Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0127800
Transcript ID	LotjaGi3g1v0127800.1
Lotus japonicus genome version	Gifu v1.2
Description	DNA polymerase; TAIR: AT5G67100.1 DNA-directed DNA polymerase; Swiss-Prot: sp\|Q9FHA3\|DPOLA_ARATH DNA polymerase alpha catalytic subunit; TrEMBL-Plants: tr\|G7K6L8\|G7K6L8_MEDTR DNA polymerase; Found in the gene: LotjaGi3g1v0127800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:15695734..15708893) extracted from Lotus japonicus Gifu genome v1.2.

CAAAAATGAACCATTTCCGCGCCCTACTTAAAAACCCCTAGCTTAGCACCACTGTGTTCCATTCTCCACTCTGAGCCAAG CACCCACACCACCACCACCACCACCAGAGACATGGCTGATGACGACGGTTCCCGGAAGCGAAGGCCCACCAGAGGCCCCG AATCCACCGCCCGCAGCCAAGCCTTAGAGCGCCTCAAGGCCCGCCTTGGCGGCGGCCGCAGATCTGACCCCGCCGGACCC CAAATCAAGTTAGAAAACCCTATCTACGACACCGTCCCCGAAGACGAGTACAACGCTCTCGTCGCGAAGCGCCGCGAGCA AGCGCAGGATTTCATCGTCGACGATGACGGCCTCGGGTACGGGGATCAAGGTCAGGAAGAGGATTGGTCCAAAGCAGGCT ACACTCTCTCATCCGGAGACGAATCCGATGGCGGTGGCGAGAAGGCGGAAAAGCCGAAGCGGAAGAAGGATCCTCAGATC AAACGGCCTTCTGCTTCTTCAGTGTCACTCTCCGCCGCCGCAGCTATGATCGGCGCGCAGAGGCTGTCGTCGATGTTCAC TTCCTCGAATTTCAAGAAGAATAGGGATGAGAAGGCTAGTGAGAGCATTGTTGATGATGTTATTGCGGAGTTTGCACCGG ATGAGAATGATAGGCTGAGGCGAAGAAAGGCGCAACCGAATCCGTCGGCATACTCTCCCGGAGAATCTCTTAGGGTTAAG CCATGTACTACTAATTCAATTAGGGCTTCTCCGGTGTCTGGTAATTTCTCAATTGACGGCGGCACCGCGAAACCGGTTAG GGCTAATGAGAGCAATGGTAGTGAATTGGGGGTAGAGCTAAAGTTTGAAGAAGCAGCTGAACTGAATGGAAATTCTGAAA ATGTTCAGGCGCAGCCGGAAACGATGCAAATTGATGATTTTCCCAGTAATGAGGGTTTGAGTGAGGATAAAGTGGTGAAG GACATTGAGATGGAAGAAAAACCAGCTCTGAAAAAAGAGGTTTTCACTTTGAATGCGAAAATTTCAAGAGAGGAGGATCC GACATTGAGTGCTGCTACCGCGGGTTGGCAGGCAGCAAAGAGGAGTACCGGCGGAGGAGGGGAGATCAATGGTGCTGTTT CGAAGGATGGTTTGTCCGCCGAGTTTAATTTGGAGGCAGATGGATCGCTGCCATTTTTCATACTAGATGCCCATGAGGAG TATTATGGAGCCAATATGGGAACGGTTTATTTGTTCGGGAAGGTAGTTTTGTGGTTTTAAATTTCTATTTTTGATTGTTG AGTTCTCTTGCAAGTAATCTTATGATTTGCACTATGCTACAGAATGCCTCATTTTCAATTCTCCTAGGAAGCTTATTGTT CATAATCAAGTATATCATGACATTTTATGTATCTTGCCTCACTATTTGTTACTCTCTTATTGTGCCCCGATTAGTGTAAA CATGTTCTCACAGCCAAGGATACTTCTTTATTGATTACTCTTAGTGTAGAAGATTATTTATACTTTATACTCATCCTTTA GTTAACATGAATCTAATTGAAGTAAGTACCTTTTCATTCACAATGCATGATGCTGCATATGTTTTCCTTCACTCATAGTT TTCTAGCGTCCTTTTTTCTCTGTTGACTTGAAACAGTCAGTTTTTCATTTCTGCCAATGAGTGACTTACTTGAATGAGGC AAATGACCTTTGACTGTTGGCATTTTGGTTGGTAATTAGGTGAAAACAGGGGATTTGTATCAGAGTTGCTGTGTTGTTGT GAAGAACATGCAGAGATGTGTCTATGCAATTCCAAGTCGTCCTTTGCATTACACTGATGAGATAATGAATCTTGAGAAAG ATGTCCAGGAGTCTCGAATTTCTCCTGCAGATTTCCATAAAAAACTGCAAGTAAGTTATTACTTTGTTGACACCTGGCTT AAATTTATATTATTTTCAGTTAGCTTGAATTCTTCCCTATATTTCTGACACCCTGGGATTTATACGTTGTGTTCTTTTTT CTTTTTAAATTTTAGGGTTCTGTATCTGATATAAAGAATGAGATAGCAAAACATCTGGTGGATCTGAATGTTTCTTCCTT TACCATGGCGCCGGTTAAGGTGTGCTGAATAAAACATTCCAATGCCTTGAATGCATGAATGAGTTATTTGATGCTTCTGT GCCATGTACATTTATTACTGGTTTTGTTCTGATTCGTTGCTCGTTTTTGCAGAGAAAATATGCATTTGAACGAACTGAAA TTCCGGCTGGTGATAATTATGTTGTGAAAATAAATTATCCATTTAAGGTACATTATAAAGTCTATTATTTACATTATCAA GCAAACGAGAGAGGGGGAGAGAAGAATATCAAAACATATATTTGATATTTCCTCATGTTGACGTTAATGACTTATGTAAA CACTAAATCTGCCTCTTCTCGTGTTAAAGATTATTTTCGAAGGATAGATCGTAATCTTGTTATGCAGGTATAGTTTGTTT TAATCTTTACAATAAATTTTAATCATTGCAGGATTCAGTACTTCCAGTAGACCTCAAAGGAGAAAGTTTCTGTGCTCTTC TAGGAACTCATTGCAGGTATTGTAAGCATTCAGAGACTATCCTGTGTGATGTTCTGGATATAATGAGAACAAGCACGTTG