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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0461300 |
| Transcript ID | LotjaGi2g1v0461300.3 |
| Related isoforms 2 | |
| 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_chr2:95437598..95456661) extracted from Lotus japonicus Gifu genome v1.2.
GGCTTGGTACTTTGAATCGCGCATTCGCATTCGCAATCGCGAGGGACTCTGTCTCTGAAAAATGAGTTTGGATTCGTTTC GAAGCTCCTCCTCGTCAGGCTCAGGCTCAGGCTCAGGCTCAGGCTCTAAACGAACTTCCTCTTTCTCTAATGCTACCAAC AAGACGAAGACGAAGACTAAGAAGAAGAAAACCCTAGGCGTTGCTTGGGGCTCTAATGCTCTCCCTCCATCCGATTTCTC CGGGTAATTTTTAATTTCACAAACAAACAAACAGAACAACTATCTCAATTTATAATTATGTTGTGTGAATGCACTGCTGC AGTTATATGGCACTCAAGAATCGGAAACTACATGATCAGTTTCATGCTCAATCTTCTTCTTCTACTTCTACTTCTACTTC TGGGAAGCCTATATTCACTGGAGTTTCAATTTTTGTAGATGGTTTCACGGTTCCTTCCAGCCAGGTTAATCCTATTTCTA TCATCCCTAATTGCGAGGCTACATGTTCCAGGATTAAAAAGGATCAAATAACTTTTTTCAGGAACTGCGAGGCTACATGT TCAAGTATGGTGGAAGATTTGAGAATTATTTCTCAAGACATCGTGTAACGCATATCATCTGCAGTAATCTTCCTCACACC AAACTTAAGAACCTCAGGTTTTAATTTTCACCTATTGCTTTTTTGCTTTCTTTAAATTTAATTTAATTGTTAGATGCGAT GCTCCAATACAGAGCCTTCAGCGCTGGCCTGCCCCTCGTCAAACCCACTTGGATTTTAGATTCTGTTGCAGCTAATAGAC TCTTGCCCTGTAAGCTTTTTGCATTTCTCATGCACCTTATTCATTTTCTCTTCTTACTTTCTATTTCCACTCTAAGGCTC AAGTCATGCAAATTTTGCTTTCATAGGGCTGCCCTATCAGCTTCACCAACTTGCTAATAATCAACCAACACTATCAGCTT TCTTCTCATTCAAAACTAGCAAACTGTCTGACATGGAGGATTCAACTACAAATGTTTGCCAATCTCAAGATAGACACTCA TCCAAAGTTAATGGGCTTATCAGTACCGTATCCAATGATACTATCCCTGAGAATGAAAATACTAATGCATTTATGCTGGA AGATTCAACTAATCTTGTTAGAGTTAAATATGATGAAGGAAGCACTGCTGCTACTCAAGAAAAGACAAATGTCCAAGATG AACTTGAGCCTAATCATCAAGAACCTTCTACATCAGTTAGTAGCCCCTGCTCAGATGACCAGAATGTAAAAGAATTTCAA AGTTCTGCAGCCACTCGGCTTTCTAAACAGGGACATTCAACTCTTACAGATCCTAATTTTGTGGAAAATTATTTCAAGGT AGGCAAGTTGGAACAAGTTTCCATTTTCATATTGCTCGGCGAAATGGTGACTTTCTTGTTGGTTGCACCATTTCTTTTTT GTTTAGATTCCACATCAACTCGAGATAAGATTAAAATAGAGACATGGAATCCTTGCCTCATAAGTTAGCTTTCGGCATTG ATTTCTGCCTAGTCCAAAATCAAGATTTTTTTATTCTTCCAAATTTACTGCCAATCAAACATAGGAGTGATTGATCATTT TTTATCAAACGTTCTTGAATTTCAATAGAGAAAGTGGATGAGGTAAATACTGGTGTAAAACATGCTTTAGGTTTATGTTT GTCACACTACAATGGTAAAGAAAATAAAGACCACTTTACTTCTACTTGATATTCCCACTGAAGTTTGGTGTATGCAGAGC TCACGACTACACTTCATAGGAACCTGGAGAAATCGGTATCGAAAGCGTTTCCCTATGCCATCTGCTGGGCTTAACAAAGA AATTTCTAATAATTCTTCTGATGTTTCTAGGAATTCAGTCATTATCCATGTTGACATGGTAAGCTATATGTACTGGGATA GTGGAAATACGTTATTGTTGTCAATTTTTTAATTTATTTTTTGGCTAGATATGTTGTTTAACTTTATCCTGATGATATAT ATTTATTATTATTTGACTCTTAAAGTTGACTGTTGTTTTATTCCCACTTTTGACTTTGTTCAATGCTTATGAAATTATAG TTTTAAGAATGAATGGTTTGTTCATATCTCTCTCTCTCTCTGCTGTCCCAGGATTGTTTTTTTGTCTCAGTGGTTATCAG GAGCCAACCTGAATTGTTTGACAAGCCTGTAGCTGTATGTCACTCAAATAATTCAAAGGGAACTTCTGAGATTTCCTCTG CGAACTACCCTGCTCGTAGTTATGGTTGGTTATTCTAAGTTATACATGCTAATGTGACTCAATTAGCTATAGATACTTGT CAAACAATTCAGGTTGGTATGTAACTTATGCTTTCTATATTGCTAGGTATTAAGGCTGGTATGTTTGTTCGAGATGCCAA GGCTCTTTGTCCTGACCTCGTTATCTTTCCATACAACTTTGAAGCTTATGAGGAAGTAAGAAGCAGTTGGATGTTCATAG TTTCTTTTTCTTTTTCCGAAAAGAGTTCATAGTTGAATGACTTATAATATAGAATGCTAGAATATTTTATTTTATCTCAT TAATTTTTATATTTTATATTACGCATTATCTTTATGTATCCTCTTTTCCATTTTAATTAATTTTTACAAAGATATATGGA CCATTTACAGGTAGCTGATCAATTTTATACAATATTGCACCGACATTGCAACAAAGTGCAGGTCTTCTACGGTTGGACAT TCTTTGCGTACGTAATGTTTTCACTTGGTCTGTTCTTAATGCTGTAACTGATACTTGATGCAGGCTGTAAGCTGTGATGA