATGC TCGTTTGACGAGCCAGCAGAAAAATTATTTCACAATCATGGTGAATGTGGAGATGGTGCAACTGATTTCAGCAATGGGAA AGAAAGCAGTCTAGTAGATCTTCCTCTAAAGGAGAACACACCTAGAGATTATCTGGAGTCAGAAGGTCGGTTTTGCATGG ATGCTGGTGAAAGTAGTCCCCCAGGGACTAGCAACCGTGATAGTTCGTTTGATCCTGGCCCTTCTGATGACTACCTTAAA GTGGGAGGTGGATTCTGTTTAGATGATAGTGAGACAGGTAACAATGATGATGCAATTGATAATACAAACACTGCTACAGA CGATTATACTGCAGAGTTCCGACACAGTTCTGAATTTGTGGATGAAACTGACTCTGATAAAAATAGTTCTGATAAATTGT TTTCTGGTGCTGAAAAAGCTGAAAATGAGGTAGAAGATGGAACGACTCATCGTAAATCCAATGAAAAGCCAAGTGACCAC CTTGAAAATGCTAGTAGTTATAATCATTCTAACATAGGGGCCTTGATACCAGAGAATGCTCAACACATCAGTGAGACCTC TACGGGAGCTTTCAGTGCTATGCCTTTTTTGAGGAAAAGAAAGAAGAACTGAAGCATTCCTGACTTTAGATGGATGTCAC AGGTTTGTGTGTATTTGTCAATTCATCCAGCTACGGGAGCTTTCAGTGCTATGCCTTTCAATTTCGGATGCTGCTTATAT CATTTGTACTATAAAGATGTTATATGAGCTATAATGTCGATCAAGTTGTTGAGACATTATGTCTTTATTGATACTTGATT TTTTCCTGGTTTCCTTAGCAGACCTTAATTCCTAAATTTAAAGGATTTGATTCTATTAACTTTGTATATAAGTAGTGTAC AAACTACTCTTGGAAATTTATACAGAAAACGTTTTAAAGTTCGTATTAGAACCTCTATAATCAAGTGTTCTTGAGATTGA TTCTTGTTGCCCGATCTTCTAATGATTTCTTTTGTCGAAAATGTGGTGCACTAACGGGGCAGGGTATAAGGCCTAAAGGA ATGCTATTATTTGGCGCTACACATGGGCCTAATTATGCATACCAGTAGTACTAAAAAATCGAACCATGCATTCATGGAAT GC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0605700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAGGAAAATTCAAATTTAGTAAATAATGTATCAACTTCTCTTGGGGCTTCCACAATTGAGGACGAGGATGGTGACTA TGGTGATGATGAAGAGATGATACTGCCAGCAATGTACGGTGAAGTTGATCCAGCTGTTTTGGCCTCTTTGCCTCCATCAA TGCAACTGGACCTCCTTGTTCAGATGAGAGAGCGATTGATTGCAGAGAACAGACAAAAGTATCAGAAAGTCAAGAAGGAT CCTGCAAAATTCTCTGAGCTACAAATACAAGCTTACCTTAAAACTGTTGCTTTCCGACGTGAGATAGATGTAGTGCAGAA AGCTGCTACTGGAGGAGGAGTAGGGGGTGTACAGACTTCGCGAATTGCATCTGAAGCCAACCGAGAATATATATTCTCGT CATCTTTTACTGGTGACAAACAAGAACTCACCTCCACTAGAATAGAGAAAAATAATGAAGATAAACAACAGAAGGCACAA GGAACAAGTTCTTCACGGAATTTTGCAAATATCATCACAGTAGGCAATAATTCTGGTACTTCAGTTGGATTGGTTTCTGC TGAACCTGGAGAGCCTGTTGATGAAAATATTGAGACATATCTAGATGAGAGGGGTCGATTTCGAGTAAGTAGAGTAAGAG CTATGGGGATGCGCATGACTCGTGATATACAAAGAAATTTGGATTTAATGAAGGAGATTGAGCAGGAAAGGACATATGTC AATAATGCTGCGAACATTGAAACTGTGCTAAATATAGAGAATAGTGGTCCATCAGAAATTTCTGGGATCCACAATATTGG TAAATCACGAGAGGTAAATGTTGACTTTGTTGGAGAGAATGTGCAAAATGAACAATTAATACTTGACAGGGATACTTCGT TGGAGGTATCCTTTGAATACGATTGCAAGAATAAGTTTGTAAATGGCGAGGATGATATATTTGCCAGTTTAGTAGGAGGA AATCCAGTGGCACTCTTCTGTGCTGATGCTACTACAGCAGAAGTGCAGTGTTCTGGTTCTGATTCAGATTGTGATTGGGA AGGAGTTGTTGGAGGTAAGAATACCACATTTCCAAGTCATAATAAAGTGGAACTGAAATCCTCTTCTGCAGACGAGGATA ATAATAATGACAGTGAAGTAGAATGGGAGGAAGGATATTGTGGTGGTGCTAAAAGCACCTCACTGTGTCCAGCTGAGTCA GGAAAATTGGCATCCCGAGGATGCTTGCAGGAGGAGTCTGATTTGCAGGAAGCAATAAGGAGAAGCCTTGAGAATACATG GGACGGGAATCTTAATTGCAAATCAACTGTAGATGAGCATTCAAATGCTTATGAGAGAAAATTGGATTCTGAATTAGAAC ATGATGATAATTTTCGTTGCTCTGGCTCAACGGATTTAAATGATAATAGTATGGGTGGTTCCCCTTTGCCTATGAAGGGT AGTATTGAATCAATTGAATTTCAACAAACTGTAGATGCAGATAAAAAACATGATTGTGTGACTAGAAGTAACCCACAAAC TTTCAATTTTCATGGAAGTCAGTCAAAGTCATCTGGGACATTTAATTTGAATAAGACAGAGATATTGATTGACAAACCTC