Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0461300
Transcript ID	LotjaGi2g1v0461300.2
Related isoforms 2	LotjaGi2g1v0461300.1 LotjaGi2g1v0461300.3
Lotus japonicus genome version	Gifu v1.2
Description	DNA polymerase IV; TAIR: AT5G44750.1 DNA-directed DNA polymerase; Swiss-Prot: sp\|A3EWL3\|REV1_ARATH DNA repair protein REV1; TrEMBL-Plants: tr\|A0A0R0LQ66\|A0A0R0LQ66_SOYBN DNA repair protein REV1; Found in the gene: LotjaGi2g1v0461300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:95437558..95455220) extracted from Lotus japonicus Gifu genome v1.2.

GAAACCGGCAGATTGAGACGAAAGTCCGGTGAATTTGAGCGGCTTGGTACTTTGAATCGCGCATTCGCATTCGCAATCGC GAGGGACTCTGTCTCTGAAAAATGAGTTTGGATTCGTTTCGAAGCTCCTCCTCGTCAGGCTCAGGCTCAGGCTCAGGCTC AGGCTCTAAACGAACTTCCTCTTTCTCTAATGCTACCAACAAGACGAAGACGAAGACTAAGAAGAAGAAAACCCTAGGCG TTGCTTGGGGCTCTAATGCTCTCCCTCCATCCGATTTCTCCGGGTAATTTTTAATTTCACAAACAAACAAACAGAACAAC TATCTCAATTTATAATTATGTTGTGTGAATGCACTGCTGCAGTTATATGGCACTCAAGAATCGGAAACTACATGATCAGT TTCATGCTCAATCTTCTTCTTCTACTTCTACTTCTACTTCTGGGAAGCCTATATTCACTGGAGTTTCAATTTTTGTAGAT GGTTTCACGGTTCCTTCCAGCCAGGTTAATCCTATTTCTATCATCCCTAATTGCGAGGCTACATGTTCCAGGATTAAAAA GGATCAAATAACTTTTTTCAGGAACTGCGAGGCTACATGTTCAAGTATGGTGGAAGATTTGAGAATTATTTCTCAAGACA TCGTGTAACGCATATCATCTGCAGTAATCTTCCTCACACCAAACTTAAGAACCTCAGGTTTTAATTTTCACCTATTGCTT TTTTGCTTTCTTTAAATTTAATTTAATTGTTAGATGCGATGCTCCAATACAGAGCCTTCAGCGCTGGCCTGCCCCTCGTC AAACCCACTTGGATTTTAGATTCTGTTGCAGCTAATAGACTCTTGCCCTGTAAGCTTTTTGCATTTCTCATGCACCTTAT TCATTTTCTCTTCTTACTTTCTATTTCCACTCTAAGGCTCAAGTCATGCAAATTTTGCTTTCATAGGGCTGCCCTATCAG CTTCACCAACTTGCTAATAATCAACCAACACTATCAGCTTTCTTCTCATTCAAAACTAGCAAACTGTCTGACATGGAGGA TTCAACTACAAATGTTTGCCAATCTCAAGATAGACACTCATCCAAAGTTAATGGGCTTATCAGTACCGTATCCAATGATA CTATCCCTGAGAATGAAAATACTAATGCATTTATGCTGGAAGATTCAACTAATCTTGTTAGAGTTAAATATGATGAAGGA AGCACTGCTGCTACTCAAGAAAAGACAAATGTCCAAGATGAACTTGAGCCTAATCATCAAGAACCTTCTACATCAGTTAG TAGCCCCTGCTCAGATGACCAGAATGTAAAAGAATTTCAAAGTTCTGCAGCCACTCGGCTTTCTAAACAGGGACATTCAA CTCTTACAGATCCTAATTTTGTGGAAAATTATTTCAAGGTAGGCAAGTTGGAACAAGTTTCCATTTTCATATTGCTCGGC GAAATGGTGACTTTCTTGTTGGTTGCACCATTTCTTTTTTGTTTAGATTCCACATCAACTCGAGATAAGATTAAAATAGA GACATGGAATCCTTGCCTCATAAGTTAGCTTTCGGCATTGATTTCTGCCTAGTCCAAAATCAAGATTTTTTTATTCTTCC AAATTTACTGCCAATCAAACATAGGAGTGATTGATCATTTTTTATCAAACGTTCTTGAATTTCAATAGAGAAAGTGGATG AGGTAAATACTGGTGTAAAACATGCTTTAGGTTTATGTTTGTCACACTACAATGGTAAAGAAAATAAAGACCACTTTACT TCTACTTGATATTCCCACTGAAGTTTGGTGTATGCAGAGCTCACGACTACACTTCATAGGAACCTGGAGAAATCGGTATC GAAAGCGTTTCCCTATGCCATCTGCTGGGCTTAACAAAGAAATTTCTAATAATTCTTCTGATGTTTCTAGGAATTCAGTC ATTATCCATGTTGACATGGTAAGCTATATGTACTGGGATAGTGGAAATACGTTATTGTTGTCAATTTTTTAATTTATTTT TTGGCTAGATATGTTGTTTAACTTTATCCTGATGATATATATTTATTATTATTTGACTCTTAAAGTTGACTGTTGTTTTA TTCCCACTTTTGACTTTGTTCAATGCTTATGAAATTATAGTTTTAAGAATGAATGGTTTGTTCATATCTCTCTCTCTCTC TGCTGTCCCAGGATTGTTTTTTTGTCTCAGTGGTTATCAGGAGCCAACCTGAATTGTTTGACAAGCCTGTAGCTGTATGT CACTCAAATAATTCAAAGGGAACTTCTGAGATTTCCTCTGCGAACTACCCTGCTCGTAGTTATGGTTGGTTATTCTAAGT TATACATGCTAATGTGACTCAATTAGCTATAGATACTTGTCAAACAATTCAGGTTGGTATGTAACTTATGCTTTCTATAT TGCTAGGTATTAAGGCTGGTATGTTTGTTCGAGATGCCAAGGCTCTTTGTCCTGACCTCGTTATCTTTCCATACAACTTT GAAGCTTATGAGGAAGTAAGAAGCAGTTGGATGTTCATAGTTTCTTTTTCTTTTTCCGAAAAGAGTTCATAGTTGAATGA CTTATAATATAGAATGCTAGAATATTTTATTTTATCTCATTAATTTTTATATTTTATATTACGCATTATCTTTATGTATC CTCTTTTCCATTTTAATTAATTTTTACAAAGATATATGGACCATTTACAGGTAGCTGATCAATTTTATACAATATTGCAC CGACATTGCAACAAAGTGCAGGTCTTCTACGGTTGGACATTCTTTGCGTACGTAATGTTTTCACTTGGTCTGTTCTTAAT GCTGTAACTGATACTTGATGCAGGCTGTAAGCTGTGATGAAGCATTTTTAGATGTCACACATTCAGAGGTTAAAGATCCT GAACTTTTAGCTTCATCAATTAGAGAAGAGATCTGTAAAACCACTAGATGTACAGCCAGTGCTGGTATAGCTGGAAATAT GCTCATGGCTCGTATTGCTACCAGAACTGCAAAACCAAATGGTCAATATCACATAACTCCAGAAAGGGTAGGTTTTGGAG