AGCATTTTTAGATGTCACACATTCAGAGGTTAAAGATCCTGAACTTTTAGCTTCATCAATTAGAGAAGAGATCTGTAAAA CCACTAGATGTACAGCCAGTGCTGGTATAGCTGGAAATATGCTCATGGCTCGTATTGCTACCAGAACTGCAAAACCAAAT GGTCAATATCACATAACTCCAGAAAGGGTAGGTTTTGGAGTATTCTGTTTTAAGAAATTGTTATCTTTGTCCTAATTTTT AATATGTAATTTTGGTGTGATGAAGATATCATATAATCCTGATTAAAGGTCCTATATCTTTTTCCTTTCTCTGGAAATCT CTTGTAAGAGTGTATTTGTTCATGAATTTTATGCTGAAAGCTTCTGATTATCTTTGGATGTTTTCAGATTGAAGTATTGG TGCAAGTTTTTCTATTTTAATTCTTTATTTATAGGTATTTTTTGTATTTTATGAAAATTTCAATGAGAAATACTAAGAGG TAGCGCTGTGCTAGATGTCGATGTTATGTTTAAGTCCCATTGGGTCTTTGCTTGACCAATAGATTTTATTACTCTAGACC ATGATGCTGCTAACTTTTCTCAGAAGTGCTAATTCTAGGTTAGACGTCCATTGTGGATATTCAAATTCACTGTTTATAAT CTGCCGGTAAGAGTTTATGGTGATTTATGCTACTTGTTTACTTGTTTTCAACTTATACTGTTTGAACTGTATAACCTCCT AACAGATCAGCTTGTCCCTTGAATTGTCCATATAATTAATGAACAAATCGGGACAATTTGATACATATTGTTGCTTGTCA ATTGTAGCTGTTGGTTGTTCACTTGGACACATAAATCTGCTACTGTTCTGTACAGTTTATGACTTTATGTTATTTGAAAT TATAATTGAGGTGTGGAATGTCTCAATATCATCTAGCTCTGATATTTAATTTTTCTTTTCCAGGTTGATGATTATTTATG TCAGCTCCCAATTGATTCACTTCCTGGGGTAGGGCATGTTTTACAGGAAAAATTGAAGAAGCAGAATGTTCATACTTGTG GTCAATTGCGGACAATTTCAAAGGTTTAACTATTCATTCACATAACATGTTTTTTGTTCCTCTGATTTTTCCTGATATTA TGAAAGTTCAATTGCTGTTCATTAACCTAATTCTAAAGGTCAATTTGTAATGTTTGCTTTTAGTCTGTTATACATGTTCT TCTTTTGGTTTTAGACATCGATCTTTTGCCTTGAGTTTGGGTAGGACATGGTGTGGTTTGTAGATTTAGAAACCTTATTA AAAGAGTAGAGACTTGGAAGAAAATACTTCTTACTGATTTTTGGAAATTACATCAAAGAAAATAATCATTGAAAATGAAA AGTTCATTTAAGCCAAAAAAATAGCTAGAATTCGAGGAAAAAACCTTCATGAACTACAACCCAATTTTATTTAAGTATCA TCTTTTGCACAACTCATTTTTATATTACTACTCAATTTATTTTCTTGAATACTATGTAGTTATGTTCCATCTTTCTTACA GGTATTTTTAATGTTCTATATTTGTAATTGTACCTGCTTTCTTTACATCTACAGGCCTTACTGCAGAAAGACTATGGAAT GAAAACAGGAGAAATGCTGTGGAACTATAGCAGAGGAATTGATAGCCGGGCTGTTGGGGTCTTTCAGGTCCGGGAGAAGG CCACCATTTCAAACTAATATTTTATATTTTATCTTTAAAATCCGGACTTGATTTCTCGTTATTTTGATACCAGATATGTA ACATGATTTGGATATATGATTTGTCTACACTTCTGCAGGAAAGTAAGTCTATTGGTGCTGATGTAAATTGGGGTGTGAGG TTCAATGATGTGAAAGATGTAGGTACTTTCGGCACTGTATTTGTTTTTTTATTTCTTGCACGTTTCTATCTTACAAAGCA GAATCTACCAAAATATTGAGGTGAAAGTTATTTCAGTGTGATCGCTTCCTAATAGACCTTTGCAAGGAAGTTTCATTACG ATTGCAATGTTGTGGAGTTCAAGGGCGCACTTTCTCTCTCAAGGTACATTTGCTTGATAGATTTTATTAGATTATTCAGT TATCAGCTTTCTGTTTTAGCTGCTGAGCTGCTTTTCACGTCCTGTTTTATTTCTACAACTGTTCTATGCTATTATCACAA AATGTATCTTATAACTCTGAGTCAACAAGATTGAAATTTGCAAACTTTGTTGGATATATGATGTAGATCAAAAAGAGAAG AAAAGATGCTGTTGAACCTGCAAAGTTTATGGGCTGTGGGGACTGTGAAAATTTGAGTCACTCAATAACGGTAAATATTG AAACATCAGACTTTTTTTATGTGTGATATTAAAGTGCCATATTGGCTTCTATAAGCGTTCTTAATTATTGTCTGATTTTG TGTTGTTCTTATCATAGATTCCTCTTGCTACTGATAATGTGGAAGTACTCCAAAGAATAGTAAAGCAACTTTTTGGATGT TTTTATATAGGTATCTAATCTTCACTCTGGCTTTCCATCATATGATGAGTGTGAATAAACAGTTTTGGTTTATCTTTAGA TTCTTGAATCCTTTACTGCATTTGATTTTATTAGCAATAGAGTTAAATAAACAACAACCTCATTTAGTGAGGTCAGTTAC ATGGATCAATTGATGTCATTTCTCTTTATCAAAAACCAAAATTTCAAAATTCATTCAAAGCAAGGTCTTTTACTGATGGT TTCACTGAACTCTCTTTGATCTTCCTCTACCGCCTTCTCCCCAACAGAGAATTAGAGAAAACATAGTATTACTTTAGAAA GATATAGAAAGTGAGGTAGTAAAAGAAGTAAAAAGAGAAGGAAGTGTAGACATGAAGTAAAAAGTCAAGAAACTAGAGAG ATATAGAAAAATATAATCTATATCAGTTCATTTTTTTGTTTTCATTTATATTTACTATTTTCAAAGTTTTATACATGAAA TTGTGAAAACAACTTTTTCTGTCCAAAACTTTAAAAATGGTTATCACATTGAACACAAAGGTGGTAGTTTTATCTGAAAA TAGTAGATGAAAATAGAAACCAAAAAAGCCCTAATATTTCAAAGTGAAGGAATTGGGTCGTCATTGTAACAAAACTAGAT