Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0204300
Transcript ID	LotjaGi2g1v0204300.1
Related isoforms 1	LotjaGi2g1v0204300.2
Lotus japonicus genome version	Gifu v1.2
Description	Protein kinase family protein; TAIR: AT1G18390.2 Serine/Threonine kinase family catalytic domain protein; Swiss-Prot: sp\|P0C5E2\|LRL12_ARATH LEAF RUST 10 DISEASE-RESISTANCE LOCUS RECEPTOR-LIKE PROTEIN KINASE-like 1.2; TrEMBL-Plants: tr\|A0A151QPI4\|A0A151QPI4_CAJCA Putative serine/threonine-protein kinase family; Found in the gene: LotjaGi2g1v0204300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:64730623..64744181) extracted from Lotus japonicus Gifu genome v1.2.

CTAATCTCACTCAAAATTCAATACCCAAAGTAGAATTACTAGCTTTCCATTTCTGAATCCACTAAGCCATGTCAAAACCC CTGCACTCCCTGTTTGCACTGCTGTCCATCCCCTTATTCCTCATAACATGTTATGCTGCTGATGGGTCTAACACATCAAC ACTTTGTGCTCCTTCTAATTGTGGCAATGTTTCCATTGACTACCCTTTCTGGATGCATTCCAACACCATGGCTGCTGGAG AATTTTGCGGCTACCCTGATTTTGGGATTGAATGCTCTGAAGGCAAGGCCATCATGGCTCTCCGAAGTGACACATACTAT GTGACAGACATAAACTATGACCAACATTCAATTACTCTTGTTGACATAGATGTACTCAACAAACCATGTCCCAGGGCAAA ACACAATGTTTCCATAACCAACCTTCCTCTATCTTTCAACTCATTAGACTTGAACCTCAGTTTCTACTTCAACTGCAGTG CTCACCCTTCATCTGCGGACCCAATAGGGTGCTTGAAGCACAGTAGTAGTGATACTAGGGAGTCTTATGTGTTTGTGAAG GGTAATGAAACAGAGGAGGGTTTTGATTGGGCTAAGCATTGTGTCGAGCATGTTGTGGTCACTGTGAAAGATGATGAGAT TGATGCTGTTGGTGGTGGTTTGATCACTGGGTTTGGTGAGGCTATGCAGAAAGGGTTCGTGCTTGATTGGATCAGAGCTG AGGATTGTGCTGAGTGCGAGTTGTCTGGTGGGTTTTGTCGACATAATCAAACCACTAAGCAGTCCAATTGCATGTGCAAA GATGGCAGAGTTGCTGCTAGAAGTTGCATGAAAGGTACACTCGTTTTTACTTGTTCCAAGTTGTGTAGACTTTTTTGCAA ATCTTTTTGGTCATCACACAAAGTATATGTTGCTTCACATGCACACACACTTCATGTGGTTTAGTTCATTAGAAATTGCT TATTAAGGTTCTAAACTTAGCTGTAGATTGATTGGATGTTCTGGTTCGTTTAGGACGCAATGTTTGATTGATCTAACAGG TTGGAATGTGTATAGTTTAATTTATCATTCTAACATAGAACTTTGAAAAAATGTGTTTTGATAGAGAGAAATGAGAAATA AAAGATATGCTATTTCTGAAAAAGAAGAGAGATGAGATAGTCCAACTTAGTAACTTACAAAGATGTTAGAACTTAGAAGG GTTGTCTATCTTAGCTCGTGATGAGAGAATACAAGCCAAGAAAAATAAAAACTTAAAAAAAGATCATTTTCAATACAAGC TTTAGATCCAAATACATCATGATATACAAAATAAAACAAGATTTGAAAGCTTCGATAAAAATCTCAACAGAAGATTAAAA ATCTTTAACAAAGGATTAAAAATCGGGTTTGTCCAAGTTTCTTCGGCGTTGGTAATGATATGACAATGACAAACTAGAGA AAGTTAAAGACTTGGCCTTGTTGGTGAAGCATGCAGCGGAGGCACGAAGGATGGAGGCATAGAGGATGAACTCGTTGGTG ATGTGAATTGAAACCATGTATGAGAAGTGACGCTTTCAGATTTGGAGAAGAGAGGAGAAGTGGTGTAGTGACGATCGGGG TGGCTAGGGCTTGCAAAGATAGGCTGAAGACTAGGTTTAGTGGTTAGTGAGAGTATTTATAAGGTTAGGGTTAGACTATG GCCTAGGCTGGAGCTTCAGCTTTTTTCTTCTTCTTTAAGATCTAGTTCGGTCGGGTTGGAGTCCAAACCAAAACCTACCG CAATAAACTGTAGAAAACTAGATTTGTTCACCCGCTTGACTCGTCTGACGACCTGACTGGTCCAGTTTCGATCACAAAAA ATGGGCTTAGTTTTGGTAGGCCCAATTCGGCTCAGACCCCTACCATCCGCCATTGTTGTTGTTGCAAGATTTTCTATCGC GATCATTGCTGTTAGGCATCCACCAACTCGCAGTATCTTTTGTCACCATTGTCACCTATCACCCATCACATCTAACACAA