Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0090600
Transcript ID	LotjaGi3g1v0090600.1
Lotus japonicus genome version	Gifu v1.2
Description	Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G36930.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp\|Q40392\|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr\|G7LF48\|G7LF48_MEDTR Disease resistance protein (TIR-NBS-LRR class); Found in the gene: LotjaGi3g1v0090600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:10266696..10278911) extracted from Lotus japonicus Gifu genome v1.2.

TTTGCGTTATTGCCTTGTCTCTTGCAGCATCAAGCATTGACTTCAGTTTAGTCCTTCCTTTCATCGAAACCGAATCAATG GCGTCTTCTTCATCCTCCTCCAATCCCCAATGGGCCTACGACGTGTTCCTCAACTTCAGAGGCTCCGACACTCGCACCAG CTTCGTCTCTCATCTCTACGCCGCACTCTCAAACGCCGGCATCAACACTTTCCTCGACCAAGAGCTTGCCAAGGGAACGG AGCTGCAACCTGAAATCCTGCGAGCAATCGAAACCTCTCACATGTCAGTGGTTGTTTTCTCCAAAAGCTACACTGAATCA TGCTGGTGCCTTAACGAGCTCGAAACCATCATGGAATGTCACAGGGTTCATGGGCAGGTGGTTGTTCCTGTGTTTTACGA CGTTGAACCCTCGGTTGTGCGTCATCAGAAGGGTGCTTTTGGAGAAGCTTTGGAAACACTCGTGCGGAAAAGGTGTTCAG GGTCAGGGTTGAAATATGTGCGGTCTTCTTGGAAGACTGCACTCACTGAAGCTGCAAATTTAACTGGCTGGGATGTCACC AAGTACAGGTAATATAAAATTTGAAACATGTTCTGTTTTCTTGGATCACTTTAGGCTTTATATGTGAGTTCTTAGGAGAG TGGAGGGGAAGAAGAGAAGGTAAACTCTCTTTGAGTCAATGAATAAATTATCCCAAAAAGTTAAGCTTAAGCTATTGGGT AACGGTTACCTGAATGATTTACACTACTTCATCCGTCCCCTATTATAAGACCCTTTATTGTCAGACAGTAATGAGTCTTA TAATAAGGGACGGAGGGAGTATTATTTTTAACACCGTCCTCACACAAGAGCTCATTTGAGCTTACCCGTTTGGACTTGAA GCGCAGATAATGCACATGTCCACTGCCACAAAAGCCCACAAAACCCCCTAATTTGAAGGAATTCATAACACATCTAGAGT TTCTCTGCTAGCCAGTGCAAGCTCAAATATACAAAAATTAATCATTTACTAAAAGAACACTTGGATATTAAGTGATGAAA GAAGGGAAACACCCATGTTAAAGGGGACAAAATGGTGGTCTATTTATAAACAAGTGAAAGAATGTGGTGTTTTGATTAGG TGATAAAATGTTATCTGATTCAAAGAGAAGCTGAAATCATCATTGTTGTGTTTGTACTAGAACAATTGTTAGGACAACCT TAGGGTGGTTTCAAAGACATTCAATTTGGTTTGATCTCCTTATTCTACAAGTCAAAGTCCTTTTCTGAACTCTGTTGTTC CCATCATTATGGGTTCAAATCCCATTCATTGTTCATTTGTTTGTTTGACACACTGTTCCGCATGCAAGATTAAATCTATA TGGAACTGGAGTGAAGATTAAGCAGATTGTTGGTCTGATGTAACTCTCTTAACTAATATTACTCGAGTTCTTGTTGCTAA AGTAAGAGTTTTGATTTTATCTGTTGCATTAGAGTACAGGCCAGATATTGGTTTCATTTTTTTTATACCGTAAAACAGAT AGTTTGCATGAAATAGCTGAAAGGAAGGTTTTAGAAATTTCTCAAACCCTTCCTATCTTTTAAATACCTTCCACTCCCCT TTTATCCCCTCCAAATCTCAACTCACAAAAAGACCCTTAGTGTTTGAAATAGAAGTTTATTTGAGCTTATTTTGTGCGAA CTTATTATCTTCAATAATCTTTGCGGATTCTGTGTGTTGAATAATTGTTACATAATGAAGGAATGAAGGTGAACTAGTAA AGAGAATTGTTGAGGACGTTTGGACAAAACTAGACTACACATTCTTGTCTATTACTGAATTCCCAGTTGGATTGGAATCC CGTGTGCAAGAAGTTACTAGGCTGGTTGAGAACCAAACAAGCATAGTTCGTATGGTAGGGATCTGGGGGATGGGAGGGTC AGGTAAGACAACCACAGCCAAATCCATCTTCAATCAAATCCATCGCAACTTCATGTGTAGAAGTTTCATTGAAAACATTA