Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0772700
Transcript ID	LotjaGi1g1v0772700.1
Related isoforms 1	LotjaGi1g1v0772700.2
Lotus japonicus genome version	Gifu v1.2
Description	DNA polymerase; TAIR: AT1G67500.1 recovery protein 3; Swiss-Prot: sp\|Q766Z3\|REV3_ARATH DNA polymerase zeta catalytic subunit; TrEMBL-Plants: tr\|I1JRC1\|I1JRC1_SOYBN DNA polymerase; Found in the gene: LotjaGi1g1v0772700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:134539038..134554131) extracted from Lotus japonicus Gifu genome v1.2.

GAAAAAAACAAACAAAGCTTCTAGTAGAAGCCTTTAAAAGTTGAACTTCTTATAACTACCAAGCGCCAAAATTTCATCAG TTTTCAATTTCCCACTCTTCATTTCATCTTCGTGATTCGAAGAAAGCAAAACAAAAGCGGTGGGAACCAAAATGTCAGAT TCACAGTCGAATTCAGAGATTTTCAGCGTTCGCATCGTCTCCATCGACTACTACATGGCACCGCCGATCCTCGCCGCTGA TATCTGTTACAGCAGCTTCCACGGTACGACTCTAACCCTAACTGATTTTCTCACTCTCGATGCTCAATTCAACTTCCTAA CAACAAACCACAACGATTTGTCGATTTCATTCTGCGTTTAGAAGTTTCAATCCCTATCTGATTGTGAACTAGCTTTCTCG TGTTAATGAATCTGTTGCGTTTCATTGTTTCGATTTTATACTCAGGTGGAAAAGTGAATGAAGTTCCTGTGATACGAGTG TATGGTTCAACTCCTTCTGGCCAGAAAACTTGCTTGCACATACATAGAGTAAGATCTTACCAGAAATTTGTTTTCTCTTG AACCATATTTTTTTTGTTAAGATCTCATGTTTACTTCATTTTTTTATCACCACTCAGTGCAGGTGCTAGCAAATTTGTTA TCAGAAATTCAAATTCGGACTTTTACCTTTTAAATAGTTTGTCCATGTTATTCTTTGCAGGCTTTGCCTTATTTGTTTGT GCCGTGTTCAGATATACCGCTTCCACCAGACCTACAAGGTAATGAAAACTGATAAGTCATATGATAAGTCATATTTTATC TGTTAAATTTTGACTTTTGAACCATACAACTTTTATTCTCATGCCATGAAGGAATATTTCCATTATCTAGTTTTTCTGAA AGAAGCGAGTTCCACCCTTGCTCATGAAATGGGATTGTTCTGCAATTTAGTACTGGTTGTTCAATACCTCATATCATTTC AACTTTGAATTTACAGTTTTGTTTGAAGTACAAACAAGTCCTTAGTGCTCACAAACCATAGTACTCCCTCTGGTCATTTT TATAAGAAAAACTTTGACAAAATCACATAAACCAAGGAAACTAATATTTTTTTTATAAAATAAACTACTGTGCTTAATTT CAATGATATCTTTTTCTTTTCACAAGAACAATCATGCTAATTACCATAAATGTTGACAATACCTATTAGAGCATCTCCAA GGCAAGGTTCTTAGTTCTTATCTAGTTATTGGGAGGGGAAATAATTCTTTGTAGGTATTTGAATTTGTTTGGTTCCATTA GTCTAATGACTCATTGAGTTAATTGTGTGAATTTTTTGTTATTCCGTGTGGGCGAATTTCATTTCATTTCTTTCCTCTTT CCTTTTTATTACTTGATAGGTCGATTTAATAGTCTGGATTATGTTTTTGATTTATCTTATTTTTTCCAGTATTCATACTT CCGATAATTTTTTCCTTTAGAATTTGTGACTTAGTACTTGGAATACATTTCCCTTGATGTTGCACAGGTGATGTGTACAC CTATAAAGTAGCTGCTTCTCTCGAGAAAGCTTTGAAGGTATCCTTGTATGAGTTAGACAGTGTCTTGTACTCTATTTTAT GATTTCCTCTCCCTATTTGTAGATATGAGCCCGTTTGGATATGGGCTTATTAGCTTATTGGAGCTTATCTACTAGAAAAT GCACTAAAAAAGCTCCAATAAGTATTCCTTGGTTTGCATCCAAACGGGGTGCATACTTTCTTATATTAAAGACGTGACAT CAAATTTCATTAAAAACTTTACAGCTTAAAGGCAGTGCTGGATCAATGAGACAACATGTACATGGCTGCAGTCTTGTACG AGCAAAGAAATTTTATGGCTATCATTCAGTTGAAGAATTATTCGTGAAGATGTACCTGTATCCATTTTTTTAAACAATTT TTTTTACTATTCTTGAAAAGTTTCAAATGCACAGTTTGTACACTATGCATGCGCCACTTGTATGTACAAGCTAGGATGAT ATAGCATGCTTAAATCATGGAAAGCCTTCTTACCCAGAAAGGGGTTAGCCTTGACTGGTGCTTAAGATATTATCCTCAAG ATGTCTCCCGTGCAGCTAATCTTCTCTTGGTACGATATCTGAACATTACTCTTACAGCTTGCTGCTTATACCTTAGTTGT CACATTGTCTAGAATCCTGCAACTTTTGTTGATAATTGGAAAATCTTAATTGAAATTGGTACATCCTAATATGAAGTTAC CGAGAATAAGCTTTGATCTTAACATTTCCTTTTCAGGCTGGTGCTGTTTTTGATAAAAGTGTACAGCCTCATGAATCACA TATTCCTTTTATTCTTCAGTTTCTGGTATGTACTTTACCTTCATATAATTTATTATAACTTTCATGTGATTCAGTATAAC CGAAATTATTGATGTCTACTTGTAGCTAAACCTGATAAAATGATTTTCTTATTGAATCAGTCATTGTCTGTAACATGTCT TTTATTTTAGACACACCCTGAGTTTTACATTTCTGGATACATTCACCCACTGAATTTTTTCAATATAATTTTAGTTTTCC TTACTCTTGTTAGTGATTATTGATATGCTTGAGTGGGTTTGTAACATCCAGCTACTGTCTTGTGCTTGGATGATATGTTA TTTGTGAATGGTGATGCGTTTAAACAACTATTTTCTTATTATTTGTTTATTGTACTTCGTACCTTTCGATAATAAATTTC TGTTGATGGTACATGTTAAGTTACAATCTTTTCTAGTTGTGTTCAATTGATTTTGTGCCATTTCCATTGGCTTCTTGAGT TATGTGAACTGAATGCTTTCCGTCAATATTATCTGCTATAATTGCCCTATAGCTCAATGCAAAATACTTCAGCACATTTT TTTAGTTTTGTCTCATGCTTATAGATTTAAGCATTGTTTTGTGATGTTAGGTCGACTACAACTTGTATGGCATGGGTCAT TTGCACCTGTCAAAGATTAGGTTCCGCCATCCCATACCTGACTCCTCTCGCAAGAAATTCAACACTGATAGCCAGCATAG AAAGGTGATTGACTTGCATGTTTTCAGATCTCAATGTCCCCCTATCATTGGTATCCCTTATTTATATTTGATACCATAAT