GCGGACTGGATGGACACATTTGTTCTGAAGATTCAATTTCAGATGCAAATGTAATGATGAAGGATGAGGATCCTGTGGTT GCAGAGCAATCATTGGATATACATAATGATGATGGTCAAGTGTCTTTCTACTGTAACAAGGTGTCCAAGGTTTGTCCACT TGGTGTGACTGAAGAGGAGAAAAGGAACCATATTAATGAATCTGAACTATTGAGTAATTCTACCAAGAGTCCAAAGCCTA CTATTCTTTTGATGGGGTCATCCTTGAATAGATCTACAGAAGACCTTGATATTGAGCCAAAATTGCCTTCAGAAGACAAT GATGGAAATTTATCTGAGGAAAGGAATAAACTTGTCATAGATGCAATGAACACGCCTGGAGTTTTTCCTGCACAATTACC TGAGGTCCAATTGGAGGATGAAATGGAAATTCTTGGTCAAGAGTATATCAACCTTGAAAGTGAGCAGAGGAAGCTTGAGC GTAATGCAGAATCTGTTAATAGTGAATTATTCACAGAATGTCAGGAACTACTGCAAATGTTTGGCTTGCCTTATATTATT GCTCCAATGGAAGCTGAAGCGCAGTGTGCTTACTTGGAACTCGCAAATCTGGTTGATGGTGTTGTAACTGATGACTCTGA TGTCTTTTTATTCGGGGCTCGTAGTGTTTATAAGAATATTTTTGATGACCGCAAATATGTAGAGACATACTTCATGGAGG ACATTGAAAAGGAGCTTGGATTAACAAGAGAGAAGGTGATTCACATGGCACTACTTCTTGGGAGTGATTATACTGAAGGT GTAAGTGGGATTGGCATTGTTAATGCTATTGAGGTTTTAAATGCGTTTCCTGAAGAAGATGGCCTCCTCAAATTCCGGCA GTGGGTTGAGTCACCAGATCCCACAATTCTTGGAAAGTTGGGAACAAAAAGTGGATCCAATACCAGAAAGAAAGGGTCCA AAGTTGAAGAAAAGATAAATATCGAGTCTGCTTCAGACCAGAACATCTCACAGGTTCAGGAGCAAAAGGAGCCGCCTGAT CACATGCCAGAAATAATGCAAACTTTCATGGATAAGCATAGAAATATTAGCAAGAATTGGCATATACCTCCTTCTTTTCC AAGTGAAACGGTTATATCTGCTTACTGTTCTCCACAAGTTGACAAGTCAACTGAGCCGTTCACGTGGGGAAAACCAGATC ATCTTGTTCTTCGCAAATTGTGCTGGGAGAAATTTGGGTGGACCAGCCAGAAAGCTGATGAATTGCTATTACCTGTTTTA AAAGAATATAACAAACATGAGACTCAATTGCGATTGGAAGCATTTTACAGTTTCAATGAAAGATTTGCAAAAATTCGTAG CAAGAGAATTAAGAAAGCAGTGAAAGGAATTACTGGTAAGCAGCCTTCAGATTTGATAGATGGTTCTGCAGAAAACTTGT CGAAGAGTAGAAAGAGTGGGACAGGAAATCCTGTTGAAGCTGAGGATAACAAATTTGAGACTTCAAAGGTAACAGAAGAA AGTCTTGCGGGTCGGAAGAAATCAAAAGTGAAAGAGTCAATGAAAAGGAAGAATGATGGGAATACAGCAGCTAAGGCACA GTCAAAGAAAAAGAAAATCTATGATGATCCTTTATCAGCACCTGGTACATCTGAGGTGTCAAATTTACAGTCATGTGTAC AAACCAAAGAAGGTCGATGTCATAAGGAATTGGTTCCTAATAGAAGTGGCAGAGGAAGAGGAAGAGGCAGAGGTGGAAGT GTAGGAGTAAAAGGAGGAAAGCGAAAGGGAAGTCTCATTTTTGAAACATGTGAAACTGAAACATCATCTAGTAGCACTGA CATTGATGATCATGGGCCAAGAGCGCAAGTTGATGTATCACAAGTTCCAGAAGTTGTGCGAAGGTCAACACGATCACGGA AACCTGTCAACTATTTAAAGGACCTTGAAGTTGAAGATGGTGTTGATTCATTTGATCAGAGCAATCAGACATGCTCGTTT GACGAGCCAGCAGAAAAATTATTTCACAATCATGGTGAATGTGGAGATGGTGCAACTGATTTCAGCAATGGGAAAGAAAG CAGTCTAGTAGATCTTCCTCTAAAGGAGAACACACCTAGAGATTATCTGGAGTCAGAAGGTCGGTTTTGCATGGATGCTG GTGAAAGTAGTCCCCCAGGGACTAGCAACCGTGATAGTTCGTTTGATCCTGGCCCTTCTGATGACTACCTTAAAGTGGGA GGTGGATTCTGTTTAGATGATAGTGAGACAGGTAACAATGATGATGCAATTGATAATACAAACACTGCTACAGACGATTA TACTGCAGAGTTCCGACACAGTTCTGAATTTGTGGATGAAACTGACTCTGATAAAAATAGTTCTGATAAATTGTTTTCTG GTGCTGAAAAAGCTGAAAATGAGGTAGAAGATGGAACGACTCATCGTAAATCCAATGAAAAGCCAAGTGACCACCTTGAA AATGCTAGTAGTTATAATCATTCTAACATAGGGGCCTTGATACCAGAGAATGCTCAACACATCAGTGAGACCTCTACGGG AGCTTTCAGTGCTATGCCTTTTTTGAGGAAAAGAAAGAAGAACTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0605700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MEENSNLVNNVSTSLGASTIEDEDGDYGDDEEMILPAMYGEVDPAVLASLPPSMQLDLLVQMRERLIAENRQKYQKVKKD