GAGAAGTTTGTGAAAGTGACAGTACCAGAGGACTTATTCATTTACAAGAACAACTTCTCTCTGATGTCCTGAAAACAAAG GAGAAGATGCATAGCATTTCCATGGGGACAGCTATTATCGAGAAAAGACTCAAGTCGAAAAGGGCTCTAATCATACTAGA TGATGTTACCACATCTAAGCAGTTGAAAGCCTTGTGTGGAAATCGAGAATGGTTTGGATCGGGAAGTGTAATAGTTGTTA CAACTAGAGATGTACGGTTACTTAATTCGCTTAAAGCTGATTATGTGTATAGAATGAAGGAAATGGATGAAGATGAGTCC CTTGAGCTTTTCAGTTGGCATGCTTTTGGAGAAGCAAGTCCAAGAGAAGACTTGATTGAACTCTCAAGAAACGTGGTTGC TTACTGTGGAGGGTTACCACTCGCTCTTGAAGTCCTTGGATCTTACTTGAATGAAAGGACAGAACAAGAATGGAGAAGTG TGCTATCAAAACTGGAGAGAATTCCCAATGATCAAGTGCAGGAGAAACTCAGAATAAGCTATGATGGTTTAAAGGATCAT TTGGAAAAGGAAATTTTTCTTGATATATGTTGTTTCTTTATAGGTAAGGACAGAGCCTATGTGACAGAGATACTAAATGC ATGTGAACTTTATGCTGATATTGGAATAACGGTTCTCACTGAGAGGAGCCTAGTTAAAGTTGACAAGAAAAACAAGCTTC GAATGCATAACTTGCTGCGAGACATGGGAAGAGAAATTGTCCGTGAAAGTTCAGAAAAAGAGCCTGGGAAACGTAGTCGA TTGTGGTTTCATGAGGAGGTGCATGATGTTTTGACAAAAAATACTGTAAGAACTTTCTCTACATATATTTGAAACCTTTG ATTGACCTCTGTAATCTTATCATCATCATGTGACGCTGTTTCTGAATTGTTTTGCTCTTATAACTATTGACTAAAAATTG TTGGGAACATGAGAGTATGTTTGCCTGGTCATATGTTCAGATCAAGATCATATATCCCTAATTGGTATTCCAATTATATA TTCCCCTAGTGAAAATTTTTCCATGTCAATTGAAAAAGTGAGGGACAGTTACCAATTTACACGACGGTTTATATTTGACA TATCAAAATTTTATTGGTTGAATAGAGAACGAGACACAGTTTGGGGACAAAAGATTTTTATCTGTCATGTTTACTAGAAG CAGCGCCGCGCTACTTACGCCTCTTTAGCTTTATGTATAACTTTCTAACAAGGAGAGGTAGAAGGTTTCCCTTACTTTTC TGTCTGTTTTGCTTCACATTCAGGGAACAGAAAAGGTTGAGGGATTGGTTTTGAAGTTGCAAACAACAGAAAGAGTTTGC TTCAGTACTGATGCTTTCAAGGAGATGAAGAAACTGAGACTTTTACAACTTGATCATGTTGACCTCTCAGGAGATCATGC ATATCTTTCAAAAGAATTAAAATGGGTCTATTGGCAAGGATTTACCTTAAACTCTATACCTGATGACCTTTATCAAGGAA ATCTCGTTGTTATTGACTTAAAATACAGCAATATAAAACAAGTTTGGAAGGAAACCAAGGTATAGTATTAACATTTTATT TTAAAAGTCAATTTTATTGACATTGGCACTTGTAGCCAACTTTTTTACCCATTTTCTTCCCTAAGTTTTATTTTAAACAT TACTTGCAGTTGCTGGAGAAGCTGAAAATTCTCAATCTCAGTCATACTTGAAAAAAACCCCTGACTTTTCAAGGCTCCCG AATCTAGAAAAGCTCATTCTGAAGGATTGTCCAAGTTTGAGAGAGGTACACGAGTCCATTGGAGATCTCAGTAATCTTCT TCTAATAAACTTGAAGGACTGTGCAAGCCTTAGAAATCTCCCAAAGAAGATTTATCAGTTGAAATCTTTGAAAACTCTCA TCCTTTCGGGTTGTTCAAAGATTGACAAACTGGAAGAAGATATAGTGCAAATGGAATCCTTGACAACATTGATAGCAAAA GACACAGCAATAGAAGAGATTCCCTATTCAATAGTAAGATCAAAAAGCATTGGATACATATCCCTGTGTGGATATGAAGG ATTAGCACGTGATGTTTTTCCCTCCCTCATTTGGTCTTGGATGTCACCGACAACAAATGGCGTGCGTACTCCAACATTTG GGGGCTTGTCATTGTCTCTAGTTTCCATGGATGTACAGAATAATATTTTGAGCTACCTATCTCCTTTTATTAGCAGCCTT TCGGAACTTAGAAGTGTTTGTTTACAATATGACTCGGGGATTCAACTAACTCAAGAATTAAGAAGATTTCTTGATGATCA ACGTGATGTAAATGTCATTGAATTGGAAAGTACATCAATTGCATCAGCCTTAGATCTTTCCTTGAGATCGCTTTTCATTG TAATGGGAAGTTGTAACATGGTCATAGATACTCTTTGCAAGAGCATATCGCAGGTTCCTTCTCTATCCTTCACATTTATT AATGCCATATTTTCATGAATCAAAAACATACAAGTTTTACACAATTGACTAAGCTTTTTGGTTTATGTCACAGGTATTGA CAACCAATGGGTTAGATGATTTTCCTCTGCTGGGCGACTCTTATCCACATTGGTTGACTTATACAGGTGAAGGAAATTCA