CTCGACACCCTCCACCACCACCACCACCACCACCACTCAGTATAGTCTATTGCTAACACTGCATGACACCTTCCCCCTTT TCCACCATTAATCATCTTTTGCTATTACTTCTTGTACATCTGTCGCTTTTATAATCTCAAGAGAAATATAATTATATTTT ATGAATTATACTCTTAACTTAAAATAAATCTTATTGATGATTGAAAAATTGAATAGTTAAAAATTAATAAGATAACAACT ATATTAGGAAGTTAGATACCAATTTTAATAAAAGGGAAACAATTATACTATTTTTTATTTTGTAAAAAAATATAGAATTT TCTTTGTTGAAGGTCATGTGCATGTTGGTTATGAGCATGTTTTTGTTTCCTCAACTTAGCAAAAACGACGAGCCCGAATT TGGAATGGAAAACTATGGACCCAAAAGAAAAGATCTTAAAAGCCCAAATTGAAACAAAGATTTTTTTTCCTGGGTTGACT CTCCTTTTTGCGGGGGATAGGACAACCCTGTTTGCTGTTGACAAAAAAAAAACAGGTGGCTTCTAATGTGAACTAACAAA CCATGTTTGCTAGTGAATACAAACAGTCGGTGAATACACCCAAAGAGAGAACTACGTGAATACATGTAATGTAAGGGAGG GGAAAAATGAAAGAAAAACCAGTCGGTGAAATATTTGGTATCTTAATTAATATTTTCCAACTAGTTTTGGACAGTGATTT TCCACCACATCACATGAGTTTTTTTTTTTGGTAATGGTCAATCTTAACTTGCTTGCAGTGATGCACCTCCCCTTTCTTTG TTCTAATTTCTTTATATATATTTCATTATATTTTTTTCCATTTTCTCTTAATTATTGCTGTTTTATCATTGGCCTTCCTT AGAATTGAAAAAATGCTAGTCACATAAACCTTTTGTGACAAAAAAACATCATATCCTTTGAGTGGATTCTATCTAATTGG TAAACGCTTGCAAAATCAATTTTTAATTGTTAGACAGCTCCCTCTTTATGTACCTCCAAAGGTTCAACATATTTTTTTAT GATTGTACCAAACTAGTTGCATGTCATTTTGTTTGACTTGGATATATATATTGGTTGAGGTTGTTGAGCTCTTACTCATT CCATTGGCCTCTTTAACATAGTTCATCTGCTAAGTAATTAGGTCCTTCCTGAATCATGGATTCATGACAATCTTTTCAAC ACCCCAACACATGGCTCTTCCTCTTCTTCCACTACCATTTTCATTCATCTACACCCTTTTCTACCTCTCACTTCTCTTCT ATCCAACATATGCCGCTAGTGATGCTGAATTGTACACAGCTTGTGCACCTTTCAGCTGTGGGAATTTCAGCAACATTAGC TATCCATTTTGGAGTAGTAACCAACCAAGTTCTTGTGGGAATCCAAACTTCAAGCTTGATTGCAAGCAAGGCAACGCGAC AATTGAGATCAAGTCCCAGAAGTTCCCTGTCCTTAATATTAGTCAGAACTCTCTAACTTTGAAGATCGCGACATTGGATT CATTGGGATTGAATGGCGCTTGTCCTAAGCACTATGCCAATGTCAGCTTGGGTTTGGCTTTGTTCAGCTACACCTCTAAT GATGATGACTTCATTCTATTATATGACTGCAGGCCTCCTTCATACTCGTATTCGCCTATTTCCACAGCTTCTATATCTTT TACTTGCGGAACAGATAGTGATCCCCATCAAGGATACTTCATGTCAAGCAAAAATGTGGTTAATTTCGATGGTCTTGGGT GCAAAAATAAAATCACGGTTCCAGCGTCAAAAGACGCTTTCCAGAACTCCTTCTTGAATGGCATGACTGTGGAATCTGTT TTAGCTCAAGGATTTGAGGTTAGGTGGAGTGGAGTGGATGGAGATAAATGTGATGGATGCACAAAATCTGGTGGGAGATG TGGATACAATACATCTCTAAATGCACTTATGTGTCTATGTCCTAAAGAGCAATCTAATGGTGGGGTTTGTAGCATAGCCC CGGCATTGTCACCATTACCAGAACCAAGATTAAGACAAACACCACTACAAGCACTATCACCACATTCAGAACCAGATCAG TCTAATTATCATAAGAGTATGTATTCTTCTTTCTTCCTTTTCCTAATATTGGTTAGGTTCTTCTGCTGAATAATCGTATT TCTTTGGATTATATGGCTTTAGATTTTCTTTGATGATCCAAATACCTTAGATCAACTCTGGCAGGTTAGGTAGAGGTCCT TTTTGTAGACATGAAATAGTTTGGTTTGCGTGGTCAAATTAAAATGCTCTTTGGCTTAGAATGATTCCTTTTGATCTTTT ACTTTGTTCTGATCTGAATTTTTATAATAAAAGATGAGATTGAACTATTTAAGAATTGGCAATAAGATAGCATGTTTGAA TTTTCTAAAGTCATATCTCGGTTTGGTGTGTTAGGCTCATTTGGCTTACATTGACTTTTGAAAATTAACAAGTTGTAATA ATTAGCATAAACATTCAAAGAAATGTGCAGAGGAAGATCTTCTTCAAACTTCGTTTTTGTTTGATATGCGTTCCCATTAG AAAGAACCGAACCAAATCCCTTCCATCAGTAGTGTAAGAGAATTAGAACCATTCATCAATATTAACCTGATAACTTGTAC