Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0163900
Transcript ID	LotjaGi6g1v0163900.2
Related isoforms 1	LotjaGi6g1v0163900.1
Lotus japonicus genome version	Gifu v1.2
Description	DNA polymerase I; TAIR: AT1G50840.1 polymerase gamma 2; Swiss-Prot: sp\|F4I6M1\|POLIA_ARATH DNA polymerase I A, chloroplastic/mitochondrial; TrEMBL-Plants: tr\|A0A0B2NWI0\|A0A0B2NWI0_GLYSO DNA polymerase I; Found in the gene: LotjaGi6g1v0163900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:44775505..44788681) extracted from Lotus japonicus Gifu genome v1.2.

ATGGTGCTTTCTGTAGGTATGGCATAACTATAGCTTTGACTGTCATGTTATACAAAACTATGGATTCAAGGTTTCTGGAT TTCATGCTGACACAATGCACATGGCAAGACTATGGGATTCATCAAGACGTTGGGTTGGTGGTTATTCTCTTGAAGCACTT ACAAGTAACAAAGTGGTCATGTCAAGGGCTAAGCTGAACTGTGAAAAGGATTTGATCGGTAAGGTGTCAATGACAAATAT ATTTGGTCTGAAAAAGTTTAAGAAAGATGGATCTGAGGGTAAAATGACTACCATTGCTCCTGTGGAAGTGCTGCAAAGAG AGGATCGTATACCTTGGGTATGTTATTCAGCCTTAGATGCTAGAAGCACTATGAAGCTTTATGAGAGCCTTAAGGGTCAT CTATCAGATATGGACTGGAAAATTGATGGAGCACGTGTTTTACACAAAAACATGTATGATTTTTATGAGGAATATTGGCA GCCATTTGGTGAGCTTCTAGTAAAAATGGAATCTGAAGGAATGCTAGTTGATCAGTCATATCTTCAAAACATAGAAAAGG TGGCCAAGGCAGAGCAACTTGTAGCGGTTAATCGATTTAAAAAATGGGCATCTAAGTATTGTCCTGATGCCAAGTATATG AATGTTGGAAGTGATGCTCAGTTGCGTGTCCTTCTCTTTGGTGGCACTGTGAACAGGTGCACATTATTTAAATCTTTTGT GGAGCATTTGTTTCTTACTTGATCATTTGGAGGTTGAAGTTGATATCATATGATTCATATCATGCGGTATTAGTTTTACC GTAATATGCTTTGTATAATCTCCATTATGCTAATATCATTATAAATTGTCAAGCACACGTTTTAATTTAATTTGAAATGC TATGCTGTTATATAAATTATCTCTTGTGCAGAGTGCTAATTGCATATGTATGTTGCAGGTTGATTTTTGGATCTGAAGGG ATTTGTGGTTTTATACTGATGCTCTTATTTATTTTGCTTTTAAAACATATTTTTTTATGTTTTCACGTGAATTATCTTTT TTATTCTAATTTGGAGCGTAAGTGCTTTTTTGGTATTCTTTTTCACTTGAAACAATTCAACTATATTTCCAGTTCTTGTG GTTGTCATGAAACTGTGATGACCATGTCATTGTATTCTACTCTCTTCACTTAATCACTATAATGAATTCCGCAAAAAAAA GGAAATAGCTTCTAACTTTGAGCTTTTTTGCCTGACTGAGTTCAAGATACTTCTAATACTACATTGGTTAGTATAAGGTC AGCCATTGGAATTTCTTTAGTTTTTACTTTGTAAATATTGCTTATATTCTTTGTTAGTGTAACTGTCAATCGTAATCTGG CCGCCATTGATCTTTTAAACCCATTCAACTAGTGGGATGAAGGAATTGTGTTCTTGAGGATCTATTCTATTTGTTTTAAT ATCAGAATCATAACTATGTGAATGTTACTTTGATATTTTTATATGATGTTCTGGCTGAGCTCATGACCAAGTTGCAATCT AATTCTATCTATGGAACATGTTTTTCTCAGATATTAAATGAAATGATGCCAAGTCTATGTTTGGAAGTATAGCTTTTATT TATCCTGCCCCTTTATTCATTACAGTAAAAACCATGATGAGGCAATTCCAACTGAGCGGATTTTCAGAATTCCCAATGTT GATAAAGTGATTGAAGAAGGCAAGAAGGCTCCCACTAAATTTCGTGATCTGAAGTTGCATAGCATTGGCTGTAACCTTAG AACTGAGATGTACACTGCTAGTGGTTGGCCCTCAGTTAGTGGTGATGCTTTAAAAGCCCTGGCTGGCAAAGTTTCTGCTG AATATGACTTTAATGAGGCTTGTAACTTTGATCTTGATGATGAAGATGGAAATCCTTCTCAATTTGAAGTTGAACCTGTA GAAATAGACCAATCTGCTTATGGAACAGCCTTTGCTGCATTTCCAACAGAGGAAGAAGGGAGAGAAGCTTGTCATGCACT