GTGCTTTTCACAGTTCCTCAAGATATTCATTGTCACATGAAGGGAATGACTTTGTGTGTTGTTTATTCATCAACTCCTGG AAACACGGTAGTTGAATGTATTATTAGTGTCTTGATTGTCAATTACACAAAGTGTAGCATCCAAATATACAAACGAAACA CAACAGTGTCCTTTAATGATGAAGATTGGCAGGGAATACTATCTCATCTAGGATCGGGTGATAAAGTGGAGATTTTTGTT ACTTCTGGTCATGAATGGGCTGCTAAGAAGATAGTTGTTTATCTGATATATGATGAATCAATTGACATGGAAATGGCTTC CCATATATGGCCCTACTCAACTCAATTAAAATTGCCTTCTTTGGAGAATGCATATGGTCTTGGATCAAAAAATTGCATGG AAAAGGTTCCTTCTCTGCAGCAAAGGAAAGAGCCTAAGAAAAGTTTGTTTGTAAGATTCATAAAGAAAATTGTAATGTGT AACTGTCATAAACCAATTATTTCAGAAGTTTAGTTCTTAAGTGAATATACATAAATGATTTTATATTATATTTGTTCTAT AAGTAAGAGCCTTATGAAGAATCATTATAATGAACTGTCTATATAATTTAAATTATTAGGTATGTTGCGTCAACATGCAA GTTCCATGTTGTTTAAGTTAGTGAAGGATGAGGAGTCCAAAACCATATATAGACTCAAGCTTACCCTACAAGAAAGACTT GATTTAAAATCCAAAGTTAGCGTTTGGAAGTGTGTTCATACCTTGGTGGGGGGTTTTGGTTGACAAGGCTAAGGTGGGCA GCGGTGGGGTTGGCGTTCAGCAATGGAGGTCGAGGCTTGGGGTTTTAGTGATGGAGGTGGCATTCACGGTTTGGGTTGGT TGGTTTGAGGGGGGTTTGACACTTCTGTATTTAGGAAGGAGAGCATTAACCTCCCCGGCCACAACGGCTTTCGAGACTCT TTGGAATTTCTCATTTATTTCAAGGTACGAACTCCTCTGGCACACTAAACTAAAGGCTCACGCCTCCGGTCAAGCCAATT TCAACCTCGAGGATAAGAGCCAGATCCTTCACCCCTCTCTGCCACCTACTCGGCGTCTATGAGACCATTTCTTCCTTACT TGTACTGTGAGTAATACTAATCTCCCCAATTTCTCCTTATTTTCTTTGGGTGCATTTCTATTATTAGTTGAATGATTTTG ATTGTTGTTCCTGTAGCTGCTCACTTTTTGTTGTTTTGATCCGTAGAAATTAAGAATAGTAATGATTTATTCATACTTCA TTGCCTTCGCGCTTTGTTTGTCCTTTATATCTCGGCCCAAGAAAGCACTGACAACAACAAAAAGGAAGGGGTCCATGTAG CTGCTGCGTCTGCCCCGTTCTTAGAGCATCTCCAATGGAGTCCTTATTTACCAAAGTGAAAAATAAGGAGAGAAATAAAT AATATAAATATATTGGGTACCGTGAGTCCAGTCAAAAGTAAAATAAGATCTCAACCACTAGAGTGAAATGTGCATAGAGA ACTCATGAGTGTCTTAAATTCTATTTGACAATCTGAGCCCACAAAAAGTGAGTTAAATCCCAAAATAAGATCACTAGAAC TGACTATTTTGAATATATAATCCAAGTGTAGAGTGGTCTCTCCCATCTCTTCTCTGTATATTTTTCTTTCTATACATTTC AATCATTGTTTAGTAATTATACTACGCCCTTTAATAAAATATACTCCAACATTTATCTGAATAAAAAAAGTCCATTGGTT GCCTAAGAATGTGATCGACAACTTGCAAGACGCTGAGGCGGCTGAGCTGGGCGAGCACGAAAGATAAAGAGTGGTATTAT TGACCCATTGCATCATCACTCTGTAGTTTGCTTTCTATATTCATGGAATCCATGGGTTGTCTCTACGACGTGTTCATCAA TTTTAGGGGTGAGGACTCACGAACGAGCTTGGTTTCTCACCTCTATGCTGCCCTCTCCAATGAGGGAGTCTCCACTTTCA CCGACAAGAAGTTAACCAAGGGAATGGAGCTGGAACCAGAACTATTAAGAGCAATTTCTCAGTCTCGGATATCTATCGTT GTTTTCTCCGAAAACTACACTGAATCCAGTTGGTGTCTCATCGAACTTTGCGAAATCATGGAATGCCGCAGAAAGAGTCA CCAGGTGGTTCTGCCCATATTCTATGGCGTTGACCCTTCAGTTGTGCGTCATCAGAAGGGTGATTTCGGAAAAGCATTGG AAGAAAGTGCTGCAAAAATACGCTTCACCGTGAAACCATTGTTGCGAAGTTGGAGGACTGCGCTAACTGAGGCTGCAAAT TTGTCTGGTTGGGATGCCAGCAATTTCAGGTAAATCATATATGTAACTTTCTAATTTCTTGCTTCTGGTGGATGAAATGA AACCTTGTTAGATTGATAATTCTGTTAGTCGTTGAGTATAGGCCTCCCAATTTATAATATGGTATCAGAGCTTATCCTAG ATCCATTTGTTGTTTGTTGTGGAGACCTTCCATATTTGGGTCACCCGTTGTTGTTGATTCTAGAGTCCTAGACGTTTGGG