TTTTAGGAGTCTTGGTTAACAAGAATGCAAGTGATTGAATGATTCAATTCAATGATCTCTGGAATCAGAGTAAGGTACAT ATATACACTGCCAAACAGAAATGAAGATCTAACTAACTTCTATCTAAGTCTAACCAATAACTAAGTTAGTGAAGCTAACT AAAAACTAATCAGTTAGCAACTGGTTTACAATTAACCATGTGACTAAATTGATCTATATTAGTTAGTTGTAATAGTCCCC CTCAAATTGGAAGATAGATATAAAAAATTCCCAACTTGAACATGTGAGGCTTGGAAGGTGAAGCACTTTTAGGGGTTTAG TAAGGCAATTAGCCAACTGATGAATGGAAGGAACATGAATCAACTTGAGAAAACCAGAATTTACATCTTCCCTGATGAAA TGTACAACAATATCCACATGTTTGGTTCTGAAAACTTCAAAGTTGTGAGTTTTACTGTATTCTGAATTGTACTCTGGAAT GATGAATTTGGCTACTCCTCAGTCAACTCAATAAACTTCCTCCATAATGACTGTTGTGATCCCTGCTAGTCATTTTTTCA GAAATTTAGCCTTACAATGATTAGCTTAGTACATTTTAATTTGGCAACCTGATTCATGAAAAAGGTTAAAATCTTACTCT CACTAGGTATATGTTAATCTTAATTCTTATGTCAATCTATATAATAGTCAAACTTGAGTAAATTTTATATGCCAGACGGC GACTGTTCTATTGACTTCAGCTGATTGAAATTAGTACTGGTTTATGTTAATCAATTCATTTCTAAACTATTATTGCGTAG CTTGTCAATGCTGATGGAGTAACTAGGAAAAAAAATATGCATCGGTCATTGCTGTGTAAGCTGTATGAGTTTAGTCATAC TAGAGATTTAGAATGAAGATTACAGTCTCCTTGGCAGTCATTGTCAACCTACCAACATCTTATTTAGATAAGCAAGAATA TATAAATGTTACCTGCAATTGTGAAACTCATCTAGTTAGAGATGAAGGGTAGGTTAGGTTGAAACTTCAAATAGTGCAGT GCAGGACAGGAAATTAAAAAATGAAACAAGTCATTGCTGCATAGGCTTTGTTACTTTTCTCGTACTAAAGTTTTGAATGA AGTTCACATGTGGCTGTTTACTTTAAAGTCTAGCAAATTTTTGAAAAAAGGAAAAACATAATATAGACCCTTAAATACTG TTTCAAAAGTATAGACAATATAAGTGAATTACATGTGTATAAGTAGAGTTTTCCCCCATCAGGTACTAACTAAGGTTTGA ACTCAATAAATAAAACAAGAACACAGCTAATCATCATTAGTGTAATCTCCTTGGAAGAAAAAGAAAGTTATATACAATTT TATACACAGAAAACAAATTGTTGGTTCTAGTGGTATGTGCTTGATTTCCCATACACATAGTAACAGACAGAAGATGTCTC GGTGAAAAAAAAAAACAGACCTTTATTAAGAGAGCTAATCTCGCCAATATATGGATGTTTTCGAGTGGAGCAGAATTGTC TGATGTAGATGATATGTGTCTAAAACCAATAATTAATTATTATAATAGAAACTATTTAAAACTCATTGACCAAATGAATT GTATCATCATATGGTCTGCGGATTGCATAGAGAAAAAGAGAAAAAGGAAAGAGAGTGGTAATTTCGCGGGTGACTCTTCC ATTGACTGACCATGTATATGGTGGTGAGAATCGCAGCCATCATTGTCTTGAGAATATCAACAGTTTTCCAAAACTCAATT TAAGTTTCATAGGATCACTTACTCCTCCTTCTCATTTTGAAGAGTAGAATACACAGAAAAAAGAAGATACAGCTAGCATG TGTGTAAGAATGGATGAACATATCCATATTCATGTCCGTTTTTCCATGCTCTTTCCATCCATATTCACAACCATAACACT CCGTTTGTTCTTGCTAACCTGCACTTTGCCACACTACTCCCATTCTCAACCGCTATCCCCACCGGTTTCCAATTTTTCCA TTTGTGAGGCCGAGTCATACAACTGCGGGACTCTGACCGGCATCTCTTATCCTTTCTGGGGACAGAACCGGCCTTCTTAT TGTGGCGGCGGAGACATGTTCAACCTCAACTGCCAACCTGACCTTACCACTACTACTACTACAGTTGTAATAGGCTCACA AACTTTCACAGTGCTGGCTATTAACCCCGACAATAACACAATGACAATGAAGCTAACAGATTTCAATGTCTGTTCTCCCA AGCAGTTTGACGATACTTTCTTGATTGGCGAAGTGTTCCAGTATGCCACGAGCGTGTCCAAGATCACCATATTCTACAAT TGTTCCAATTCTGGAAAAAACTTCAGTGGGTGCGGACAACAAAAATATGCTTTCGGTCATGTGGATATGGACCTGAATGA GGAGGAGTTGAAAAGAATTTCAAAGGATAATCAATGCACCGGACATATCAAAGTTCCAGTAGGCTTTTCTCTGGAGCCTT ATTATGAAAAAGGTGTGATTGACCGTGATGATTTGGAGCAAGGTTTGGATAAGGGGTTTGAGGTGAAATATTATGTTAAT CCGGACTGTATGAGTTGCCTGGGAAGGGAGGAGATAAATTGCCCCTGGAGAGGTGATGATTTTGATAAACAAGTGGCTTC