TGCTGCTTTACGTGATGTCTGTTCAATTGACTCTTTGATCTCTAACTTCATCCTTCCCCTGCAGGTAATTATTCTTTTTC CCTTTTAGCATTTTTTTTTTGAACTTCATCCCTGTTCTGGTTGTGTTTATTGATTTTAATGCTACCCCTGTAAACAGCTT TCCCAATGTGATGGGCAATAGTAATGTCATTCATAAGTGCATTTGAAACATAGTTGGGGCTGTTCATGTTTGTGGATGTG AAAGTGAGGTTAGAATTTGGAGCACATGATTAATCCACTGGCTGAATGAACTTAGAAGGATGATCTTGGTCTAAGAAGCA CAGACACAGCTGAAAGGTCGCCATAAAGGTGACACAGCTCTAGCACAATCTTAAAATCCCATGATTTTACGCTTCTGCAC CCCTGTTCCAAGCTGAATCTGTTGTGTAATCTTTTCCCGTGGGATCTGGTAAAATCTTAGATTCAGGTCGTAAGATTCCA CGATTTTACGCTTCCGCACCCTTGTTCCGAGCTGAATCAGTTGTGTAATTGGCTGAGTAATCTCTTTCTCGTGGGATATG GTCAGAGCTTCTGATAGGTGCTGGAAGTTTTTCCCTCTGTTAGTGAAAATTTGGTCACTCTTACTGGACATTTATTGTTT TCTTTTCTTCTTTGGTGTTTTACTTTCATGTTAGCATACATCTTGTGGTTATGGATTTTGTTTATGACTTATTATGGTGT TAATCTTATGAATTTTTATTTCGACTTCAAATTAATGATAGTATTTACATGATATGTTCTCTGTCTATGCAATTTTTATG GATATGTATGTGTTTAAGTGTATTTTTTATCTATAGTAGAATCTTACGATCCGATTTACGACTCCATGGTTTACGATCTT GCACCCCCTTTCTGATCCCATGTAGAATCTCGATTTTCATAACATTGCTAACAAGGACATGCCAGTGACACCCTCGGATA CATATCTGTGTGGTGTTCTCTTTTTAGTCAGATTGTTCATCACCAGCTTGTCAGACATAGCTGTGACATAGACGGGCACG GTGTTTGTTGTCATCACCAACTCATCGATGCTGAGATTGACAGCCACACTTACAGATGTAGAGTTGCTGATCTCTTGTTT TTTCTCAGCTTGCAGGGAGATGGCTTCTGCGACACTGCTTAGGCTCTGATTGGTTTTGAATTTCGGTTACGAATTATGAT GACTCCCTTAAACCCTACCATTCCTCTGTAGTAGTCTAATAGTCTTTATTTAAGAAAATAGAACTGCAGTCACCTAGTGT AACAGAAAACAGAGTGTTATGCTGTAAAGTGTAAACTTTGTAGAATAGATGATAAATTTAATAATAGAAAATATCAAGTA AAAAGTATTAAGATATTATACGATAATTTTTTTACTATCAAGTTGTAAACTTTGTCATTTTTACTGTTATAGTTTATCAA GTAAAAAACATTTAACTAATACATGAAAAATTTAAAATTTTAATATTATTCTGTTATGGATTATCAAAATTATTTTTCAC ATTCTATAATATCAAATCAAATTATTAATCTAATATTTGACATGAATATTAAATATTTAATATCTAAAATGGGAGACTAT TTATCGTAATTTGTACATATTAATTTTACTTTTTATGATTTGCTTAGGATACTCGTCTTGGATGTAGAGCCCGAGAAGAG ATTGATAATACTATTTCTATTGATTAATAGCAGCCTTGGTGAATAATTAATATTGATATAATAATTTTTCTTCTTTTTAG TAGTTTTATTATGCTATGATTTTTTATATATACAGTGCATTAGCTACATACTGTCCTATTATTTTTAGATTGAGTCCAGT CATGTCAGTGTCATATTCGAATCCAATTTTGTGCCCGTGCTTCCTAGATTTTGGTATATTATAGATTGCATTTATATTGT AAGTTTGTAACAATTAGGTTGTTGATGTCTGCTCTATGTTAGCTTAATCTGTTCTCAATGGCAGGGACATAATATATCAG GAAAGGATAACCGTGTTCATACTTCCCTCAATCCCAACACAGAGACTGGGCGCGTGTCAGCAAGTAGGCCAAGTCTGCAG GTTATTCCTACATGCATGACATATTAGTTGTTGGTTTAGCTGCAATTTTCTAAACGCCTTAATTTTTTCTGTCTCGTATG GTCATCTGTACATGTATATTTACTGATGGTAGTATGAGAGTGACCTTCATCTGTTCATAATCTGTTTATGTACATTTAAT CATTTTTTTTGTATTAATCATATCTTCCTTCCCCATACAGAATATTGTATGAGTGCAGAGATTACATTGAACTTTCAATT AGAAGCACTCACTTTGGTCTTAATGCATTATCTCTTAATTTTGTAGTTATTTGAGCTCACGAGTGTTTATACTTCAATAT GAATTTATGTGACTTTTAATTTGAACTTTTGACATTCAAATATGTGAATTACATTTGTTAGATGAATTGTTTGATTTTGA AAGTTAACCGATTTATTCGAATGTTGTTAGGGCAGAATGGGATGGAAAAGTAGTTAGGGAAAATTAGTTACTGAATTATA