GTGTTAGAGAAGTCCCACATTGACTAGAGATAGAGCATAGATAACCTTTATAAGGGTAGTGCAAGCCTCAACTCTGGAGC TAGCTTTTGTGGTTGAGTATAGGCCTCCCAATTTCTAATAAATTCGAACTGCAAATTTTTATTTTAACTTCTTTTTTTTA TTGAAGGAGTGAATCTGAACTAGTGAAGAAAATAGTAGAGCAGGTTGTGAAAAAACTAGACATCACACTCTTGTCTATTA CCGATTATCCAGTTGGATTAGAGTCCCACGTGCAACAAGTAGTTAAGTATATTGAAAGTCAATCAAGCGAAGCGGTTGAG TTTATTGAAAGTCAATCAAGCAAAGTTTGTATGGTAGGGATCTGGGGAATGGGAGGGTTGGGTAAAACAACCACAGCTAA AGCCATCTACAATCAGATTTATCGCGTATTTGAGGATAGAAGTTTCATTGAAAATATTAGAGAAGTTTGTGAAATGGATA GCAGAGGGCATATGCATTTGCAAGAACAACTTCTTTCTGATGTGGTCAAGGCAAAGGTGAAGAAGATACATAGCATTGCC ATGGGGACAACTATGATTAAGAAAAGACTTTCTGGAAGAAGGGCACTGGTTATACTTGATGATGTGACCACATCTGAGCA ATTAGAAGCCCTGTGTGGAAATCGCAAATGGTTTGGACAAGGAAGTGTTATAATTGTTACAACTAGAGATGTAAGGCTAC TTGATTTACTTAAAGTCGACTATCTTTATAAAATGGAGGAAATGGACAAAAAGGAGTCCCTTGAGCTTTTAGTTGGCATG CTTTTGGAAAAGCAAGTCCGGGAGAAGACTGGATCGATCTCTCAAGAAGCATGGTTGCTTACTGTGGAGGGTTACCACTA GCTCTTGAGGTCCTTGGATCTTACTTGAATAAAAGAACAGAAAAAGAATGGGGAAGTGTATTGTCAAAATTGAAAATAAT TCCCAATGATCAAGTGCAACAGAAACTCAGAATAAGCTACAATGGTTTATAAAGGATGATATGGAAAGGGATATATTTCT TGACATATGTTGTTTCTTCATTGGTAAGAACAGAGCCGATGTTACTGATATACTAAATGGCTGTGGACTTTATGCTGATA TTGGAATAACTGTTCTCATAGAGCGGAGCCTAGTAAGAGTTGACAAGAATAACAAACTTCGAATGCATGATTTGGTACGA GACATGGGTAGAGAAATTGTTCGCGAAAGTTCAGCAAAAGAGCCTGGGAAGCGTAGTCGATTGTGGTTTCATGAGGATGT CCATGATGTTTTGACCAAAAATACTGTAAGAACATTCTCTACATACAGTTTGAAACCTTTTATCATCCTTCAAAATCTTT TCAGGATCATAGAACTTTTTGATTGTTATTGAATTGCTTTTCTTGTCACATTTGCCATGTCATGTTCCTTACAACTGTTG TTTGGCTACGCTGCTGCAGCATTATGTTTCTCCTTATTTATCTACACGTACATGCAGGCAACAAAAACTGTTGAGGGACT GGTTTTGAAGATGCAAAAAACCAACAGAGTTTGCCTCAGTGCTAATGCCTTCAAGGAAATGAGAAAACTGAGACTTTTAC AACTTGATTGTGTTGACCTCTCTGGAAACTTTGGTCATCTTTCCCAAGAACTGAGATGGATCTATTGGAAAGGATTTACT TTGAAATATATACCCAATGACTTATATCAGAGAAATCTAGTTGCTATGGACTTGAAGTACAGCAGTATTAAACAAGTTTG GAAGGAATCCAAGGTATAATACTAACATTTTATTGAAAAAACTTGATGACAAAAACTATTATTACCAGCATTTTCCCATT TTCTCCTCTAATTTTCTTTGAACAATTATCTTCTTGCAGTTGCTGGAGAAGCTAAAAATTCTCAATCTCAGTCATTCCAG GTACTTGGAAAACACCCCTGATTTTTCCAAACTACCGAATCTAGAAAAGCTCATTCTAAAGGATTGTCCATGTTTGTCCG AGCTCCACCATTCAGTTGGAGATCTCAGTAATATTCTTCTTATAAATTTGAAGGACTGTACACGCCTTAGCGCTCTCCCA AGGAAGATCTATCAGTTAAAATCTGTGAAAACACTCATCGTTTCGGGTTGTTCAAAACTTGACAAGTTGGAAGAAGATAT AGTGCAGATGGAATCCTTGACAACACTTATTGCAAAAGATACAGCTATAAAAGAAGTGCCCTATTCAATAGTAAACTTGA AAAGCATAGGATATATATCCCTATGTGGATATGAAGGATTAACACGTGATGTTTTTCCTTCTCTTATTCGGTCTTGGATG TCACCAACAATGAATCCCCTATCTCGTATTCCACTACTTGGGAGCATGTCATTGTCTCTAGTTTCTATTGATATACAGAA TAACAGTTCAGACAATTTATCATCATGGCTAAGCAGCGTATCAAAACTTCGAAGTGTTTTGATACAATGTCACTCAGAGA TTCAACTAATTCAAGAGTCAAGAAGAATTCTTGATGATCAATATGATGTAAATTCTACTGAATTGGCATCATCATCATCA