Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0108600
Transcript ID	LotjaGi2g1v0108600.1
Lotus japonicus genome version	Gifu v1.2
Description	3'-5' exonuclease domain-containing family protein; TAIR: AT5G35910.1 Polynucleotidyl transferase, ribonuclease H fold protein with HRDC domain-containing protein; Swiss-Prot: sp\|A9LLI7\|RP6L2_ARATH Protein RRP6-like 2; TrEMBL-Plants: tr\|I1MW66\|I1MW66_SOYBN Uncharacterized protein; Found in the gene: LotjaGi2g1v0108600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:37435511..37450908) extracted from Lotus japonicus Gifu genome v1.2.

TCCGGTTCCCGGCTCAACCGGTCGAACCGGCCGGTTCGAGCCGAGTTTTATAACTCTGCAGGTAGGTACGTTCAAAGACA GCCGCAATACTGAAATTTTCTCACTTGTTTTCACATAAAAGGAAAAACGGAAAATAAGTTGTGGGGTCCCTTTCAAGATC CTAAAACCCTAACTCAACACAGACTCCAAAAATCCCTAATCTCAAACATTCATAATCTCTCGACGCCATGGACGTGGATC ATGATCCACCGCACACCGCGGCTGAGGCCCAGACCCTACAGTCGCTTACGGCGGGCCCTCTCTCCTCATCAGTGGCCAAG CTCGCCGCTTCCTCGCGGTGCATCCCTTCTGAGAGGGACTTCTATTTCTACCGCAACTTCGACGACTTCAAGGTCCCGCT CAAAGAAATCGCGCGTGAATCGCACTCGATGCTCGAGGCCATTGGCGCCGCGGCTCAGGTGGCGTTCCCCGCTGACGACG ACGCTGCTTACGACTGGCTGGTCAGCGTGAACGACGACGTTCTGGAGCGGTTTGACGTCTCCACCGATGAGTTTCGGAGG GTTCGGAAAGAGGAGGAAGCGGCAGCGAGGTCGGGTTCGGTGGTGGAGGACGGGTTTGAATTGGTTTCCAGAAGGAAGAA GAAAGAGGAAAAGGTGAAAGCGGATTCGGAGATGAGTCCCGCAGTGGCGGACAGCGTTAAGGTGGCGGTGAAAGATAAGA AGACTACTGGGCCGAAGCCTAAGGTGCCTTTTCATATACCGACCATTAGGAGGCCACAGGATGAGTATAACATTCTGGTT AATAATACCAACATGCCTTTTGAACATGTTTGGTTGCAGAGGAGTGAGGATGGTGACAGGTTTATTCATCCACTGGTTAG ATCCCTAGACTGTCTGTGTTAATATAAATTTGATGTTTTGTTTTTGTGTATTGATTCACAACTGGTTAATTTGACTTCAT TGGCAGTTGTTGTGATAGTGATAGTTCTTATAAGATTTTCCTTGACATTTGATAATGTCACTTCAAATTTTTGCTTGCAT GACCTTTTCAATCAAGTGGAGATACGATTGAAGTTTCATTTTTTGGTGGGATGTTTGTACTCTCCAGAGCAATCGTGCAG ACTCTACTATTTGCTGGGGTTGTTATGCTTTAAAGCAATAGCTTGGGTTGAATGATATTTTCCTTGTCATGTTGATACCC TTTCATTTTCGTCCTTTTAATATGTAGTAGTATTGGGTTGTTGATTTAATGAGCGGGATGGAGTCTTTCGAAACATAATT CACCCAATGGCGTTGTGGATGTAACTTGATATTGTGAATGACCATCAACATTGATTTTCTTCTTCCTGTTTGTTTTGGGA AATTTACGTGAAGTGGAAAAAATTTAAGCTATATTTGGAACTAATTCACGGCTCGTTCCATAGTATACATGAAGTTCATC AAACCAGCAACTCGCTCGCAGTTGTTCTGTGGTCTTACTGAGCTGTATTCTTTTTATTTTGTCGTCTTCTCTACTTTCTC GTATTAATCAATTTACTTATTTGTCGTTCTAGGAAAAGATCTTTGTATTGGATTTTGTTGATAAAGATCCTGGGGATGTT CTGCCAAAGAAGCCTCCCCCAATAGAAAGCACTCCTTTCAAGCTTGTGGAGGAAGTCAAAGATTTGAAAGACCTGGCTGC TAAGCTGCGTTCTGTTGATGAATTTGCGGTAAATATGATCATGATTCATGAACTTTTACTCAGAAATTATTTCCATAACA TGATAAAAAATTGAGAATCCCTTAGTGACTTGAGAACTTAATCTTACGCAACAGAATTTTTTGGCAGTCCGCTGTTAAAC CTCTGTTTATCCCCTTTCAGATTAGGTAAAGAAAATTTTAAGAGTTATTCAAATATTTTGCCTGTTGAACAGTTCTTGAC AACTGACTTTCAGATTCCCTTAGAAACTTCTTATTTTGGATAAAATGTAAATTGGATGCTGGACTGTGTCGCCATTCCTT GGTTAAAGGCTCATCTTTCATTGAATTTACAGGGGTTTACTTGCATATCAATGCCAGAGATTGATTAAGGATGAGATTTC AACATAGATTTTCTGTCTAGCTGTTATCAAAAGGCTTGCTATTTTGTTGAGTTTGACATTGTTCAATATGGGCTCGATAA ATAGCCTGTATTATTTATATTATCAACCGGCGCATCACATTTTATGAATGCTTACATATTCAAGATCAAGTGTGTTAAGT CATGCTAGAATAAATTCTAAAATATTTGTTTTTCGGAGAAGCTATACTTTCATATTTATTGATATTTTTACTCTTTAAGT TTGTATATGATTATCATGATTGTTTTGAAACACGTTTCTTGTGTTTTTTTAACTTCTTTGATTAATTTTTTTTTTATAAA ACAAATAATAATACAAGCACCCTCAAGCTCCTGCCTTTCAAGTTTATTTGTATGTTTCATAAATGAAGTTGTTAATGTAG CCATTGACCAGCCTTCATGCAATAACTTGAACTTTTAGCATACTGTCAGGGTGCCATTTTTTTGATGTTCTACTTTTAAC