TTCATGCCACTATTGCTCAAGTAGAACTAATGCTGCCTCACACTGCCCTGTTCCCATTTTCATTCCCACTCCCACACCCA CTCCCACTCCCACTACTGCTTCTCCCAAAAGTATGTCTTCTATCTCCTCTCCTCTATTCTTCAATTTTCCTCTTCCCAAG TAGAGTTTTAATTATCTTACTTGCATATACCATAGTCCTGTTTTCTTGCTGCTTCCTTATCTATCATTTCAAAGGCATAT GTTTTGTTGAGAATTGAAGATTAGGATTCCATTTTCCAGTAGGAACCCTCCAATTCAACCCTCCATAAGGCTCCAGTTTA GGAACAGCTGTAATTGGAAATTGGATGGACCCATTGTGGGTCAATACTGATTTGGATGTTTGGAACGACTTTGATCAAAT TATCAAGTCACACTTTTGGAGTATGTGGTTCAGGCTTCATACTTCTCACCCAAAGTTGGTAATCCCCACATTTCCCATTC ATATGAGGTTTTGGTATTGGTTGCTGAAACTAGCCCATTGTTGATCTTGCATCAGCACATGTTGGTTTGGCAGCTTATAA AAATTCAAGACTAGCGTTTTTAGGACTTTGTTAGTTCTTACTTATAATTTTAGTATAATCTAAGTTTTAATTATTCCCAT ACATAAATTGTTCTGATAAAACTTTAGGACATATTAAATCCATGGACGCATGAAGAAATTCTTTGGTCTGGTATAAGATA AAATTTAATAATTATATTATGTTGTAAATCGTGTGAGTAATTAAAAAATTACTTAGCATAATTAAAATAATAGTACACAT AGGATATGATCGGATCGGTTTCTGGCCCAATTAGAGTTTGTACCAATCAAAAGAGGTCGGGTTGATTCGGTTTGGATTTC ATGTTTTTTTACTTCAAACCCAATCTAAACTAATCATGACCGGGTTCAGATCAGGTTCGAATTGAACCGAAGAGAGGAGA GAAGACGCCGAGTGTGGCGCTAGCTAGAAGAGAATAGAGGAAAGTAGGTCTCAAAACAGAACCTACAATCACAAAGATTG GTTAAGGGAAAGAGAAGAGAATAGAAAAAACGAGAGTACCTACCTCTACAATGGTGGTACTGACTCGAAGAAGAAAAAGA GAGGACAGGTGGCTTCGCAGCTGAAGGACAGAGGCGCGAGGACATATTAGGTCTTTGAGTGTTAAGAGGATTAGGTCTTT GAATGCGAGAGATGAGACGGCTTCGCAAGTAAGAGGGGAACGAAATAGGGAAGAAAAGTTTTAGTGACATAGGGTCAGGT TATTGGCTCGGCTCATTGTTTTCCCGTACTAAACCCTTCATCCCTCTTTGAATCCGAGTACACCCACGAGCCCAACACAA CCTATTCTTTTAGTTTCGGTTCGGGTTGGGTTGACCAGGTTGGTCATATTTAGATTATAAATGCTTATTTTCTAAAACCA ACTGAACAATCTCTCTTGGGGGTTTAGGTAACGATTACGTTTGATGAATTCTAAATTCTTGTCGTGTTCTACAGTGGTCC CCTCTACGTATTGGGTGTTTCTTTTCTTTACAGCCTCACTTTCATTTAGACCAAATGCCTAACTTTGAACGTGTCAACTG TCAATGATCCAATGAAAACAACCTCAGGAATTTTTCTCCAACTATTCATGATTTGGATTTTTTGTTCTCACGTCTCACTT ATTATCCCTTGTCTCCATGTAGTTTTTTCCATCTTCCCCTGTTTCCTGTAATTTCCCTTTAAATCCTTTATCTCGTTAAG TATTGCTTTTTTGAAAAATATACTAATAATAGCTATATTTTACTGCCATAAAACCTTTAGTTTTTTACTGCATAAAACTT GCTCGAGTCATTAGCTATATTGATTTGGCAAAACTACATCTTAATTGAGGTTATATTTGTGTTTTTGTTTGTCAACAGAG TTGTTGATGATTGCATTAATTTGTATGAAAAGTCAAGCAAGTCTTTTTTTTCCTTCTTTCTGGTCCAACACGTCTTTCAC CATCATGCATTGTGGACTTCATTTTCTGCTTTCTTCTACTGTTTTAAGATTTTCAGTCTTGATGACAAAAAACACGCTTT GCTCCAATTAAAATCAACCACCACTCATAAGATCATAAATCAAATTTAAGAGATTACTATTTACACAAATTGCTGTCAGA ACAGTGTAAATTTAGATGAAGTTAGTGAAGCCAACAATGTTTAACCATACATACAATTGCATGCAGTGATGCAGATATTA TAACAGCAATTGCTCACCAATAGTTTTTGGCTGTTGAATTGTATTTTAGTGTACGAAACCTCTAACTTATCAATTGCTCA TCAATTCATTTATTAATTTATTTAAAATGAATGATTGAGATACATGTATTACCTGCAGAATTTTATTAATTCTACCACCA GTTTCATTTTGATGTCATCATTACTAGGGATGACGGTGTCTTCTTTATCAATAGTATTAGTAGCATTGTGACTATATTTG TACTATAAATATAACCACAAGAAATGGGGTATGAAAGCTTCTATTCTGGGGTATTCCACCTACTACTATACATTATGGAA GTTCAACTTTTGACTAGTTATTACGGCCACCCACCCATAAAACTACAAAAGAATAGTTGACAACTTCACAAAACTCTAAT