TATTCTGTTTTAAGAAATTGTTATCTTTGTCCTAATTTTTAATATGTAATTTTGGTGTGATGAAGATATCATATAATCCT GATTAAAGGTCCTATATCTTTTTCCTTTCTCTGGAAATCTCTTGTAAGAGTGTATTTGTTCATGAATTTTATGCTGAAAG CTTCTGATTATCTTTGGATGTTTTCAGATTGAAGTATTGGTGCAAGTTTTTCTATTTTAATTCTTTATTTATAGGTATTT TTTGTATTTTATGAAAATTTCAATGAGAAATACTAAGAGGTAGCGCTGTGCTAGATGTCGATGTTATGTTTAAGTCCCAT TGGGTCTTTGCTTGACCAATAGATTTTATTACTCTAGACCATGATGCTGCTAACTTTTCTCAGAAGTGCTAATTCTAGGT TAGACGTCCATTGTGGATATTCAAATTCACTGTTTATAATCTGCCGGTAAGAGTTTATGGTGATTTATGCTACTTGTTTA CTTGTTTTCAACTTATACTGTTTGAACTGTATAACCTCCTAACAGATCAGCTTGTCCCTTGAATTGTCCATATAATTAAT GAACAAATCGGGACAATTTGATACATATTGTTGCTTGTCAATTGTAGCTGTTGGTTGTTCACTTGGACACATAAATCTGC TACTGTTCTGTACAGTTTATGACTTTATGTTATTTGAAATTATAATTGAGGTGTGGAATGTCTCAATATCATCTAGCTCT GATATTTAATTTTTCTTTTCCAGGTTGATGATTATTTATGTCAGCTCCCAATTGATTCACTTCCTGGGGTAGGGCATGTT TTACAGGAAAAATTGAAGAAGCAGAATGTTCATACTTGTGGTCAATTGCGGACAATTTCAAAGGTTTAACTATTCATTCA CATAACATGTTTTTTGTTCCTCTGATTTTTCCTGATATTATGAAAGTTCAATTGCTGTTCATTAACCTAATTCTAAAGGT CAATTTGTAATGTTTGCTTTTAGTCTGTTATACATGTTCTTCTTTTGGTTTTAGACATCGATCTTTTGCCTTGAGTTTGG GTAGGACATGGTGTGGTTTGTAGATTTAGAAACCTTATTAAAAGAGTAGAGACTTGGAAGAAAATACTTCTTACTGATTT TTGGAAATTACATCAAAGAAAATAATCATTGAAAATGAAAAGTTCATTTAAGCCAAAAAAATAGCTAGAATTCGAGGAAA AAACCTTCATGAACTACAACCCAATTTTATTTAAGTATCATCTTTTGCACAACTCATTTTTATATTACTACTCAATTTAT TTTCTTGAATACTATGTAGTTATGTTCCATCTTTCTTACAGGTATTTTTAATGTTCTATATTTGTAATTGTACCTGCTTT CTTTACATCTACAGGCCTTACTGCAGAAAGACTATGGAATGAAAACAGGAGAAATGCTGTGGAACTATAGCAGAGGAATT GATAGCCGGGCTGTTGGGGTCTTTCAGGTCCGGGAGAAGGCCACCATTTCAAACTAATATTTTATATTTTATCTTTAAAA TCCGGACTTGATTTCTCGTTATTTTGATACCAGATATGTAACATGATTTGGATATATGATTTGTCTACACTTCTGCAGGA AAGTAAGTCTATTGGTGCTGATGTAAATTGGGGTGTGAGGTTCAATGATGTGAAAGATGTAGGTACTTTCGGCACTGTAT TTGTTTTTTTATTTCTTGCACGTTTCTATCTTACAAAGCAGAATCTACCAAAATATTGAGGTGAAAGTTATTTCAGTGTG ATCGCTTCCTAATAGACCTTTGCAAGGAAGTTTCATTACGATTGCAATGTTGTGGAGTTCAAGGGCGCACTTTCTCTCTC AAGGTACATTTGCTTGATAGATTTTATTAGATTATTCAGTTATCAGCTTTCTGTTTTAGCTGCTGAGCTGCTTTTCACGT CCTGTTTTATTTCTACAACTGTTCTATGCTATTATCACAAAATGTATCTTATAACTCTGAGTCAACAAGATTGAAATTTG CAAACTTTGTTGGATATATGATGTAGATCAAAAAGAGAAGAAAAGATGCTGTTGAACCTGCAAAGTTTATGGGCTGTGGG GACTGTGAAAATTTGAGTCACTCAATAACGGTAAATATTGAAACATCAGACTTTTTTTATGTGTGATATTAAAGTGCCAT ATTGGCTTCTATAAGCGTTCTTAATTATTGTCTGATTTTGTGTTGTTCTTATCATAGATTCCTCTTGCTACTGATAATGT GGAAGTACTCCAAAGAATAGTAAAGCAACTTTTTGGATGTTTTTATATAGGTATCTAATCTTCACTCTGGCTTTCCATCA TATGATGAGTGTGAATAAACAGTTTTGGTTTATCTTTAGATTCTTGAATCCTTTACTGCATTTGATTTTATTAGCAATAG AGTTAAATAAACAACAACCTCATTTAGTGAGGTCAGTTACATGGATCAATTGATGTCATTTCTCTTTATCAAAAACCAAA ATTTCAAAATTCATTCAAAGCAAGGTCTTTTACTGATGGTTTCACTGAACTCTCTTTGATCTTCCTCTACCGCCTTCTCC CCAACAGAGAATTAGAGAAAACATAGTATTACTTTAGAAAGATATAGAAAGTGAGGTAGTAAAAGAAGTAAAAAGAGAAG GAAGTGTAGACATGAAGTAAAAAGTCAAGAAACTAGAGAGATATAGAAAAATATAATCTATATCAGTTCATTTTTTTGTT TTCATTTATATTTACTATTTTCAAAGTTTTATACATGAAATTGTGAAAACAACTTTTTCTGTCCAAAACTTTAAAAATGG TTATCACATTGAACACAAAGGTGGTAGTTTTATCTGAAAATAGTAGATGAAAATAGAAACCAAAAAAGCCCTAATATTTC AAAGTGAAGGAATTGGGTCGTCATTGTAACAAAACTAGATGCCTGCATGGTGATGAAGCTTCTTTATCTTTTTATTTTAT GATGGTAGTTTCTTTCTCAAAATGTTACATAGTGTTTCAGCCAATAAAGCATTAATTGGTAACTAAAGTGTAAACATCTT CATCTTCTCCTTTTGATGATTTCATATAGATGTCAAGGAGATTCGAGGTATTGGCTTGCAAGTTTCTAGATTTGAAAGTG CAGAGACTTCGAAGCAAGGTACCTGTATTATTCCGAACAAATTTTAACCTTATATTATATGAGCTCTAATAGTATATTTT GTGGTTGTGCGTGAAACTAAATTTATAGGCTATTTTATGAATTATATTAGAACTTTTTTAAGCTGGGATCTTCTACCTTC ACAACTCTCCTCTTTCCATCCCTTTGTTCAAGACAAATTTCACTACTTTTCCTTGGGTTTGAACTTTGCTTTCAGTCTTA TTATTTTAATAATTTCTTTAGAGTTGTCTAATTCTATTTATTTCATGATGGTGCAGAAAAGTATTCTTTGAAATCATGGG TTGCTTCAGGAAATGCAAGTATGCAAAAACAGAAATATCCTATGGGTAACGGAAATTGTTGTCATACAAGGGTTACATAC TATGCTATTATTTACAAGATTTCGGTGCTTATAATATATGAATAATTGTTATACCATTGTGCGATTTTGTTAGTGTTGGA ATTAATAAAAATTACTTCTGGTGGTTTCTCTTTCTTCAGATCAAGACAAGCAGAACATGGATGGTACTTCCAGTGGTGAA