AGTAAGTTATTCAGGTTAAGCTGTTAAGGTAGTGTATGCTTAATTTGTATAAGAAATATGATGCGGTAGCTGATTTTATT TGTTTATGTTTCTCATGTGATCACAATCTGTGTTGGATATGGTGTTCTACTGCTCATTGTGAGGATATTGTTTAGTGTCT GTGTATCTTGTTAATTTTAGTGTTGAGATATGGAGGTGTAACTGCAACCCTTGAATTTTTTTTTCTGGGTGCTGTATATT TCTTTTAGAATATAATATAATATAATACCATTTATGTGTCATCACTCTTCACCCAACAACTTAAGTTTTTGGGATAGTTG GTTCATGACATGGTATCACAGTCTCTATGACAAGTGGTCTAGAGTTCAATCCTTGTTGCCCTCCATTGTTCTAATAAAAA AGTTGAACTTCAACACATGATAGGTGGACATGTGCATTGTCTATGCTTCAAGCCCAATAGGCTCTTCCATGAGGGGGCAT ATTAGAATATTGTATAAACCATTCACGCATCTTTATCCAACAGCTAATGCTTCCGGAATAATTGGTTCATGTCAGTTTTC ATTGCATTTGATTGTCGGACTAATATTTTACCTCTCCCGTAACGTAACCGTAGTCACTTCCCAATTCCCCTTTTGTTGCA TTATTCTGAATTTTGTTTGTTTGTCTTGACTTGAAATTCTTAGGTAGATTTGGAGCATAATCAGTACCGTTCATTCCAAG GTTTGACGTGCCTGATGCAAATCTCAACAAGGACTGAAGATTTTGTTGTTGACACGTTGAAGCTTCGCATTCATATTGGG CCCTATCTTAGGGAGGTCTTCAAAGACCCCACCAAGAGGAAGGTTTGTTGTACTTTGGTTTTCCTGTTACTTCAACATAC ATGCCTCATTTTGTTAACAATGTTCATGGTTAATTAGGTCATGCATGGTGCGGATAGAGATATTTTGTGGCTTCAACGGG ACTTTGGCATATACATTTGTAATTTGTTTGACACTGGCCAGGTTTGTTTAAAAAGTGTTGATTATTCAATACCGAGATTA ATTCCCTTTTGACTTGTCATGGAAACAAATTGTTGAGTCAGTTATACTGTTAGTTTTTTTTTTTTTTTTTGGGTGAAAGA TTTGTTTTGACTTTTTGATGCTGCGTATCATGCAGGATTTTAGTGTTTAGCTGTTTAGGTATTCTAGATGAATTGATTTG TTCGTTGACATGAAAAAAAAAAGAGAAACGGTTTTGATTTTTCTTCCATCGACTCTCCTTGAATGAACTATGTTCTTTGG TTCCATATTATCAGTTACATTTATGGCTATATTCCTCTCTTTCTCTCTGTTTACTTTTTCTTAGAACAGAAGAAGACTAA CCTACTTTGACTGCATTTCTTAGGCTTCAAAGGTGTTAAAATTGGATAGAAATAGTTTGGAATATCTTCTGCATCATTTT GTGGAGGTTACTGCAAACAAAGAGTACGTTGTCTTCAATTTTGTCAGTTTAATTTTTTGAATTAGCCACCCCCTTTTCTT GTTTGAGCTGATGCTTTACTCCTCTGGCATGATTTTCCTTTTTCCCCTACCTACATTCTGGAAAATTTACAAGTAAACTC CTTGCAGATATCAGAATGCTGATTGGAGACTTCGACCTCTTCCTGATGAGATGATAAGGTACAATTCTATTTTCAATTTA TCACATTTGATCCTCCCTTTGTTGATCTCCAAAATTTTGCACACGTTCAGTTCCAGGAATGAGTAATCCAGCTTTGTAGG ACTGTTCTGTTAACAAAGAATACATGGATTCTAGCTGTCTTAGGTTAGACTGTTTACCATATCCCTTGTATTTAGGTGTG GCTTACCTTCAATTGACTTGATACTTAAGAATTTGGTGTATATTTTAAGAAGAACAATCACTGTTTCTTGATCTTATAGG CATATGTTTCATGATCCGTAATGAAGCTTCTGTTCTGTAGTTAGCACCTTCAGGCTTCAACACTGGTGATGTGTGTGTAG TTAATAAATAGCATGGTATAGTGGTGTATCCAAGGCTTGTCAATCCTGTATAGCTGAGCATTGCAGCTTGCCCAGTGTTG TTAATGGCAGATTGCAGAAAATAGTTGGAAGCCAAAACTCCGCTATTTATGATAGCGGATAGTGTTGCAGGCAAAAAGCT AAAGACGCATAGCGAATTAAATAAGTAAAATTTGTATAAAAACAGCTTGTCACAACAGAATTTATATTAGTCAGCCATGC TGTTAACACAGAGAATGTGAAGTTTTAACAGAGAACAGACCAAGTTAACAACAAAAGAGAAAGAAAACTGAAAAACATTA AAGAGAAAATAGAAATCAGAAACGAAAAGAGGGGAATAAACCGAAAAATAGAAAAGAAAACAAACCTGATTTTAAGTTTA ATTGATAGAGCAGAGTATTGAAAAGAACAAAACTTGTCGAACAAAACAGAAGAGCAGGGCACGGAAAACTAACCTTAAAG ACAAGAGAAAATAGAGAAAGAAGAAACAAAACATGGGAAGGAAGAATAGTGAAAGAAATGAAAAACAAAATATAGCAAAA AGTGGAAAACGTAAAAGAAGGAAAAGAAAGAGAAAAAAAGAGCATGGTGAAACTAAAACAGAGCATGATGAAACTGAAAC AGAGCATGACAAAACTCACTGGATACTTGTTGGAGAAGACAAATCAGAGCCATTGGGGATGTTAGATCATCCATTTTATG GGGGAAGAAGAGGAAAGACATTGATGGAGGAAGAAGAGTGAAAGCCTCAACTACGCAAGTGAAGTTGTGGGACGTAAGTA ATGCGGTGACTTATAGAATCCTTATAGGTTTCATAGTGAGAAAAAGCTCATGAGCTTGTTTTTTTTTTTACGTGAAAAAA ATACAATGGAAGGAAGTACCAAAAAAAAGAGCATGGCGAAACTAAAACAGAGCATGATGAAACTGAAACAGAGCATGACA AAACTCACTGGATACTTGTTGGAGAAGACAAATCAGAGCCATTGGGGATGTTAGATCATCCATTTTATGGGGGAAGGAGA GGAAAGACATTGATGGAGGAAGAAGAGTGAAAGCCTCAACTACGCAAGTGAAGTTGTGGGACGTAAGTAATGCGGTGACT