TACTTTGATTCAAGTGGTACCTGTATAGTTTCCCTTAAGCAGAATTTCGGATTCGAGTCTTGTGTATGAAAAAAAAAACA CTCGTGCAATGATTAGCAGCTCAAACAGAATTGCATAGAGGTTATCATTGTTAGATAAAAAAAAATGCTAATTACCTGCT GAAGAAAACAAAGAGTAGGAGTTGGCCTACTTCTCACCTTTGTGTATGAGCCAATCTCTAGTTATCTGTTGCTTGAACTT TTGTTTTGTCTTCCTCTATTTTTTCAAACACCAATCATAAGTAGCCTGTTTTTGTGAGTAAGTTTTCATAATACATACCT ACCATTACATTGAAATGCTTCCAACAGAACCCATCCAAACTCTTTTCTCTCTTCTTCTCTGCTACCTTTTTCAATTCTCA ATCACAAAATGATCCTTCAAATCTCCTTCCATTACAATAAACCTCAGCTATGCATTGTTATTACAACTATTTTATTCTTG GCTACCACTGTTCTATCTGTGAATCCAAAATTTGAGGCCTGCACACCTAGAAGCTGTGGAGCTGGTCCATTCATAAAGTA TCCCTTTTGGATTCCTTATGAACATGAATCATTTTGTGGCTATCCTCACTTTGAGATCACCTGCATAGACAACAATCCAA TTCTCAGAACTTCTAATTATGACCTTTTAGTGAAAGATATCTCTTACTCTAACTCTTCATTCACTGCAGCCAACATAGCT GTCTATGAGGAGAAATGTTCTGCTCCAATGTATAATTACAGCCTTTATCAAACTCCATTTTCCTATAGTGCTGAAAATTC CAACCTCTCTTTCTTCTATAATTGTACCACAAAACCCTTAGATTACCCCACTTATGAAGTAGACTGTGCTAAAAATGCTA CCCATTATTCTTTTGCGGTTTTTCACAAGGAGGCGCTTGAGCATAAAAACTACTCTTTGAATGAATGTCAATACATGGTT AACGCGCCGTTGAACATGAATGCTTCTGTTAATTTCTCTAGCTTATTACGAATGAGTTACACTGAAGTTCTGAAGATGGG GTTTCTATTGAATTGGACTGCACCTGATTGCCAATACTGTGAGAAAAGTGGTGGGCGCTGTGGATTTGATGATTATAAAT TCCTCTGCTTCTGCAAGGATAAGTCTTACCCAAAAAGTTGTGGTGATGGTAACACACTTTGAAATATCATGATCATACTT TTTGTATGCAGTTTCTTTTCCTTTTAATCTCTTTCAGATACAAATGCAGTTTCTATTATAGTATGCGATTTCAGAATAGG CTAACCAATTACGTATTTCTAGATTTTACATTTTCCTTTTGACCTGTCTTTCAAGCTTAACATAGTTCCCTTGTTAAGAT GATTATGGATTCAATATTTCAGTGTATACTACCATTAATATAAAGTGCAGCTAAGCTTATAGTCACGACTCATGAGAACT AGCTGTATTTGTATAGACACAGTTCATAATATCAGCTGTGTACTTAATTGATAATCATCAGCTGTCTCATGAAGATTCAG CTACTTATAATTGTTGGTGGTGACTCAATCCATCTAAATATGCAAAGCCAATGCTGAAATTGAATATTTTTTCTGTTTAG ACTTACAAAGGAAACAACCGAAATGATCTGCAGCCTGAAACGAGTAAAATCATTAACATGAAATAGAAAATGAGTATGGT ATGGTTAGTTTTTAAATTGAATGGTGCTAGTGCAATATAATTTTATTTGTATTTCCCATTTTGCCTCTCTTCCGGGTGTC AAGCAATTTTTGGTACATTAAGTGATAGTTGTTAATGCTTGATTCCCTTATGAAGCCTTTGGTGAAAGAACATAAGTATA CCGTACGTGTTATCTTTGTTTGATTCAAGTAACATATTCTCCTTGAATTGGCACAATTCTAACCCATCATTGCGTTCATT TCTAATTGTTGCAGGAAAAATGAAGCTGAAAGTCATTATAGGTAACATATCTTAATTTCCTTCGTATTTTAGTTTTCATG TATTTATTTCAGTAATTATTGTATATTAATTGTAACTTCCTATGGTTCTTAGGTGTTTCTTCTGCTGTGGTAGGAGCACT TGCAGTAATCCTTGGCATCTATGTCTATAAGCGCAAAAAGAACATTAGTTATGCAAAGTCATCATATGTGCAATCTAGAA GCCTCTCTTCAGATCTATCTTTGAATGATACTGAGAAGGGAAGTAGATACTATGGAGTGCACCTCTTCACCTATACCGAA CTTGAAGAGGCCACAAACAACTTTGACTCGTCCAAAGAACTAGGAGAGGGCGGCTTCGGGACAGTGTATTTTGGTAAAAG GAAGCATCTTATGTTGAATCTATTGACATTTTTGCTGTTCAATAACCACTGACAAAGATTTATTTTATCTGATATTTCTT GTTTAGGCAAACTGCGGGATGGGCGTTGTGTTGCAGTAAAGAGGTTGTACGAGAACAATTGCAGGAGAGTTGAGCAATTC ATGAATGAAGTTGAGATCCTAATTCGTGTAGTCCACCCAAACTTGGTGTCACTCTATGGATGCACTTCACGCCACAGTCG TGAACTGTTGCTTGTGTATGAGTACATTTCGAATGGAACCGTTGCTGATCATCTTCATGGCAAACAAGCCAACCCTGGAA