GGGGATTAATAAGGTTCGAAGGGTCATATTTGTTAGCAAGGCAAACAAAGTAGTAGCTCAGTTCTAAGCCCTTGGAGTTA GATCTCTCTCTCTCTCTCCTTGTTCTGTTCATTTTTCTGTTGTTTACTAAAATCATTCTAATCTTTTCTGTATTTCCATT GTGGATTCCTGACAACATTTATAATTTATAAATTAGAATCAACCTGCTTTGGAGAAGGACAGATACAAAATCCGTCAAGC ATTCATAGCTGCTCCTGGAAATTCTCTTATAGTTGCTGATTATGGACAGGTTAGTAGTTTTTAGATCTTCCTAATTGAAT TAGTTGCAAGAAATTCTATTCTGTTGATGGAGCTATGAATTGTTACAGCTGGAACTTAGGATTCTCGCTCACCTTGCTGA TTGTAAGAGCATGTTGGAAGCCTTTGAAGCTGGTGGAGATTTCCATTCAAGAACTGCAATGAATATGTACCCATATATTC GTGAAGCAGTTCATGAAAAGCAAGTGCTTCTTGAGTGGTATCCTCAACCTGGTGAAGACAAGCCCCCAGTTCCTCTTCTG AAGGTAAATTGTCTTCTGATGGGAGTAACTGATAGGTTTAAACATGTGTACTCTAGGAAAAGGACCAGAGTGTGAACTGG CTAAGAGTTTAGGGACTGGAAATGAATAAACAATTAGTTAGTTAGTGCCAGCTGTTGCCAGCTGTAGGCAGTTAGAGGTA GTAACCGGTTGCAGCTATGCAACTGTTAGTATAAAAAGGGAAAGCTAGCTTGCAGATGAAGCTATCAAAGATTAGAGTTC AGAATTCTGGTTGAGGAACCAGAGAGAGATTGAGGAATCTCTAGGAACCCTAGTTTCACTGTTCTTCCCCTTTTCCCCAA TTTTCTCTGTAATTTTCCAATTCCCCGAATCAATTCTCAAATTGATTCCAAGTTGTAACCTCAGTTTCAATTCAATAATA TTCATCTGATTTACCAGTGTTATCACTGGTATCAGAGCACCATTCTTGGTGCCTGAGGGTGAAAACCACGTGATTTCTGC AACTCTGAATGGTATCAACAAGAACGATGGCCAGAAGCGATGGAAGCTGGAATCAAGAAAGGGATGAATTGCGACAGGAA ACAGAGGGTTTGCGTACCCGATTGGAGCTATACGAGGCGCGCACCAAGGTGGCTGAAGAGCTCATCGCGTCGCTGCGAGC CAGAGTGGAGGTTCGCGATCGTGATTTCGCCGGAGAAGACGAAGCCGAAATAAGCGGTAACCGAGAGGCTCGAGAACGTG TTCCCAGCAAGAATCGATGGAGGAAGTTGGAAATTCCAATCTTCTCAGGTTCTGATGCCGTTGGTTGGACACAGAAATTG GAGCGATATTTTGCTCTGAGAGAAGTGACTGAGGAAGAGAAGATGCAGGCAACCATGGTGGCTTTGGAGGGACGTGCACT AAGCTGGTTTCAATGGTGGGAGAGGTGCAACCCTTCACCGTCCTGGGATGCATTCAAGCTGGCTGTGGTAAGAAGATTCC AACCTTCTATGATTCAAAATCCATTTGAATTGCTGTTAGCTTTAAAGCAAGTAGGTTCAATAGAGGATTATATTGAAGAA TTCGAAAAATATGCTGGAGCTTTGAAAGAAATTGATCATGATTTTGTGAGAGGAATTTTTCTGAATGGACTTAAGGAAGA GATTAAGGCTGAAGTGAGATTGTTTGAGCTTAACACTCTAGCAGAAGTTATACAGAAGTCAATTCTGATTGAACAGAAAA TTTGCTAGCAACTAAGAAGAGTGGTGGATTTGTGAGGCCTAACAATGCTTATAGAAGCAATAACTATAACAGGACAGTTA CAGTGGAACCTGTTGGTAATACTGAGAATAAACTAGGAAGCTCTAGTGGAAATAACAAGGCTGGACCAGCTCTTGAAGGG GGAAGACCCAGGGTTGGTGAGTATAAGCACTTGACAGCTGCTGAGATGAAGGATAAAAGAGAGAAAAACCTGTGCTTCAG GTGTGATGAGCCTTTTAGCAGGGACCATAAGTGCAAGAATAGACAACTTAGAATGTTAATCATGGAGGAGGAAGATGATT TGGAAGGAGGTGAGTTTGAAGATGCCTTATCTGGGGAATTTAACTCACTGCAATTATCCCTCTGCTCAATGACAGGATTT ACTTCTCAGAAATCATGGAAAATGAAGGGAAGCATTAATGATCAGACAGTGGTGGTCCTCATTGATTGTGGGGCTTCACA TAGTTTTGTTTCCAAGGAATTGGTGGGAAAGTTGCTGCTGCCAGTGGACTACACCCCTTCTTACCCAGTGGAAGTAGGAG ATGGTCATAAAATTAGTTGCAGGGGTAAGTGCTCTAAACTGAAGCTTATGATACAAACTTTAGAGGTCATTCAGGACTTC TATCTATTTGGCCTCAATGGAGTAGATATGGTGCTGGGTTTGGACTGGTTAGCTAGTCTTGGTGATATAAAACCCAATTT CAGCAAGATGAAGTTGTCTTTGAAGAGAGGGGGGCAATGGATTACTTTGGAAGGGGATTCTGCTCTGACCAGAACTGAGC