TATAGAATCCTTATAGGTTTCATAGTGAAAAAAAGCTCATGAGCTTGTTTTTTTTTATGTGGAAAAAATACAATGGAAGG AAGTACCTCTATTTTCGCGAGTTCTGCCAGTCTTATATCCGTCGTTGCGATCGCTTTCTTGCCGATAACGTTTCTTCTAC ATAGTGGCGAAGCTTCGGAGCGTTATGCTATAGCCGCTATTTAATATCACTGGGCTGGCCCACAAAACTGCTATAGTGGT GTAGTGGGATGGCTTGTACAACAAAGAAGAAGATGGAGGTAGAAGGGCGAGGAAGAAGAGGAGGAGAAAAAAGGCTGAAG GTGGACAGCACAAGTCTTCATTCGACTTTCAAGGTCTCTCTAGGGTTATAAGAATGCAAAAAACCATAAATACCGGCACT AATAGAACTGAAAAAACCAAAAATACCCCCAACTAATGGAACTGTAAAACAAAAATTACCCCCAACTAGTAGCCGTTAGT TTTAATTGTGAGGGCATTTTTGACTTTCTGGAACCTTCGCTTTTGCTCGAACCCTAATCTATGTGTGGCAAAATAGCGGC ACTATGGCTGCGATTCAGGGCGCGTTCTCACTCGCAACCACCGTGATGGCTATCTGCGCCCCTACAACCACCCTGTGCAC CTCAGCACCCAAAAAGCGCCGCTTTCACAAGCTTTGATTTATTATCTTGGCCACAATGGAAGTGGCATTGCATTGTGTAT TGCGACCATGCCACAGTGAAGGAAGCATTGTTTTTTTGTAGAGTGGTGCTAGTTTGCTTAATAAGATGACAGTATGATTA ACAGTGTGATAAATCCTTGATTTGCCTCTTTTTGAACTACCCCTCTCAAATTTTCAAGGTGGTTTTTGAAATTCCAGACA TTACCTGCATCAAAATTAAAATAGGGTTCAAAGCCCTTAATTATTCGGGGAATGGCGAACTAGGTTATTTCTTTCTTACT TGCTTCATTCCTTCGCACCAAATGTAGTACTTGATGACCCATTGTCAAAAGTATCATAGTATGTAGGCTTTTTCTATTTT AAAATTGTTATTTACTCTGAGTCTCACTTTTGTTTTGGAATTGAGATTACTAGCTTGTTTCATATTTCCTTCTCTACGAT TCACCATCTCTTTAATCTTCAGTTTCCTCCCAATCTTTTACCCTATATTCTTCTCCCTTCCCTCTAATTTTATTTGACCT ATAGCACATCTTACAAATGATACACTGCTGAATTTAACCTGCAGTATAATAAGAAAATTGAAATCGTCGCAACTCACAAG CATTGCTGATATATTACTGTGTCTAGTTCCCCATTCCCCCTCTCCCCTCCAAAGAAATGTCTAACCTTTGAACATAATTT TAGCTTGATATTTACTCCTGCACTGTCATGGGCTAGCTAAATAGTAATTAGTAATTAATACAGTCTAATGAATTGTTTCT AATGACAGATATGCCAGAGAAGATACTCACTATCTGCTGTATATATATGATTCAATGAGGATCAAGTTATTTTCCTTGCC AAAGGAGTTTGACAGTTCTGATCCTCCTCTGGTGGAGGTAACTATTTACTACCCCCAATAAATTGATGTCAGATTGCTTG CATTAAGTTAACCATCAAATTGATTTGGTTGACCACTTGACCATTAGTCTTGTCTTGCATCCATTTTATGAAGTTGACAA CTTTATTCTGACTGGTTTATGTTCCTCTGTGTTCTGTGTTCTATGACTTTGTATGAGTCCTTTTTCTCCAAGGTCTAGTA ATTTTTGACGGCCGCAGGTTCTTTGCATTATTAGATATTTAGATTAACTGATTGCGGGGGGTAACATTTCGGTTCCTGAG CTCTGCTGCTTTCTCATTTATTTCTGTTCATTTTGGTACGGTGCACGTTTGCAAAAGCTTATATTTATACCAAGGGAATA ATGGTTTATCTTTTGTCACGAAAACTCTCTCAAATGACAGATGAAGTCTCTCCCAAAATTGACTAATCCAATCATGCACA TAGTGGTAGTTTTTAGCTGCTTCAATCTTGTGTTATTGACTAGATGTCATGTTGAGATCAAACTATAACTTGACGAGCAT TTCATCTTTCAATCTGGGTGCTCCTTTTTTCCCTTAGACTATAGTCCAAGCTTAGGAGGTTTCTTGTTCAATAAACAATC TTCCCTTAACAGTTTTTATTTAAAGTTTTAAACTATATGAACTTTTACTTATGTTGCAATCATGAATTACTGATTTGACC TGTGTGACATTTTCTTGCTACAGATTAGGTGTTTTTGGACAATATTTTGACTTAAATCTTTAATCAAGTTGTGATACGAC ATGACTAAATGTTTTGTTCAATGAGCTTTATTTGTGGTCTGACGGGCTGGAATTCCTGTTACAAATAGGTTTACAAGCGC AGTTATGATGTCTGCATGCAGCTATATGAGAAGGAACTTTTGACCGAGAACTCTTACCTTCATATATATGGGTATTAAAC TTTTGACAGAGAATTCTTTCCGTCATATTGTTTGTTACCTTTCAATTGATATATTTTCATTAATTTAGCATTCCATGTAA TTATCAAGTTTTACAAGCTTTAGGTAATTTGGATATATAATTTATTATACTTTTTCTTATCTCTTGCATGTAAAAATTTC GTGGTTTAATTCTCCTTTTTGCATATAATGGGTGCCAAGAAATGTAAAACAAAACCAAATGACTGTTTTTGTGCAGGTTG CAAGGGGCTGGTTTTAATGCTCAACAGCTTGCCATTGTTTCAGTAAGCTGCTCTTTAATTTCTTATTTGTTGTACCAATC TTTACTTGTACAGGGAAAAAAAGGTTGTTGGTTTTTAGTTTGTCCAACAACCATTACTGTGGTGCCTATGGAAAATGGTT TCTACTAAGCAATCCTGTTCATGAATTGTGGTGGATGGTTTTTGAAGTATTTTGGTCAATTCTATGATCCTAATCTAGAA TTCTGTATATTTCATTTTGAAATCCAATTTAAACATCGTGGAAGCCATGGTTTCCTTTTGAATCTCAATTTCCCACAAAT