TAGGAAAACAAATTATTCTCACAAGTGATTATTACGACCTTATGTGCTGATAAATCTCTTTTCGATGGTGGCATTTTGGT TCAGTAATTCTGGACATTTAAACCTGTCACGCATCAGGGAATCCTTGAGGAGTTATTCTGATGGGACCCTGTAGATTTGT TTTTGTGAAGTTAAATGAATGTCTCAGTAGACATGCATTTGAAATACTTGCCTGAATCTTTGAAACAGAATGATACATGA GTTGATTTTTATTTGGGGTGTGAGGATCTAACTTAATTCTACGAAGTAGAAACTATGAAACTTCTTAATTGGTGAATAGA AGTTGTAAGTTGTAACCTTTTCAGACTGAATTCTGTATTTTTATTTAAAAATTTAAATACCTGAGCTTTAGGGAAGGGCT TTCCAAATGCTTTGTTGCGACTAAAATCCCTTAATTGTGCTAAGAGTGGTTGTAAATAGAATTATTATTATCTGTTAGAA AATCTAGTAAACTGACTGTATCACCACTTGCAGCGCACTCGAGCTTTTTTTGATTAAAAGGAAGATAAAAGGGCCTTCAT GGCTACAGGTTTCAAAATTTTCTACATGTTCAGCTTCTCAAAGGGTGAGATTCATAAGTTGGACATCTACTGGAAGTAAT ATTTATGATATTGAGCCCGTTCGGATATGGACCAAAAGAACTTATTGGAACTTCTTTACTTAAAAATGCACTTAGAAAGC TCAATTAAGTGTTCTTTGGTCCACATCCAAACGGGCTCATTGTCTTTAATTCTATATAGAGGCCACCATTTTATTCTTTT TATCCTAGCACCATCTTTGTGCTTGCAGGTTAGCTGGTGCAAATTTGAATTGACTGTTGACTCTCCTAAAGACATAAGGA TTTCTTCACCTTCCTTGAAAATCACTTGCGAGATGCCTCCTGTTGTTGTCACAGCGATAAACTTGAAAACCATCCTAAAT GAAGAGCAGAACATAAATGAAATTGTATCTGCATCTGTTGTCTGTTGCAATATGGTCAAGGTTGTTTCCATCACTTTGAT TTTGTTAGACATTGTGTAGTTTATCTTTTGTCATGAGTTCAAGTGCATTAATATGTGTGCACCCATGTGTGCACACTTCT AAATATTAACACATTTGTATATACAAATCTATTTGTCAGGAAGAGTTGATTTACTTTCAATATTCTTATCGAGTTTGAAT ATGGCTGACAAAATTATTGAATATTTTCCACTTTGTATGTTAGATATTTCTCTGCACATGATAAGAATATTTAGAGCTGT ATACATACATTTTGAATTCAAAGATTATCTTAAATTTTTGTTATGATGCATGCTTGGTGAATGAGCTACCAAATTGATGC TTATTTGATAGATGAATTCTGTTTCTGAAAAACCATAATCTGATATTGGATTATTGTTATTGTTGATGTATATGAAAGTT CAAAATAGGTAACTTAGTTTCAACTTAGTCTCATGCTCTCTTATCAATAACATGAACCTATGCCATTACAGAACATTAAG TTTCAAGAAATCATACTCAGTTTCATGTGTTAAAATATTCAGGCTGATGTAATATTCATAAGGTATTATTATTCAACGAA CAATAAGAATACGGTTTTAATTTGTTTCTTTTGAACATTTGGCAATTTGTTGGAACTTATGGTGATTGCAGGTAAACTGA ATTCTTAATTTAGCATGCTTGTGCTTATAAAATCAGACAGTTGGGCTTGACTAGGCTTGTTGGTAAATCATCTGAGCTGA TACAATGGGCATTGTCATGAATTTTGTTGTATTCCATAAAGCCTTAAAAAATTAGAAGCTTGAACTCAACACTTCTTTAG AGTGTGTGTAAATGTGCCTTTATGCCCTAACTGACTGCTTGAATATCATTATCAACTTTTAAGATATTTACTAGTTGTTT CACTACTTTATTAGATATAGTAAATGTGGAAATATGATCAGCAGTAACCTTTCCTGTTTGGCTTTTTAGATCGACACTCC TATGTTGGCTTCAGAGTGGAAAAGACCTGGAAAGCTGACCCATTTTACTGTTATTCGTAAACTTCATGGGAATATATTTC CTCTGGGATTCAATAAGGAGGTTACAGACAGAAACACAAAAGCGGGGTCAAATATTGTGTGTGCTGAAAGCAGGTAGAAA CTTTATAAGATATGTTGCTATTAGTCCTGGGTGTTATCCTTTGACTTAATATTATTAATATATTATGTGATCCAAAACTA GTACATTTTTTTCTTGATAATTTTATATGCTTGCTTCTAGGGTTGACCTATGTATTGACTTTTCTTTCAGTGAAAGAGCT TTGTTAAATCGTCTGATGTTAGAATTACACAAGTTGGATACTGATGTCCTTGTTGGACATAATATTTCTGGATTCGACCT GGATGTCCTTCTCCACAGATCCCAGGTGGGAATTTTAGCTTCTTAAACAATTTATTGTCATTTATATTTTTTATCGCCTT TTCACTTGTAATTGATATTAACTGAATTTTGCCTTTCATTTCGTAGTTTTAAGTCTATGTTTTCAAATGGAAAATATTGA AATGAGAAATAATTTGTTTAGATGGTTTGAACAGTTACATCATTCATTTATTCCCGATGTGAAAAAATAGTATGAAAATT TCCTGAAGTCCAAAATTACTTTATTAGAGGCTTCGAGCTGATAAAGATGGATATGTTCGAAAGAAGACTTGTTGAAAATG CAGCTTCAGACAATATTAAATAGAGTATTAAAATTCACATGGAGCTCTGAGTTTGCTATTTGATTTTTTAAGCTCAACAA CTTCCAATTTTTTTCCCGAATTTCCAAATACATTCCTGGTTTTGTTTTCATCTTATGTGCAAGGAAATGGCAGTCATTGT CCTAAAATGATCCATGTGTATAAATTCCTTTCACTGTAGAACATTATGCCTTTCAAAATCAGCAACCTGCTGCTTTCCAT CCAACTTGCATTTTACACTTTGAAAGATCTGCTGCCCCTGTGCAGGCTTGCAAAGTACCGAGCAGCATGTGGTCTAAACT AGGCCGTCTCAACCGTTCTACGATGCCTAAACTTGACAGGAGGAAGAAAACTTTTGGTTCTGGAGCTGATCCTGGTATCA