CTTCTCATTAGGCAGATTCGGATGCCATTGCATGTTTAGAGTCAAAATTGTGGATTTCATCCATGATCCCATTGGACTGG ATGTGGTCACCTCCTAGTGAATTTGATGCTTCATCAAATGATAAGGCTCATTGTCCAAAACGTCAAAGCATCTGTGAGCT TGAAGGAGATACTTCTGTAGATGGTTTGTCTGGTTTCTTGGCCATACTGACACACACACGTAAATGCACATGCACACATA CATATGCAATGACATCTTCTGCTACTGTTATTTCTCTTATTAAAAGTACACATCTCTTCTGGCAGAGATTCTTAATCAGC AGTTTAAAATGTACTCATCTCTCTCTCAAACACGCTCAGATGTCAACATGGTTCAGTCACTTGTACCAATATGGGAGGTA ACCTACTAATCTTTTTGTCTACATTATCTATTTTACAAGGTATGGTGTCTTTGTCTGGGTTTTATATAAATTAGTTGCCC TATTGTTTCAGGAACTGCAGAAACGGACTGGGATCCATGGCGCTATTATGCCTCCTGATCCTGGCAAACCACATCCAGAA GATGTCATGAAACTTCTTTCTGTTGGTCTTGACCTTGATAAAAAACTTTTTGAATTGTGCAGTGAAGCTGAAACCTCTTT ATTTTGTACTCCTTCTGACAAATTTAGGTTTGTGTACAGCCATTACATGATGTATAAATTAGCAAATCTTATGTAGGAGA TCTAACAGCCCTTGAATTCTTGCAGAGAAACAGACATAATAGGCTCAGCATCACCACCAGCTTCATTGTGTAAAAATGCC AAGTTTCGTGAGGAAGGGATTGACAGTAGTCTCAAATTGTTGACTGTTGATGAAATGCAATCCTCTGAGAAGATTGGAAC ATTGGACGTAAAGGCAATATTTTTTTGCTTGATTTTTCTTCTATGTATAACAAGATATTTTCATAATAAATCTTACTCTT GTCTTTTAACAAGATAACCTTCTTTATGCATTGGGGTATTTGTTGTGTAGTGTTTGTTTTCTGGATTCTCTGTGTGCGTT TCTCCCTATTAGCTGTTTATTATGGCACTATTCAACCTTTGATTTTCTTATATACAATTTGGTCCATTGAAGTTTTCTTG TACATTTCTTCTGACTTTCCTGCTTTCTAGGTTGCTGATAAAGATGCACAAAATCTTCTTAAGTGGCTTGCAACTTCTCA AGCTGCAGAAGATATAAACTCTGATGATGAACTTGTTTGTGAAACGATCTTGAGTCCCTTGCTACCTGCTGCAACAATTG ATGAAGTGCTAGAGAAAGCTAGTATGACATATGAGAGTGAGTCCCAAAAGGAATGTCAGGATATACTTGATTCAGTTGAT GATATGCTTGAGTTGGAACTACCAAAGGAAAATCCTTCTTGCTCCTCTGATCACAATCATCCTGTTGAAGCTTCATCAAA CAGTATGATACCCCAAGTCGATGGTTCCAATGATGAAGAATTCTCAAGGCCAGGTGCTTCTAGTTTGGCTGGAACCTCTT CTTCTGTAGATATAAACAGTGAGAACAAAAGGGCTTCTGGGCACCACAACCATGTGCGGCATGATACCGACACAAGTAAT GTTAGTAAAGATAAAAAGAATAAACAGTGGGGGTCTTTGCCTTTTACCATGACCGGTAAGGTTAATAATGATGGAGAACA TGCTAATTTATATGCGACTCATCCATTTGAAAGTGAAACTGGAGGTTACGCTCACTCAGATTACTTAACCAAAAATGGGG TTAGAAACAATGCTTGTATTTTAAGAAATATGTCCAAAGGTGCTTCAGATTCAAATGAAGAACATGGATTGGTTAGTTGT TCTTTGCGGGACCTGATGAGGCGAAAGCGATCTTATCGAGTGGAACATGATGAGTGTGAATCTGGAACTACCAAAAAGCT TCTTTTAGACAGGCACAAGGGATCAAATACATGCCTTTGGAAAAAACAACTGGATTTGAAAACAATGGAAACCAATGAAG AAGAAACAGAACTCCTGAAAAATTGTGATCCTAAAGGGAGCAATCATAATAGTTTAGTTTGTTGGAAACTGCCGCTTCCA TCTGGCAGTGGTAGTTCTTCACAGGCTAGTATGTCAAAAGATGAATGTTCTGATCAGCATGAAATGAAGTGTCTAGAAGC AAGTATGGTGTTTAGGAACGCCACAAATGAGGCTTCTTCTTTGATGCCTGGAGGACTAGATTTCCATAATCTTGAAAATT TTAATTTTATTGACTCCAGTTCCATCGACCAATCTGTAGCTTGCTGTGGTAAAAACGTTGGCAATGCTTATGCAAAACCT GTAGCTTCTGATGCCAATACCCCAAATCCCATTATACCCACTCAGTTGAAAACAGATGATCCAAGGAGGTCTCAGCAAAC TGTTTATGCTGCTTCAAGTAGTGTCCAGAGCTACTCCATTGATGATAAAGTTTCTGCCAAAGATAATTGCATGGATCAAA GTTCTTATGGAAGCATGTGTTTTGTAAAACATGATCAGACGAATTTTTATGAGCATGCTGTGGGCATAAGTGCTGCAAGT GACATGCAGGTGTTGCAAAGTGAAAAGGTTGATAATCAAAAGCTTGGCAAAAAATTGTCGCCTGAGACTATTGGTTCAGA CCCCATTGTTCATGACTTGTCCATTGTTCATGACTTGAAGGGTAATCATGTGAAATTAATTGAAATAACCAGAGGCAATA ACCCTTTGGCTGACAGTAACCTTGAAAGTAACATGTCATTGCCAGCTGTCTTTAATACCCATTTACATTTGGATGAGGAC AGCTGTCATGAAATGCCAGGTTCTAACTTCCCTTCTTTATCCCAATTTTCCTGGTCTTTTGCTTTATTTGCATTTGTATA TACATAAAATTAAATTAAATGGGTTTTGGGTCTGTTTTTCAATGGAGACATTTCCATGCCTTCTTAGACAAGAGTCTCTC TCATGCTAGGTTGTGTATTAAATAATATTAGTTGTCAGTCAGCCTTTATTAATATAGGCTTGGTGGCACAAAACCTTCCA TTTTGTGGAGTAGCCAGTTTACAGCACTGACAAAGTAAACGCCATGGTGCTTTATGTTGTTCTAGATGTCCAGATGTCCA ACCATTTAAGTGAAGTTCATAGCAGATATCCTTACATATATTGATTTCTTACCCTTCACTGTTTAGGTTGCATGCGGATT TTTGAAATTACTGTTAATTATTTTATTTAAATTTTGAAAGAAACTTTGATTAAGAAAAAAAATTCCCTATCCCTCTTCTA ATTCTGGGTCGCTGGCTGCTTTTGGCATTGTTTTCTGTGGAAGACACATGGATCTAGCTTGGAAGGGGCTATATGGAAGC AGCCCCCTTGTCTGAGGAAAAAGTATTACAAGTACGGCTATAAATATCTGGTGGAAATTCCTCCTCAGGCTGGCAAAACT TTACAAACTGCTATCATTTTATTCATGGTCTCCCTCTTCCTGGTCCTGGAGACTTGTATTTTTTAATGTTCATCTTTATA ATATACACATGTTTAGGTGCATTATCGTCCCATTGAATTTTGCTAACCAGGAAGTAAAACATCGTAGAAATTTCTACACT ATATGTTATATGTTATGTAGCTGATCCCAACCTAGTGGGATAGTTGTTAGTTTAGTTTGTTATGTCTTCTTCCGTGTCGT CTGGTCTTACTGGGTGTTTGAGGAAGCTTCTCATCAGCTTGTATTTATTTCTTGAAGGGAATGCTCTGGATGTTTTTCTT