TATCCTATGGGGCACTCATGCAAATTTTGATTGAAGAGGGAGAAGGATTGCTAATCCACTGTGAGCAAGAGAGCATTTCT GGACTGACAACCAAGAATGTGCCAGCACAGCTAACTAAAGTTTTGGATGCTTTTGCCTCAGTTTTCCAGGATCCTGAGGG GTTACCTCCAAGGAGGAGGCATGACCATGCCATCCACTTGAAAGAAGGGGCAGAGATCCCAAATCTAAGGCCATACAAGT GTCCCCATTACCAGAAAAATGAGGTAGAAAAACTGGTGGCTGAAATGTTAGAGGGAGGGGTTATAAGGCCCAGTATTAGC CCTTATTCTAGTCCTATAATTTTAGTTAAAAAGAAAGATGGGGGATGGCGCTTTTGTGTTGATTTTAGGGCACTCAACAA GATCACCATACCCAACAAATTTCCAATTCCAATCATAGAGGAATTGTTGGATGAAATAGGTGGAGCCAAGGTGTTTTCTA AGCTGGATTTGAAATCTGGTTACCACCAGATTAGAATGAAAGAGGAAGACATAGAGAAGACTGCGTTTAGAACACACGAG GGGCATTATGAATTTCTTGTGATGCCTTTTGGTCTCACTAATGCCCCCTCTACATTTCAAGCTCTTATGAATGAGGTCCT CAAGCCTTACCTTAGGAAGTTTGCTTTGGTATTCTTTGATGACATTCTGGTATACAGTCCAGATTTGTCAACTCACTCCT CACATTTACAGCAAGTTCTGACTTTGCTAGACCAGAATTCACTCAAGGCTAATAGGAAGAAGTGCACTTTTGGCCAAGAC AGTCTAGAGTACTTAGGACACATTATTTCTGGGGATGGAGTTGCAGCAGATCCATCTAAAGTTGAGGCAATGAAGAATTG GCCAACTCCTATGGATATTAAGGGATTGAGGGGTTTCCTTGGTCTAACTGGTTACTATAGGCGATTTGTGCAGGATTATG GGAAAATCGCCAGACCCCTTACTGATCTCTTAAAGAAGGATGGGTTCAAATGGACTCTTGCAGCTACAGAGGCTTTTGAG AGCTTGAAGACAGCCATGGTCAATCTTCCTTTACTTGCAGTACCTGATTTCTCCAAGCAGTTTGTAGTGGAAACTGATGC ATCCAGTAGAGGACTTGGAGCTGTTCTCATGCAGGAAGGAAGACCATTAGCATTCTGGAGTCAGGGGCTATCTCAGAGGG CACAAATGAAATCAGTTTATGAGAGGGAGTTAATGGCTCTTGTGCAGGCTATTCAGAGATGGAGACACTACCTCATGGGA AGACATTTCATTATCAGGACAGATCAGAGGAGCCTCAAATTTCTGAATGATCAGAGGTTGTTCACTGATGAACAATTCAA ATGGGCTGTAAAATTGGTAGGAATGGATTTTGAAATCCAATACAAGCCTGGTAGTGAAAATTCTGTTGCTGATGCCCTCT CTAGGAAAATGATGTATTCTGCCCTCTATCATTTCTCCAGCTGACAAAGAGGAATGGAAGTCTGCGTTGCATCAAGATCC CAAGCTTTCTAAGGTGATCCAAGATCTCATTATCTCTCCCTCATCTCATGATGGTTTCAGTTTTAGGAAAGGATACTTGT ATTATAAGGACAGATTGGTGGTATCTAAAAATTCCAACAAGATTCCTATGATCATTTCTGAATGTCATGCCACTCCAATG GGAGGTCACTCTGGCCATTTTAGGACTTACAAGAAGATTGCTAGTTTCCTATACTGGGAAGGAATGAAATCTGATATCAG GAAATTTGTGGAGGAGTGTGGCATTTGCCAAAGGAGTAAATATTCCACCTTAGCTCCAGGAGGGTTGCTACAACCTCTTC CTATACCAACTCAGGTTTGGATGGATGTGTCCATGGACTTTGTTGGAGGGTTACCTAGAGTTAAGGGCAAAGACACCATT TTGGTGGTGGTGGATAGGTTGTCTAAGTTTGCTCACTTTTATGCTTTAGGCCACCCTTTTTCAGCTAAGGATGTGGCTTT AGTATTCATCAAAGAAGTGGTAAAACTCCATGGTTTTCCTACAACCATTGTTTCTGATAGAGACCCACTTTTCCTTAGCC AATTCTGGAAGGAGATGTTTAGGCTGGCTGGAACTCAATTGAAGTTAAGCACTTCTTATCATCCTCAAACAGATGGACAA ATAGAGGTTGTTAACAGGTGTTTGGAGACCTACCTCAGATGTTTTGTTGGTCCTAAGCCTAAGCAATGGTTAGAGTGGCT TTCTTGGGCTGAGTTTTGGTTTAACACCAACTACAATAGTTCTGCTGGGATGTCACCTTTCAGGGCTTTGTATGGAAGGG ACCCTCCTATTCTGTTGAAGGCTGGAGCTATTCCCTCAAGGGTGGAGGAAGTTAATCAGATGTTTCTCCATAGAGATGCA GTGCTGGAAGAGTTAAAGTTCAATCTGGCCAAAGCTCAGAACCAGATGAAAGTTCAAGCAGATAGACACAGAAGAAATGT GGAGTTTCAGGAGGGGGATTGGGTCTACTTGAAGTTACAGCCCTACAAGCTCAAGTCTTTGGCTTCCAGGCCTTTTGCTA AGCTGGCCCCAAGGTTCTATGGCCCTTATCAGATCCTCAGCAGAGTGGGACCAGTTGCTTACAAGTTGCAGCTCCCTCCA