TGTCTTGTATTGCTGGTCGACTTCTTTGTGATACATATCTGAGTTCCCGTGATCTATTAAAGGAGGTAAAATATTTGTTC AGAAACCTTGCATAGCAGGAGTTAAGTTTTTAATTCTTACTAACTATCTACATTGATCTTACCAGGTTAGTTATTCCTTA ACTGAGCTTGCAAAAACACAGCTGAACAAGTTTCGGAAGGAAGTTGCTCCACATGGAATTCCAAAAATGTTCCAAACTGC AGAGTCCCTAATGGAGCTTGTAAGTGCCAGTGTACTCAAACAGCTTTTTCTTTTAAATTGTTGAGAAAACTATTTGAAGT GCCTCATTGTGCAGGTTAAACGTTAATTCCTTTTTCAAATGATAAACATAAAACATCTCATTTTATGGTCACTCCCCCCC CCCCCCCCCCAATTTTGATTTTCTAAATCACTAATTCTGACTGATGTTTTTTTGGAATTTGGACCAATGAAAGTTCATTC ATCAAATATGGCATTTGGGATAGTTGTTGATGTTTGCACTAATTTTGCTCAAGTGGCCTGAACCTGATAATGCTCGTGGG CTAACTATTTGATGTGTTGAAAGTTGAAACTTAAAGTGAGACATGGGTAGGGATTAGTACTATGGAATGTCTAATGCTTA TAATGAACAATGCAGAATTTGTCGATTTTAGAATTAAAATTAATAAGTTGCTGTTCTTCTCAACTTGTCTTGATATTGTT TTGCAAAGTTGAAGTTTAGGCCAAACAACTTGACTTTGCGATTTGGAATGCTTGATTGGTTGAACTTGATATTTGATAAG CAGTGTATATGCTTCTGTACTGGTTGTCATAGTATTTCTTGATTTGTTCAGATTGAATATGGTGAAACGGATGCATGGTT GTCTATGGAACTCATGTTTCATTTGAGTATTCTTCCGCTCACACGTCAGCTGACTAATATAAGTGGTAATCTGTGGGGGA AAACTCTTCAGGTGAGTCCTCACAGCACTTTATTTGCTTGCTTGCTTAATTTGATATTGGACATGGCATAGCAGTTGGAG GCCCATGACTAATACTTACAATTTCAGGGTGCTCGTGCACAAAGAGTGGAGTATCTTTTGTTGCATGCCTTCCATGCAAA GAAATACATTGTGCCAGACAAGTTTTCAAATTACGCAAAAGAAACAAAATTGACAAAACGCAGAGTAACTCATGGTGTTG ATGATGGCAACATTGATGAAGCAGATATTGATGATGGAAACTACCATAACAATGCCTCCGAAATTGATCATAAGAAAAGC AAGAAGGCTTCTTCCTATGCCGGGGGACTGGTTTTAGAGCCAAAGAAGGGTCTTTATGACAAATATATATTGCTTCTGGA CTTCAATAGTCTTTATCCTTCTATCATTCAGGTTGATAACATTTTCTCTAAAATATGCTTTGTTTTAGTCTCACTTTCAT TCTACCTTGACATTTTGTCTTCTTATTTTACTTGCCTGCATTGCCTCTAAATAGGCCGTTTGCACTATTTGCAACTTACG AATGAATTACAGGAATACAATATCTGCTTCACAACTGTTGAAAGATCTTTTGATGGATCTTTTCCTCGTCTACCTTCTAG TACAATAACTGGAATCTTGCCAGAGGTAAAATTGCCGGCACAAGCCACTTTTTGTCTTTTGAATATTTTTTCCAGAATTA TAGGACTTGTAGATTGTATTTAACTTCAAGTTTTATATCTGCAACTACTACATTTGTTTTTACCAAAAATACTTAAACAT GAAGTTTTTCAATATGGAGTTCCCTAATTTGATGCATTGCAGCTTTGGAAAGGCAGTCATTTCTTATCAGAGCATGTAAA TTGTTATATGATCAAGGTCTAATTGCATAAGAGTTGGTAATGCATTCATGCTAAAATAGTTTCCATTTCATTGTGTTTAG ATAGTTTTTCTAGAGCTTTCCTAATCTTGTTTGTTTCTACCTTAGATTCTCATTTTATTTCTGTGACCAGCTTTTCAGTG TGGATTTGTTTGTTTAGTGTTTGGAAAACTACAAAATCAGAAAAGGCCTTACAACTGTTAAATTGAATGATGATTTGGAA GGTGGTGAAAAATTGACCTGATGACATAAAGGTGACCATTCAGTGTTGTCCTGGTTGGAGTTGGGGATACAAGAGACAGA ATCTTAGAAATTTCACCTACAGATTCAGAGCATTAATTTCAAATTCATAAATTTGGGCTAAATTGCTGCTAAAAATAACT TCAAATTAAAATTTCATGTTTTGAAACACAACAGATTATGATAAGTCATTTGAGTTTCTCAAAAAATATTGTATTGGAAT TTCTTATCAAAACTCATCTCTGCTGTGCCAAATTTGTCATAGAATGGTACCATCAACATCCTTGAATATTTATTTGGAAG TTTTCATATTGATCAAACTTGCATATCTGTTTTCATATGGTTTATCAATGCATTAGAAATTTGAGATGGTTTTATAACGA ATACATGAGTCATTTTCGTTCCCCTCCTGGAGGCTGCTGAGAATAGATGCGTATGTATATTTTAAATTTTTTGTTGTGCT AGTTGCTGGAAAATCTAGTTAAAAGGAGGAAAAGCGTAAAGACATGGATGAAGACTGCATCTGGTCTTAAATATCAGCAA TTTGATATTCAGCAGCAAGCACTGAAGCTTACTGCAAACAGGTTTGTTTCTTTTCTTGCCTCCGGTTCTACTGCCCAAAA TAGGTATTTCATTCCTCTTTCTGTATGTAAAACTTTATGGTGCATTATGCAGTATGTATGGATGCCTGGGATTTTCCAAT TCAAGATTTTATGCGAAGCCAATAGCTGAGCTCATAACCCTACAAGTAAGAAGATATGCTTGCTTATTCTGCATAGCTGG TGATCCACGTACTATCAAATATAATTGCAAACACATGCATTTTCATTTACATGGCTGATGATTGTACAGGGAAGGGAGAT ATTGCAGAGTACTGTTGACCTTGTTCAAAATAATTTGAACTTAGAGGTTATTTCTACTGGACTTCATTTTGTGTATTGAG GGATTTAGTATGTATAAGAATTATTTCACTTAACTGGTTGAGAATATTAGCTCTTAATTGTTGGACTGTCTTATATTGTA