TATGCATCACAAATCTCAGATTTTTCCTTGAGATCACTTTTGATTAGATTGGGAAGTTGCCACACAGTCATTGATACTCT TGCCAACAACATATCACAGGTGACTTCTCTATCTTCTCACATTTACCGATCTTTATTATTTATTTTCTAGATGCTATCTG CGCTTTGCACAAGCCTATATTAGTTTTTTATGGTAAAATAATGCATATTTTAAATTAAAATATAAGCTTTATTATAGTGC AATTTATGGCAGTTACTGAATATCACATAACAAGTATAAACACTATTCATGGGTAAATCATATTTTAACATGGTCCCTGA TTGTTCTTGTTCAAGAAATACACAATGCATTGGGTTTTGGGTGAAAGATGTGACGTCCTTCAATAATGTGGTTTACTCCT CATCCATTATGGTTATAAAAGATGGGGTTGTCTAGGATACACCACGTGTTCGGGTGGTGTGTCAGTACACGGTTTGTAAC TTGTAAACATACAATTTGTAATCACATGAAATAAGAATTGTGAGCAGAAAAAATTAAAAGCAAAATTATGAACAATATAT TAGCTAGCAAATAGCAATGAATTTGCTTCATTTGTAGCTAATTCACAACTATTTGGCAGTAATGTATCAGTGTACCACCC AAACAGGTGGTCTACCCTAGACAACCTATAAAAGATATATCATGCCTCCTCTGATGCTATAATAGTGAGAGACACCCTCA CATTATAACTGATATTACGGCCGGTAGTTGTGGCCCTGAGACGGACAATAAGATGATGACGGACACTTAAGGGGAGATTG TTGAGGCTTCAAGTGTGAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAAT AGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAGTAATAG TAATAGTAATAGTAATAATAGGTCCCACGTTGGATAAAAAAAAGTGTTGAATATTATGTAAGTGAAAAGGCTCGTACACC AATTCCTTAGAGTTTTCAGTGAAAGATGTCTCATTTTTCACTAATGTGGTTTACTTCTCATCTAAAGTGGTTATAAAAAG ATATATGTATGCCTTTCTCATGCTGTAACAGTGAGGGATAACCTCACACCATACCTTGTCTCTCGTGGGGCGAGGCTGTC CCCACCCCCAATTCCCGGGGTAAATTTTTACCCATCACGGTTCCCCATAGGTTCTTCCTTGTCTCTGTGTTTCTTAATGC TACATACTATGATTATATTTAACATTCACCTTTTGGAATTCAGAATGACACAATGAGTGGTACAAAAACTCCATTTGAAT GATTCAATAAATAACCGAGTATATATGTGCTTCATACAGGGATTGACATCCAATGATTCTAGTAATTTTTCCCTTCCGTG TGGTAATTATCCTTCTTGGTTAGCCTATAAAGGTGAAGGACCTTCAGTAAATTTTCAAGTGCCTGAGGTTTGTGATTGTT ACTTGAAAGGAATAGTTTTATGTGCTGTTTACTCATCAACACCTGAAAATATGGCAACTGAATGCTTTACTAGTGTCATG ATCAATAATTACACAAAATTGACCATTCAAATCTACAAGCAAGATACAGCCATGTCCTTTAATGATGAAGATTGGGAGAG TGTAATATCAAATCTAGATCCTGGTGACAATATGGAGATTGTTGTTGCTTATGGGCGTGGATTGACTGTGAAGGAGACAG CTGTCTATCTAATATATGGTCAGTCAATTACTGTAAAAATTGAGCCATCAATTACTATGCAAGTTGAATTTGATTCGTTA GTTAATGTGAGAATGGAGCCATCAACTGAAGTGAACTTGCTTCCATCACCTGATGTGAAAATAGAGCCATCACCTGAAGT GAACATGCAGTCATCACCTAGACTGAACATGCTGCCATCACCTAACAAGAAAATGGATCCATCAACTGAAGTGAACATGC AGCCATCACCTAATGTGAAATTGAAATCATCACCTAACATAAAAATTGAGCCATCACCAAAACCAAGTAAAAATTTCTTC ACAAGACTTGCAAAGAGAATGGGAGAATGTTCATGCTTGAACCAAACTTGAGCTTTCAACAGCAGTTTTTTATTGGGTAT GCCTTTGTCATTATATGGGATTTCCTTATCTAGAAGGGAGGACGGACAAAGCCATCTTCTGCATGCCAGGTTTATCTCTG CCTCCGAAGGTTCCTTTTACCAGGTTTGTCTCTATCATTGATGTTGATTTCTGTTCTAAGGATTCGTCCCTATTGTTGAT TCTATTCTTTGATTCTGACTTTTGATTGTTAATTTAAAATCCTTGTATCGTATGTTATATCTCATCAATGATTGATTATT TTGTTTATTTTATGTTATTCCTTCCTTATCGTCCTCAATTTTTCAAGCATTTTTGA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0090600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGTCTTCTTCATCCTCCTCCAATCCCCAATGGGCCTACGACGTGTTCCTCAACTTCAGAGGCTCCGACACTCGCAC