CATGCTCGGATTCACTCAGTTTTCCATGTCTCACTCCTGAAGAAAGCTTTGAAGCCAGAACAGCAGCCTCAGCCTCTACC TCCAATGCTCAATGAGGAGTTAGAATTAGAAGTAGCTCCTGCTGATGTGATAGCTTCCATGGAAGATGCCTTTGGCAACT TGGAGGTGTTAGTGAGCTGGGATACCTTGCCTTCTTGTGACAATTCTTGGGAATCAGCTGCCAAGATTCAGGAACAATTT CCTTTGTTTCCCCTTGAGGACAAGGTCAAACTTTTAGGGGGAAGTATTGATAGGTTTAAACATGTGTACTCTAGGAAAAG GACCAGAGTGTGAACTGGCTAAGAGTTTAGGGACTGGAAATGAATAAACAATTAGTTAGTTAGTGTCAGCTGTTGCCAGC TGTAGGCAGTTAGAGGTAGTAACCGGTTGCAGCTATGCAACTGTTAGTATAAAAAGGGAAAGCTAGCTTGCAGATGAAGC TATCAAAGATTAGAGTTCAGAATTCTGGTTGAGGAACCAGAGAGAGATTGAGGAATCTCTAGGAACCCTAGTTTCACTGT TCTTCCCCTTTTCCCCAATTTTCTCTGTAATTTTCCAATTCCCTGAATCAATTCTCAAATTGATTCCAAGTTGTAACCTC AGTTTCAATTCAATAATATTCATCTGATTTACCAGTGTTATCAGTAACCATGCCTCTAGGTGTTCAAAAATGTCTTTTTG TTAGTTTTGTATATATTCTAACAGTTTGGTAGATCAGAGCGACTGCTTTCTATGTACATTTGACATAGTTCTCTGACTTC TCAACAAAAGTACAATTAAGATATTAATAAACTGACCCTCTAACAATCTGAAATATAAGTCTTTAATGAGAGGCAGGAGG AAATATGGGAAATATATTTTTATAGAGAACTTAAACTTTATCACATATTATGTTGTTGTGGTACCTAAGATGAGACTTCT AAAATTTTCAAGGTATTTCAATTGATATTTTCTTTCCCTGAATAAGGAAGTTGAAATCCCGTCTCATAAGATAAAGTTTC CAAGATTCTACTTCTCTATTGTGGCTATCCATAACATTCTGTCCTTTTCACCCTTCCCCTTAATTCTCTTTTCCTGCTAC ACCAACAAATCCATGATGTTTCTGAGACTGATTGATCTCTGGCATTGATATTCAACATATTGAAACAGCTCCCTCAAATC CCTTGCTGACAACCAACTTAAGAAATCCCTCTACCACCCAAAGTCTTCACATATTACTTCCACATCCTTTCCACTTATAT TATCTCATTTTTCCTCTCATGCTTTCTGAGGATATTTATTGAAGCCATTAATGAATATGAAGGTGAAGATGCACTCCCAA GTTTCTTCTTTGCTTTGTTCTGTCTTCTTGTGAGCTATCAATTTTTGCCTTGATTATCGTAAATACACATATACATAGTT GAGTTTTTTTTGTGCAGTTCATATCAATTTTTGACTCTTTTTTTTCTAGGATGCCTTTGCTTCGGAAAGAAGGAAAGCCA AAATGCTTAACTTCTCAATTGCATATGGAAAGACCCCAATTGGGCTTTCTAAGGATTGGAAGGTACTGTGAATTCTATTA CATATTATGAGGGGCTTTTAATGGGTGACAAGCCCTCATGATTGTTGATTTGATTGTACAAACAAGTTTATACATATTTT TCTGTCAGGTTCCTGTCAAAGATGCTAAGAAAACACGTGACCTTTGGTACAATGATAGAAAAGAAGTGTTGAAATGGCAA GAGGAACGTAAAAGAGAAGCTTGTGAATACCACTGTGTTTACACTCTGCTTGGCCGAGCCCGGCGGTTCCCTTCAGTAGA TCTAGCTACCAACTACCAGAAAGGTCACATTGAACGAGCTGCTATAAATACTCCAGTGCAGGTCCTTAATTCTTTGAAAT ACATCTATGCAATTGTGTGCCGCCTTCCCTTCATGTCTTTCACTATAATCTCAAGTTTCCCTTCATGTCTTTCACTATAA TCTCAAGACGTTTGATGGTCACTTATAATAAATTTAAAATATAGTGATTTCTTTATCCTAATCCTACCATAAAAAAAGGT GACTGGTTCTTACTGGAGTGGACCTATGATATAATCAGTTACATTCAGGTTTTTTGGAAGATTCTGTCTGTCTTTCCTTG CAACAAGCACCTTCTTTAAAAAGATTATCCGCTTGCTTTTAGAGATGGTTGTGGAAAGTCACTGTTATGTTTAGTTGTTG ATTAAGTCGCATGTTTAGATCCCTCTCCCTGCCTCTATCAATTCACATAGTGTATGATCCATTCCTACCTTAAGGACCTT TCTTTTATGGTTTTCTGATTTTTCATGTGCAACAGGGTAGTGCAGCAGATGTTGCCATGTGTGCCATGTTACAAATAGCC AATCATAAACAGTTGAAGGAGCTTGGATGGAAGTTACTTCTTCAGGTTAATATTTATATCAAGAATTTTCCCATTCTGTC CTCTCTTTATGTTCCATTCAATTAATTTTGCCTGCTTGTGGTTTGATTAAAATGGTTGTAATCCGTTGATTTTGGGGAGA