TAGGTGATCTATGGGGATACTGATTCAATAATGATTTACAGTGGGCTAGATGATATTGTGAAAGCAAAGGCAATGGCTGG AAAAGTTATTCAAGAGGTAAGATTTAACGATTAGCTGTGCGAAACTCCTTTTAACCTATGTAATAAACTCATGGTCATTG GGTTGTAGTTGATTTCGACCTCTGCTCTAATCTTGTGCAACATGGCATGTTAGTGCTAGACCCAGCTTTCCAGCCTTGTT ATTCCTTCTATGAAATACATTTGATGATTTTTTTAGACTTCAAATTTAAAGAGCATTTGAAGTTTTAAATGTTCATATTT CCTGGATCTTGACATTAGTTACAGTGGGTTCTCTTATGGGATGTAGAGTTGGATACTTCATCCATGAGGGTTTACCATAT TGGTTGCACTATTTACAATTGTAGACATTTTTTACCATGTGGTCTACCTTCCTAGTTTCCTTTATTCATCAAAAGTTCTT GTGGTATGTGATTTCTCCTTGAATTTATCATTAGGTCAATAAGAAATATAAATGCTTGGAAATTGATCTTGATGGTTTGT ACAAGAGGATGCTCCTTCTTAAGAAAAAGAAATATGCTGCTGTGAAGGTGCAGTTTAAAGATGGTAGCACCCCATATGAG GTATACTTACTCTTTTGTATTACCTAACATTGGGGAGAACAGGCCAGTGAGATTAATGTATGGTGCAGGTTATTGAACGT AAAGGTCTTGACATTGTTCGTCGTGACTGGAGCTTATTAGCTAAAGAATTGGGAGATTTTTGCTTGACTCAAATTTTGTC GGGAGGGTATGTTATAACACTTCCATCCAATCTGGCTATTTTAGATGCGGATTGACTCATTTATCTAGTAACTAATAGCA TGGCTCCCATGCTTTCAGGTCATGTGAAGATGTGGTTGAATCGATTCACAGCTCTCTCATGAAGGTAAATTGTGATACCT TGCAGCATCTGACATTGGTTTATAAACAACCTATCATGGGATTGGAGAATTCAACATCAAGGTGCTTGAGAGCGTAGGGC TCTGAACACCTTGCTGAAGAGTAGAATGATATTGCAGGATGGTCTGATACCCAGAGCTGCATATCCAAGTTTGATTGTAT TTGTCATTAGTGGATGTTTCAGAGTCGGTTTTTCTTAGCGGTCTAATTAATTATGAATATTTGGAGAGGGCGTCGAAGTT TTTTGGAACTTTATTCGAGTGTATTTTTCCCTTCCTTTGAGGTTTATTTATCTTGCAAACTGAACACTAATTTTATTTTT AATACAGGTGCAAGAGGAGATGAGGAACGGTCAAGTACCATTGGAAAAATATGTGATCACAAAGACATTGACTAAAGATC CTGAAGCTTATCCTGATGCCAAAAACCAACCACATGTTCTTGTAAGTCCAAGTTATTTGAATTTTTCTTTTACATGAAGT GGTCTGAAGTATGTTTTCTTTTGCTGTGATCTACTAAATTCTGATGAAGCCTTCTTGATTAACATACAGGTGGCACAAAG ATTGAAGCAGCAAGGTTACTCCTCTGGTTGCTCTGTTGGTGATACCATCCCTTATATAATTTGCTATGAGCAGGTTTGTC ATTAACTTGCTCTCAATGATAGGCCAAAAGGTGTAACTTTGAAAATATGTTGTTTGCATTGGTATTTGATGTTTTACATC TATGATGTGTCTTTTCTATGTTTACTATCTTCTGTTTTGAGCAGGGTGGTAGTTCAGGCAGTGCAAAGGGTATTGCTCAA CGTGCCAGACATCCTGACGAACTAAAACAAGAAAAGGGGACATGGCTAATTGACATTGATTACTATTTATCACAACAGGT ATTTGATACTTTAGCAGCTAATTTTATAAATAACAATCATTACCAAGTAGTGTACCCTGCTTGAGTATTTTCATTTTTCT CTTGCAGATTCATCCTGTGGTATCACGTCTCTGTGCATCAATTCAGGGAACAAGCCCAGAAAGACTGGCTGATTGTTTAG GGCTTGACACATCAAAGGTAAAACTTAGTTCTTTGTTTGTCTCAGCATTCAGAGGCAGGTAATTTATTTTGAATTATCTT TTTATCTTTTGTTCTCCTGAAATTGGCAAACTATATTGGTGTACAGTTTCAACATAAATCAAGTGAAGCTTCAAGTGTTG ATCCTACAAGCTCACTCATGTTTGCTGCTGATGACGAGGAGAGGTACATCTTGTTTCTAAAATTTGTGTCATTGATTGTT ACCTCTCTTAAGCGCATTTGCTACCAAGGCTAATTTGGAGATAGGCACAGCTTTCTCTTTTCCCCCTTTAGTGTGCACTA ACATTTTGGCCAATTTTCAAGTTTTTGAGCATCTTTATCCATTTATGTATTTGTTAATTTTTTACTAATGGGTTTCTCTA CCAACAATCGTAATTAATGGATTGAATGTGATAAAATTGCAGGTATCAGGGATGTGAGCCGTTGGTCTTGTCATGCCCCA GCTGCTCTGGTACTATTGACTGCCCACCTGTGTTTAAATCCGTTTGTTTGTCGGTGAATGAAAAGCCATCTAGCTCGGGC ACGGAGGAATCTGACTACAATTTTTGGCGTAAGCTGTGCTGTCCTAAATGCCAAGAAAATGGTGTTGGTAGAATTTCTCC TGCAATGATAGCCAATCAGGTTTAACAAATTTGAAATTTAAGGCCTCTGAAATTCTGTTGTTCATCTGCATTTAAGCTAG GAAGGTTTTTACACTGCTTTCAGGTCATGTATCATCTTCTAAAAACTAGATTCTTGTAGTGGCATTTATTAACATGTTTG TTGACTTGATTAAGCATAGAATATTGTTCCTGAGTATCTGCTTATATATAGTTCATTATACTTGATGTCAGGTCAAAATG CAAGCAGAGAAGTTCGTTTTAATGTATTATAGAGGTTCATTAATGGTAAGTCACCTCTCTGAAGTGTATTATGAATATTC ATAGCCTGTGAAAATTAGATGTCACCATTCTCAGCTCATTTTGCATCCAGTGCGATGACGAGACGTGTAAGCACACAACG CGAAGTATCAGCCTTCGGCTGGTTGGTGATTCTGAGAGAGGAACTGTTTGTCCAAATTATCCTCGCTGCAACGGGCGTCT