CAGCTTCGTCTCTCATCTCTACGCCGCACTCTCAAACGCCGGCATCAACACTTTCCTCGACCAAGAGCTTGCCAAGGGAA CGGAGCTGCAACCTGAAATCCTGCGAGCAATCGAAACCTCTCACATGTCAGTGGTTGTTTTCTCCAAAAGCTACACTGAA TCATGCTGGTGCCTTAACGAGCTCGAAACCATCATGGAATGTCACAGGGTTCATGGGCAGGTGGTTGTTCCTGTGTTTTA CGACGTTGAACCCTCGGTTGTGCGTCATCAGAAGGGTGCTTTTGGAGAAGCTTTGGAAACACTCGTGCGGAAAAGGTGTT CAGGGTCAGGGTTGAAATATGTGCGGTCTTCTTGGAAGACTGCACTCACTGAAGCTGCAAATTTAACTGGCTGGGATGTC ACCAAGTACAGGAATGAAGGTGAACTAGTAAAGAGAATTGTTGAGGACGTTTGGACAAAACTAGACTACACATTCTTGTC TATTACTGAATTCCCAGTTGGATTGGAATCCCGTGTGCAAGAAGTTACTAGGCTGGTTGAGAACCAAACAAGCATAGTTC GTATGGTAGGGATCTGGGGGATGGGAGGGTCAGGTAAGACAACCACAGCCAAATCCATCTTCAATCAAATCCATCGCAAC TTCATGTGTAGAAGTTTCATTGAAAACATTAGAGAAGTTTGTGAAAGTGACAGTACCAGAGGACTTATTCATTTACAAGA ACAACTTCTCTCTGATGTCCTGAAAACAAAGGAGAAGATGCATAGCATTTCCATGGGGACAGCTATTATCGAGAAAAGAC TCAAGTCGAAAAGGGCTCTAATCATACTAGATGATGTTACCACATCTAAGCAGTTGAAAGCCTTGTGTGGAAATCGAGAA TGGTTTGGATCGGGAAGTGTAATAGTTGTTACAACTAGAGATGTACGGTTACTTAATTCGCTTAAAGCTGATTATGTGTA TAGAATGAAGGAAATGGATGAAGATGAGTCCCTTGAGCTTTTCAGTTGGCATGCTTTTGGAGAAGCAAGTCCAAGAGAAG ACTTGATTGAACTCTCAAGAAACGTGGTTGCTTACTGTGGAGGGTTACCACTCGCTCTTGAAGTCCTTGGATCTTACTTG AATGAAAGGACAGAACAAGAATGGAGAAGTGTGCTATCAAAACTGGAGAGAATTCCCAATGATCAAGTGCAGGAGAAACT CAGAATAAGCTATGATGGTTTAAAGGATCATTTGGAAAAGGAAATTTTTCTTGATATATGTTGTTTCTTTATAGGTAAGG ACAGAGCCTATGTGACAGAGATACTAAATGCATGTGAACTTTATGCTGATATTGGAATAACGGTTCTCACTGAGAGGAGC CTAGTTAAAGTTGACAAGAAAAACAAGCTTCGAATGCATAACTTGCTGCGAGACATGGGAAGAGAAATTGTCCGTGAAAG TTCAGAAAAAGAGCCTGGGAAACGTAGTCGATTGTGGTTTCATGAGGAGGTGCATGATGTTTTGACAAAAAATACTGGAA CAGAAAAGGTTGAGGGATTGGTTTTGAAGTTGCAAACAACAGAAAGAGTTTGCTTCAGTACTGATGCTTTCAAGGAGATG AAGAAACTGAGACTTTTACAACTTGATCATGTTGACCTCTCAGGAGATCATGCATATCTTTCAAAAGAATTAAAATGGGT CTATTGGCAAGGATTTACCTTAAACTCTATACCTGATGACCTTTATCAAGGAAATCTCGTTGTTATTGACTTAAAATACA GCAATATAAAACAAGTTTGGAAGGAAACCAAGTTGCTGGAGAAGCTAAAAATTCTCAATCTCAGTCATTCCAGGTACTTG GAAAACACCCCTGATTTTTCCAAACTACCGAATCTAGAAAAGCTCATTCTAAAGGATTGTCCATGTTTGTCCGAGCTCCA CCATTCAGTTGGAGATCTCAGTAATATTCTTCTTATAAATTTGAAGGACTGTACACGCCTTAGCGCTCTCCCAAGGAAGA TCTATCAGTTAAAATCTGTGAAAACACTCATCGTTTCGGGTTGTTCAAAACTTGACAAGTTGGAAGAAGATATAGTGCAG ATGGAATCCTTGACAACACTTATTGCAAAAGATACAGCTATAAAAGAAGTGCCCTATTCAATAGTAAACTTGAAAAGCAT AGGATATATATCCCTATGTGGATATGAAGGATTAACACGTGATGTTTTTCCTTCTCTTATTCGGTCTTGGATGTCACCAA CAATGAATCCCCTATCTCGTATTCCACTACTTGGGAGCATGTCATTGTCTCTAGTTTCTATTGATATACAGAATAACAGT TCAGACAATTTATCATCATGGCTAAGCAGCGTATCAAAACTTCGAAGTGTTTTGATACAATGTCACTCAGAGATTCAACT AATTCAAGAGTCAAGAAGAATTCTTGATGATCAATATGATGTAAATTCTACTGAATTGGCATCATCATCATCATATGCAT CACAAATCTCAGATTTTTCCTTGAGATCACTTTTGATTAGATTGGGAAGTTGCCACACAGTCATTGATACTCTTGCCAAC