ATGGTAAACAATTCCCGACCTTTTACCTCATAGAATTATTTAGATTAATCTCTTTTGGTAAGTCTCTTAAACAATGTGGT CCATTCTTCTGATGGTCTGACCACTACCACCTCCATTTTCAAAACCTCAATTGTGATTATTGCCATGGTAGTTGAATCGT GAATCGTATTGTGAATCAGAAGATATATCTTTTGACTCGTGAATCGTATGGTCTTATGCATCGTGCGATACAAACACAGA GAGAAATCAAAAGATGACAAAGTGAAAGTGTTCATCTCCTTCAAAATCATCAATAACATGACAAATGCAAAGTGCTTCCA TACTTGTTAAACTATGCTTTGATCCTACAACTTAATAAACTTCAAAGTTCAAAATAATCAGGGGAGGAGTCGCGATTCAG CGATTCATGATACGATACAAACAATTCATGATACGATTCAAGCGATTCATGATATGATACAAACAATTCAAGTGCGACTC AGTGAGAAATCGATTCACACATACGATTCGTATCGCTAGACCTCAAAAACGTATCGTATCGGTGTATCGTACGATACTTA CTACCATGATTATTGCTGCCATTGTTAACCACCTTCGTTACTGTTTGTAACACACTATCACCTTTGCACAATTACTTTTA TGATAGTGCTGCATTTTCCAAACACTGTGCCATCATCTCTGTCATTACTCCCTTTAGAATAGTTAACTTACTGAATGAAG CGTCCAATTTGGGCTGCTCACCAAAACAACTACGATGGCCCTCAAAGCATACTTGCCATCAGATTTTATTCTGTGTTATT AGGTTTTTATTTAAAGGCATTGCACTGATTGCATTGTATTCACTTCAGGTTTTCTTATTCTTAAGTTGCAACAACTATTA TAGTTCTTATACTCTATTTATTACTTGGCTTGCAGGGGCTGTGTGAATGGCGGGACATTGTTGCTCGTGCAGAAGATGAG AGTACTGGATATGTACTGCCAAACAAATCCGTTCTTGAAATTGGTAAGTGAAACTTGTCCAAACTTTTGTATCTTCTTTT TTCTAAATGCAGCAGTTTAGCTATTATACATGCCAGCTTATTTTGTTTTACTTGTTTAAAAGCTAAACAGATGCCTATCA TTCCAAGCAAGCTACGACGATTGGTGAAATCAAAACACCCATATGTGGAACACAATCTTGATACTGTCGTCAACATCATT AGGCATTCTATTCAGAAAGCTGCTGCTTTTGAAGTAGCTGCTCAAGAATTGAAAGGAGTGCATGCTGCCACTGTAAGTAA TATGTTCAACAATGTTCATTTTTGAATGACTGGGCACGAATTAGTCTGTGTTTTATGCCTGCACTGTCATATGCACTTAC AATCGAGCATTGATAGTCTTGACAGGATAATGAATTGGTCTTTATGACGACTAACACACATGATATTAATGCGCGAGTTT TTTGAGTTATCTTAGGTTTATATATTTATTTAGGGTTATTATTATTATTATTATTATTATTATTATTATTATTATTATTA TTATTGGGTTCCTTTAGCGCCGCATGCATAGTTTGCAGTCCTGGATAGTGGCCAACCCCAAAATCATTATAGCAGTTGGC CACTATGTTGACTTTGATTCAGGTACAGTGATGTTGGAGTGCTGGCTGTTCAGCTTTTCGAAGCCCATCCAAATATGATC CATAAGACTTTATACACGCATAACCTTATTTCCTAATTTTCTAAACTGAGGTATAGTACCCCAATACACTATTCCATTCT ACTAAGTTTCTTTCTCCAAAAACAGTGTCCTGATATAAAACATTTCAATAAAGAAGATCCAGCAGAAGATACTCTTGTAA TGCCTAATCACATTCATGTAGCCTCCATCTATAAGTGTATAAGGGTAGAATAGGATATGTAAATATCGCCAGCTGTCACA TGACAGCTGGACACAGCTGTAATGACAGCTGTTATCAGTTAGACAGTTAGGATTTGTTAACTGATTAGTTAGCTTGCAGA GCAAGTTATTAGTACTCTATATAAGTCATCTACTCACTATTGTAATACTCAGCATAATGAAAATAGAAATTCAGTTACAG TTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTTCCCTTTCTTTGTTTCTATCATGGTATC TAGAGCTTAGGTTCAATGGCAGAAGCTTCTTCTTCCACGCTTCCCTCATCTTCTTCTTCCACGCTAACCTCGTCTTCTTC TTCTTCCTCACATGAGAAAGCTTTGACTCATGCTGTCATCAAGTTAGATAACACAAATTTCTACTCCTGGAAACAACTGG TTGAAGGAGTGATCAGGGCTCACAAATTGCAGAAGTTCATTCAAGATCCACTGCAAATTCCAGATCAGTTCTTGACTGAA GAAGTTCGATTGACAGAAACAGTTAATCCACCATACTCATAATGGGAGCAACAAGATTCTATTTTGTTTACTTGGTTGCT TTCAACACTATCTGCCTCTTCTTCCTACAGTGGTTCAGTGTCGACATTCATGGCAGATCTGGGAGGAAATCCACACTTTC TTCAACGCACATTCCCAGGCTCAATCCACTCAACTGCGTTCAGAATTGAAGACAATCACAAAAGGAACAAAGACTGCTAC AGAATATCTCAAGAGAATCAAGACTTTTGTCAATACACTGACTTCGATTGGTGAGCCTGTTCTGTTTTGCGATCATCGCC ATCTTTGATGGACTTCCAGATGAGTACAGTGCGTTGATGACTGTGATTTACAGTCGTGACACCTTTTTCACCATCTCTGA AGTTGAGGCCATGGTGATTGCTCATGAAGCACGCTTTGAGCGAATGAAGAAGAAGCACCATGCAGATTCCACTGCATTTC CTTTTCTTGCTCAAGTTCCTTCTCAGATTCCTACGCCAGTAGCGCAGCCACCACGAGTGGCTAATCCTTCTCCACCGGCG CCGTGCCAGCCACCTTCAGCGTCGCAATCTGCGGTGCAGAGTGATGAGCACGATCGCGAAAATGGAGGAAGCGCAAATGG CAACTATGGAGGTAGCTATGGCCGTGGACGTGGTTGCGGGAGAGGCCGCAGCAATCTCCAGTGCACTTTTTGTCACAAGT