GCCTGCATGGTGATGAAGCTTCTTTATCTTTTTATTTTATGATGGTAGTTTCTTTCTCAAAATGTTACATAGTGTTTCAG CCAATAAAGCATTAATTGGTAACTAAAGTGTAAACATCTTCATCTTCTCCTTTTGATGATTTCATATAGATGTCAAGGAG ATTCGAGGTATTGGCTTGCAAGTTTCTAGATTTGAAAGTGCAGAGACTTCGAAGCAAGGTACCTGTATTATTCCGAACAA ATTTTAACCTTATATTATATGAGCTCTAATAGTATATTTTGTGGTTGTGCGTGAAACTAAATTTATAGGCTATTTTATGA ATTATATTAGAACTTTTTTAAGCTGGGATCTTCTACCTTCACAACTCTCCTCTTTCCATCCCTTTGTTCAAGACAAATTT CACTACTTTTCCTTGGGTTTGAACTTTGCTTTCAGTCTTATTATTTTAATAATTTCTTTAGAGTTGTCTAATTCTATTTA TTTCATGATGGTGCAGAAAAGTATTCTTTGAAATCATGGGTTGCTTCAGGAAATGCAAGTATGCAAAAACAGAAATATCC TATGGGTAACGGAAATTGTTGTCATACAAGGGTTACATACTATGCTATTATTTACAAGATTTCGGTGCTTATAATATATG AATAATTGTTATACCATTGTGCGATTTTGTTAGTGTTGGAATTAATAAAAATTACTTCTGGTGGTTTCTCTTTCTTCAGA TCAAGACAAGCAGAACATGGATGGTACTTCCAGTGGTGAATGTAGAGGAGGGTCTTCAGTTAAAATACAGAATAACCAAG CTAATGCTAACCCAATTTCAACACCTCCTCCTTTGTGTCACCTTGATGTGGAAGTAATAAGGAATCTTCCCCCAGAAGTG TTTTCAGAATTAAACGAAATTTATGGAGGAAAGTTAATTGACTATATTGCTAAAGGAAAAGGCACAAGTGAGACTTCTAG CTCTTTACAGAACTTGTTTTTGGAGCAAGAAAGTAAGCTTTTTTTCGCCCTGTTTTGTTGGTGTAGCTAATTCGCACTAA TAGTCAACTCAAATCGCCATATGCTTTCAAATTATTTTTTCAGCAGCAATAGACAAGGAAGAGGAACTTCTGAATCTTGA GCCGATTCCTCAAAGAAAGCTATTATCAGAAATCGAGGTAATTGTAACTCCTTTTTTTGTGGCTTATTGCAATTGATATC AGAGTTATATTCATTTATATGTAAGAAATGTTTGTTTTTTTTCTATTTTTGGAGCATTGTTCTATTTTTCTAAAATTATT TTATTTAGAGGTATATATCATAATTTACTGCTAGGCTATGCAACATGGCGCAGAGCAAGGTGACGCAGTATCAGGTTCAG GGTGTGGACCCATTTTCAAGGTTACTCACAGTTCGAGTTTTGAAAAAGATGATTTGTTGCCTTCTTCTTTAAGTCAAATT GATGGTTCAGTGTTACGACAATTGCCTGAGGATTTGAAAGCTGTCATTGTTCAGCAGCTTCCTGCACACAGGACGCAAGA GATTTGCTCCAATGGTGCAATGGTCCCTCCTAGTGAAAATCATCATGTGTCACTAAGTATTAAAACTTCTGAGAATCCTG GATCGAGTTACAGTGTTTTGGATGATAGTCTTTGGACTGGGAATCCTCCAAAATGGGTTGAGAAATTTAAAGTCAGCAGT TGCTTATTATTGAAAATTTTTGCAGAAATATATTCCAAATCAGGGTTGTCTAGCACATTATCTTCAGTTTTGCACCAAAT TATATCTGAATTCCACCAGCTAAATCTAGCACATCAGATTTCTGATGAAACTGTTAATATTATCTCTGAGCTACTGAAGC AGTATATCAAAGTGAGGATAGGAAGAGATATTGAAGAGATTTATATCTGTTTTCGGCTTTTGAAAAGGTATGTGAATCAG TTAATGTTTCAAGTTAGTATATGGCACTCTATTGAAAGGTTTATTGTTCATGATACATAATGTATTTTGTCCCTAAGTTT CTCCCGATGCCAATGTTATTTGTATCCATTTTGTTTGTTTTTGGATTAAGTTAGTACTTTAGTGATAATTGGGATTGTGT TGAATTAGGCGTAGAGTGGATTAAAGCGACGTTAGTTTATTTCTAATATACCAACATTTGTATGTCTACCACCATCTTAG GCTCATATCCAGATTATCCAGTGAAGCTCATGTGAACTTGGTGTTTTTGTAAATCCCTGAGAATTTCTTGTTATTTTTTG ACCTTTTTTTTACGGTGTTACACAACCTTGATTAATGACACGATTCATCAATTACGAGTAATATGAAACCGGTGATTGTG CAGTTAAATTTATTTTACTTCGTAGGTTTTTCAAGTTATTATTGTGACAAACTTTGGAGTAACACTGGAATTATTTTCAG GTTTGCAGCAAAGTCACAACTTTTCTTACAAGTGTATAATAGTGTATTTCCATACCTTCAGGTATACCTTCAGCCTACAT CCTCTCTCACGTACTGTTTGTCTGGCCCCTGAATGATGCACTTAGCATCTGTTAAATAAGAATTAGAACAGCTGTCATAA CAGCTGGCAGCAAAGTAGTATAAATAAGGCCATTAGGCAGTTAGAGATGTTATGTTAGTTGTAACAAGAATTTTATCTCT CTAATCTCAATTCTCAGTTCCCTTCTCTCTCTTTCTCTCTCTTTCTCCTCTCTTTCACTTCTTCTCCTATCATTGGTATC AGAGCACTCGATTCACGGTGACCAATGGCGGAAGCGACGAGGTTGCAGAGCTCAATCCGTGAGGCGGAGGAGCGGATTAC GGCGACGATCGAGCCGTGCATCAGTAGGCATTTGCGTGAGCTGGAGCAGAGGTTCGAGCTCCAACTGAACGGGTTCCAGG AGGCGATGCGAGGCCTCGGGTTGCAGATGACGGAGATGTCGTCGCGGCGGAGAGGCGCGAACGACGGCGAGCACCGCATG CCGACGCGATTGACGCTATTGGATTTTCCGAAATTCAACCGCGACGAAGCTGAATCGTGGCTTGTGAAGTGCGAACGATT CTTCACGCTTGACAACACGCCGGAAGCAGAGAAGGTAGCGATTGCTAGCATCGCAATGGACGAGAGTTCTTTCCGGTGGT