CCTATTTCTGCAAGGGATTCCCAGGAAGAGATTGAAACTCAGAACAAATATGTTACAATTAAAACCAACAGATCTAATGG GACAAGGGGTGTTGCTACCCACTATCAAAATGATGGCTCTCCCTTATACCTACTAACACCAAATATTCTGCCTCCTTCCG TAGGTTCTGTGCAAAGATGGCTACTTTGTGATGAGAGAGGTATCTACTAAAATATGTTCATTTTATCGCTAATCAGCGGT TTGTTATTACCCATTACCCATATTATTTGCTCTTGGAAACTCACTAAATGTGTCAAGAAACTGATACAGATGACAAGGAT AAACCTCAATGTGCATCTGGACATCTTATTGGACCTAAGCTGAATCAAGATGCTGGTGCTGAAAAGAAGCCTCTATGCAT TAACGAAGGACAAACAGAAAGAGTAAAAGCATGCCTAAATGACTCACAAGATATTTCTCAAATATCAGGCCCTGATGGAA AATCAAGTTCAACCCCTTTGAGTCAAAAAGGTTTCCGAGACCCTGCAAGTATTGGCTGTGGACAGCAATTGACATTACTT AGTATAGAGGTAATGGAGATAGTATTGTCCTGTTTTTTTTCCAGAAAATTTGTGAATGTGTCTTCTGGATTTCTTTGATG TCTCTCAAATTTGCATGTTGGGTTCTGGTTTGAAGACCTTATTTAGGTGTTGGTCTTTCATTTTGTTAGGACCCAATTGC AAGGTATGGGACTTGAGTCCCACATTGGAAGTATGGGATTCTAATGTGGGGTTTATAAGGCCTTGGGCTCTCCAACTACA ACATCTAGCTTTTGTGGTGTGGTTCTCCCAAGATTCTTATCACATTTTCTAAGAACTAACTCATTTAGTGACGACCACAC ACACGCACGCGTCAGTCTTCGACACAATTTTCCCGCTCAATAGGTGACAGTGTTGTTAATACTTTTTTTTCTTGAAATAG TGGTCATTTGTTATATGCACAAAAAGTAAATATATCTAGTTATTAATATTGGTATTTCTTGCTTTGAGGTGACCATGCTT CTTCTGTATATAATTAGCTTGTTATAGTCATAGTTTTCCACATCCAAAATCTAATCTGTTATTTTTTAGTGATATTGAAT TAAAAACCTGAGGGTTGTAGCCATTGTTACCTGCTGAGACTTTTACTTGTTACAATTACAAGTGATCAGAATGTTTTTAC CCGGAAGTATGGAATCTAATTGGATTTTCTTACTTGTTATTAAAAAGTGCATTTTTTTTGTTTGTGTTATTTTTGAATTG TTTTAAATTCTTCATGTAAGTTTTGCTTTTTGTCTTCTTTTAAATGAACATCTTTGCAGTCTTGTTACTTGCATAGATCT GACTTGACTTAAAATGGTAGGTTCTTGCTGAATCTAGAGGAGACCTTTTACCTAATCCTCAATTTGATGGTGTCAACATC ATAGCTCTTGGTTTTCAGAATGATAGCGATTCTGTTATTGGAGTTGTTGTTCTTTTGCATACTAAATCTGTACCTTTTCA GAGGTATGGTAACACACCTTTATATCATGTTTTACTCATTCTCTCTTTGGATTGTTCTTCTATTGGTGACAAATATCATG CACCAGTATAATATGTTTCATCCAGGCTAATCATATGTTAAGAAAATTGCTATTCATGTTCTTCATTGGTTTGCAGAAGT TTGGATGGTCTATCAGGCTGCAAAATATTGATCTTCACTAATGAGAAGCACTTGTTTAAAGAATTTATAAAGATTGTGTC TTCATCCGACCCAGATATTTTGATTGGTTGGGATATTCAAGGAAGCTCTCTTGGTTTTCTAGCAGAAAGGGCTTCACATC TTGGTTTAGGATTACTTAATAGTTTGTCTCGCACTCCAACTGATTCTTGTATTACTTCTGAAGATATCAAAACTTCTGAA AAGGGTATGCTGGAACTAGATTTCCCTGATACCCCTAGTGTAGATTGTGGCGTGCAAGAAATTTCAATAATTGAGGATGA ATGGGGACGGACACATGCAAGTGGAGTTCATGTAGGGGGAAGAATCGTCCTTAATGTGTGGCGATTGGTCCGCGGAGAGG TTAAGCTAAATTTATATTCAGTTGAAGCCGTAGCTGAAGCTGTATTAAGGCGGAAAATTCCTTTAATTCACCATAAGGTG CTGACAAAATGGTATTCAAGTGGTCCTGGACGAGCAAGATATCAGTGTATCAAATATGTTGTAGAGAGAGCAAAGCTGAA CCTTGAGATATTAAACCAACTTGATATGGTACAGTAGCATTATAAGCTAAAACTATGTGTATTAAATAGTTCATTGCTAA AATGATGATATCCTTGATGCACATGGATTGGGTACTTGTTTTGCATACAACTAGCAGAGTGTGTTTTCCAGGCTTGTTTG GGTGCATTGAAAGAAATATCAAAACATGTTTGTAATTATTTACACATACTTTTGAAGTTTCTTTTAATTAAGCTTCTTTC TTTAAAGCTAATGGGTGATACTATGATAAATCAACTGTCACAAAAGTATAAGTTGTAAGATGAAGATACATGAATGGGTT TATGTTATATTTGTAACATGCCCCTCACGCAAGAGGGCATGGGGCGTATCTCTTGCATGGACAATCCATCCTCACCTACC ACCTTAAGCTGAAATTTAACTTTAACTTTTTTATTAGATTAAGGGGGAAACAAGGGACTACTTGGTCGTAGAGGTTCTGA TATCATATCATGAACCATTACAAAAGTTTAAGCTATTGGGTGAAGACACATGAATGGGTTTATATCATATTTCTAACAGA TACACTATATATTATTTTATTTTTGTGAATCTAGGGCTCCTTAGATTCCTTAATTAGTTTTATTATGATGTTTTGGGGTC CATAAGTAACATTTACATCTTATTCTTGTTCACTGATTTGTAGCCTTTCCTTATTTCCTGTTTATTTTTCTTCTGCAGGT GAATCGAACATCAGAACTTGCTCGTGTCTTTGGCATAGATTTTTTTTCTGTTCTCTCACGAGGCTCCCAATACCGTGTTG AGTCCATGTTTTTGAGGCTGGCCCATTCACAAAACTACCTTGCTATCTCACCTGGAAATCAACAGGTTCTCACAAACTTC TCCTGTCCTCTCCTTTTTATTGGTGGATAACTAATTATGACGTCAAATGGTAGTGATGCCATCACGTACAAGCATCTTTA AATTGATAGTGCTATGGTAGCATATACCATGTCTTCTGATAATATCAAATACTATAGACCAACTCTGTATAAGGGATCTC TCATTTCATTTTCTCACCTAATTTTTAATTTTCTTCTAGATGTGTTATTTTAGTTGTGAAAAAGAAGGTTGAATGTGATG ACTGGGGAGTTTCAATTTGGTGGGTTTTGTGTTCAATGCATCACCAAGGACCATGTAACTGGCCAATCATTCTGCATGAA GAGTTTACATCATGATTTTTTTTTTCTTTCTGTTGAAACAGGTTGTTTATAATTCAAAATATTTTTTTAGTAAAGCTTGT GCATTTGTTTTGTTATTAAAGCTGACTTTGTTTCCCTTAGTTGTAATTGTTCTGCTTTTTTTAAAAAAAAAATCTGGGGC TTCTGTTAAGGTCTATTCAATGTTGTTTCTTCACCTCTGCCCAAGAGTTTAACAAATCATTGTTGTCTCATTAGGTTGCT