AAATCTCTTGGCGCATTAGAATGAATATTGCTGTGGAGACAGCAAGTGCACTGAAATATCTTCATGCATCTGAAATCATC CACAGAGATGTCAAAACAAATAATATTCTTCTAGACAACCATTTTAGGGTGAAAGTGGCAGATTTTGGTCTTTCGCGTCT TTTCCCAGAGGATGTCACACATGTTTCAACAGCTCCACAAGGGACTCCAGGTTATGTGGATCCAGAGTACCACGAGTGCT ACCAACTTACAAGCAAAAGTGATGTCTACAGCTTTGGGGTTGTGCTGATTGAGTTGATATCATCCTTGCCTGCTGTTGAC ATCACAAGGCATAGACATGAAATCAATTTGGCCAACATGGCTATAAACAAGATTCAAAAGCAAGCATTACATGAGCTTGT TGACCCGACCCTCGGGTTTGAATCAGACTTCAAGGCAAGGAAAATGATAAATGCGGTGGCGGAGTTGGCATTTCAGTGCC TGCAAAGTTCCAAAGATATGAGACCTTCTATGGATGAAGTGTTGGATTCTCTCCAAGATATACAAAGTGATGGCAAATTT AAAAGCCAGCCTGAGGTAATGGATATCTCAACCTCAGCTGATGATGATGTTGTTTTGCTAAAGGATGATCCACCTCCACC ATCACCTGATTCAATTGGTATCAGCAAGTCTACAACACCAAATGCTAGCGGATAAGTGACCCTTGTTTTTCATCTCATAA AAGTTAACCTTATCTTAGTTCATATTTAAGCAGAGATATAGCAGCAAACTTATAGCATCAAATCCACCCTATTACATACA GCCTGAGTTCTGTTTTTACTAAAGCGGATAACTTTTAAGATTGAGATGTATATATACTTATATATTATGATATTAGGTTT TTTTAGATATGGCAATTAGATATCACTTTTTTTCAATACCAATTGCAAGTTTAGATAAGTTTCCCCCTATTTCTTTCTTT AATAATTTCTTATGGGTGATATCAGAAATTGAATTTTCC

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0204300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTCAAAACCCCTGCACTCCCTGTTTGCACTGCTGTCCATCCCCTTATTCCTCATAACATGTTATGCTGCTGATGGGTC TAACACATCAACACTTTGTGCTCCTTCTAATTGTGGCAATGTTTCCATTGACTACCCTTTCTGGATGCATTCCAACACCA TGGCTGCTGGAGAATTTTGCGGCTACCCTGATTTTGGGATTGAATGCTCTGAAGGCAAGGCCATCATGGCTCTCCGAAGT GACACATACTATGTGACAGACATAAACTATGACCAACATTCAATTACTCTTGTTGACATAGATGTACTCAACAAACCATG TCCCAGGGCAAAACACAATGTTTCCATAACCAACCTTCCTCTATCTTTCAACTCATTAGACTTGAACCTCAGTTTCTACT TCAACTGCAGTGCTCACCCTTCATCTGCGGACCCAATAGGGTGCTTGAAGCACAGTAGTAGTGATACTAGGGAGTCTTAT GTGTTTGTGAAGGGTAATGAAACAGAGGAGGGTTTTGATTGGGCTAAGCATTGTGTCGAGCATGTTGTGGTCACTGTGAA AGATGATGAGATTGATGCTGTTGGTGGTGGTTTGATCACTGGGTTTGGTGAGGCTATGCAGAAAGGGTTCGTGCTTGATT GGATCAGAGCTGAGGATTGTGCTGAGTGCGAGTTGTCTGGTGGGTTTTGTCGACATAATCAAACCACTAAGCAGTCCAAT TGCATGTGCAAAGATGGCAGAGTTGCTGCTAGAAGTTGCATGAAAGGAAAAATGAAGCTGAAAGTCATTATAGGTGTTTC TTCTGCTGTGGTAGGAGCACTTGCAGTAATCCTTGGCATCTATGTCTATAAGCGCAAAAAGAACATTAGTTATGCAAAGT CATCATATGTGCAATCTAGAAGCCTCTCTTCAGATCTATCTTTGAATGATACTGAGAAGGGAAGTAGATACTATGGAGTG CACCTCTTCACCTATACCGAACTTGAAGAGGCCACAAACAACTTTGACTCGTCCAAAGAACTAGGAGAGGGCGGCTTCGG GACAGTGTATTTTGGCAAACTGCGGGATGGGCGTTGTGTTGCAGTAAAGAGGTTGTACGAGAACAATTGCAGGAGAGTTG AGCAATTCATGAATGAAGTTGAGATCCTAATTCGTGTAGTCCACCCAAACTTGGTGTCACTCTATGGATGCACTTCACGC CACAGTCGTGAACTGTTGCTTGTGTATGAGTACATTTCGAATGGAACCGTTGCTGATCATCTTCATGGCAAACAAGCCAA CCCTGGAAAAATCTCTTGGCGCATTAGAATGAATATTGCTGTGGAGACAGCAAGTGCACTGAAATATCTTCATGCATCTG AAATCATCCACAGAGATGTCAAAACAAATAATATTCTTCTAGACAACCATTTTAGGGTGAAAGTGGCAGATTTTGGTCTT TCGCGTCTTTTCCCAGAGGATGTCACACATGTTTCAACAGCTCCACAAGGGACTCCAGGTTATGTGGATCCAGAGTACCA CGAGTGCTACCAACTTACAAGCAAAAGTGATGTCTACAGCTTTGGGGTTGTGCTGATTGAGTTGATATCATCCTTGCCTG