TCCAGACCTTGGAACAGAGCACGACTGGTCCAGTTTCTTGGATGCAGTTCAGCGATGCAGTGAAGGTGCGTTTTGGTACT GAATTCGATTCACCATTAGAGGAACTTAAGCGCCTGGTTCAAACTGGAACTCTAGAAGATTATCAAGAGGCTTTTGATAC CTTGGCTGCGCGCACAGATTTGTCAGAACCTCAGAAATTGCAAGTATACTTGGGTGGATTGTGTGCTGAGTTGAGCAATG GTGTGAAGATGTTTGCACCAAGGACGTTGCTTGAAGCTACACGAATCGCGAAATTGCAGGAGAGGAGCATCGAATTGCTC CAGAAACGCACTGTTTCGGGTGTCAGAAGCACCGGCGCATGGTCTGACAAGCGCGGAAACTCTTCATTTGTTGAGAAGAA GTTACCAGAGAAGAAACCAGGGGGTGATTCCAATCAGAAAGGAATTTTAGGAAAACCTAATTACACATTTCAGAGGAAAT TATCTCCTAAAGAGATGGAAGAACATAGAGCACAAAATTTGTGCTTCTTCTGCCATGAGAAATTTTCTCCAGGGCATGAT TGTCCGCAAAGGAAGAAGCTCCAAGTTTTCTTAATGGAGGTTGAGGAAGGTGAACCAGAAGCTGTTGACTCTGCAAGTTC TGTTGATTCTGAACCAGTTGTTCCTACATTATCCTTGAATGCCATACATGGGGACTCTGAATATCCTTTGATGAGGTTGA CTGCATGGATAGGAAAGAAGAGGATTCATGTCCTCATTGATTCTGGAAGCTCACACAACTTCATTGATCAAAAACTGTGC AAGGAAGGCCTGAGCTACCTTAGACCCGTGCATCCTCTACTGAAGCCTTTACAAGTTACTGTAGCAGGTGGTGGAGTCAT GCAAGGTACAGGCCTATGTGATGGAATACAGTTGAAGATGCAAGGGTATGATTTCTTCACTAGTGCTATTGCTCTTCCTT TAGGTAGTTTTGATTTGATTTTAGGCTTACAATGGTTAACTCAGTGGGGAACTATATCATGGGATTTCAAAGCCCTTGTT ATGGAATTTGATATGGGACACCTTAAGGTGAGATTGCAAGCTGATAAGAGTGGGAAGGATAGAGTAGTTTCAGCTGCTAA ACTTAATCAAATTGTAGCTGAGGAAAGCTTTTGTTTTATGCTACAATTGTTTCCATGTTCCCAAGAGAAAGTGTGTTGTG CTCTTGGCTTAGAGGAACCTGAGGATCCTGCAACTAAAGAACATAAAACCACTGTCCTAGAGGAATTTAAGGATGTTTTT GAGGAGCCTACACAGCTACCCCCATTCAGAGGCATCCATGACCACCAGATTGTTCTGAAGGAAGGGTCCAACCCAGTTAG TTTGAGACCTTATAGGTACCCTCCTGCACAGAAAGATGTCATTGACAACATGGTGAAAGAGCTGTTGGATTCAGGGGTTA TCCAACCTAGTTCTTCTCCATTTGCTTCTCCTGTGGTCTTGGTTAAGAAGAAGGATGGCAGCTGGCGGATGTGTGTAGAC TATAGGAAGCTTAATGACATGACAGTTAAAGCAAAATTTCCTATTCCTCTTGTTGAAGATTTGCTGGATGAGCTAGGGGG TGCTCAAATTTTCTCTAAATTGGACCTTAGGTCTGGTTATCATCAAATAAGGATGAAACCAGAAGATATAGCTAAGACTG CATTTCAGACTCATGGTGGACAATATGAATATGTGGTCATGCCTTTTGGGTTGTCCAATGCCCCAGCCACATTTCAAGGT ACCATGAATGTCATCTTTGCTAGTCTATTAAGGAAGTGTGTGCTCATCTTCTTTGATGACATCCTTGTCTATAGTAAGTC CATAGTTGAGCATGTGGCACACCTTAGACATGTTTTCACTGTTTTAAAGACTCATTCCTTCTATGTCAAGAGAAGTAAAT GTGCCTTCTTTACTACTCGAATTGAGTACTTGGGCCACTTCATTACTCCTGAAGGGGTTACTACAGATCCAGCCAAGATC ATGGCAGTTCAAGAGTGGCCAGAACCTCAGACACTTAAGCAACTCAGAGGTTTCTTGGGCCTCACAGGTTACTACAGAAG ATTCATTCAAAATTACAGCATGCTAGCATCACCTCTCACTGACTTACTCAAGAAAGATGCCTTCATTTGGTCTGATAAGG CTTCCCATGCTTTCAATCAGCTCAAACAAGCCTTAAGTACTGCTCCTGTATTGGCTATTCCAGATATGGCTAAGCCATTT GTAGTGGAGACTGATGCTTCCAGTACAGGAATTGGGGCAGTTCTGATGCAAGACAAGCACCCTATTGCATTTATTAGCAA GGTTCTTTCTCCCAGGAATAGGTTGCTATCAGTTTATGACAGGGAATTACTAGCACTTGTGCATGCAGTGTCTAAATGGC ACCAATATCTGTCTCTTCAACCTTTCCTCATCTTAACGGATCAACATAGTTTGAAATTTTTACTGGAACAAAGGTTGTCT ACACCTGCACAGTATAAATGGGTTACTAAATTGATGGGTCTATCTTATGAAATTAGGTATAAGCAGGGAAAGGACAATGT TGCTGCGGACTCCTTATCCCGGGCCAATCATGGAGAGTTGCTACACTTGGCAGTCTCTTCCATTTCTTCAGAATTGTGGG ATCTAATACAACAAGCCTATGTTGCAGATTCTTCCCTCAAGGATCTTATGCAAGAGGTGAATGCTTCTCCTGACCAGCAT CCTCATTACAGGGTGGTGGATGGTTTCCTTTTCCGGAAACACAGATTGGTAGTTCCCAATAATGACCAAGTCAGATTGGT TATTTTGCAATGGTTGCACTCCTCTCATCAAGGGGGGCATTCGGGTATAAGGGCTTCTACTCATAGGATCAAGTCCTTAT TTTATTGGAAAGGACTTAGCAAGAGTGTAGCTGAGTTTATTCAAAGGTGTGAGACTTGCTTGAGATGCAAGTATGAACCT CATGCTGTTCCAGGTTTGCTGCAGCCCTTGGCTATACCTGATGGAGTGTGGCAAAGTATTGCCATGGACTTCATTGAAGG GCTACCCAAGTCCCATGGCAAGGACACCATATGGGTGGTTATTGACAGGCTTAGTAAGTATGCTCATTTCATAGCCTTGT