TTGGTCATGATGTCAGTTCATGCTGGTTGAAGCCTGCGTCAGCATCGAATGGCTTGAATGGTGCTATTGGTCAATCCAAT TTTGGAAATTCGTCTACTGGACCCAATTTAGGGTTTTCTGGAGCTCAATTTGGGAACTTGGGGTTTCCTAATGCTCAATT TGGGGGTTTTGGTCCCTACACAAATTCAGGGTTTCCTGGAGCAAATTTGGGATTTTCTGGACTCAATTTAGGGTTCCCTG GAGGAAATTTGGGATTTCCTAATGCTCAATTTGGGGGTTTTGGTCCCTATCCTGGACTTGGAGCTGGAATGCCCAATCTT TTTGGTCCTTGGTGTGCACCTTCTACTGTACATGGTGCTTGGGGCTCAGTTTTCTGGCAGACCACAACAACAGTCAGGAG CTATCCCAGGGGTTTTACACTTTTACTCCTCCTACTGCACCACATGCTACCACTCAGCACCACCTCAAGCAATGCTTGCT ACTGTTCCTTCTCAGGTTCCTTCTACTCAGCTGCAGTAACAGTACAATGGTTTCCTGACTCTGGTGCTACCCACCATGTC ACCAATAACCCTGCTGTGTTTGTTGATAAAAGTTCAGTGAGCAATTCAGAACAGATTTACATGGGCAATGATCAGGGATT GCCTATTCAATCCATAGGTTCAGCTTTTCTTCCCTAAACTTTTAATCCTAAAGCTGTTCTTATTCTTAATAAACTGCTGT TAGTTCCTTCCATTACAAAGAATCTTGTTTCTGTTAGTAGGTTTGCTAGGGACAACAATGTTTATTTTTCCTTTCATGCT ACTTACTGTTGTGTTCGCAATCAGGACACCTCTGAGCTCCTTCTCAAAGGAAGTGTGGGTGAAGATGGTCTCTACTCATT TGATAGACCTCTCACTCAAGCTTCTTTGTCTTCCCGTCAGTCTTCTTCAGCACTTTCCTTTCAGCATCACCAGGCTGCCC TTGTCTCACAGCCTCGGGTCAATAAAGCAGTTTTTGCTACCAGCAGTAGTTTACCTTCTTCCTATCATCCCAACAAGCCT CCTATACTGTCAATGAACTGTGACATTTTAAATGGATCGTCATTTGGATCCACAACTAAGCTTCTGCTATGAATCTCCTG TATAGAAGTTCAAAGAATGTGAAAACTCTTGAGAGAGATCGAGAGAGATTGAAGAAGAAGAAACTTTGATATATTGAGAT TTCAACTGAATGAAGATACAACACTTTAGCTATTTATAGCTAGATTAGACACTAGCTAATTATCTAACAACCTAACAAAC TCATGCCAGCTTACAATAAACTTCTATAGTATTACAATATAGTCCTTGTACTACTACTTATTACTAATAGTGATCCTGTG AACTTTTACAGAAGTTGTGTTAAAAATGATGATTGAGCTAGCTTAGATTATGTACATTAGTTAACTACTTTATTTAAAAT CCTGCTCTAGATTTTGTGGGAATTAAGGCCTCCTTTGGTGTTTTAATTATGTGGGAATTAATTAGTACTTAAACGGCTTT GTTGGTTGAATTTTTAATTTTATTTGGTTTTAACTTCTGATCAGTTGATTAAATTGTATGACATCCACTATACAGGCATC AGATGTAGTACCTGTCTTCAATGGAACTGAAAGTACCCTCCATAAACAAAATTCGAAGGTTGGGAATGAAGTTAGATGAA GTATTAGAATTGAATGCAACCGGTATTAATATCTCTAAGAAGTAACCATTTGTTCTTTTAACCTATAAACAGGAATCATT TCAGCATCAAGATACAGATATACAAATAAAACTTAAGTCCAATAGCCTCACATCTGAGCTCCCAAGGGACAGTCTCACTG TTTCTGAGCAGAATAAGGATGCTAATACTGGTGCACTCTCTACGTTAGAGGTTAGAAATTTTAAACTACTTTCTATGTTA TTTCCATGTTTGGCCTCCTAGTGAGCAGTATCAATCTAATTTTTGCTAATTTGTTGATAGGGAAATGGAGCAACAGTTCA GGTGCTAAAAAAGCCTGCTGGTGCTTTTGGGGCACTGCTGGGAAATTCAGCTTCAAAGAGGAAGCATGATCCTGATAAGG TGTGCTTTCCTCATAAACATTTGCTGTATGTAAATTTGTCCTAACCCTATTTCTGTCTCTAATTTTTATAGTTCTTTTCT GGGATTTCTTCTTAGGGCATGGAAGAGATCAAACTAGAGCAGATTAGATCTTCAGTCAGTCTTCCCTTCCATTCATTTTT GGGTAGCAGTGAGAAGTCAAAACCTATAGTAGAAGCTCCTAGTTTAGCATCAGAAATGTCAGACCTACACAAACCTGCCT CTGATCCAGTTTCCACCTCCACTCTAGATGAGATCATATTGCTAGACTCTGATATAGCTGCGGAGGATTTGGAGCAGAGT AACCTAGAAGACCCAATTGAGAACAGGGAGAACCGATCTACTGTGTCAACTTCCGGAACAGAGGATGAAGATGTGCCAAT GTCTCTCTCCGAATTGTCATCAAACTTTCAGAAGTGCTTTCAGTCAAACAATCATAATACTAAAACCAGACAGCCCCAGA AAACTGATCCAAGTGGCTTATTTCAGTTAAAGCCATTTGATTATAAAGCAGCAATGAAGTTTGGGGAAAATACAGCACGT GCATCTTCCCGGAGTGGTGATGGTCATATAGAGATAGAGGAGGACTCAGGTGGCAAGAAGAAGCGTTCAAACAGAGGACA GGGACAATCAACGGATGATCTGAATAAACCACTGCCGCAAGGTAGAAGACGTCAGGCGTTTCCTGCTTCTGGGAACCGTA GTGCAACGTTCCGCTGATACAATGAAAATAAGTGCTATTTAAAATGATAACATACAGTTGCTAAATAAAGAATACAAGGG GAGCTTAAAATTCTAAAAGCCATTAATTTACATCGTAGGGTAGTATGAAAAATCTAAAAGTTCTACAAGCCAGTTTCATC TATATTTGAATTTGTAATTTAATTTATACATTAGGTGATTTTACCATATGGTCCATTTATGTTTTTATTATCTTACATTA TTATTAGAGGCTAATTTTTTTTAATGACGTAAAATATGAACGAATAAGTCTTGCCACAGTGAATTGAAACTAAGTTTAAA TATCAGGATAGACATTTGTTTTTATTTTTATTTTTATAAGCAATGAAATTTATATATTGAAATGAACTATAAGGGGTACT TCAACCCAATACAAGTAGAGATAGAAGAGAAATAATGGCAATCCACCCCTGACCCCCTCCTTTGTTAGGGACCGTTTTCA ACCGGATGAATTATTGAACCGGTTGATGCATCGATTCACATTTCAAGGTTTGTCAGACTGTGGTCAAATTTGTATTAAGT TGTTGCGTTCTAAGGTAAGCTTAAGTGAGAAAAGGTACAAAAAGCAAACCCTAGCAGAGCACTAAAATAGTCAAGATGTA ATCAAAGGGTATATATTCTCATTAAGTGTCAAAAAGTTTTTGGTACAAGGTGATGATGACCTTCCCTTTTATAGAGGGTA TGGTCATGATATTGACTTTTCCTACATTTGGGCCTGAC