TGTAGAGGAGGGTCTTCAGTTAAAATACAGAATAACCAAGCTAATGCTAACCCAATTTCAACACCTCCTCCTTTGTGTCA CCTTGATGTGGAAGTAATAAGGAATCTTCCCCCAGAAGTGTTTTCAGAATTAAACGAAATTTATGGAGGAAAGTTAATTG ACTATATTGCTAAAGGAAAAGGCACAAGTGAGACTTCTAGCTCTTTACAGAACTTGTTTTTGGAGCAAGAAAGTAAGCTT TTTTTCGCCCTGTTTTGTTGGTGTAGCTAATTCGCACTAATAGTCAACTCAAATCGCCATATGCTTTCAAATTATTTTTT CAGCAGCAATAGACAAGGAAGAGGAACTTCTGAATCTTGAGCCGATTCCTCAAAGAAAGCTATTATCAGAAATCGAGGTA ATTGTAACTCCTTTTTTTGTGGCTTATTGCAATTGATATCAGAGTTATATTCATTTATATGTAAGAAATGTTTGTTTTTT TTCTATTTTTGGAGCATTGTTCTATTTTTCTAAAATTATTTTATTTAGAGGTATATATCATAATTTACTGCTAGGCTATG CAACATGGCGCAGAGCAAGGTGACGCAGTATCAGGTTCAGGGTGTGGACCCATTTTCAAGGTTACTCACAGTTCGAGTTT TGAAAAAGATGATTTGTTGCCTTCTTCTTTAAGTCAAATTGATGGTTCAGTGTTACGACAATTGCCTGAGGATTTGAAAG CTGTCATTGTTCAGCAGCTTCCTGCACACAGGACGCAAGAGATTTGCTCCAATGGTGCAATGGTCCCTCCTAGTGAAAAT CATCATGTGTCACTAAGTATTAAAACTTCTGAGAATCCTGGATCGAGTTACAGTGTTTTGGATGATAGTCTTTGGACTGG GAATCCTCCAAAATGGGTTGAGAAATTTAAAGTCAGCAGTTGCTTATTATTGAAAATTTTTGCAGAAATATATTCCAAAT CAGGGTTGTCTAGCACATTATCTTCAGTTTTGCACCAAATTATATCTGAATTCCACCAGCTAAATCTAGCACATCAGATT TCTGATGAAACTGTTAATATTATCTCTGAGCTACTGAAGCAGTATATCAAAGTGAGGATAGGAAGAGATATTGAAGAGAT TTATATCTGTTTTCGGCTTTTGAAAAGGTATGTGAATCAGTTAATGTTTCAAGTTAGTATATGGCACTCTATTGAAAGGT TTATTGTTCATGATACATAATGTATTTTGTCCCTAAGTTTCTCCCGATGCCAATGTTATTTGTATCCATTTTGTTTGTTT TTGGATTAAGTTAGTACTTTAGTGATAATTGGGATTGTGTTGAATTAGGCGTAGAGTGGATTAAAGCGACGTTAGTTTAT TTCTAATATACCAACATTTGTATGTCTACCACCATCTTAGGCTCATATCCAGATTATCCAGTGAAGCTCATGTGAACTTG GTGTTTTTGTAAATCCCTGAGAATTTCTTGTTATTTTTTGACCTTTTTTTTACGGTGTTACACAACCTTGATTAATGACA CGATTCATCAATTACGAGTAATATGAAACCGGTGATTGTGCAGTTAAATTTATTTTACTTCGTAGGTTTTTCAAGTTATT ATTGTGACAAACTTTGGAGTAACACTGGAATTATTTTCAGGTTTGCAGCAAAGTCACAACTTTTCTTACAAGTGTATAAT AGTGTATTTCCATACCTTCAGGTATACCTTCAGCCTACATCCTCTCTCACGTACTGTTTGTCTGGCCCCTGAATGATGCA CTTAGCATCTGTTAAATAAGAATTAGAACAGCTGTCATAACAGCTGGCAGCAAAGTAGTATAAATAAGGCCATTAGGCAG TTAGAGATGTTATGTTAGTTGTAACAAGAATTTTATCTCTCTAATCTCAATTCTCAGTTCCCTTCTCTCTCTTTCTCTCT CTTTCTCCTCTCTTTCACTTCTTCTCCTATCATTGGTATCAGAGCACTCGATTCACGGTGACCAATGGCGGAAGCGACGA GGTTGCAGAGCTCAATCCGTGAGGCGGAGGAGCGGATTACGGCGACGATCGAGCCGTGCATCAGTAGGCATTTGCGTGAG CTGGAGCAGAGGTTCGAGCTCCAACTGAACGGGTTCCAGGAGGCGATGCGAGGCCTCGGGTTGCAGATGACGGAGATGTC GTCGCGGCGGAGAGGCGCGAACGACGGCGAGCACCGCATGCCGACGCGATTGACGCTATTGGATTTTCCGAAATTCAACC GCGACGAAGCTGAATCGTGGCTTGTGAAGTGCGAACGATTCTTCACGCTTGACAACACGCCGGAAGCAGAGAAGGTAGCG ATTGCTAGCATCGCAATGGACGAGAGTTCTTTCCGGTGGTTCCAGACCTTGGAACAGAGCACGACTGGTCCAGTTTCTTG GATGCAGTTCAGCGATGCAGTGAAGGTGCGTTTTGGTACTGAATTCGATTCACCATTAGAGGAACTTAAGCGCCTGGTTC AAACTGGAACTCTAGAAGATTATCAAGAGGCTTTTGATACCTTGGCTGCGCGCACAGATTTGTCAGAACCTCAGAAATTG CAAGTATACTTGGGTGGATTGTGTGCTGAGTTGAGCAATGGTGTGAAGATGTTTGCACCAAGGACGTTGCTTGAAGCTAC ACGAATCGCGAAATTGCAGGAGAGGAGCATCGAATTGCTCCAGAAACGCACTGTTTCGGGTGTCAGAAGCACCGGCGCAT GGTCTGACAAGCGCGGAAACTCTTCATTTGTTGAGAAGAAGTTACCAGAGAAGAAACCAGGGGGTGATTCCAATCAGAAA GGAATTTTAGGAAAACCTAATTACACATTTCAGAGGAAATTATCTCCTAAAGAGATGGAAGAACATAGAGCACAAAATTT GTGCTTCTTCTGCCATGAGAAATTTTCTCCAGGGCATGATTGTCCGCAAAGGAAGAAGCTCCAAGTTTTCTTAATGGAGG TTGAGGAAGGTGAACCAGAAGCTGTTGACTCTGCAAGTTCTGTTGATTCTGAACCAGTTGTTCCTACATTATCCTTGAAT GCCATACATGGGGACTCTGAATATCCTTTGATGAGGTTGACTGCATGGATAGGAAAGAAGAGGATTCATGTCCTCATTGA TTCTGGAAGCTCACACAACTTCATTGATCAAAAACTGTGCAAGGAAGGCCTGAGCTACCTTAGACCCGTGCATCCTCTAC TGAAGCCTTTACAAGTTACTGTAGCAGGTGGTGGAGTCATGCAAGGTACAGGCCTATGTGATGGAATACAGTTGAAGATG CAAGGGTATGATTTCTTCACTAGTGCTATTGCTCTTCCTTTAGGTAGTTTTGATTTGATTTTAGGCTTACAATGGTTAAC TCAGTGGGGAACTATATCATGGGATTTCAAAGCCCTTGTTATGGAATTTGATATGGGACACCTTAAGGTGAGATTGCAAG CTGATAAGAGTGGGAAGGATAGAGTAGTTTCAGCTGCTAAACTTAATCAAATTGTAGCTGAGGAAAGCTTTTGTTTTATG CTACAATTGTTTCCATGTTCCCAAGAGAAAGTGTGTTGTGCTCTTGGCTTAGAGGAACCTGAGGATCCTGCAACTAAAGA