CTACAGAAAGGTTTCACTCAATGAACCTGTTGCATATAAATAGTTTTTTACATATCTAATTTATATTTTATGAAGTTTTA ATGCATTAGTTTTATGAATTCACTGACCAAATATTTGTTCATGTTTCAGTACACTGAAGCAGACTTGTACAAGCAACTCT CATATTTCTGCCATGTATTCGATACTGCTAGTTGTATAGAAAAGGTACTCACTAAATGTCACAAGGAGATTTTAATGTAT ATACTTTTTTAAAAGCTGATGCAAACAATTCAGGTTATGTTATTTAAGTCATAAATGAATAATGATTAACTCATTATACA ACGTGATTATTAGCCAATTATTAATGTTTTTGCTTGTTCGTGTTTTTAATTTTGCAGTTGGAGGAAAAATCTAGGATACC AGTAGAGAAAGAGTTGATCAAAATTAGGCCAATAGTTGACCCAGTAGCATCAACAGTACAGAAGATGAGGGACCGTTGTG CCTATGGTTGGGTGAAGCTGGAGGACTTGGTCATTTCAATTTAATTTGTGAATTGATGCTTAATTTGGTTTATATAATCC AAGCATAAGTGAGGCCATAGGACATACAAATGTTCTTAAATGTTATCCATTAAATATATAGATAACCCCCCCACCAATTG ATATTGATTGAAGAGGGAGTGGAGGTGGGTTGGAAGTTGTAACCGATTAGAAGGGTTAAATAAGTTTTTGGTGTCTTAGG CTCGCTCTGATTTTAGTCATTGCTGGAGTGAAGTTTGTAAGCATCTCTCCGCTTAGGAAAATATCCCACTTTTAGTCCAC GCCGGAGTTTGATTTTCAGCAACTTTGTTAAGTGGCTTTGCTAGTCCAGGCACTGCTGTGTGTTTAATGAAGTTGGGTTG AATTTTGTTTTTTTTTTCTTTATTTTTTTTCCATTTCCGCATGCTTAATTAACCATTAAATTAAATTTATTTATTTATAA GTAAAAATTACAAACCCTTATATTGCCTCGATCATTCGAATGTCATATTTCCTCTATTTCTGCTTAGATACCTGCACTAC CTCTTTGAGATTGAATATGGCTTGGAGACCTATGTCCCCTTGCTTTTGGGTTGTGTTCTTCTCACTGTACACAGCAGTGT ACAGTGATTTGGATGAAATCAATCTGAAAGTGAAAAAAAA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0127800.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCTGATGACGACGGTTCCCGGAAGCGAAGGCCCACCAGAGGCCCCGAATCCACCGCCCGCAGCCAAGCCTTAGAGCG CCTCAAGGCCCGCCTTGGCGGCGGCCGCAGATCTGACCCCGCCGGACCCCAAATCAAGTTAGAAAACCCTATCTACGACA CCGTCCCCGAAGACGAGTACAACGCTCTCGTCGCGAAGCGCCGCGAGCAAGCGCAGGATTTCATCGTCGACGATGACGGC CTCGGGTACGGGGATCAAGGTCAGGAAGAGGATTGGTCCAAAGCAGGCTACACTCTCTCATCCGGAGACGAATCCGATGG CGGTGGCGAGAAGGCGGAAAAGCCGAAGCGGAAGAAGGATCCTCAGATCAAACGGCCTTCTGCTTCTTCAGTGTCACTCT CCGCCGCCGCAGCTATGATCGGCGCGCAGAGGCTGTCGTCGATGTTCACTTCCTCGAATTTCAAGAAGAATAGGGATGAG AAGGCTAGTGAGAGCATTGTTGATGATGTTATTGCGGAGTTTGCACCGGATGAGAATGATAGGCTGAGGCGAAGAAAGGC GCAACCGAATCCGTCGGCATACTCTCCCGGAGAATCTCTTAGGGTTAAGCCATGTACTACTAATTCAATTAGGGCTTCTC CGGTGTCTGGTAATTTCTCAATTGACGGCGGCACCGCGAAACCGGTTAGGGCTAATGAGAGCAATGGTAGTGAATTGGGG GTAGAGCTAAAGTTTGAAGAAGCAGCTGAACTGAATGGAAATTCTGAAAATGTTCAGGCGCAGCCGGAAACGATGCAAAT TGATGATTTTCCCAGTAATGAGGGTTTGAGTGAGGATAAAGTGGTGAAGGACATTGAGATGGAAGAAAAACCAGCTCTGA AAAAAGAGGTTTTCACTTTGAATGCGAAAATTTCAAGAGAGGAGGATCCGACATTGAGTGCTGCTACCGCGGGTTGGCAG GCAGCAAAGAGGAGTACCGGCGGAGGAGGGGAGATCAATGGTGCTGTTTCGAAGGATGGTTTGTCCGCCGAGTTTAATTT GGAGGCAGATGGATCGCTGCCATTTTTCATACTAGATGCCCATGAGGAGTATTATGGAGCCAATATGGGAACGGTTTATT TGTTCGGGAAGGTGAAAACAGGGGATTTGTATCAGAGTTGCTGTGTTGTTGTGAAGAACATGCAGAGATGTGTCTATGCA ATTCCAAGTCGTCCTTTGCATTACACTGATGAGATAATGAATCTTGAGAAAGATGTCCAGGAGTCTCGAATTTCTCCTGC AGATTTCCATAAAAAACTGCAAGGTTCTGTATCTGATATAAAGAATGAGATAGCAAAACATCTGGTGGATCTGAATGTTT CTTCCTTTACCATGGCGCCGGTTAAGAGAAAATATGCATTTGAACGAACTGAAATTCCGGCTGGTGATAATTATGTTGTG AAAATAAATTATCCATTTAAGGATTCAGTACTTCCAGTAGACCTCAAAGGAGAAAGTTTCTGTGCTCTTCTAGGAACTCA TTGCAGCGCACTCGAGCTTTTTTTGATTAAAAGGAAGATAAAAGGGCCTTCATGGCTACAGGTTTCAAAATTTTCTACAT GTTCAGCTTCTCAAAGGGTTAGCTGGTGCAAATTTGAATTGACTGTTGACTCTCCTAAAGACATAAGGATTTCTTCACCT TCCTTGAAAATCACTTGCGAGATGCCTCCTGTTGTTGTCACAGCGATAAACTTGAAAACCATCCTAAATGAAGAGCAGAA CATAAATGAAATTGTATCTGCATCTGTTGTCTGTTGCAATATGGTCAAGATCGACACTCCTATGTTGGCTTCAGAGTGGA