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0108600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGACGTGGATCATGATCCACCGCACACCGCGGCTGAGGCCCAGACCCTACAGTCGCTTACGGCGGGCCCTCTCTCCTC ATCAGTGGCCAAGCTCGCCGCTTCCTCGCGGTGCATCCCTTCTGAGAGGGACTTCTATTTCTACCGCAACTTCGACGACT TCAAGGTCCCGCTCAAAGAAATCGCGCGTGAATCGCACTCGATGCTCGAGGCCATTGGCGCCGCGGCTCAGGTGGCGTTC CCCGCTGACGACGACGCTGCTTACGACTGGCTGGTCAGCGTGAACGACGACGTTCTGGAGCGGTTTGACGTCTCCACCGA TGAGTTTCGGAGGGTTCGGAAAGAGGAGGAAGCGGCAGCGAGGTCGGGTTCGGTGGTGGAGGACGGGTTTGAATTGGTTT CCAGAAGGAAGAAGAAAGAGGAAAAGGTGAAAGCGGATTCGGAGATGAGTCCCGCAGTGGCGGACAGCGTTAAGGTGGCG GTGAAAGATAAGAAGACTACTGGGCCGAAGCCTAAGGTGCCTTTTCATATACCGACCATTAGGAGGCCACAGGATGAGTA TAACATTCTGGTTAATAATACCAACATGCCTTTTGAACATGTTTGGTTGCAGAGGAGTGAGGATGGTGACAGGTTTATTC ATCCACTGGAAAAGATCTTTGTATTGGATTTTGTTGATAAAGATCCTGGGGATGTTCTGCCAAAGAAGCCTCCCCCAATA GAAAGCACTCCTTTCAAGCTTGTGGAGGAAGTCAAAGATTTGAAAGACCTGGCTGCTAAGCTGCGTTCTGTTGATGAATT TGCGGTAGATTTGGAGCATAATCAGTACCGTTCATTCCAAGGTTTGACGTGCCTGATGCAAATCTCAACAAGGACTGAAG ATTTTGTTGTTGACACGTTGAAGCTTCGCATTCATATTGGGCCCTATCTTAGGGAGGTCTTCAAAGACCCCACCAAGAGG AAGGTCATGCATGGTGCGGATAGAGATATTTTGTGGCTTCAACGGGACTTTGGCATATACATTTGTAATTTGTTTGACAC TGGCCAGGCTTCAAAGGTGTTAAAATTGGATAGAAATAGTTTGGAATATCTTCTGCATCATTTTGTGGAGGTTACTGCAA ACAAAGAATATCAGAATGCTGATTGGAGACTTCGACCTCTTCCTGATGAGATGATAAGATATGCCAGAGAAGATACTCAC TATCTGCTGTATATATATGATTCAATGAGGATCAAGTTATTTTCCTTGCCAAAGGAGTTTGACAGTTCTGATCCTCCTCT GGTGGAGGTTTACAAGCGCAGTTATGATGTCTGCATGCAGCTATATGAGAAGGAACTTTTGACCGAGAACTCTTACCTTC ATATATATGGGTTGCAAGGGGCTGGTTTTAATGCTCAACAGCTTGCCATTGTTTCAGGGCTGTGTGAATGGCGGGACATT GTTGCTCGTGCAGAAGATGAGAGTACTGGATATGTACTGCCAAACAAATCCGTTCTTGAAATTGCTAAACAGATGCCTAT CATTCCAAGCAAGCTACGACGATTGGTGAAATCAAAACACCCATATGTGGAACACAATCTTGATACTGTCGTCAACATCA TTAGGCATTCTATTCAGAAAGCTGCTGCTTTTGAAGTAGCTGCTCAAGAATTGAAAGGAGTGCATGCTGCCACTGCATCA GATGTAGTACCTGTCTTCAATGGAACTGAAAGTACCCTCCATAAACAAAATTCGAAGGAATCATTTCAGCATCAAGATAC AGATATACAAATAAAACTTAAGTCCAATAGCCTCACATCTGAGCTCCCAAGGGACAGTCTCACTGTTTCTGAGCAGAATA AGGATGCTAATACTGGTGCACTCTCTACGTTAGAGGGAAATGGAGCAACAGTTCAGGTGCTAAAAAAGCCTGCTGGTGCT TTTGGGGCACTGCTGGGAAATTCAGCTTCAAAGAGGAAGCATGATCCTGATAAGGGCATGGAAGAGATCAAACTAGAGCA GATTAGATCTTCAGTCAGTCTTCCCTTCCATTCATTTTTGGGTAGCAGTGAGAAGTCAAAACCTATAGTAGAAGCTCCTA GTTTAGCATCAGAAATGTCAGACCTACACAAACCTGCCTCTGATCCAGTTTCCACCTCCACTCTAGATGAGATCATATTG CTAGACTCTGATATAGCTGCGGAGGATTTGGAGCAGAGTAACCTAGAAGACCCAATTGAGAACAGGGAGAACCGATCTAC TGTGTCAACTTCCGGAACAGAGGATGAAGATGTGCCAATGTCTCTCTCCGAATTGTCATCAAACTTTCAGAAGTGCTTTC AGTCAAACAATCATAATACTAAAACCAGACAGCCCCAGAAAACTGATCCAAGTGGCTTATTTCAGTTAAAGCCATTTGAT TATAAAGCAGCAATGAAGTTTGGGGAAAATACAGCACGTGCATCTTCCCGGAGTGGTGATGGTCATATAGAGATAGAGGA GGACTCAGGTGGCAAGAAGAAGCGTTCAAACAGAGGACAGGGACAATCAACGGATGATCTGAATAAACCACTGCCGCAAG