PAKFSELQIQAYLKTVAFRREIDVVQKAATGGGVGGVQTSRIASEANREYIFSSSFTGDKQELTSTRIEKNNEDKQQKAQ GTSSSRNFANIITVGNNSGTSVGLVSAEPGEPVDENIETYLDERGRFRVSRVRAMGMRMTRDIQRNLDLMKEIEQERTYV NNAANIETVLNIENSGPSEISGIHNIGKSREVNVDFVGENVQNEQLILDRDTSLEVSFEYDCKNKFVNGEDDIFASLVGG NPVALFCADATTAEVQCSGSDSDCDWEGVVGGKNTTFPSHNKVELKSSSADEDNNNDSEVEWEEGYCGGAKSTSLCPAES GKLASRGCLQEESDLQEAIRRSLENTWDGNLNCKSTVDEHSNAYERKLDSELEHDDNFRCSGSTDLNDNSMGGSPLPMKG SIESIEFQQTVDADKKHDCVTRSNPQTFNFHGSQSKSSGTFNLNKTEILIDKPRGLDGHICSEDSISDANVMMKDEDPVV AEQSLDIHNDDGQVSFYCNKVSKVCPLGVTEEEKRNHINESELLSNSTKSPKPTILLMGSSLNRSTEDLDIEPKLPSEDN DGNLSEERNKLVIDAMNTPGVFPAQLPEVQLEDEMEILGQEYINLESEQRKLERNAESVNSELFTECQELLQMFGLPYII APMEAEAQCAYLELANLVDGVVTDDSDVFLFGARSVYKNIFDDRKYVETYFMEDIEKELGLTREKVIHMALLLGSDYTEG VSGIGIVNAIEVLNAFPEEDGLLKFRQWVESPDPTILGKLGTKSGSNTRKKGSKVEEKINIESASDQNISQVQEQKEPPD HMPEIMQTFMDKHRNISKNWHIPPSFPSETVISAYCSPQVDKSTEPFTWGKPDHLVLRKLCWEKFGWTSQKADELLLPVL KEYNKHETQLRLEAFYSFNERFAKIRSKRIKKAVKGITGKQPSDLIDGSAENLSKSRKSGTGNPVEAEDNKFETSKVTEE SLAGRKKSKVKESMKRKNDGNTAAKAQSKKKKIYDDPLSAPGTSEVSNLQSCVQTKEGRCHKELVPNRSGRGRGRGRGGS VGVKGGKRKGSLIFETCETETSSSSTDIDDHGPRAQVDVSQVPEVVRRSTRSRKPVNYLKDLEVEDGVDSFDQSNQTCSF DEPAEKLFHNHGECGDGATDFSNGKESSLVDLPLKENTPRDYLESEGRFCMDAGESSPPGTSNRDSSFDPGPSDDYLKVG GGFCLDDSETGNNDDAIDNTNTATDDYTAEFRHSSEFVDETDSDKNSSDKLFSGAEKAENEVEDGTTHRKSNEKPSDHLE NASSYNHSNIGALIPENAQHISETSTGAFSAMPFLRKRKKN

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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	PTHR16171 View details on PTHR16171 Search for proteins/transripts with this domain View external data on PTHR16171	2	1178	1177	0.0	–
PANTHER	PTHR16171:SF7 View details on PTHR16171:SF7 Search for proteins/transripts with this domain View external data on PTHR16171:SF7	2	1178	1177	0.0	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	142	168	27	-	–
Gene3D	G3DSA:3.40.50.1010 View details on G3DSA:3.40.50.1010 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.1010	668	848	181	9.6E-48	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	668	702	35	-	–
SUPERFAMILY	SSF88723 View details on SSF88723 Search for proteins/transripts with this domain View external data on SSF88723	685	796	112	2.09E-31	IPR029060 Show description in modal box View details on IPR029060 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd09868 View details on cd09868 Search for proteins/transripts with this domain View external data on cd09868	698	782	85	4.10626E-48	–
PRINTS	PR00853 View details on PR00853 Search for proteins/transripts with this domain View external data on PR00853	711	728	18	2.5E-20	IPR006084 Show description in modal box View details on IPR006084 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00484 View details on SM00484 Search for proteins/transripts with this domain View external data on SM00484	712	781	70	1.9E-31	IPR006086 Show description in modal box View details on IPR006086 