ATGAGGTAAGTATAACTAATAAAAGAGAGCTGGCTGTTGATTGAAAAGTTACACAGGGATTCATGACAACTTAGTTGGTG TTTGTTCCTTTCTTAACTAGTACTCCCTCCGGTCCTATTTATAAGCAACAAAAAAAAAAATTCGCATAGTTTAAGAAATG TAGTTAAACTAGATAAAATGCATTAAATTTGTCTTAAATTAAAATGAACTTCCAAAATTACCCTTTGTTATTAGTGTTGG AAAGTGGAAAAGAGAGAGAATAATTAATGAGACACATTTTACAAGTTAGAATTAATAAGGGCATCATTGGAAAAAATTAA TTAATATAGCTCAAACTTTCATTTGGTTCTTATAAAAATGACCAAGATTTTTCTTCTCTTTCATGCTTATAAATAGGACC GGAGGGAGTATTTTCCATTTTGTCATAATACTCTACACTATATACATGATGGGAATTCATCTTCCATAACATGGATGGTT TGGATTATTTAAGTGATACATTTTGAAACTCTCATATTTTTAATTGACTTGCTGATTTTATCATCCTGGTTGTATTTTTT CCATATCTCATTTTAGTTAAAGTTGCACTACAAACATCTTAGCTTCAGTGGATAATTCCATCATACAAAATTCTGTGGTC TATTTAAAAGCTTTCTTGCTACATTTTCATTAAGATTTCAGATATGACAAAGCAGGTTCACGATGAAGTCATATTGGAAG GGCCAACAGAGTCGGCTGAGGTTGCAAAGGCCATAGTTGTCGAGTGCATGTCAAAACCCTTTAATGGCAAGAACATTCTT AAAGTCGCCCTCTCTGTGGATGCCAAGATTGCTCAAAACTGGTATGCTGGAAAATAG

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0163900.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCACATGGCAAGACTATGGGATTCATCAAGACGTTGGGTTGGTGGTTATTCTCTTGAAGCACTTACAAGTAACAAAGT GGTCATGTCAAGGGCTAAGCTGAACTGTGAAAAGGATTTGATCGGTAAGGTGTCAATGACAAATATATTTGGTCTGAAAA AGTTTAAGAAAGATGGATCTGAGGGTAAAATGACTACCATTGCTCCTGTGGAAGTGCTGCAAAGAGAGGATCGTATACCT TGGGTATGTTATTCAGCCTTAGATGCTAGAAGCACTATGAAGCTTTATGAGAGCCTTAAGGGTCATCTATCAGATATGGA CTGGAAAATTGATGGAGCACGTGTTTTACACAAAAACATGTATGATTTTTATGAGGAATATTGGCAGCCATTTGGTGAGC TTCTAGTAAAAATGGAATCTGAAGGAATGCTAGTTGATCAGTCATATCTTCAAAACATAGAAAAGGTGGCCAAGGCAGAG CAACTTGTAGCGGTTAATCGATTTAAAAAATGGGCATCTAAGTATTGTCCTGATGCCAAGTATATGAATGTTGGAAGTGA TGCTCAGTTGCGTGTCCTTCTCTTTGGTGGCACTGTGAACAGTAAAAACCATGATGAGGCAATTCCAACTGAGCGGATTT TCAGAATTCCCAATGTTGATAAAGTGATTGAAGAAGGCAAGAAGGCTCCCACTAAATTTCGTGATCTGAAGTTGCATAGC ATTGGCTGTAACCTTAGAACTGAGATGTACACTGCTAGTGGTTGGCCCTCAGTTAGTGGTGATGCTTTAAAAGCCCTGGC TGGCAAAGTTTCTGCTGAATATGACTTTAATGAGGCTTGTAACTTTGATCTTGATGATGAAGATGGAAATCCTTCTCAAT TTGAAGTTGAACCTGTAGAAATAGACCAATCTGCTTATGGAACAGCCTTTGCTGCATTTCCAACAGAGGAAGAAGGGAGA GAAGCTTGTCATGCACTTGCTGCTTTACGTGATGTCTGTTCAATTGACTCTTTGATCTCTAACTTCATCCTTCCCCTGCA GGGACATAATATATCAGGAAAGGATAACCGTGTTCATACTTCCCTCAATCCCAACACAGAGACTGGGCGCGTGTCAGCAA GTAGGCCAAGTCTGCAGAATCAACCTGCTTTGGAGAAGGACAGATACAAAATCCGTCAAGCATTCATAGCTGCTCCTGGA AATTCTCTTATAGTTGCTGATTATGGACAGCTGGAACTTAGGATTCTCGCTCACCTTGCTGATTGTAAGAGCATGTTGGA AGCCTTTGAAGCTGGTGGAGATTTCCATTCAAGAACTGCAATGAATATGTACCCATATATTCGTGAAGCAGTTCATGAAA AGCAAGTGCTTCTTGAGTGGTATCCTCAACCTGGTGAAGACAAGCCCCCAGTTCCTCTTCTGAAGGATGCCTTTGCTTCG GAAAGAAGGAAAGCCAAAATGCTTAACTTCTCAATTGCATATGGAAAGACCCCAATTGGGCTTTCTAAGGATTGGAAGGT TCCTGTCAAAGATGCTAAGAAAACACGTGACCTTTGGTACAATGATAGAAAAGAAGTGTTGAAATGGCAAGAGGAACGTA