CACATCCTTTCTCAGCTTCCACTTTGGCTGAGGTGTTCATCAACAATGTTTACAAACTTCATGGAGCCCCAGCAAATATA GTGAGTGACAGGGATCCCCTCTTTACTAGCAAATTCTGGGCAGCATTTCTGCAACAATTGGGCATTTCTCAGAGCTTGTC TACTGCCTATCATCCTCAATCAGATGGGCAGAGTGAGGTCCTCAATCGTTGCTTGGAACATTACTTGAGGGCCATGACTT GGCAGAGACCAAAGGAGTGGGCTGCTTGGCTGCCTATGGCAGAATGGTGGTATAACACCACTTTTCACTCTGCAATCCAA GCTACCCCTTATGAAGTTGTTTATGGTCAGCCGCCCCCCTTGCATTTACCTTACTGCCCTCAAAGCACTGTGGTGGATGC TGTGGACAGAAGCTTTGTTGCTAGAGAGGAGATGATCAACAAGTTGCAAGGTAACTTGGCTCGAGCTCAAGCTCGCATGA AGACCTTGGCTGATAAACACAGGTCTGATAGAGAATTTCAAGTTGGAGATTGGGTTTTCTTGAAGCTCCAGCCTTATAGG CAATCCTCTCTCACTTCTAGGGCTTCACAAAAGCTGTCCCCTCGTTTCTTTGGCCCATATCAGATACTACATCGTGTAGG CAAGGTTGCTTACACCCTCAATTTACCTGCTACCTCACGCATTCATCCCACTTTTCATGTTTCCCTGCTGAAACCTTGCC CAGATGCTACAGTTTCTCTTTATCCTCTTCCGGAAGATTGGGGCAGCATGGATAATCCTAAGGAACCATTCAAGATTTTG AAGAGGCGCTCTGTGCAGAAACACCATAGAGCTGTTACTGAAGTCTTAGTGCAGTGGAAAGGGGAAAGTGCAGAAGAGGC CACTTGGGAATTGCTATATAAGCTGAAGCAGCAGTTCCCCTTCTTTGATGTTACTGCTTCTCCTTGAGGTCAAGGAGAGT TTTAAGGGGAGGGATATGATGCACTTAGCATCACTTAGCATCTGTTAATTAGGAATATGATGCACTTGTTAGCATCTGTT AAATAAGAATTAGAACAGCTGTCATAACAGCTGGCAGCAAAGTAGTATAAATAAGGCCATTAGGCAGTTAGAGATGTTAT GTTAGTTGTAACAAGAATTTTATCTCTCTAATCTCAATTCTCAGTTCCCTTCTCTCTCTTTCTCTCTCTTTCTCCTCTCT TTCACTTCTTCTCCTATCACTGAATCTGAGATATTTTAATTGGATGGCTTGGCTTGTACTAATAGCGAAATGTCTGTTTT AAGGAAACTGTTTGGTAGTCTTTTCCTGTATCTTTGTAAATGCAGGAATTTTAATATTATAAATTTATAGGGTGAATAGA AAACAGTAAATTACACTCCCTCTAATGTCCCTTTGTCTGTATCTTTGTAAATACAGGAATTGCTTTCTCAAAAGAAAATA AGTATATATATTTTAATATTAGAAATTTATAGGCTGAATAGAAAACAGTAAATTACACTCCCTCTAATGTCCCTCCCTTG AGAGAAGCTTAAATTAGTAAATTATACTCCCCACCCATCTTATTTTGAAAATTTCATTCTCCTCTTATGAGAATTAAATA TTTCTTACACTTCCCATTTTATATAATTAATTCTATGGGCATTTTAATATAATTTGGAACTTATGCAATTAACTATGGGA CATTAGAAGACAAATAAAGATTTGGGTGAAGTTTAGAGAAAGAAAAAGTTTGGCCTGGCGACATATTTGTAGTTGTTTAT CATCACTAAAAGATTCATTTTGCTAAAGATTGACTAAAATGTAGTACATGCTTATTTGTTTGAGGGGGGGGGGGAGGGGG GAGAATAGGTTCTAAGGCTAAAACAAGAGGGAAAGGGAGTGTATTTTAACCTTCTCTTGAGGGAAGCGGGGTGTAATTTA CACTTCAAAAATTACAAAGAGAAACGAGGATAGGAACTCCTAAACAAGAGAACAAAAAAAAAGGGAAAAGCTTCCCATTT CCTCAACATATTTGTTAGGAAAATCCAATTAAATAGGGCATCCGCTTTACACTAAATAGATGGCAACTGCCTGGGGGGGG GGGTGGGAGAATAGGTTCTAAGGCTAAAACAAGAGGGAAAGGGAGTGTATTTTAACCTTCTCTTGAGGGAAGCGGGGTGC AATTTACACTTCAAAAATTACAAAGAGAAACGAGGATAGGAACTCCTAAACAAGAGAACAAAAAAAAAGGGAAAAGCTTC CCATTTCCTCAACATATTTGTTAGGAAAATCCAATTAAATAGGGCATCCGCTTTACACTAAATAGATGGCAACTGCCTAA TCTTATTCCAAATTAAGTGACATGCCAAGGAACCCTTTGTAAAATTAAGAAAGCTTTGCTCCAACTATTTGTACCAAATT GCCATGAAATTTTAGCCTCTTTACGTCTGCCACATCCATAAAAGCTAATCATCAATATCAATGTAAGTATAGTTCTGACG AGAATTGTATCTTATCTGTGTACCGATTATATTCATCATGTAAATATTTAGTTTGTGCTGTAGTTGGAATGCATGATTTT AGCCCGTGCTTCTCTTTTCCCTCTACTTCAATACATATTTAATTATACTCTGGTTAAAATATTGTAGGCAGCTGTTGATG ACAATTATGGAGGAAGTTTGTTTATAGCATCGTAGTAATACGTAAAAGATTCTAAATGAGCAAAATTCACTGGTTTAACT GAATGCGCCTATGAGATCAGGTAGCAATCAACCTTTCTATCCATCATGATGTCCTGCAGAGGATGTTCATCTCATTGATA AAATTGCAATTTTATTTTGCATTGTTTGCATTTTACTTTCTCCTCATAATTTATAATCCTTCTTTGTCATTCGTTGTCCT ACTGAATCTTTTTGTGGTGTTAAACTTCTCATATTAACTTCTTAATGAGTTTGAGTGTCTAGTAGTTTCCTGTATGTTTT TGTGGCTGTGGTTTGTACAGCTCCTTTATTATTCTTGTAATCCTATTTCTTGTCCTATATTAAATCTTCTCTCTTCGATT TTAATCATATCTATTCTCAACAGTTGTTATGTATATTTTATTAATTAATTGTTAATTATTAATTGTATCAAAAGCTGTTC