TCTCAACCTGCCATGGAATGCCTGCCCCTAGTTATGGAACCAGAGTCAGGATTTTATTCAGATCCAGTTGTTGTACTTGA CTTCCAATCTTTATACCCATCAATGATAATTGCATACAACCTTTGCTTTTGTACATGTCTTGGCAAAGTCATGACATCAA AGGCTAATACACTTGGGGTTAGTTCATTTTCACCAGAGCAACATGTTCTGCAGGATTTAAAAGATCAAATCTTGCTCACC CCAAATGGTGTTATGTTTGTACCTAACAAGGTGATTCAGTTGTTGTTGTTCTTGTTATTACTTATTATTATTATTATTAT TATTATTATTATTATTATTATTATTATTATTATTATTATTTAGTAGTCAGGAGTCAGGAGTCAGGACTGATTGAGAGGTG AAGTTACTTTAATCTGCACTTTGCTGCCATACAGGTTCGAAGAGGTGTATTGCCCCGCTTATTGGAAGAAATCTTATCAA CTAGAATAATGGTAAAACAAGCAATGAAAAAGTTGTCTTCGTCTGAGCAAGTTCTTCAGCGGGTATGGATTTGAATTGGA ATTGAATCTCTTAAAGTTGCACCAAGTATGTTTGTTTTATACTACTAGTATGATAGTAAAGAACTGAAACTTGCCCATAT GATTTATAAATGTTTAGAATCTATGTTCTTCTTAAGGTATAATTTTTCCTTTTTATTACTGGCCAGATGTATAGAAAAAA TAATTTTGTGGGTCTTCAGTCTGGAGGATTTTCTGAAAAACTCGAGAATTTTCAAAATGATAAAAGAATTTAAGAAATTT TATGAAAATCTTCTAACTAAATGCATGCTAAATATTCTTGCCTTCACTGGGCCTGGAATAATTACGTCTGCCGTGTGCGA TGCAGGAGGATATGATTCTTTTATTTGGATAATGTAAATAGATTTACCTAGTTGTACAATTATCTTTACAGATATTTAAT GCAAGACAGCTTGCTTTGAAGCTCATATCAAATGTAACATATGGTTACACTGCTGCTGGATTTAGTGGCCGCATGCCTTG TGCAGAACTTGCGGATAGTATTGTTCAATGTGGCCGCAGAACACTCGAAAGGGCTATATCATTTGTAAATCTGCATGAAA AGTGGAATGCTAAAGTTATTTATGGAGATACTGATAGGTAACATCTTCCAGAGATTTGCCTAAGTATACACCTTTATTAT TTTGAATGTATTTTCTCCTGAACAGAGTGATTCATACACTTGAGTGTCTAGAAAAATTTCAACCAGAGATATTTATCAGT TAAACATTCAAACTATGAGAGGTGAGTGTAATTTAAGGCAAATACTAGGGTAGGTCAGTGCACATGTAATTAAATATATA CCCTTCTGCTTATATGCTTGTGTCCACTGTCCAGTAACATGAACATTTTCAAATTCTTTTCCTCTCTAGTATCCTGCACC ATGGTGGGAAATGTGGTAGGAAGACCTCAACTAGGTTATATATTTCCTTTGAGTTTTAGGAATTGAAGAGTTTGGGTTGG AAGAAGAGAACTATGGGTGTAGGTTTAAAAACCTTAAGATCTAAGATTATTTTACTCTGACTGCTGAATTGTCATTTATA TCAAGACAATACTTCTCAATAAAATTAAGAAACATGATAGCAGTCATGATAAAAACTTACAAGAAACTCTTCTTTAATTT TTTTAATGTATTTAAGTTCCTGTTAGTATTCCTATTCTGACATATGGCTTTCTCAGCGTCTTTATGCTCATGGTGGGTAT TTAAGTGTAATTCTAGGTCAGACTTGCAAAGGAACTTATTGCTCTTTTTTCTTTGCTGTTGTTTTTGTAGCCTGTGTACT CCTTCCCATTTCTTAATGAGTTCTTGTTTTATAAAAAATTATTATGAGTCAGTATTTGTAATTGCTGGGATTCTGTAACT ATTTAATAATGGCCATATTGTGTCTAATTTTGACTGTAGTATCATCGATGTCCTTCATGATTGCTATTATTTTATCAAGT AATGATTAGCAAAGTGACAGGGTTGAAAATGAAAAAACAGATTAGTAAAGTGAGTTACTTTCTGCAGTATGTTTGTCCTT CTTAAAGGTCGCACTATCAAAGAGTCCTTCCAAATTGGGGGTGAGATTGCTTCTGCTATCACTTCTATGAATCCTAATCC TGTCACCCTGAAGATGGAGAAAGTTTACCATGGATGTTTCCTCCTTACTAAAAAGCGATACGTTGGGTACAGTTATGAAA GCCCTGATCAAATTGAACCTGTTTTTGATGCTAAAGGTATTGAGACAGTACGCAGGGACACATGTGGTGCAGTTGCAAAG ACACTGGAGCAGTCTTTGAGACTCTTTTTTGAGCATCAAGATTTATTGGAGGTATAAATGTTTTCAGGTTGAAACTTTTC TATATACATCACACTGAATGTAATTGTTGTTTAAAACTGATAATGATGTCCCTTTTATATGCTACTGTGTGTTTTATTAA GTGGAAAATGAGACGGGTTTGAAAATGAGTTTGATAGGAAACTTTTGATGTTCCCTTATCATTGCTTGAACGAAGAAAAT GACTTTCAGCTCAATTACATACTACTGGAGATTAGCAGTGAACAAACTTTGTGATGTTGAGTTGAATGAGTTGCATTTCA TTTTAAATTGTTCCTCATTTTGTTGTTGTGCATTGTGTGAATCTGGTACATTTATTATCACATATTTGTCCCTGCTTTCT ATTTTCTGCGTGATTAATTACTTGGATGTTGCATTCATGCATATCTTTAATTTGTTTTACTTTTTGAAAATTTTCACAAT GGAAATTATCTTAGTGGAAAGTCTATCTTATTAATCCTCCACTCAGATTTTTGCCCCTTTCCCTTCTTCATGCAATATCT ATGTATGAAAGTAAAGATACAAAGAATCAGCTGAATTCCATCAATTCATTCTGGATACTTCATCTGAAAACTTACAATAT TAGTTTAACCTCCATTCATGCTTATGACTTCTTATTTGCTGCCTGCAGGTGAAGACTTACTTGCAACGTCAGTGGAAGAG GATTCTTTCAGGCAGATTCTCCCTCAAAGATTTTATCTTTGCAAAGGAGGTTCGCTTGGGTACCTACAGGGCAAGGATCT CATCACTTCCTCCTGCTGCAATTGTGGCTACTAAGGCAATGAGGGTTGATCCTAGGGCAGAACCACGTTATGGTGAGAGA ATACCTTACGTTGTAATCCATGGAGAGCCTGGAGCCCGCCTGGTTGATATGGTTGTGGATCCATTGGAAGTTTTGGCAAT TGATTCCCCATTTAGGATGAATGATTTATATTACATTAATAAACAAATAATACCGGCTTTACAACGGGTGTTTGGGCTTG TTGGTGCTGACCTGAACCTGTGGTTCGCAGAGATGCCCCGCCCCATAAGGGAAGCTTCTGCAAAGCATACTTTCACTCCA AATTCTCATCGAACCAGAATTGATTATTACTATCTCTCAAAACATTGTGTACTGTGTGGTGCGTTGGTCCAGGCATCAAC CCATTTATGTAATCAATGTTCTGAAAATAAAGTTGCAGCTGTGACAGCAGTTGTTTGTAAGACTTCAAAGTTAGAGCAAG AGATGCAACATCTTGTTTCTGTAAGTATATTTATATGTTATTTTATCAATTGTGTTAAGGACTCTTTAGAAATTGTGTTG