ACATAAAACCACTGTCCTAGAGGAATTTAAGGATGTTTTTGAGGAGCCTACACAGCTACCCCCATTCAGAGGCATCCATG ACCACCAGATTGTTCTGAAGGAAGGGTCCAACCCAGTTAGTTTGAGACCTTATAGGTACCCTCCTGCACAGAAAGATGTC ATTGACAACATGGTGAAAGAGCTGTTGGATTCAGGGGTTATCCAACCTAGTTCTTCTCCATTTGCTTCTCCTGTGGTCTT GGTTAAGAAGAAGGATGGCAGCTGGCGGATGTGTGTAGACTATAGGAAGCTTAATGACATGACAGTTAAAGCAAAATTTC CTATTCCTCTTGTTGAAGATTTGCTGGATGAGCTAGGGGGTGCTCAAATTTTCTCTAAATTGGACCTTAGGTCTGGTTAT CATCAAATAAGGATGAAACCAGAAGATATAGCTAAGACTGCATTTCAGACTCATGGTGGACAATATGAATATGTGGTCAT GCCTTTTGGGTTGTCCAATGCCCCAGCCACATTTCAAGGTACCATGAATGTCATCTTTGCTAGTCTATTAAGGAAGTGTG TGCTCATCTTCTTTGATGACATCCTTGTCTATAGTAAGTCCATAGTTGAGCATGTGGCACACCTTAGACATGTTTTCACT GTTTTAAAGACTCATTCCTTCTATGTCAAGAGAAGTAAATGTGCCTTCTTTACTACTCGAATTGAGTACTTGGGCCACTT CATTACTCCTGAAGGGGTTACTACAGATCCAGCCAAGATCATGGCAGTTCAAGAGTGGCCAGAACCTCAGACACTTAAGC AACTCAGAGGTTTCTTGGGCCTCACAGGTTACTACAGAAGATTCATTCAAAATTACAGCATGCTAGCATCACCTCTCACT GACTTACTCAAGAAAGATGCCTTCATTTGGTCTGATAAGGCTTCCCATGCTTTCAATCAGCTCAAACAAGCCTTAAGTAC TGCTCCTGTATTGGCTATTCCAGATATGGCTAAGCCATTTGTAGTGGAGACTGATGCTTCCAGTACAGGAATTGGGGCAG TTCTGATGCAAGACAAGCACCCTATTGCATTTATTAGCAAGGTTCTTTCTCCCAGGAATAGGTTGCTATCAGTTTATGAC AGGGAATTACTAGCACTTGTGCATGCAGTGTCTAAATGGCACCAATATCTGTCTCTTCAACCTTTCCTCATCTTAACGGA TCAACATAGTTTGAAATTTTTACTGGAACAAAGGTTGTCTACACCTGCACAGTATAAATGGGTTACTAAATTGATGGGTC TATCTTATGAAATTAGGTATAAGCAGGGAAAGGACAATGTTGCTGCGGACTCCTTATCCCGGGCCAATCATGGAGAGTTG CTACACTTGGCAGTCTCTTCCATTTCTTCAGAATTGTGGGATCTAATACAACAAGCCTATGTTGCAGATTCTTCCCTCAA GGATCTTATGCAAGAGGTGAATGCTTCTCCTGACCAGCATCCTCATTACAGGGTGGTGGATGGTTTCCTTTTCCGGAAAC ACAGATTGGTAGTTCCCAATAATGACCAAGTCAGATTGGTTATTTTGCAATGGTTGCACTCCTCTCATCAAGGGGGGCAT TCGGGTATAAGGGCTTCTACTCATAGGATCAAGTCCTTATTTTATTGGAAAGGACTTAGCAAGAGTGTAGCTGAGTTTAT TCAAAGGTGTGAGACTTGCTTGAGATGCAAGTATGAACCTCATGCTGTTCCAGGTTTGCTGCAGCCCTTGGCTATACCTG ATGGAGTGTGGCAAAGTATTGCCATGGACTTCATTGAAGGGCTACCCAAGTCCCATGGCAAGGACACCATATGGGTGGTT ATTGACAGGCTTAGTAAGTATGCTCATTTCATAGCCTTGTCACATCCTTTCTCAGCTTCCACTTTGGCTGAGGTGTTCAT CAACAATGTTTACAAACTTCATGGAGCCCCAGCAAATATAGTGAGTGACAGGGATCCCCTCTTTACTAGCAAATTCTGGG CAGCATTTCTGCAACAATTGGGCATTTCTCAGAGCTTGTCTACTGCCTATCATCCTCAATCAGATGGGCAGAGTGAGGTC CTCAATCGTTGCTTGGAACATTACTTGAGGGCCATGACTTGGCAGAGACCAAAGGAGTGGGCTGCTTGGCTGCCTATGGC AGAATGGTGGTATAACACCACTTTTCACTCTGCAATCCAAGCTACCCCTTATGAAGTTGTTTATGGTCAGCCGCCCCCCT TGCATTTACCTTACTGCCCTCAAAGCACTGTGGTGGATGCTGTGGACAGAAGCTTTGTTGCTAGAGAGGAGATGATCAAC AAGTTGCAAGGTAACTTGGCTCGAGCTCAAGCTCGCATGAAGACCTTGGCTGATAAACACAGGTCTGATAGAGAATTTCA AGTTGGAGATTGGGTTTTCTTGAAGCTCCAGCCTTATAGGCAATCCTCTCTCACTTCTAGGGCTTCACAAAAGCTGTCCC CTCGTTTCTTTGGCCCATATCAGATACTACATCGTGTAGGCAAGGTTGCTTACACCCTCAATTTACCTGCTACCTCACGC ATTCATCCCACTTTTCATGTTTCCCTGCTGAAACCTTGCCCAGATGCTACAGTTTCTCTTTATCCTCTTCCGGAAGATTG GGGCAGCATGGATAATCCTAAGGAACCATTCAAGATTTTGAAGAGGCGCTCTGTGCAGAAACACCATAGAGCTGTTACTG AAGTCTTAGTGCAGTGGAAAGGGGAAAGTGCAGAAGAGGCCACTTGGGAATTGCTATATAAGCTGAAGCAGCAGTTCCCC TTCTTTGATGTTACTGCTTCTCCTTGAGGTCAAGGAGAGTTTTAAGGGGAGGGATATGATGCACTTAGCATCACTTAGCA TCTGTTAATTAGGAATATGATGCACTTGTTAGCATCTGTTAAATAAGAATTAGAACAGCTGTCATAACAGCTGGCAGCAA AGTAGTATAAATAAGGCCATTAGGCAGTTAGAGATGTTATGTTAGTTGTAACAAGAATTTTATCTCTCTAATCTCAATTC TCAGTTCCCTTCTCTCTCTTTCTCTCTCTTTCTCCTCTCTTTCACTTCTTCTCCTATCACTGAATCTGAGATATTTTAAT TGGATGGCTTGGCTTGTACTAATAGCGAAATGTCTGTTTTAAGGAAACTGTTTGGTAGTCTTTTCCTGTATCTTTGTAAA TGCAGGAATTTTAATATTATAAATTTATAGGGTGAATAGAAAACAGTAAATTACACTCCCTCTAATGTCCCTTTGTCTGT ATCTTTGTAAATACAGGAATTGCTTTCTCAAAAGAAAATAAGTATATATATTTTAATATTAGAAATTTATAGGCTGAATA GAAAACAGTAAATTACACTCCCTCTAATGTCCCTCCCTTGAGAGAAGCTTAAATTAGTAAATTATACTCCCCACCCATCT TATTTTGAAAATTTCATTCTCCTCTTATGAGAATTAAATATTTCTTACACTTCCCATTTTATATAATTAATTCTATGGGC ATTTTAATATAATTTGGAACTTATGCAATTAACTATGGGACATTAGAAGACAAATAAAGATTTGGGTGAAGTTTAGAGAA