GCATTGTCACATTGACTTGTTATGTTGCTGTCTCTAAAAGGTTTATGTCCGTTGCACAAGAATACAATTAACCTGGCAGC TTACCACTTCATTCTTTATAACTGGCAGGTATATCCGTTTTAACTTCTCTCTAATAATTTCTTATGTAAAGCTTTTGCCT TGTTATTTTATCCTTTTCTTTGAGCATCCGAATCTGATATTATGTTATTAGATCTATTCTAGTATTATGCATACCAGATG TAGCTATAAGCCATTTATAACCATATTATTATTTAAACTTTCTCAAGCCATGCCAGCTCTTCTTAATGCCATCTCCACTC ATCCTCTATGGTTCTACCTAAGTTTGTCCTTTGTATTGAATTGTACTTTTAATACATGTGTTACAATTTGAACCTGTGTA TTGCCTCGTTTTCTTCAAATGACTCCAGCAATGGCAGTATGGCACCACCAATGAAATGTAGAGTCCCTATATCGTTGTGG TTAGTGGAGAACAGCCACCGGACAGGATTTCTCGTAAAATGGATTTCTTTTGTTTCCCTCGAAGTGGCTTGTCAACCATG TTTTCCCTCCCTCAAAACAACGCTCTTCACCAACCTTTACAGTCTTGGCTTTGGGCAAGACAGCGATGAGTTGTTAGCTC CCGGATGCCAATCAAAGAAAGCACTCCTATACAGCCTGGTGTTGATTCTGCAATTTGCGTCTAGTGGGGAGCTTTGTCAT CTCAAATAATTAGTGGATTTTTCCTTGCATGTGGATCCGAACAACACTAGCATATCTATTGAATCAGGCTGCATTGTTGC AATTAGTGCTGGGAAGGGTAGATTTGGCCATCTTGGATAACCGTATATGATAAAGTCAATAGAGAAACTGCATGGATAAT TCAGTGCTACTTTGCTACGATCAAATAGGTCAGTTTTCAGCATGCTCTGAGTAGTTACTTAGGTTTGGTAGGTATGTAGA TATATTCATCTTTATTTATCTTTAGTTACTCTTGGAAGGAGGGGTGTTGGTTCATTTACTAGATGTTTACTGGAACTGTA TTTTCTATATATAGATGCACTCAACCTTTTCAATTTGTTCATCTAGCCCCCTCATTCTTCCATCTCCATTTAAGCTACAT GCTGGTCTTGGGATCTATAAACTTAGTCACTGAACATGAGATAGTGAAATACTTGATATATGTTTGTGTATTACTTGTCC GTGGTTCTTCAAGGTGATGTAGATTATGATCTATATTTCTTGCAACTGTATATTCTAATTTGCAACAGTTGGTACTGTCA TATCCATTGCATCAGAGTGGAGCACTGTGGAGAAATTGACCCTTATTCTCCCCGTCCCAAGAGCCATTTAGATTTGATAA AATTTTACGTGAGTTTTGTAGCATAACCCTTCTCTGTTTATCCCGATTTGGGAATGATTATGTGAAATTTACCACAAAGC AGACATAGGAAGAGTAATGTTGTGAGAATATGGTTCACGGATGCACCATGATGTAAATGCGGTTTCTATATTGAAAGCAG ATGCAGCATCCTGATTGTTGTAACATTTCGACCTGAATACCAGGAGGATTACCATACGCAGGCAAGATCATGTAAGCAGT GAGTGTGGAGCAGAGGGCATCCTAAGAGATACAAACATAAAAGGTGGGATTACCGGACGATATAGTTATTAGAGATGTTA AAATTGGCCAGAGGTCGACTTTAATTATCCGGACCAAATGGTCCATTTTTTTCTTTTTATATAATTTTTTTATTGAATTA AAACATATTCAAATATATTATTAACAAAAATTAAATAAATAATGAAAAGGAACAAAAAAGTAAAAATAATATCTAAGGGT TTTGTTTTCTTTCTAAAAATGTCATGCATTAGGTGGGATGGAGGAGTAAGTGGCAGCTTTTGACTCTGGTCAAATTCATA TGGGGTTTGATTTCTGATGCTTGTGTAAGTTGGCATATTAATTTTGTTCATAAAGCCTTCCCTATTCTTGTTGTCATTCA ACTCAATATATGTAAGATTGAAAATGTGAGAGAGTTTCAGCCGAGTCTGCTAGTTCAGACTCACTTCAACATGCAAAAAC AAAGTAAGTACAAGGTTATTTATTTATCTTTTTAGGTAGAGACGAAGTCAATGAAAATGTGAACTCAGTTTCTTTACTGA ATACTTATTTCTCACAATTCACGTTCACTCTAACCCGCCTGTTTATTTAGATGAAAAGGGAAGATGTAGTTGGTAGCCTT TTCTAAGATTCGGTGCAAATTTGCAAAGCAAAATCCATGAAGTCAAGATGGGCAAGGTAAACAATTTCTGCGAGGTATTT CATAATGATAAATTGCATGCTTACCACTAGCATTTAATTCTGAAAACCGGGAGAATTTCTGTAAGTAGCTTATAAACTTT AAAATTAATTTTGAGGTACAATAAGCTTATCGATGAGTACAAGAAGCAAAAAATTTAAACGCCATACTTTGTGAATTGAG AGTGAGGATATTGACCCCAATGTAGTTGAGCATTCAATGTTTTTTTCATTTTATTTTTTAAAATTTCCGTTTGCAAAACT TGGATCTACAGTAGGACAAAAGCTAACCCCGAACATGATTTGGAGCTTTTTCAAACATGCATGCCATGCAATGCAATTGG TGTTAGGTTGAGTCCAAAAATGAGACATCTAAAACCGGTCTAACTTTGAGGTATTATGATAACAGTAATAATTATTAATA AAAATTAATGGGAGAGTAAAGTCAAAGAAAGAATTTAGTAGGGTAGGTTTTAATAGTATAAAATAAAATAAGTCAAATTC AAGGCCACGCCCACTACACAGTAATATTCTGCCTGCCTGCCTGCTTAATTGACTATTTCCTAAAATTTCATATATGGTGT GCAAGCCATAAATCCTTCAACAGGCAGTCGTGTTATTTACGTTTTAAAATACATTTTTTCTCCTTTTCCTTCACACTTTT TGCCATACGTGTCTGAATTCAAAACTAAGATGTAGTATTTTTTTGAACTATTTTGGGTCTCATTCAAACTTAAAATTCAA AGTACGCAGTGAAAGAATAACCTTCCAACTCCGCCACCAGCCACAAGAATTAAAGTCAAAGAACAAATTAACATAAACAT