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00867 View details on PF00867 Search for proteins/transripts with this domain View external data on PF00867	713	796	84	2.3E-26	IPR006086 Show description in modal box View details on IPR006086 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00842 View details on PS00842 Search for proteins/transripts with this domain View external data on PS00842	715	729	15	-	IPR019974 Show description in modal box View details on IPR019974 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00853 View details on PR00853 Search for proteins/transripts with this domain View external data on PR00853	732	752	21	2.5E-20	IPR006084 Show description in modal box View details on IPR006084 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF47807 View details on SSF47807 Search for proteins/transripts with this domain View external data on SSF47807	781	984	204	1.83E-26	IPR036279 Show description in modal box View details on IPR036279 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00279 View details on SM00279 Search for proteins/transripts with this domain View external data on SM00279	783	816	34	4.7E-10	IPR008918 Show description in modal box View details on IPR008918 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd09904 View details on cd09904 Search for proteins/transripts with this domain View external data on cd09904	784	922	139	1.47632E-35	–
PRINTS	PR00853 View details on PR00853 Search for proteins/transripts with this domain View external data on PR00853	786	801	16	2.5E-20	IPR006084 Show description in modal box View details on IPR006084 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	997	1172	176	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1005	1023	19	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1029	1076	48	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1081	1095	15	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1096	1110	15	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1215	1371	157	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1294	1308	15	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1309	1357	49	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	1396	1401	6	-	–

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: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:0004518 View details of GO:0004518 AmiGO InterPro QuickGO	Molecular function	Nuclease activity	Catalysis of the hydrolysis of ester linkages within nucleic acids.	Subterm of View details of GO:0016788
GO:0016788 View details of GO:0016788 AmiGO InterPro QuickGO	Molecular function	Hydrolase activity, acting on ester bonds	Catalysis of the hydrolysis of any ester bond.	Subterm of View details of GO:0016787

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0605700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0605700.1