AGAAAAAGTTTGGCCTGGCGACATATTTGTAGTTGTTTATCATCACTAAAAGATTCATTTTGCTAAAGATTGACTAAAAT GTAGTACATGCTTATTTGTTTGAGGGGGGGGGGGAGGGGGGAGAATAGGTTCTAAGGCTAAAACAAGAGGGAAAGGGAGT GTATTTTAACCTTCTCTTGAGGGAAGCGGGGTGTAATTTACACTTCAAAAATTACAAAGAGAAACGAGGATAGGAACTCC TAAACAAGAGAACAAAAAAAAAGGGAAAAGCTTCCCATTTCCTCAACATATTTGTTAGGAAAATCCAATTAAATAGGGCA TCCGCTTTACACTAAATAGATGGCAACTGCCTGGGGGGGGGGGTGGGAGAATAGGTTCTAAGGCTAAAACAAGAGGGAAA GGGAGTGTATTTTAACCTTCTCTTGAGGGAAGCGGGGTGCAATTTACACTTCAAAAATTACAAAGAGAAACGAGGATAGG AACTCCTAAACAAGAGAACAAAAAAAAAGGGAAAAGCTTCCCATTTCCTCAACATATTTGTTAGGAAAATCCAATTAAAT AGGGCATCCGCTTTACACTAAATAGATGGCAACTGCCTAATCTTATTCCAAATTAAGTGACATGCCAAGGAACCCTTTGT AAAATTAAGAAAGCTTTGCTCCAACTATTTGTACCAAATTGCCATGAAATTTTAGCCTCTTTACGTCTGCCACATCCATA AAAGCTAATCATCAATATCAATGTAAGTATAGTTCTGACGAGAATTGTATCTTATCTGTGTACCGATTATATTCATCATG TAAATATTTAGTTTGTGCTGTAGTTGGAATGCATGATTTTAGCCCGTGCTTCTCTTTTCCCTCTACTTCAATACATATTT AATTATACTCTGGTTAAAATATTGTAGGCAGCTGTTGATGACAATTATGGAGGAAGTTTGTTTATAGCATCGTAGTAATA CGTAAAAGATTCTAAATGAGCAAAATTCACTGGTTTAACTGAATGCGCCTATGAGATCAGGTAGCAATCAACCTTTCTAT CCATCATGATGTCCTGCAGAGGATGTTCATCTCATTGATAAAATTGCAATTTTATTTTGCATTGTTTGCATTTTACTTTC TCCTCATAATTTATAATCCTTCTTTGTCATTCGTTGTCCTACTGAATCTTTTTGTGGTGTTAAACTTCTCATATTAACTT CTTAATGAGTTTGAGTGTCTAGTAGTTTCCTGTATGTTTTTGTGGCTGTGGTTTGTACAGCTCCTTTATTATTCTTGTAA TCCTATTTCTTGTCCTATATTAAATCTTCTCTCTTCGATTTTAATCATATCTATTCTCAACAGTTGTTATGTATATTTTA TTAATTAATTGTTAATTATTAATTGTATCAAAAGCTGTTCGCATTGTCACATTGACTTGTTATGTTGCTGTCTCTAAAAG GTTTATGTCCGTTGCACAAGAATACAATTAACCTGGCAGCTTACCACTTCATTCTTTATAACTGGCAGGTATATCCGTTT TAACTTCTCTCTAATAATTTCTTATGTAAAGCTTTTGCCTTGTTATTTTATCCTTTTCTTTGAGCATCCGAATCTGATAT TATGTTATTAGATCTATTCTAGTATTATGCATACCAGATGTAGCTATAAGCCATTTATAACCATATTATTATTTAAACTT TCTCAAGCCATGCCAGCTCTTCTTAATGCCATCTCCACTCATCCTCTATGGTTCTACCTAAGTTTGTCCTTTGTATTGAA TTGTACTTTTAATACATGTGTTACAATTTGAACCTGTGTATTGCCTCGTTTTCTTCAAATGACTCCAGCAATGGCAGTAT GGCACCACCAATGAAATGTAGAGTCCCTATATCGTTGTGGTTAGTGGAGAACAGCCACCGGACAGGATTTCTCGTAAAAT GGATTTCTTTTGTTTCCCTCGAAGTGGCTTGTCAACCATGTTTTCCCTCCCTCAAAACAACGCTCTTCACCAACCTTTAC AGTCTTGGCTTTGGGCAAGACAGCGATGAGTTGTTAGCTCCCGGATGCCAATCAAAGAAAGCACTCCTATACAGCCTGGT GTTGATTCTGCAATTTGCGTCTAGTGGGGAGCTTTGTCATCTCAAATAATTAGTGGATTTTTCCTTGCATGTGGATCCGA ACAACACTAGCATATCTATTGAATCAGGCTGCATTGTTGCAATTAGTGCTGGGAAGGGTAGATTTGGCCATCTTGGATAA CCGTATATGATAAAGTCAATAGAGAAACTGCATGGATAATTCAGTGCTACTTTGCTACGATCAAATAGGTCAGTTTTCAG CATGCTCTGAGTAGTTACTTAGGTTTGGTAGGTATGTAGATATATTCATCTTTATTTATCTTTAGTTACTCTTGGAAGGA GGGGTGTTGGTTCATTTACTAGATGTTTACTGGAACTGTATTTTCTATATATAGATGCACTCAACCTTTTCAATTTGTTC ATCTAGCCCCCTCATTCTTCCATCTCCATTTAAGCTACATGCTGGTCTTGGGATCTATAAACTTAGTCACTGAACATGAG ATAGTGAAATACTTGATATATGTTTGTGTATTACTTGTCCGTGGTTCTTCAAGGTGATGTAGATTATGATCTATATTTCT TGCAACTGTATATTCTAATTTGCAACAGTTGGTACTGTCATATCCATTGCATCAGAGTGGAGCACTGTGGAGAAATTGAC CCTTATTCTCCCCGTCCCAAGAGCCATTTAGATTTGATAAAATTTTACGTGAGTTTTGTAGCATAACCCTTCTCTGTTTA TCCCGATTTGGGAATGATTATGTGAAATTTACCACAAAGCAGACATAGGAAGAGTAATGTTGTGAGAATATGGTTCACGG ATGCACCATGATGTAAATGCGGTTTCTATATTGAAAGCAGATGCAGCATCCTGATTGTTGTAACATTTCGACCTGAATAC CAGGAGGATTACCATACGCAGGCAAGATCATGTAAGCAGTGAGTGTGGAGCAGAGGGCATCCTAAGAGATACAAACATAA AAGGTGGGATTACCGGACGATATAGTTATTAGAGATGTTAAAATTGGCCAGAGGTCGACTTTAATTATCCGGACCAAATG GTCCATTTTTTTCTTTTTATATAATTTTTTTATTGAATTAAAACATATTCAAATATATTATTAACAAAAATTAAATAAAT AATGAAAAGGAACAAAAAAGTAAAAATAATATCTAAGGGTTTTGTTTTCTTTCTAAAAATGTCATGCATTAGGTGGGATG GAGGAGTAAGTGGCAGCTTTTGACTCTGGTCAAATTCATATGGGGTTTGATTTCTGATGCTTGTGTAAGTTGGCATATTA ATTTTGTTCATAAAGCCTTCCCTATTCTTGTTGTCATTCAACTCAATATATGTAAGATTGAAAATGTGAGAGAGTTTCAG CCGAGTCTGCTAGTTCAGACTCACTTCAACATGCAAAAACAAAGTAAGTACAAGGTTATTTATTTATCTTTTTAGGTAGA GACGAAGTCAATGAAAATGTGAACTCAGTTTCTTTACTGAATACTTATTTCTCACAATTCACGTTCACTCTAACCCGCCT GTTTATTTAGATGAAAAGGGAAGATGTAGTTGGTAGCCTTTTCTAAGATTCGGTGCAAATTTGCAAAGCAAAATCCATGA AGTCAAGATGGGCAAGGTAAACAATTTCTGCGAGGTATTTCATAATGATAAATTGCATGCTTA