AAAGAGAAGCTTGTGAATACCACTGTGTTTACACTCTGCTTGGCCGAGCCCGGCGGTTCCCTTCAGTAGATCTAGCTACC AACTACCAGAAAGGTCACATTGAACGAGCTGCTATAAATACTCCAGTGCAGGGTAGTGCAGCAGATGTTGCCATGTGTGC CATGTTACAAATAGCCAATCATAAACAGTTGAAGGAGCTTGGATGGAAGTTACTTCTTCAGGTTCACGATGAAGTCATAT TGGAAGGGCCAACAGAGTCGGCTGAGGTTGCAAAGGCCATAGTTGTCGAGTGCATGTCAAAACCCTTTAATGGCAAGAAC ATTCTTAAAGTCGCCCTCTCTGTGGATGCCAAGATTGCTCAAAACTGGTATGCTGGAAAATAG

Download CDS Sequence

Protein sequence (LotjaGi6g1v0163900.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MHMARLWDSSRRWVGGYSLEALTSNKVVMSRAKLNCEKDLIGKVSMTNIFGLKKFKKDGSEGKMTTIAPVEVLQREDRIP WVCYSALDARSTMKLYESLKGHLSDMDWKIDGARVLHKNMYDFYEEYWQPFGELLVKMESEGMLVDQSYLQNIEKVAKAE QLVAVNRFKKWASKYCPDAKYMNVGSDAQLRVLLFGGTVNSKNHDEAIPTERIFRIPNVDKVIEEGKKAPTKFRDLKLHS IGCNLRTEMYTASGWPSVSGDALKALAGKVSAEYDFNEACNFDLDDEDGNPSQFEVEPVEIDQSAYGTAFAAFPTEEEGR EACHALAALRDVCSIDSLISNFILPLQGHNISGKDNRVHTSLNPNTETGRVSASRPSLQNQPALEKDRYKIRQAFIAAPG NSLIVADYGQLELRILAHLADCKSMLEAFEAGGDFHSRTAMNMYPYIREAVHEKQVLLEWYPQPGEDKPPVPLLKDAFAS ERRKAKMLNFSIAYGKTPIGLSKDWKVPVKDAKKTRDLWYNDRKEVLKWQEERKREACEYHCVYTLLGRARRFPSVDLAT NYQKGHIERAAINTPVQGSAADVAMCAMLQIANHKQLKELGWKLLLQVHDEVILEGPTESAEVAKAIVVECMSKPFNGKN ILKVALSVDAKIAQNWYAGK

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	PTHR10133 View details on PTHR10133 Search for proteins/transripts with this domain View external data on PTHR10133	1	660	660	1.1E-299	IPR002298 Show description in modal box View details on IPR002298 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	1	139	139	5.6E-10	IPR036397 Show description in modal box View details on IPR036397 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10133:SF53 View details on PTHR10133:SF53 Search for proteins/transripts with this domain View external data on PTHR10133:SF53	1	660	660	1.1E-299	–
SUPERFAMILY	SSF56672 View details on SSF56672 Search for proteins/transripts with this domain View external data on SSF56672	119	658	540	4.67E-96	IPR043502 Show description in modal box View details on IPR043502 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd08640 View details on cd08640 Search for proteins/transripts with this domain View external data on cd08640	254	658	405	0.0	–
Pfam	PF00476 View details on PF00476 Search for proteins/transripts with this domain View external data on PF00476	329	453	125	1.3E-26	IPR001098 Show description in modal box View details on IPR001098 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	355	379	25	-	–