GTAGAAGACGTCAGGCGTTTCCTGCTTCTGGGAACCGTAGTGCAACGTTCCGCTGA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0108600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MDVDHDPPHTAAEAQTLQSLTAGPLSSSVAKLAASSRCIPSERDFYFYRNFDDFKVPLKEIARESHSMLEAIGAAAQVAF PADDDAAYDWLVSVNDDVLERFDVSTDEFRRVRKEEEAAARSGSVVEDGFELVSRRKKKEEKVKADSEMSPAVADSVKVA VKDKKTTGPKPKVPFHIPTIRRPQDEYNILVNNTNMPFEHVWLQRSEDGDRFIHPLEKIFVLDFVDKDPGDVLPKKPPPI ESTPFKLVEEVKDLKDLAAKLRSVDEFAVDLEHNQYRSFQGLTCLMQISTRTEDFVVDTLKLRIHIGPYLREVFKDPTKR KVMHGADRDILWLQRDFGIYICNLFDTGQASKVLKLDRNSLEYLLHHFVEVTANKEYQNADWRLRPLPDEMIRYAREDTH YLLYIYDSMRIKLFSLPKEFDSSDPPLVEVYKRSYDVCMQLYEKELLTENSYLHIYGLQGAGFNAQQLAIVSGLCEWRDI VARAEDESTGYVLPNKSVLEIAKQMPIIPSKLRRLVKSKHPYVEHNLDTVVNIIRHSIQKAAAFEVAAQELKGVHAATAS DVVPVFNGTESTLHKQNSKESFQHQDTDIQIKLKSNSLTSELPRDSLTVSEQNKDANTGALSTLEGNGATVQVLKKPAGA FGALLGNSASKRKHDPDKGMEEIKLEQIRSSVSLPFHSFLGSSEKSKPIVEAPSLASEMSDLHKPASDPVSTSTLDEIIL LDSDIAAEDLEQSNLEDPIENRENRSTVSTSGTEDEDVPMSLSELSSNFQKCFQSNNHNTKTRQPQKTDPSGLFQLKPFD YKAAMKFGENTARASSRSGDGHIEIEEDSGGKKKRSNRGQGQSTDDLNKPLPQGRRRQAFPASGNRSATFR

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
Pfam	PF08066 View details on PF08066 Search for proteins/transripts with this domain View external data on PF08066	34	110	77	1.1E-5	IPR012588 Show description in modal box View details on IPR012588 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR12124 View details on PTHR12124 Search for proteins/transripts with this domain View external data on PTHR12124	107	862	756	3.2E-302	–
PANTHER	PTHR12124:SF65 View details on PTHR12124:SF65 Search for proteins/transripts with this domain View external data on PTHR12124:SF65	107	862	756	3.2E-302	–
Gene3D	G3DSA:3.30.420.500 View details on G3DSA:3.30.420.500 Search for proteins/transripts with this domain View external data on G3DSA:3.30.420.500	161	449	289	1.5E-98	–
SUPERFAMILY	SSF53098 View details on SSF53098 Search for proteins/transripts with this domain View external data on SSF53098	180	418	239	2.09E-65	IPR012337 Show description in modal box View details on IPR012337 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd06147 View details on cd06147 Search for proteins/transripts with this domain View external data on cd06147	241	433	193	7.17991E-105	–
SMART	SM00474 View details on SM00474 Search for proteins/transripts with this domain View external data on SM00474	245	414	170	1.4E-46	IPR002562 Show description in modal box View details on IPR002562 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01612 View details on PF01612 Search for proteins/transripts with this domain View external data on PF01612	248	412	165	3.6E-42	IPR002562 Show description in modal box View details on IPR002562 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF47819 View details on SSF47819 Search for proteins/transripts with this domain View external data on SSF47819	446	539	94	5.23E-19	IPR010997 Show description in modal box View details on IPR010997 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.150.80 View details on G3DSA:1.10.150.80 Search for proteins/transripts with this domain View external data on G3DSA:1.10.150.80	450	545	96	7.9E-26	–