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0461300.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGTTTGGATTCGTTTCGAAGCTCCTCCTCGTCAGGCTCAGGCTCAGGCTCAGGCTCAGGCTCTAAACGAACTTCCTC TTTCTCTAATGCTACCAACAAGACGAAGACGAAGACTAAGAAGAAGAAAACCCTAGGCGTTGCTTGGGGCTCTAATGCTC TCCCTCCATCCGATTTCTCCGGTTATATGGCACTCAAGAATCGGAAACTACATGATCAGTTTCATGCTCAATCTTCTTCT TCTACTTCTACTTCTACTTCTGGGAAGCCTATATTCACTGGAGTTTCAATTTTTGTAGATGGTTTCACGGTTCCTTCCAG CCAGGAACTGCGAGGCTACATGTTCAAGTATGGTGGAAGATTTGAGAATTATTTCTCAAGACATCGTGTAACGCATATCA TCTGCAGTAATCTTCCTCACACCAAACTTAAGAACCTCAGAGCCTTCAGCGCTGGCCTGCCCCTCGTCAAACCCACTTGG ATTTTAGATTCTGTTGCAGCTAATAGACTCTTGCCCTGGCTGCCCTATCAGCTTCACCAACTTGCTAATAATCAACCAAC ACTATCAGCTTTCTTCTCATTCAAAACTAGCAAACTGTCTGACATGGAGGATTCAACTACAAATGTTTGCCAATCTCAAG ATAGACACTCATCCAAAGTTAATGGGCTTATCAGTACCGTATCCAATGATACTATCCCTGAGAATGAAAATACTAATGCA TTTATGCTGGAAGATTCAACTAATCTTGTTAGAGTTAAATATGATGAAGGAAGCACTGCTGCTACTCAAGAAAAGACAAA TGTCCAAGATGAACTTGAGCCTAATCATCAAGAACCTTCTACATCAGTTAGTAGCCCCTGCTCAGATGACCAGAATGTAA AAGAATTTCAAAGTTCTGCAGCCACTCGGCTTTCTAAACAGGGACATTCAACTCTTACAGATCCTAATTTTGTGGAAAAT TATTTCAAGAGCTCACGACTACACTTCATAGGAACCTGGAGAAATCGGTATCGAAAGCGTTTCCCTATGCCATCTGCTGG GCTTAACAAAGAAATTTCTAATAATTCTTCTGATGTTTCTAGGAATTCAGTCATTATCCATGTTGACATGGATTGTTTTT TTGTCTCAGTGGTTATCAGGAGCCAACCTGAATTGTTTGACAAGCCTGTAGCTGTATGTCACTCAAATAATTCAAAGGGA ACTTCTGAGATTTCCTCTGCGAACTACCCTGCTCGTAGTTATGGTATTAAGGCTGGTATGTTTGTTCGAGATGCCAAGGC TCTTTGTCCTGACCTCGTTATCTTTCCATACAACTTTGAAGCTTATGAGGAAGTAGCTGATCAATTTTATACAATATTGC ACCGACATTGCAACAAAGTGCAGGCTGTAAGCTGTGATGAAGCATTTTTAGATGTCACACATTCAGAGGTTAAAGATCCT GAACTTTTAGCTTCATCAATTAGAGAAGAGATCTGTAAAACCACTAGATGTACAGCCAGTGCTGGTATAGCTGGAAATAT GCTCATGGCTCGTATTGCTACCAGAACTGCAAAACCAAATGGTCAATATCACATAACTCCAGAAAGGGTTGATGATTATT TATGTCAGCTCCCAATTGATTCACTTCCTGGGGTAGGGCATGTTTTACAGGAAAAATTGAAGAAGCAGAATGTTCATACT TGTGGTCAATTGCGGACAATTTCAAAGGCCTTACTGCAGAAAGACTATGGAATGAAAACAGGAGAAATGCTGTGGAACTA TAGCAGAGGAATTGATAGCCGGGCTGTTGGGGTCTTTCAGGAAAGTAAGTCTATTGGTGCTGATGTAAATTGGGGTGTGA GGTTCAATGATGTGAAAGATTGTGATCGCTTCCTAATAGACCTTTGCAAGGAAGTTTCATTACGATTGCAATGTTGTGGA GTTCAAGGGCGCACTTTCTCTCTCAAGATCAAAAAGAGAAGAAAAGATGCTGTTGAACCTGCAAAGTTTATGGGCTGTGG GGACTGTGAAAATTTGAGTCACTCAATAACGATTCCTCTTGCTACTGATAATGTGGAAGTACTCCAAAGAATAGTAAAGC AACTTTTTGGATGTTTTTATATAGATGTCAAGGAGATTCGAGGTATTGGCTTGCAAGTTTCTAGATTTGAAAGTGCAGAG ACTTCGAAGCAAGAAAAGTATTCTTTGAAATCATGGGTTGCTTCAGGAAATGCAAGTATGCAAAAACAGAAATATCCTAT GGATCAAGACAAGCAGAACATGGATGGTACTTCCAGTGGTGAATGTAGAGGAGGGTCTTCAGTTAAAATACAGAATAACC AAGCTAATGCTAACCCAATTTCAACACCTCCTCCTTTGTGTCACCTTGATGTGGAAGTAATAAGGAATCTTCCCCCAGAA GTGTTTTCAGAATTAAACGAAATTTATGGAGGAAAGTTAATTGACTATATTGCTAAAGGAAAAGGCACAAGTGAGACTTC TAGCTCTTTACAGAACTTGTTTTTGGAGCAAGAAACAGCAATAGACAAGGAAGAGGAACTTCTGAATCTTGAGCCGATTC CTCAAAGAAAGCTATTATCAGAAATCGAGGCTATGCAACATGGCGCAGAGCAAGGTGACGCAGTATCAGGTTCAGGGTGT GGACCCATTTTCAAGGTTACTCACAGTTCGAGTTTTGAAAAAGATGATTTGTTGCCTTCTTCTTTAAGTCAAATTGATGG TTCAGTGTTACGACAATTGCCTGAGGATTTGAAAGCTGTCATTGTTCAGCAGCTTCCTGCACACAGGACGCAAGAGATTT GCTCCAATGGTGCAATGGTCCCTCCTAGTGAAAATCATCATGTGTCACTAAGTATTAAAACTTCTGAGAATCCTGGATCG AGTTACAGTGTTTTGGATGATAGTCTTTGGACTGGGAATCCTCCAAAATGGGTTGAGAAATTTAAAGTCAGCAGTTGCTT ATTATTGAAAATTTTTGCAGAAATATATTCCAAATCAGGGTTGTCTAGCACATTATCTTCAGTTTTGCACCAAATTATAT CTGAATTCCACCAGCTAAATCTAGCACATCAGATTTCTGATGAAACTGTTAATATTATCTCTGAGCTACTGAAGCAGTAT ATCAAAGTGAGGATAGGAAGAGATATTGAAGAGATTTATATCTGTTTTCGGCTTTTGAAAAGGTTTGCAGCAAAGTCACA ACTTTTCTTACAAGTGTATAATAGTGTATTTCCATACCTTCAGGCAGCTGTTGATGACAATTATGGAGGAAGTTTGTTTA TAGCATCGTAG

Download CDS Sequence