AACATATCACAGGGATTGACATCCAATGATTCTAGTAATTTTTCCCTTCCGTGTGGTAATTATCCTTCTTGGTTAGCCTA TAAAGGTGAAGGACCTTCAGTAAATTTTCAAGTGCCTGAGGTTTGTGATTGTTACTTGAAAGGAATAGTTTTATGTGCTG TTTACTCATCAACACCTGAAAATATGGCAACTGAATGCTTTACTAGTGTCATGATCAATAATTACACAAAATTGACCATT CAAATCTACAAGCAAGATACAGCCATGTCCTTTAATGATGAAGATTGGGAGAGTGTAATATCAAATCTAGATCCTGGTGA CAATATGGAGATTGTTGTTGCTTATGGGCGTGGATTGACTGTGAAGGAGACAGCTGTCTATCTAATATATGGTCAGTCAA TTACTGTAAAAATTGAGCCATCAATTACTATGCAAGTTGAATTTGATTCGTTAGTTAATGTGAGAATGGAGCCATCAACT GAAGTGAACTTGCTTCCATCACCTGATGTGAAAATAGAGCCATCACCTGAAGTGAACATGCAGTCATCACCTAGACTGAA CATGCTGCCATCACCTAACAAGAAAATGGATCCATCAACTGAAGTGAACATGCAGCCATCACCTAATGTGAAATTGAAAT CATCACCTAACATAAAAATTGAGCCATCACCAAAACCAAGTAAAAATTTCTTCACAAGACTTGCAAAGAGAATGGGAGAA TGTTCATGCTTGAACCAAACTTGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0090600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MASSSSSSNPQWAYDVFLNFRGSDTRTSFVSHLYAALSNAGINTFLDQELAKGTELQPEILRAIETSHMSVVVFSKSYTE SCWCLNELETIMECHRVHGQVVVPVFYDVEPSVVRHQKGAFGEALETLVRKRCSGSGLKYVRSSWKTALTEAANLTGWDV TKYRNEGELVKRIVEDVWTKLDYTFLSITEFPVGLESRVQEVTRLVENQTSIVRMVGIWGMGGSGKTTTAKSIFNQIHRN FMCRSFIENIREVCESDSTRGLIHLQEQLLSDVLKTKEKMHSISMGTAIIEKRLKSKRALIILDDVTTSKQLKALCGNRE WFGSGSVIVVTTRDVRLLNSLKADYVYRMKEMDEDESLELFSWHAFGEASPREDLIELSRNVVAYCGGLPLALEVLGSYL NERTEQEWRSVLSKLERIPNDQVQEKLRISYDGLKDHLEKEIFLDICCFFIGKDRAYVTEILNACELYADIGITVLTERS LVKVDKKNKLRMHNLLRDMGREIVRESSEKEPGKRSRLWFHEEVHDVLTKNTGTEKVEGLVLKLQTTERVCFSTDAFKEM KKLRLLQLDHVDLSGDHAYLSKELKWVYWQGFTLNSIPDDLYQGNLVVIDLKYSNIKQVWKETKLLEKLKILNLSHSRYL ENTPDFSKLPNLEKLILKDCPCLSELHHSVGDLSNILLINLKDCTRLSALPRKIYQLKSVKTLIVSGCSKLDKLEEDIVQ MESLTTLIAKDTAIKEVPYSIVNLKSIGYISLCGYEGLTRDVFPSLIRSWMSPTMNPLSRIPLLGSMSLSLVSIDIQNNS SDNLSSWLSSVSKLRSVLIQCHSEIQLIQESRRILDDQYDVNSTELASSSSYASQISDFSLRSLLIRLGSCHTVIDTLAN NISQGLTSNDSSNFSLPCGNYPSWLAYKGEGPSVNFQVPEVCDCYLKGIVLCAVYSSTPENMATECFTSVMINNYTKLTI QIYKQDTAMSFNDEDWESVISNLDPGDNMEIVVAYGRGLTVKETAVYLIYGQSITVKIEPSITMQVEFDSLVNVRMEPST EVNLLPSPDVKIEPSPEVNMQSSPRLNMLPSPNKKMDPSTEVNMQPSPNVKLKSSPNIKIEPSPKPSKNFFTRLAKRMGE CSCLNQT

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
SUPERFAMILY	SSF52200 View details on SSF52200 Search for proteins/transripts with this domain View external data on SSF52200	3	158	156	4.32E-39	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.10140 View details on G3DSA:3.40.50.10140 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10140	7	187	181	2.0E-66	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11017:SF301 View details on PTHR11017:SF301 Search for proteins/transripts with this domain View external data on PTHR11017:SF301	9	1063	1055	0.0	–