GCCTAATCCTTTTTTTAGCTTAGGGTATTGTATAGGTTACTTCATGCATGGAGGAAATCTGCATAAATGTTATAGTTTGT TGCATCACTGTTGTTAGTATGTAGTTCTGGTTCGCATTAGAAGGTGTTTTGTAGATTTTGCTATCTCAAGTCTGGTTTGA TGAAAGTTTCTATTGTATCAGTGATTTTGTTTGTTCCTTTCCCGAGATTTGATGCTTTGTGATGTGTTTTCTTCTGGTTA TGGTGATAGTTCTATTTTTCTTTCTTGTAGATATGTCACCATTGTGGAGGCGGGGATAGGCTTCTCGAAAGTAGTGTGAA GTGCACGTCCATTTCATGCTTGGTGTTCTATGAGAGGCGAAAAGTTCAGAAAGAACTACTAGCTGCCACTCATGCTGCTG GTAAAGGCTTCTATCCGAGATGCACGGTTGAATGGTTTTGACTTCTGAAAGCCGGTTCTCCTTCACATTGTAACATATTA TTTACGCAAAATAGTATAAAGTATCTTCATATGGCGTTGAGCCAAATCAAATCTGTATGTATATTTTTGTCCTGTTGTAA TTGTAATTAATCACGTATAAAAGCTAAGTTAATCCAAGCAAGTGTGCTTTTCTCTTAGCGTATTGAGCAACACCGGAACA GTTTTTTATTTTATTTTTTTCCAGAACTCTTTCATCAATACATAGGGTGCACATTTCGTGCCTTTATGTGCTCTGCGCAC GGCATTAGATATTTTGGGGGTATTTGGTAAGATTTTCAAATTAGCTTAGAGGTTTTATGTCTAAATTATAAGCTTTTTAG AAGTGTTTTGTTGAAAAATATTCTTTTAGTAGCTTATAAAGTGTATTTTAAAAC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0772700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTCAGATTCACAGTCGAATTCAGAGATTTTCAGCGTTCGCATCGTCTCCATCGACTACTACATGGCACCGCCGATCCT CGCCGCTGATATCTGTTACAGCAGCTTCCACGGTGGAAAAGTGAATGAAGTTCCTGTGATACGAGTGTATGGTTCAACTC CTTCTGGCCAGAAAACTTGCTTGCACATACATAGAGCTTTGCCTTATTTGTTTGTGCCGTGTTCAGATATACCGCTTCCA CCAGACCTACAAGGTGATGTGTACACCTATAAAGTAGCTGCTTCTCTCGAGAAAGCTTTGAAGCTTAAAGGCAGTGCTGG ATCAATGAGACAACATGTACATGGCTGCAGTCTTGTACGAGCAAAGAAATTTTATGGCTATCATTCAGTTGAAGAATTAT TCGTGAAGATGTACCTATATTATCCTCAAGATGTCTCCCGTGCAGCTAATCTTCTCTTGGCTGGTGCTGTTTTTGATAAA AGTGTACAGCCTCATGAATCACATATTCCTTTTATTCTTCAGTTTCTGGTCGACTACAACTTGTATGGCATGGGTCATTT GCACCTGTCAAAGATTAGGTTCCGCCATCCCATACCTGACTCCTCTCGCAAGAAATTCAACACTGATAGCCAGCATAGAA AGGCAGATTCGGATGCCATTGCATGTTTAGAGTCAAAATTGTGGATTTCATCCATGATCCCATTGGACTGGATGTGGTCA CCTCCTAGTGAATTTGATGCTTCATCAAATGATAAGGCTCATTGTCCAAAACGTCAAAGCATCTGTGAGCTTGAAGGAGA TACTTCTGTAGATGAGATTCTTAATCAGCAGTTTAAAATGTACTCATCTCTCTCTCAAACACGCTCAGATGTCAACATGG TTCAGTCACTTGTACCAATATGGGAGGAACTGCAGAAACGGACTGGGATCCATGGCGCTATTATGCCTCCTGATCCTGGC AAACCACATCCAGAAGATGTCATGAAACTTCTTTCTGTTGGTCTTGACCTTGATAAAAAACTTTTTGAATTGTGCAGTGA AGCTGAAACCTCTTTATTTTGTACTCCTTCTGACAAATTTAGAGAAACAGACATAATAGGCTCAGCATCACCACCAGCTT CATTGTGTAAAAATGCCAAGTTTCGTGAGGAAGGGATTGACAGTAGTCTCAAATTGTTGACTGTTGATGAAATGCAATCC TCTGAGAAGATTGGAACATTGGACGTAAAGGTTGCTGATAAAGATGCACAAAATCTTCTTAAGTGGCTTGCAACTTCTCA AGCTGCAGAAGATATAAACTCTGATGATGAACTTGTTTGTGAAACGATCTTGAGTCCCTTGCTACCTGCTGCAACAATTG ATGAAGTGCTAGAGAAAGCTAGTATGACATATGAGAGTGAGTCCCAAAAGGAATGTCAGGATATACTTGATTCAGTTGAT GATATGCTTGAGTTGGAACTACCAAAGGAAAATCCTTCTTGCTCCTCTGATCACAATCATCCTGTTGAAGCTTCATCAAA CAGTATGATACCCCAAGTCGATGGTTCCAATGATGAAGAATTCTCAAGGCCAGGTGCTTCTAGTTTGGCTGGAACCTCTT CTTCTGTAGATATAAACAGTGAGAACAAAAGGGCTTCTGGGCACCACAACCATGTGCGGCATGATACCGACACAAGTAAT GTTAGTAAAGATAAAAAGAATAAACAGTGGGGGTCTTTGCCTTTTACCATGACCGGTAAGGTTAATAATGATGGAGAACA TGCTAATTTATATGCGACTCATCCATTTGAAAGTGAAACTGGAGGTTACGCTCACTCAGATTACTTAACCAAAAATGGGG TTAGAAACAATGCTTGTATTTTAAGAAATATGTCCAAAGGTGCTTCAGATTCAAATGAAGAACATGGATTGGTTAGTTGT TCTTTGCGGGACCTGATGAGGCGAAAGCGATCTTATCGAGTGGAACATGATGAGTGTGAATCTGGAACTACCAAAAAGCT TCTTTTAGACAGGCACAAGGGATCAAATACATGCCTTTGGAAAAAACAACTGGATTTGAAAACAATGGAAACCAATGAAG AAGAAACAGAACTCCTGAAAAATTGTGATCCTAAAGGGAGCAATCATAATAGTTTAGTTTGTTGGAAACTGCCGCTTCCA TCTGGCAGTGGTAGTTCTTCACAGGCTAGTATGTCAAAAGATGAATGTTCTGATCAGCATGAAATGAAGTGTCTAGAAGC AAGTATGGTGTTTAGGAACGCCACAAATGAGGCTTCTTCTTTGATGCCTGGAGGACTAGATTTCCATAATCTTGAAAATT TTAATTTTATTGACTCCAGTTCCATCGACCAATCTGTAGCTTGCTGTGGTAAAAACGTTGGCAATGCTTATGCAAAACCT GTAGCTTCTGATGCCAATACCCCAAATCCCATTATACCCACTCAGTTGAAAACAGATGATCCAAGGAGGTCTCAGCAAAC TGTTTATGCTGCTTCAAGTAGTGTCCAGAGCTACTCCATTGATGATAAAGTTTCTGCCAAAGATAATTGCATGGATCAAA GTTCTTATGGAAGCATGTGTTTTGTAAAACATGATCAGACGAATTTTTATGAGCATGCTGTGGGCATAAGTGCTGCAAGT GACATGCAGGTGTTGCAAAGTGAAAAGGTTGATAATCAAAAGCTTGGCAAAAAATTGTCGCCTGAGACTATTGGTTCAGA