Protein sequence (LotjaGi2g1v0461300.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSLDSFRSSSSSGSGSGSGSGSKRTSSFSNATNKTKTKTKKKKTLGVAWGSNALPPSDFSGYMALKNRKLHDQFHAQSSS STSTSTSGKPIFTGVSIFVDGFTVPSSQELRGYMFKYGGRFENYFSRHRVTHIICSNLPHTKLKNLRAFSAGLPLVKPTW ILDSVAANRLLPWLPYQLHQLANNQPTLSAFFSFKTSKLSDMEDSTTNVCQSQDRHSSKVNGLISTVSNDTIPENENTNA FMLEDSTNLVRVKYDEGSTAATQEKTNVQDELEPNHQEPSTSVSSPCSDDQNVKEFQSSAATRLSKQGHSTLTDPNFVEN YFKSSRLHFIGTWRNRYRKRFPMPSAGLNKEISNNSSDVSRNSVIIHVDMDCFFVSVVIRSQPELFDKPVAVCHSNNSKG TSEISSANYPARSYGIKAGMFVRDAKALCPDLVIFPYNFEAYEEVADQFYTILHRHCNKVQAVSCDEAFLDVTHSEVKDP ELLASSIREEICKTTRCTASAGIAGNMLMARIATRTAKPNGQYHITPERVDDYLCQLPIDSLPGVGHVLQEKLKKQNVHT CGQLRTISKALLQKDYGMKTGEMLWNYSRGIDSRAVGVFQESKSIGADVNWGVRFNDVKDCDRFLIDLCKEVSLRLQCCG VQGRTFSLKIKKRRKDAVEPAKFMGCGDCENLSHSITIPLATDNVEVLQRIVKQLFGCFYIDVKEIRGIGLQVSRFESAE TSKQEKYSLKSWVASGNASMQKQKYPMDQDKQNMDGTSSGECRGGSSVKIQNNQANANPISTPPPLCHLDVEVIRNLPPE VFSELNEIYGGKLIDYIAKGKGTSETSSSLQNLFLEQETAIDKEEELLNLEPIPQRKLLSEIEAMQHGAEQGDAVSGSGC GPIFKVTHSSSFEKDDLLPSSLSQIDGSVLRQLPEDLKAVIVQQLPAHRTQEICSNGAMVPPSENHHVSLSIKTSENPGS SYSVLDDSLWTGNPPKWVEKFKVSSCLLLKIFAEIYSKSGLSSTLSSVLHQIISEFHQLNLAHQISDETVNIISELLKQY IKVRIGRDIEEIYICFRLLKRFAAKSQLFLQVYNSVFPYLQAAVDDNYGGSLFIAS

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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	34	34	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	43	43	-	–
PANTHER	PTHR45990 View details on PTHR45990 Search for proteins/transripts with this domain View external data on PTHR45990	23	1092	1070	0.0	–
PIRSF	PIRSF036573 View details on PIRSF036573 Search for proteins/transripts with this domain View external data on PIRSF036573	23	1089	1067	6.4E-197	IPR012112 Show description in modal box View details on IPR012112 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52113 View details on SSF52113 Search for proteins/transripts with this domain View external data on SSF52113	80	180	101	7.27E-22	IPR036420 Show description in modal box View details on IPR036420 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.10190 View details on G3DSA:3.40.50.10190 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10190	80	179	100	2.2E-22	IPR036420 Show description in modal box View details on IPR036420 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50172 View details on PS50172 Search for proteins/transripts with this domain View external data on PS50172	87	178	92	20.545	IPR001357 Show description in modal box View details on IPR001357 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00292 View details on SM00292 Search for proteins/transripts with this domain View external data on SM00292	89	168	80	1.7E-11	IPR001357 Show description in modal box View details on IPR001357 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF16589 View details on PF16589 Search for proteins/transripts with this domain View external data on PF16589	89	176	88	9.8E-8	IPR001357 Show description in modal box View details on IPR001357 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd17719 View details on cd17719 Search for proteins/transripts with this domain View external data on cd17719	91	178	88	1.3935E-39	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	260	310	51	-	–
CDD	cd01701 View details on cd01701 Search for proteins/transripts with this domain View external data on cd01701	317	715	399	0.0	–
SUPERFAMILY	SSF56672 View details on SSF56672 Search for proteins/transripts with this domain View external data on SSF56672	358	596	239	2.13E-78	IPR043502 Show description in modal box View details on IPR043502 Search for proteins/transripts with this domain View on EBI InterPro Service