PANTHER	PTHR11017 View details on PTHR11017 Search for proteins/transripts with this domain View external data on PTHR11017	9	1063	1055	0.0	–
ProSiteProfiles	PS50104 View details on PS50104 Search for proteins/transripts with this domain View external data on PS50104	12	155	144	25.065	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01582 View details on PF01582 Search for proteins/transripts with this domain View external data on PF01582	13	187	175	4.6E-42	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00255 View details on SM00255 Search for proteins/transripts with this domain View external data on SM00255	13	155	143	1.6E-43	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	183	446	264	4.83E-62	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	188	347	160	1.9E-27	–
Pfam	PF00931 View details on PF00931 Search for proteins/transripts with this domain View external data on PF00931	203	427	225	1.0E-33	IPR002182 Show description in modal box View details on IPR002182 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	215	230	16	2.7E-23	–
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	293	307	15	2.7E-23	–
Gene3D	G3DSA:1.10.8.430 View details on G3DSA:1.10.8.430 Search for proteins/transripts with this domain View external data on G3DSA:1.10.8.430	351	435	85	2.4E-9	–
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	386	400	15	2.7E-23	–
SUPERFAMILY	SSF52058 View details on SSF52058 Search for proteins/transripts with this domain View external data on SSF52058	491	820	330	1.87E-29	–
Gene3D	G3DSA:3.80.10.10 View details on G3DSA:3.80.10.10 Search for proteins/transripts with this domain View external data on G3DSA:3.80.10.10	523	848	326	1.3E-27	IPR032675 Show description in modal box View details on IPR032675 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00364 View details on PR00364 Search for proteins/transripts with this domain View external data on PR00364	624	640	17	2.7E-23	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1046	1108	63	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1056	1102	47	-	–

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:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	Biological process	Signal transduction	The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716
GO:0043531 View details of GO:0043531 AmiGO InterPro QuickGO	Molecular function	ADP binding	Interacting selectively and non-covalently with ADP, adenosine 5'-diphosphate.	Subterm of View details of GO:0032559 View details of GO:0043168

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0090600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0090600.1