CTGTTGACATCACAAGGCATAGACATGAAATCAATTTGGCCAACATGGCTATAAACAAGATTCAAAAGCAAGCATTACAT GAGCTTGTTGACCCGACCCTCGGGTTTGAATCAGACTTCAAGGCAAGGAAAATGATAAATGCGGTGGCGGAGTTGGCATT TCAGTGCCTGCAAAGTTCCAAAGATATGAGACCTTCTATGGATGAAGTGTTGGATTCTCTCCAAGATATACAAAGTGATG GCAAATTTAAAAGCCAGCCTGAGGTAATGGATATCTCAACCTCAGCTGATGATGATGTTGTTTTGCTAAAGGATGATCCA CCTCCACCATCACCTGATTCAATTGGTATCAGCAAGTCTACAACACCAAATGCTAGCGGATAA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0204300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSKPLHSLFALLSIPLFLITCYAADGSNTSTLCAPSNCGNVSIDYPFWMHSNTMAAGEFCGYPDFGIECSEGKAIMALRS DTYYVTDINYDQHSITLVDIDVLNKPCPRAKHNVSITNLPLSFNSLDLNLSFYFNCSAHPSSADPIGCLKHSSSDTRESY VFVKGNETEEGFDWAKHCVEHVVVTVKDDEIDAVGGGLITGFGEAMQKGFVLDWIRAEDCAECELSGGFCRHNQTTKQSN CMCKDGRVAARSCMKGKMKLKVIIGVSSAVVGALAVILGIYVYKRKKNISYAKSSYVQSRSLSSDLSLNDTEKGSRYYGV HLFTYTELEEATNNFDSSKELGEGGFGTVYFGKLRDGRCVAVKRLYENNCRRVEQFMNEVEILIRVVHPNLVSLYGCTSR HSRELLLVYEYISNGTVADHLHGKQANPGKISWRIRMNIAVETASALKYLHASEIIHRDVKTNNILLDNHFRVKVADFGL SRLFPEDVTHVSTAPQGTPGYVDPEYHECYQLTSKSDVYSFGVVLIELISSLPAVDITRHRHEINLANMAINKIQKQALH ELVDPTLGFESDFKARKMINAVAELAFQCLQSSKDMRPSMDEVLDSLQDIQSDGKFKSQPEVMDISTSADDDVVLLKDDP PPPSPDSIGISKSTTPNASG

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
SignalP_GRAM_NEGATIVE	SignalP-noTM View details on SignalP-noTM Search for proteins/transripts with this domain	1	23	23	-	–
Phobius	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	23	23	-	–
SignalP_EUK	SignalP-noTM View details on SignalP-noTM Search for proteins/transripts with this domain	1	23	23	-	–
SignalP_GRAM_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	23	23	-	–
Phobius	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	7	7	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	5	24	20	-	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	8	19	12	-	–
PANTHER	PTHR46008 View details on PTHR46008 Search for proteins/transripts with this domain View external data on PTHR46008	14	656	643	1.9E-252	–
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	20	23	4	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	24	261	238	-	–
Pfam	PF13947 View details on PF13947 Search for proteins/transripts with this domain View external data on PF13947	33	137	105	2.1E-10	IPR025287 Show description in modal box View details on IPR025287 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF14380 View details on PF14380 Search for proteins/transripts with this domain View external data on PF14380	148	246	99	1.7E-17	IPR032872 Show description in modal box View details on IPR032872 Search for proteins/transripts with this domain View on EBI InterPro Service