Hamap	MF_01113 View details on MF_01113 Search for proteins/transripts with this domain View external data on MF_01113	362	729	368	27.959	IPR022880 Show description in modal box View details on IPR022880 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50173 View details on PS50173 Search for proteins/transripts with this domain View external data on PS50173	365	546	182	55.316	IPR001126 Show description in modal box View details on IPR001126 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.70.270 View details on G3DSA:3.30.70.270 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.270	365	596	232	1.5E-85	IPR043128 Show description in modal box View details on IPR043128 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00817 View details on PF00817 Search for proteins/transripts with this domain View external data on PF00817	368	514	147	1.6E-42	IPR001126 Show description in modal box View details on IPR001126 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.30.40.20 View details on G3DSA:2.30.40.20 Search for proteins/transripts with this domain View external data on G3DSA:2.30.40.20	382	436	55	1.5E-85	–
Gene3D	G3DSA:1.10.150.20 View details on G3DSA:1.10.150.20 Search for proteins/transripts with this domain View external data on G3DSA:1.10.150.20	536	589	54	1.5E-85	–
Pfam	PF11799 View details on PF11799 Search for proteins/transripts with this domain View external data on PF11799	600	723	124	7.8E-12	IPR017961 Show description in modal box View details on IPR017961 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.1490.100 View details on G3DSA:3.30.1490.100 Search for proteins/transripts with this domain View external data on G3DSA:3.30.1490.100	601	725	125	1.3E-40	IPR036775 Show description in modal box View details on IPR036775 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF100879 View details on SSF100879 Search for proteins/transripts with this domain View external data on SSF100879	601	714	114	1.45E-15	IPR036775 Show description in modal box View details on IPR036775 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	740	765	26	-	–

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:0003684 View details of GO:0003684 AmiGO InterPro QuickGO	Molecular function	Damaged DNA binding	Interacting selectively and non-covalently with damaged DNA.	Subterm of View details of GO:0003677
GO:0003887 View details of GO:0003887 AmiGO InterPro QuickGO	Molecular function	DNA-directed DNA polymerase activity	Catalysis of the reaction: deoxynucleoside triphosphate + DNA(n) = diphosphate + DNA(n+1); the synthesis of DNA from deoxyribonucleotide triphosphates in the presence of a DNA template and a 3'hydroxyl group.	Subterm of View details of GO:0034061
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:0016779 View details of GO:0016779 AmiGO InterPro QuickGO	Molecular function	Nucleotidyltransferase activity	Catalysis of the transfer of a nucleotidyl group to a reactant.	Subterm of View details of GO:0016772
GO:0042276 View details of GO:0042276 AmiGO InterPro QuickGO	Biological process	Error-prone translesion synthesis	The conversion of DNA-damage induced single-stranded gaps into large molecular weight DNA after replication by using a specialized DNA polymerase or replication complex to insert a defined nucleotide across the lesion. This process does not remove the replication-blocking lesions and causes an increase in the endogenous mutation level. For example, in E. coli, a low fidelity DNA polymerase, pol V, copies lesions that block replication fork progress. This produces mutations specifically targeted to DNA template damage sites, but it can also produce mutations at undamaged sites.	Subterm of View details of GO:0019985

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0461300.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0461300.2