ProSiteProfiles	PS50967 View details on PS50967 Search for proteins/transripts with this domain View external data on PS50967	464	544	81	15.723	IPR002121 Show description in modal box View details on IPR002121 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00570 View details on PF00570 Search for proteins/transripts with this domain View external data on PF00570	467	534	68	1.4E-9	IPR002121 Show description in modal box View details on IPR002121 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	731	761	31	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	744	761	18	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	775	794	20	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	775	791	17	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	810	871	62	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	819	840	22	-	–

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:0000176 View details of GO:0000176 AmiGO InterPro QuickGO	Cellular component	Nuclear exosome (RNase complex)	A ribonuclease complex that has 3-prime to 5-prime processive and distributive hydrolytic exoribonuclease activity and endoribonuclease activity, producing 5-prime-phosphomonoesters. Participates in a multitude of cellular RNA processing and degradation events preventing nuclear export and/or translation of aberrant RNAs. Restricted to processing linear and circular single-stranded RNAs (ssRNA) only. RNAs with complex secondary structures may have to be unwound or pre-processed by co-factors prior to entering the complex, esp if the 3-prime end is structured.	Subterm of View details of GO:0000178 View details of GO:0044428 Part of View details of GO:0031981
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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	Molecular function	Catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.	Subterm of View details of GO:0003674
GO:0006139 View details of GO:0006139 AmiGO InterPro QuickGO	Biological process	Nucleobase-containing compound metabolic process	Any cellular metabolic process involving nucleobases, nucleosides, nucleotides and nucleic acids.	Subterm of View details of GO:0006725 View details of GO:0034641 View details of GO:0044238 View details of GO:0046483 View details of GO:1901360
GO:0006396 View details of GO:0006396 AmiGO InterPro QuickGO	Biological process	RNA processing	Any process involved in the conversion of one or more primary RNA transcripts into one or more mature RNA molecules.	Subterm of View details of GO:0016070 Part of View details of GO:0010467
GO:0008408 View details of GO:0008408 AmiGO InterPro QuickGO	Molecular function	3'-5' exonuclease activity	Catalysis of the hydrolysis of ester linkages within nucleic acids by removing nucleotide residues from the 3' end.	Subterm of View details of GO:0004527
GO:0044237 View details of GO:0044237 AmiGO InterPro QuickGO	Biological process	Cellular metabolic process	The chemical reactions and pathways by which individual cells transform chemical substances.	Subterm of View details of GO:0008152 View details of GO:0009987

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0108600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0108600.1