GCTTATCTTCAATCCTAGCCTTAAACAATCCCCACCAACTTCAACTTCATGTACTATATATATATGTAACATTCGTGATC ACACCATTCCACAATAGAAACATAATGATGAAGAAGGGTTATTCTGTTGCAGTGAGAGTAAATGCCATTTCTCTGATCAT CATGTTTTTGTTCCTGGTGCTCTCTCATGATCAGTACTCGATCAAAGTTGAGGGCGCGAGACCTCTCGGAGATCAATCTG CTTCTTCCTTCATAAGTTTAATTATCAGCCGAGCCTATTCTGGCCCAAGCCACAGAGGACGTGGTCATTGAACACAAAAA AGCGAGACTCATTTTACATATATATATGTTTTTTTGTCCATATACATAAAAGCTAAGTACCATATGGACTTGTTGTAGGA GTACATTGATTAATTTGACAACTCTGTTTATTATATAAATTACTTAAGCTAGCAAAGGATGCTTGAGTTCACAGGTTTAC AAGTCGGAATCGTTCTAGCTACCTCAAATCAATATATTGTTATTTAATTTGTGTATATATTTCTATGGTCACAAATATAT TGTGTAAGCTCTTCTTAAGCATTGGAAAGACGCTCGTATTTATCTACTATTGTGCGTGATTGTTTTGATCTAGTTGCTTA TTTTAATTTTGTATTTTCCCTTTG
CDS sequence (LotjaGi2g1v0461300.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCTCCAATACAGAGCCTTCAGCGCTGGCCTGCCCCTCGTCAAACCCACTTGGATTTTAGATTCTGTTGCAGCTAATAG ACTCTTGCCCTGGCTGCCCTATCAGCTTCACCAACTTGCTAATAATCAACCAACACTATCAGCTTTCTTCTCATTCAAAA CTAGCAAACTGTCTGACATGGAGGATTCAACTACAAATGTTTGCCAATCTCAAGATAGACACTCATCCAAAGTTAATGGG CTTATCAGTACCGTATCCAATGATACTATCCCTGAGAATGAAAATACTAATGCATTTATGCTGGAAGATTCAACTAATCT TGTTAGAGTTAAATATGATGAAGGAAGCACTGCTGCTACTCAAGAAAAGACAAATGTCCAAGATGAACTTGAGCCTAATC ATCAAGAACCTTCTACATCAGTTAGTAGCCCCTGCTCAGATGACCAGAATGTAAAAGAATTTCAAAGTTCTGCAGCCACT CGGCTTTCTAAACAGGGACATTCAACTCTTACAGATCCTAATTTTGTGGAAAATTATTTCAAGAGCTCACGACTACACTT CATAGGAACCTGGAGAAATCGGTATCGAAAGCGTTTCCCTATGCCATCTGCTGGGCTTAACAAAGAAATTTCTAATAATT CTTCTGATGTTTCTAGGAATTCAGTCATTATCCATGTTGACATGGATTGTTTTTTTGTCTCAGTGGTTATCAGGAGCCAA CCTGAATTGTTTGACAAGCCTGTAGCTGTATGTCACTCAAATAATTCAAAGGGAACTTCTGAGATTTCCTCTGCGAACTA CCCTGCTCGTAGTTATGGTATTAAGGCTGGTATGTTTGTTCGAGATGCCAAGGCTCTTTGTCCTGACCTCGTTATCTTTC CATACAACTTTGAAGCTTATGAGGAAGTAGCTGATCAATTTTATACAATATTGCACCGACATTGCAACAAAGTGCAGGCT GTAAGCTGTGATGAAGCATTTTTAGATGTCACACATTCAGAGGTTAAAGATCCTGAACTTTTAGCTTCATCAATTAGAGA AGAGATCTGTAAAACCACTAGATGTACAGCCAGTGCTGGTATAGCTGGAAATATGCTCATGGCTCGTATTGCTACCAGAA CTGCAAAACCAAATGGTCAATATCACATAACTCCAGAAAGGGTTGATGATTATTTATGTCAGCTCCCAATTGATTCACTT CCTGGGGTAGGGCATGTTTTACAGGAAAAATTGAAGAAGCAGAATGTTCATACTTGTGGTCAATTGCGGACAATTTCAAA GGCCTTACTGCAGAAAGACTATGGAATGAAAACAGGAGAAATGCTGTGGAACTATAGCAGAGGAATTGATAGCCGGGCTG TTGGGGTCTTTCAGGAAAGTAAGTCTATTGGTGCTGATGTAAATTGGGGTGTGAGGTTCAATGATGTGAAAGATTGTGAT CGCTTCCTAATAGACCTTTGCAAGGAAGTTTCATTACGATTGCAATGTTGTGGAGTTCAAGGGCGCACTTTCTCTCTCAA GATCAAAAAGAGAAGAAAAGATGCTGTTGAACCTGCAAAGTTTATGGGCTGTGGGGACTGTGAAAATTTGAGTCACTCAA TAACGATTCCTCTTGCTACTGATAATGTGGAAGTACTCCAAAGAATAGTAAAGCAACTTTTTGGATGTTTTTATATAGAT GTCAAGGAGATTCGAGGTATTGGCTTGCAAGTTTCTAGATTTGAAAGTGCAGAGACTTCGAAGCAAGAAAAGTATTCTTT GAAATCATGGGTTGCTTCAGGAAATGCAAGTATGCAAAAACAGAAATATCCTATGGATCAAGACAAGCAGAACATGGATG GTACTTCCAGTGGTGAATGTAGAGGAGGGTCTTCAGTTAAAATACAGAATAACCAAGCTAATGCTAACCCAATTTCAACA CCTCCTCCTTTGTGTCACCTTGATGTGGAAGTAATAAGGAATCTTCCCCCAGAAGTGTTTTCAGAATTAAACGAAATTTA TGGAGGAAAGTTAATTGACTATATTGCTAAAGGAAAAGGCACAAGTGAGACTTCTAGCTCTTTACAGAACTTGTTTTTGG AGCAAGAAACAGCAATAGACAAGGAAGAGGAACTTCTGAATCTTGAGCCGATTCCTCAAAGAAAGCTATTATCAGAAATC GAGGCTATGCAACATGGCGCAGAGCAAGGTGACGCAGTATCAGGTTCAGGGTGTGGACCCATTTTCAAGGTTACTCACAG TTCGAGTTTTGAAAAAGATGATTTGTTGCCTTCTTCTTTAAGTCAAATTGATGGTTCAGTGTTACGACAATTGCCTGAGG ATTTGAAAGCTGTCATTGTTCAGCAGCTTCCTGCACACAGGACGCAAGAGATTTGCTCCAATGGTGCAATGGTCCCTCCT