PRINTS	PR00868 View details on PR00868 Search for proteins/transripts with this domain View external data on PR00868	357	379	23	2.7E-28	IPR002298 Show description in modal box View details on IPR002298 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.70.370 View details on G3DSA:3.30.70.370 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.370	366	656	291	3.1E-73	–
PRINTS	PR00868 View details on PR00868 Search for proteins/transripts with this domain View external data on PR00868	380	395	16	2.7E-28	IPR002298 Show description in modal box View details on IPR002298 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00482 View details on SM00482 Search for proteins/transripts with this domain View external data on SM00482	390	620	231	2.2E-49	IPR001098 Show description in modal box View details on IPR001098 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00868 View details on PR00868 Search for proteins/transripts with this domain View external data on PR00868	402	425	24	2.7E-28	IPR002298 Show description in modal box View details on IPR002298 Search for proteins/transripts with this domain View on EBI InterPro Service
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	411	580	170	3.1E-73	–
PRINTS	PR00868 View details on PR00868 Search for proteins/transripts with this domain View external data on PR00868	432	445	14	2.7E-28	IPR002298 Show description in modal box View details on IPR002298 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00476 View details on PF00476 Search for proteins/transripts with this domain View external data on PF00476	479	657	179	2.9E-42	IPR001098 Show description in modal box View details on IPR001098 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00868 View details on PR00868 Search for proteins/transripts with this domain View external data on PR00868	573	589	17	2.7E-28	IPR002298 Show description in modal box View details on IPR002298 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00868 View details on PR00868 Search for proteins/transripts with this domain View external data on PR00868	603	616	14	2.7E-28	IPR002298 Show description in modal box View details on IPR002298 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: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
GO:0006261 View details of GO:0006261 AmiGO InterPro QuickGO	Biological process	DNA-dependent DNA replication	A DNA replication process that uses parental DNA as a template for the DNA-dependent DNA polymerases that synthesize the new strands.	Subterm of View details of GO:0006260

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Expression data

Expression pattern

Expression pattern of LotjaGi6g1v0163900.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0163900.2