CCCCATTGTTCATGACTTGTCCATTGTTCATGACTTGAAGGGTAATCATGTGAAATTAATTGAAATAACCAGAGGCAATA ACCCTTTGGCTGACAGTAACCTTGAAAGTAACATGTCATTGCCAGCTGTCTTTAATACCCATTTACATTTGGATGAGGAC AGCTGTCATGAAATGCCAGGGAATGCTCTGGATGTTTTTCTTCCTATTTCTGCAAGGGATTCCCAGGAAGAGATTGAAAC TCAGAACAAATATGTTACAATTAAAACCAACAGATCTAATGGGACAAGGGGTGTTGCTACCCACTATCAAAATGATGGCT CTCCCTTATACCTACTAACACCAAATATTCTGCCTCCTTCCGTAGGTTCTGTGCAAAGATGGCTACTTTGTGATGAGAGA GATGACAAGGATAAACCTCAATGTGCATCTGGACATCTTATTGGACCTAAGCTGAATCAAGATGCTGGTGCTGAAAAGAA GCCTCTATGCATTAACGAAGGACAAACAGAAAGAGTAAAAGCATGCCTAAATGACTCACAAGATATTTCTCAAATATCAG GCCCTGATGGAAAATCAAGTTCAACCCCTTTGAGTCAAAAAGGTTTCCGAGACCCTGCAAGTATTGGCTGTGGACAGCAA TTGACATTACTTAGTATAGAGGTTCTTGCTGAATCTAGAGGAGACCTTTTACCTAATCCTCAATTTGATGGTGTCAACAT CATAGCTCTTGGTTTTCAGAATGATAGCGATTCTGTTATTGGAGTTGTTGTTCTTTTGCATACTAAATCTGTACCTTTTC AGAGAAGTTTGGATGGTCTATCAGGCTGCAAAATATTGATCTTCACTAATGAGAAGCACTTGTTTAAAGAATTTATAAAG ATTGTGTCTTCATCCGACCCAGATATTTTGATTGGTTGGGATATTCAAGGAAGCTCTCTTGGTTTTCTAGCAGAAAGGGC TTCACATCTTGGTTTAGGATTACTTAATAGTTTGTCTCGCACTCCAACTGATTCTTGTATTACTTCTGAAGATATCAAAA CTTCTGAAAAGGGTATGCTGGAACTAGATTTCCCTGATACCCCTAGTGTAGATTGTGGCGTGCAAGAAATTTCAATAATT GAGGATGAATGGGGACGGACACATGCAAGTGGAGTTCATGTAGGGGGAAGAATCGTCCTTAATGTGTGGCGATTGGTCCG CGGAGAGGTTAAGCTAAATTTATATTCAGTTGAAGCCGTAGCTGAAGCTGTATTAAGGCGGAAAATTCCTTTAATTCACC ATAAGGTGCTGACAAAATGGTATTCAAGTGGTCCTGGACGAGCAAGATATCAGTGTATCAAATATGTTGTAGAGAGAGCA AAGCTGAACCTTGAGATATTAAACCAACTTGATATGGTGAATCGAACATCAGAACTTGCTCGTGTCTTTGGCATAGATTT TTTTTCTGTTCTCTCACGAGGCTCCCAATACCGTGTTGAGTCCATGTTTTTGAGGCTGGCCCATTCACAAAACTACCTTG CTATCTCACCTGGAAATCAACAGGTTGCTTCTCAACCTGCCATGGAATGCCTGCCCCTAGTTATGGAACCAGAGTCAGGA TTTTATTCAGATCCAGTTGTTGTACTTGACTTCCAATCTTTATACCCATCAATGATAATTGCATACAACCTTTGCTTTTG TACATGTCTTGGCAAAGTCATGACATCAAAGGCTAATACACTTGGGGTTAGTTCATTTTCACCAGAGCAACATGTTCTGC AGGATTTAAAAGATCAAATCTTGCTCACCCCAAATGGTGTTATGTTTGTACCTAACAAGGTTCGAAGAGGTGTATTGCCC CGCTTATTGGAAGAAATCTTATCAACTAGAATAATGGTAAAACAAGCAATGAAAAAGTTGTCTTCGTCTGAGCAAGTTCT TCAGCGGATATTTAATGCAAGACAGCTTGCTTTGAAGCTCATATCAAATGTAACATATGGTTACACTGCTGCTGGATTTA GTGGCCGCATGCCTTGTGCAGAACTTGCGGATAGTATTGTTCAATGTGGCCGCAGAACACTCGAAAGGGCTATATCATTT GTAAATCTGCATGAAAAGTGGAATGCTAAAGTTATTTATGGAGATACTGATAGTATGTTTGTCCTTCTTAAAGGTCGCAC TATCAAAGAGTCCTTCCAAATTGGGGGTGAGATTGCTTCTGCTATCACTTCTATGAATCCTAATCCTGTCACCCTGAAGA TGGAGAAAGTTTACCATGGATGTTTCCTCCTTACTAAAAAGCGATACGTTGGGTACAGTTATGAAAGCCCTGATCAAATT GAACCTGTTTTTGATGCTAAAGGTATTGAGACAGTACGCAGGGACACATGTGGTGCAGTTGCAAAGACACTGGAGCAGTC TTTGAGACTCTTTTTTGAGCATCAAGATTTATTGGAGGTGAAGACTTACTTGCAACGTCAGTGGAAGAGGATTCTTTCAG GCAGATTCTCCCTCAAAGATTTTATCTTTGCAAAGGAGGTTCGCTTGGGTACCTACAGGGCAAGGATCTCATCACTTCCT CCTGCTGCAATTGTGGCTACTAAGGCAATGAGGGTTGATCCTAGGGCAGAACCACGTTATGGTGAGAGAATACCTTACGT TGTAATCCATGGAGAGCCTGGAGCCCGCCTGGTTGATATGGTTGTGGATCCATTGGAAGTTTTGGCAATTGATTCCCCAT TTAGGATGAATGATTTATATTACATTAATAAACAAATAATACCGGCTTTACAACGGGTGTTTGGGCTTGTTGGTGCTGAC CTGAACCTGTGGTTCGCAGAGATGCCCCGCCCCATAAGGGAAGCTTCTGCAAAGCATACTTTCACTCCAAATTCTCATCG AACCAGAATTGATTATTACTATCTCTCAAAACATTGTGTACTGTGTGGTGCGTTGGTCCAGGCATCAACCCATTTATGTA ATCAATGTTCTGAAAATAAAGTTGCAGCTGTGACAGCAGTTGTTTGTAAGACTTCAAAGTTAGAGCAAGAGATGCAACAT CTTGTTTCTATATGTCACCATTGTGGAGGCGGGGATAGGCTTCTCGAAAGTAGTGTGAAGTGCACGTCCATTTCATGCTT GGTGTTCTATGAGAGGCGAAAAGTTCAGAAAGAACTACTAGCTGCCACTCATGCTGCTGGTAAAGGCTTCTATCCGAGAT GCACGGTTGAATGGTTTTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0772700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSDSQSNSEIFSVRIVSIDYYMAPPILAADICYSSFHGGKVNEVPVIRVYGSTPSGQKTCLHIHRALPYLFVPCSDIPLP PDLQGDVYTYKVAASLEKALKLKGSAGSMRQHVHGCSLVRAKKFYGYHSVEELFVKMYLYYPQDVSRAANLLLAGAVFDK SVQPHESHIPFILQFLVDYNLYGMGHLHLSKIRFRHPIPDSSRKKFNTDSQHRKADSDAIACLESKLWISSMIPLDWMWS PPSEFDASSNDKAHCPKRQSICELEGDTSVDEILNQQFKMYSSLSQTRSDVNMVQSLVPIWEELQKRTGIHGAIMPPDPG