AAAGACCTGGAAAGCTGACCCATTTTACTGTTATTCGTAAACTTCATGGGAATATATTTCCTCTGGGATTCAATAAGGAG GTTACAGACAGAAACACAAAAGCGGGGTCAAATATTGTGTGTGCTGAAAGCAGTGAAAGAGCTTTGTTAAATCGTCTGAT GTTAGAATTACACAAGTTGGATACTGATGTCCTTGTTGGACATAATATTTCTGGATTCGACCTGGATGTCCTTCTCCACA GATCCCAGGCTTGCAAAGTACCGAGCAGCATGTGGTCTAAACTAGGCCGTCTCAACCGTTCTACGATGCCTAAACTTGAC AGGAGGAAGAAAACTTTTGGTTCTGGAGCTGATCCTGGTATCATGTCTTGTATTGCTGGTCGACTTCTTTGTGATACATA TCTGAGTTCCCGTGATCTATTAAAGGAGGTTAGTTATTCCTTAACTGAGCTTGCAAAAACACAGCTGAACAAGTTTCGGA AGGAAGTTGCTCCACATGGAATTCCAAAAATGTTCCAAACTGCAGAGTCCCTAATGGAGCTTATTGAATATGGTGAAACG GATGCATGGTTGTCTATGGAACTCATGTTTCATTTGAGTATTCTTCCGCTCACACGTCAGCTGACTAATATAAGTGGTAA TCTGTGGGGGAAAACTCTTCAGGGTGCTCGTGCACAAAGAGTGGAGTATCTTTTGTTGCATGCCTTCCATGCAAAGAAAT ACATTGTGCCAGACAAGTTTTCAAATTACGCAAAAGAAACAAAATTGACAAAACGCAGAGTAACTCATGGTGTTGATGAT GGCAACATTGATGAAGCAGATATTGATGATGGAAACTACCATAACAATGCCTCCGAAATTGATCATAAGAAAAGCAAGAA GGCTTCTTCCTATGCCGGGGGACTGGTTTTAGAGCCAAAGAAGGGTCTTTATGACAAATATATATTGCTTCTGGACTTCA ATAGTCTTTATCCTTCTATCATTCAGGAATACAATATCTGCTTCACAACTGTTGAAAGATCTTTTGATGGATCTTTTCCT CGTCTACCTTCTAGTACAATAACTGGAATCTTGCCAGAGTTGCTGGAAAATCTAGTTAAAAGGAGGAAAAGCGTAAAGAC ATGGATGAAGACTGCATCTGGTCTTAAATATCAGCAATTTGATATTCAGCAGCAAGCACTGAAGCTTACTGCAAACAGTA TGTATGGATGCCTGGGATTTTCCAATTCAAGATTTTATGCGAAGCCAATAGCTGAGCTCATAACCCTACAAGGAAGGGAG ATATTGCAGAGTACTGTTGACCTTGTTCAAAATAATTTGAACTTAGAGGTGATCTATGGGGATACTGATTCAATAATGAT TTACAGTGGGCTAGATGATATTGTGAAAGCAAAGGCAATGGCTGGAAAAGTTATTCAAGAGGTCAATAAGAAATATAAAT GCTTGGAAATTGATCTTGATGGTTTGTACAAGAGGATGCTCCTTCTTAAGAAAAAGAAATATGCTGCTGTGAAGGTGCAG TTTAAAGATGGTAGCACCCCATATGAGGTTATTGAACGTAAAGGTCTTGACATTGTTCGTCGTGACTGGAGCTTATTAGC TAAAGAATTGGGAGATTTTTGCTTGACTCAAATTTTGTCGGGAGGGTCATGTGAAGATGTGGTTGAATCGATTCACAGCT CTCTCATGAAGGTGCAAGAGGAGATGAGGAACGGTCAAGTACCATTGGAAAAATATGTGATCACAAAGACATTGACTAAA GATCCTGAAGCTTATCCTGATGCCAAAAACCAACCACATGTTCTTGTGGCACAAAGATTGAAGCAGCAAGGTTACTCCTC TGGTTGCTCTGTTGGTGATACCATCCCTTATATAATTTGCTATGAGCAGGGTGGTAGTTCAGGCAGTGCAAAGGGTATTG CTCAACGTGCCAGACATCCTGACGAACTAAAACAAGAAAAGGGGACATGGCTAATTGACATTGATTACTATTTATCACAA CAGATTCATCCTGTGGTATCACGTCTCTGTGCATCAATTCAGGGAACAAGCCCAGAAAGACTGGCTGATTGTTTAGGGCT TGACACATCAAAGTTTCAACATAAATCAAGTGAAGCTTCAAGTGTTGATCCTACAAGCTCACTCATGTTTGCTGCTGATG ACGAGGAGAGGTATCAGGGATGTGAGCCGTTGGTCTTGTCATGCCCCAGCTGCTCTGGTACTATTGACTGCCCACCTGTG TTTAAATCCGTTTGTTTGTCGGTGAATGAAAAGCCATCTAGCTCGGGCACGGAGGAATCTGACTACAATTTTTGGCGTAA GCTGTGCTGTCCTAAATGCCAAGAAAATGGTGTTGGTAGAATTTCTCCTGCAATGATAGCCAATCAGGTCAAAATGCAAG CAGAGAAGTTCGTTTTAATGTATTATAGAGGTTCATTAATGTGCGATGACGAGACGTGTAAGCACACAACGCGAAGTATC AGCCTTCGGCTGGTTGGTGATTCTGAGAGAGGAACTGTTTGTCCAAATTATCCTCGCTGCAACGGGCGTCTCTACAGAAA GTACACTGAAGCAGACTTGTACAAGCAACTCTCATATTTCTGCCATGTATTCGATACTGCTAGTTGTATAGAAAAGTTGG AGGAAAAATCTAGGATACCAGTAGAGAAAGAGTTGATCAAAATTAGGCCAATAGTTGACCCAGTAGCATCAACAGTACAG AAGATGAGGGACCGTTGTGCCTATGGTTGGGTGAAGCTGGAGGACTTGGTCATTTCAATTTAA