AGTGAAAATCATCATGTGTCACTAAGTATTAAAACTTCTGAGAATCCTGGATCGAGTTACAGTGTTTTGGATGATAGTCT TTGGACTGGGAATCCTCCAAAATGGGTTGAGAAATTTAAAGTCAGCAGTTGCTTATTATTGAAAATTTTTGCAGAAATAT ATTCCAAATCAGGGTTGTCTAGCACATTATCTTCAGTTTTGCACCAAATTATATCTGAATTCCACCAGCTAAATCTAGCA CATCAGATTTCTGATGAAACTGTTAATATTATCTCTGAGCTACTGAAGCAGTATATCAAAGTGAGGATAGGAAGAGATAT TGAAGAGATTTATATCTGTTTTCGGCTTTTGAAAAGGTTTGCAGCAAAGTCACAACTTTTCTTACAAGTGTATAATAGTG TATTTCCATACCTTCAGGCAGCTGTTGATGACAATTATGGAGGAAGTTTGTTTATAGCATCGTAG
Protein sequence (LotjaGi2g1v0461300.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLQYRAFSAGLPLVKPTWILDSVAANRLLPWLPYQLHQLANNQPTLSAFFSFKTSKLSDMEDSTTNVCQSQDRHSSKVNG LISTVSNDTIPENENTNAFMLEDSTNLVRVKYDEGSTAATQEKTNVQDELEPNHQEPSTSVSSPCSDDQNVKEFQSSAAT RLSKQGHSTLTDPNFVENYFKSSRLHFIGTWRNRYRKRFPMPSAGLNKEISNNSSDVSRNSVIIHVDMDCFFVSVVIRSQ PELFDKPVAVCHSNNSKGTSEISSANYPARSYGIKAGMFVRDAKALCPDLVIFPYNFEAYEEVADQFYTILHRHCNKVQA VSCDEAFLDVTHSEVKDPELLASSIREEICKTTRCTASAGIAGNMLMARIATRTAKPNGQYHITPERVDDYLCQLPIDSL PGVGHVLQEKLKKQNVHTCGQLRTISKALLQKDYGMKTGEMLWNYSRGIDSRAVGVFQESKSIGADVNWGVRFNDVKDCD RFLIDLCKEVSLRLQCCGVQGRTFSLKIKKRRKDAVEPAKFMGCGDCENLSHSITIPLATDNVEVLQRIVKQLFGCFYID VKEIRGIGLQVSRFESAETSKQEKYSLKSWVASGNASMQKQKYPMDQDKQNMDGTSSGECRGGSSVKIQNNQANANPIST PPPLCHLDVEVIRNLPPEVFSELNEIYGGKLIDYIAKGKGTSETSSSLQNLFLEQETAIDKEEELLNLEPIPQRKLLSEI EAMQHGAEQGDAVSGSGCGPIFKVTHSSSFEKDDLLPSSLSQIDGSVLRQLPEDLKAVIVQQLPAHRTQEICSNGAMVPP SENHHVSLSIKTSENPGSSYSVLDDSLWTGNPPKWVEKFKVSSCLLLKIFAEIYSKSGLSSTLSSVLHQIISEFHQLNLA HQISDETVNIISELLKQYIKVRIGRDIEEIYICFRLLKRFAAKSQLFLQVYNSVFPYLQAAVDDNYGGSLFIAS
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 |
|---|---|---|---|---|---|---|
| ProSiteProfiles | 1 | 36 | 36 | 10.502 | ||
| PANTHER | 3 | 950 | 948 | 0.0 | – | |
| SUPERFAMILY | 5 | 38 | 34 | 1.89E-7 | ||
| PIRSF | 8 | 947 | 940 | 2.6E-178 | ||
| CDD | 8 | 36 | 29 | 2.75256E-8 | – | |
| MobiDBLite | 118 | 168 | 51 | - | – | |
| CDD | 175 | 573 | 399 | 0.0 | – | |
| SUPERFAMILY | 216 | 454 | 239 | 1.6E-78 | ||
| Hamap | 220 | 587 | 368 | 27.959 | ||
| ProSiteProfiles | 223 | 404 | 182 | 55.316 | ||
| Gene3D | 223 | 454 | 232 | 1.2E-85 | ||
| Pfam | 226 | 372 | 147 | 1.3E-42 | ||
| Gene3D | 240 | 294 | 55 | 1.2E-85 | – | |
| Gene3D | 394 | 447 | 54 | 1.2E-85 | – | |
| Pfam | 458 | 581 | 124 | 6.4E-12 | ||
| SUPERFAMILY | 459 | 572 | 114 | 1.2E-15 | ||
| Gene3D | 459 | 583 | 125 | 1.1E-40 | ||
| MobiDBLite | 598 | 623 | 26 | - | – |
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 , while the GO metadata was last updated on .
| GO term | Namespace | Name | Definition | Relationships |
|---|---|---|---|---|
| Molecular function | Damaged DNA binding | Interacting selectively and non-covalently with damaged DNA. | ||
| 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. | ||
| 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. | ||
| Molecular function | Nucleotidyltransferase activity | Catalysis of the transfer of a nucleotidyl group to a reactant. | ||
| 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. |
Expression pattern of LotjaGi2g1v0461300.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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