KPHPEDVMKLLSVGLDLDKKLFELCSEAETSLFCTPSDKFRETDIIGSASPPASLCKNAKFREEGIDSSLKLLTVDEMQS SEKIGTLDVKVADKDAQNLLKWLATSQAAEDINSDDELVCETILSPLLPAATIDEVLEKASMTYESESQKECQDILDSVD DMLELELPKENPSCSSDHNHPVEASSNSMIPQVDGSNDEEFSRPGASSLAGTSSSVDINSENKRASGHHNHVRHDTDTSN VSKDKKNKQWGSLPFTMTGKVNNDGEHANLYATHPFESETGGYAHSDYLTKNGVRNNACILRNMSKGASDSNEEHGLVSC SLRDLMRRKRSYRVEHDECESGTTKKLLLDRHKGSNTCLWKKQLDLKTMETNEEETELLKNCDPKGSNHNSLVCWKLPLP SGSGSSSQASMSKDECSDQHEMKCLEASMVFRNATNEASSLMPGGLDFHNLENFNFIDSSSIDQSVACCGKNVGNAYAKP VASDANTPNPIIPTQLKTDDPRRSQQTVYAASSSVQSYSIDDKVSAKDNCMDQSSYGSMCFVKHDQTNFYEHAVGISAAS DMQVLQSEKVDNQKLGKKLSPETIGSDPIVHDLSIVHDLKGNHVKLIEITRGNNPLADSNLESNMSLPAVFNTHLHLDED SCHEMPGNALDVFLPISARDSQEEIETQNKYVTIKTNRSNGTRGVATHYQNDGSPLYLLTPNILPPSVGSVQRWLLCDER DDKDKPQCASGHLIGPKLNQDAGAEKKPLCINEGQTERVKACLNDSQDISQISGPDGKSSSTPLSQKGFRDPASIGCGQQ LTLLSIEVLAESRGDLLPNPQFDGVNIIALGFQNDSDSVIGVVVLLHTKSVPFQRSLDGLSGCKILIFTNEKHLFKEFIK IVSSSDPDILIGWDIQGSSLGFLAERASHLGLGLLNSLSRTPTDSCITSEDIKTSEKGMLELDFPDTPSVDCGVQEISII EDEWGRTHASGVHVGGRIVLNVWRLVRGEVKLNLYSVEAVAEAVLRRKIPLIHHKVLTKWYSSGPGRARYQCIKYVVERA KLNLEILNQLDMVNRTSELARVFGIDFFSVLSRGSQYRVESMFLRLAHSQNYLAISPGNQQVASQPAMECLPLVMEPESG FYSDPVVVLDFQSLYPSMIIAYNLCFCTCLGKVMTSKANTLGVSSFSPEQHVLQDLKDQILLTPNGVMFVPNKVRRGVLP RLLEEILSTRIMVKQAMKKLSSSEQVLQRIFNARQLALKLISNVTYGYTAAGFSGRMPCAELADSIVQCGRRTLERAISF VNLHEKWNAKVIYGDTDSMFVLLKGRTIKESFQIGGEIASAITSMNPNPVTLKMEKVYHGCFLLTKKRYVGYSYESPDQI EPVFDAKGIETVRRDTCGAVAKTLEQSLRLFFEHQDLLEVKTYLQRQWKRILSGRFSLKDFIFAKEVRLGTYRARISSLP PAAIVATKAMRVDPRAEPRYGERIPYVVIHGEPGARLVDMVVDPLEVLAIDSPFRMNDLYYINKQIIPALQRVFGLVGAD LNLWFAEMPRPIREASAKHTFTPNSHRTRIDYYYLSKHCVLCGALVQASTHLCNQCSENKVAAVTAVVCKTSKLEQEMQH LVSICHHCGGGDRLLESSVKCTSISCLVFYERRKVQKELLAATHAAGKGFYPRCTVEWF

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	PTHR45812 View details on PTHR45812 Search for proteins/transripts with this domain View external data on PTHR45812	11	1964	1954	0.0	IPR030559 Show description in modal box View details on IPR030559 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.342.10 View details on G3DSA:3.30.342.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.342.10	30	196	167	8.6E-34	–
SUPERFAMILY	SSF53098 View details on SSF53098 Search for proteins/transripts with this domain View external data on SSF53098	36	1393	1358	1.8E-62	IPR012337 Show description in modal box View details on IPR012337 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	488	574	87	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	494	541	48	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	542	564	23	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	800	831	32	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	807	831	25	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1088	1108	21	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1088	1112	25	-	–
CDD	cd05778 View details on cd05778 Search for proteins/transripts with this domain View external data on cd05778	1118	1368	251	3.22843E-69	–
SMART	SM00486 View details on SM00486 Search for proteins/transripts with this domain View external data on SM00486	1119	1625	507	1.3E-101	IPR006172 Show description in modal box View details on IPR006172 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.420.10 View details on G3DSA:3.30.420.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.420.10	1121	1370	250	2.1E-35	IPR036397 Show description in modal box View details on IPR036397 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03104 View details on PF03104 Search for proteins/transripts with this domain View external data on PF03104	1123	1255	133	4.8E-8	IPR006133 Show description in modal box View details on IPR006133 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00136 View details on PF00136 Search for proteins/transripts with this domain View external data on PF00136	1387	1834	448	4.0E-96	IPR006134 Show description in modal box View details on IPR006134 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd05534 View details on cd05534 Search for proteins/transripts with this domain View external data on cd05534	1394	1842	449	0.0	–