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Protein sequence (LotjaGi3g1v0127800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MADDDGSRKRRPTRGPESTARSQALERLKARLGGGRRSDPAGPQIKLENPIYDTVPEDEYNALVAKRREQAQDFIVDDDG LGYGDQGQEEDWSKAGYTLSSGDESDGGGEKAEKPKRKKDPQIKRPSASSVSLSAAAAMIGAQRLSSMFTSSNFKKNRDE KASESIVDDVIAEFAPDENDRLRRRKAQPNPSAYSPGESLRVKPCTTNSIRASPVSGNFSIDGGTAKPVRANESNGSELG VELKFEEAAELNGNSENVQAQPETMQIDDFPSNEGLSEDKVVKDIEMEEKPALKKEVFTLNAKISREEDPTLSAATAGWQ AAKRSTGGGGEINGAVSKDGLSAEFNLEADGSLPFFILDAHEEYYGANMGTVYLFGKVKTGDLYQSCCVVVKNMQRCVYA IPSRPLHYTDEIMNLEKDVQESRISPADFHKKLQGSVSDIKNEIAKHLVDLNVSSFTMAPVKRKYAFERTEIPAGDNYVV KINYPFKDSVLPVDLKGESFCALLGTHCSALELFLIKRKIKGPSWLQVSKFSTCSASQRVSWCKFELTVDSPKDIRISSP SLKITCEMPPVVVTAINLKTILNEEQNINEIVSASVVCCNMVKIDTPMLASEWKRPGKLTHFTVIRKLHGNIFPLGFNKE VTDRNTKAGSNIVCAESSERALLNRLMLELHKLDTDVLVGHNISGFDLDVLLHRSQACKVPSSMWSKLGRLNRSTMPKLD RRKKTFGSGADPGIMSCIAGRLLCDTYLSSRDLLKEVSYSLTELAKTQLNKFRKEVAPHGIPKMFQTAESLMELIEYGET DAWLSMELMFHLSILPLTRQLTNISGNLWGKTLQGARAQRVEYLLLHAFHAKKYIVPDKFSNYAKETKLTKRRVTHGVDD GNIDEADIDDGNYHNNASEIDHKKSKKASSYAGGLVLEPKKGLYDKYILLLDFNSLYPSIIQEYNICFTTVERSFDGSFP RLPSSTITGILPELLENLVKRRKSVKTWMKTASGLKYQQFDIQQQALKLTANSMYGCLGFSNSRFYAKPIAELITLQGRE ILQSTVDLVQNNLNLEVIYGDTDSIMIYSGLDDIVKAKAMAGKVIQEVNKKYKCLEIDLDGLYKRMLLLKKKKYAAVKVQ FKDGSTPYEVIERKGLDIVRRDWSLLAKELGDFCLTQILSGGSCEDVVESIHSSLMKVQEEMRNGQVPLEKYVITKTLTK DPEAYPDAKNQPHVLVAQRLKQQGYSSGCSVGDTIPYIICYEQGGSSGSAKGIAQRARHPDELKQEKGTWLIDIDYYLSQ QIHPVVSRLCASIQGTSPERLADCLGLDTSKFQHKSSEASSVDPTSSLMFAADDEERYQGCEPLVLSCPSCSGTIDCPPV FKSVCLSVNEKPSSSGTEESDYNFWRKLCCPKCQENGVGRISPAMIANQVKMQAEKFVLMYYRGSLMCDDETCKHTTRSI SLRLVGDSERGTVCPNYPRCNGRLYRKYTEADLYKQLSYFCHVFDTASCIEKLEEKSRIPVEKELIKIRPIVDPVASTVQ KMRDRCAYGWVKLEDLVISI

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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	16	16	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	53	53	-	–
PANTHER	PTHR45861 View details on PTHR45861 Search for proteins/transripts with this domain View external data on PTHR45861	8	1539	1532	0.0	–
Pfam	PF12254 View details on PF12254 Search for proteins/transripts with this domain View external data on PF12254	25	92	68	9.4E-19	IPR024647 Show description in modal box View details on IPR024647 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00592 View details on TIGR00592 Search for proteins/transripts with this domain View external data on TIGR00592	50	1290	1241	7.6E-258	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	77	135	59	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	106	124	19	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	176	204	29	-	–
SUPERFAMILY	SSF53098 View details on SSF53098 Search for proteins/transripts with this domain View external data on SSF53098	350	857	508	2.72E-68	IPR012337 Show description in modal box View details on IPR012337 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.40.50.730 View details on G3DSA:2.40.50.730 Search for proteins/transripts with this domain View external data on G3DSA:2.40.50.730	355	552	198	2.7E-60	–
Pfam	PF03104 View details on PF03104 Search for proteins/transripts with this domain View external data on PF03104	385	763	379	7.8E-32	IPR006133 Show description in modal box View details on IPR006133 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.70.2820 View details on G3DSA:3.30.70.2820 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.2820	395	521	127	2.7E-60	–
CDD	cd05776 View details on cd05776 Search for proteins/transripts with this domain View external data on cd05776	569	820	252	1.50111E-85	–
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	569	884	316	5.2E-115	IPR036397 Show description in modal box View details on IPR036397 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00486 View details on SM00486 Search for proteins/transripts with this domain View external data on SM00486	569	1071	503	1.4E-129	IPR006172 Show description in modal box View details on IPR006172 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	828	1292	465	5.8E-122	IPR006134 Show description in modal box View details on IPR006134 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF56672 View details on SSF56672 Search for proteins/transripts with this domain View external data on SSF56672	853	1307	455	1.0E-117	IPR043502 Show description in modal box View details on IPR043502 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd05532 View details on cd05532 Search for proteins/transripts with this domain View external data on cd05532	903	1308	406	0.0	–
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	916	1117	202	7.5E-75	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	928	941	14	2.1E-11	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	968	1014	47	7.5E-75	–
PRINTS	PR00106 View details on PR00106 Search for proteins/transripts with this domain View external data on PR00106	1004	1016	13	2.1E-11	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	1057	1065	9	2.1E-11	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	1059	1067	9	-	IPR017964 Show description in modal box View details on IPR017964 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	1085	1105	21	-	–
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	1136	1322	187	7.8E-69	IPR042087 Show description in modal box View details on IPR042087 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.3200.20 View details on G3DSA:1.10.3200.20 Search for proteins/transripts with this domain View external data on G3DSA:1.10.3200.20	1331	1525	195	1.7E-50	IPR038256 Show description in modal box View details on IPR038256 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08996 View details on PF08996 Search for proteins/transripts with this domain View external data on PF08996	1333	1536	204	1.2E-45	IPR015088 Show description in modal box View details on IPR015088 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:0006260 View details of GO:0006260 AmiGO InterPro QuickGO	Biological process	DNA replication	The cellular metabolic process in which a cell duplicates one or more molecules of DNA. DNA replication begins when specific sequences, known as origins of replication, are recognized and bound by initiation proteins, and ends when the original DNA molecule has been completely duplicated and the copies topologically separated. The unit of replication usually corresponds to the genome of the cell, an organelle, or a virus. The template for replication can either be an existing DNA molecule or RNA.	Subterm of View details of GO:0006259 View details of GO:0034645

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0127800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0127800.1