SUPERFAMILY	SSF56672 View details on SSF56672 Search for proteins/transripts with this domain View external data on SSF56672	1433	1846	414	8.9E-112	IPR043502 Show description in modal box View details on IPR043502 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.90.1600.10 View details on G3DSA:3.90.1600.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.1600.10	1434	1669	236	1.7E-84	IPR023211 Show description in modal box View details on IPR023211 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00106 View details on PR00106 Search for proteins/transripts with this domain View external data on PR00106	1446	1459	14	4.9E-9	IPR006172 Show description in modal box View details on IPR006172 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.287.690 View details on G3DSA:1.10.287.690 Search for proteins/transripts with this domain View external data on G3DSA:1.10.287.690	1512	1574	63	1.7E-84	–
PRINTS	PR00106 View details on PR00106 Search for proteins/transripts with this domain View external data on PR00106	1555	1567	13	4.9E-9	IPR006172 Show description in modal box View details on IPR006172 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00106 View details on PR00106 Search for proteins/transripts with this domain View external data on PR00106	1611	1619	9	4.9E-9	IPR006172 Show description in modal box View details on IPR006172 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00116 View details on PS00116 Search for proteins/transripts with this domain View external data on PS00116	1613	1621	9	-	IPR017964 Show description in modal box View details on IPR017964 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.132.60 View details on G3DSA:1.10.132.60 Search for proteins/transripts with this domain View external data on G3DSA:1.10.132.60	1688	1843	156	9.6E-38	IPR042087 Show description in modal box View details on IPR042087 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF14260 View details on PF14260 Search for proteins/transripts with this domain View external data on PF14260	1879	1952	74	3.0E-10	IPR025687 Show description in modal box View details on IPR025687 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO: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: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: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:0016035 View details of GO:0016035 AmiGO InterPro QuickGO	Cellular component	Zeta DNA polymerase complex	A heterodimeric DNA polymerase complex that catalyzes error-prone DNA synthesis in contexts such as translesion synthesis and double-stranded break repair. First characterized in Saccharomyces, in which the subunits are Rev3p and Rev7p; a third protein, Rev1p, is often associated with the polymerase dimer.	Subterm of View details of GO:0042575 View details of GO:0044446
GO:0019985 View details of GO:0019985 AmiGO InterPro QuickGO	Biological process	Translesion synthesis	The replication of damaged DNA by synthesis across a lesion in the template strand; a specialized DNA polymerase or replication complex inserts a defined nucleotide across from the lesion which allows DNA synthesis to continue beyond the lesion. This process can be mutagenic depending on the damaged nucleotide and the inserted nucleotide.	Subterm of View details of GO:0000731 View details of GO:0006301

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0772700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0772700.1