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	260	282	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	262	283	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	284	660	377	-	–
Gene3D	G3DSA:3.30.200.20 View details on G3DSA:3.30.200.20 Search for proteins/transripts with this domain View external data on G3DSA:3.30.200.20	307	411	105	3.4E-31	–
SUPERFAMILY	SSF56112 View details on SSF56112 Search for proteins/transripts with this domain View external data on SSF56112	316	625	310	2.02E-77	IPR011009 Show description in modal box View details on IPR011009 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50011 View details on PS50011 Search for proteins/transripts with this domain View external data on PS50011	335	622	288	39.679	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00220 View details on SM00220 Search for proteins/transripts with this domain View external data on SM00220	335	616	282	4.9E-44	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00069 View details on PF00069 Search for proteins/transripts with this domain View external data on PF00069	336	605	270	1.0E-48	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00107 View details on PS00107 Search for proteins/transripts with this domain View external data on PS00107	341	363	23	-	IPR017441 Show description in modal box View details on IPR017441 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.510.10 View details on G3DSA:1.10.510.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.510.10	412	623	212	6.4E-55	–
ProSitePatterns	PS00108 View details on PS00108 Search for proteins/transripts with this domain View external data on PS00108	455	467	13	-	IPR008271 Show description in modal box View details on IPR008271 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	614	660	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:0004672 View details of GO:0004672 AmiGO InterPro QuickGO	Molecular function	Protein kinase activity	Catalysis of the phosphorylation of an amino acid residue in a protein, usually according to the reaction: a protein + ATP = a phosphoprotein + ADP.	Subterm of View details of GO:0016301 View details of GO:0016773 View details of GO:0140096
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0006468 View details of GO:0006468 AmiGO InterPro QuickGO	Biological process	Protein phosphorylation	The process of introducing a phosphate group on to a protein.	Subterm of View details of GO:0006464 View details of GO:0016310
GO:0030247 View details of GO:0030247 AmiGO InterPro QuickGO	Molecular function	Polysaccharide binding	Interacting selectively and non-covalently with any polysaccharide, a polymer of many (typically more than 10) monosaccharide residues linked glycosidically.	Subterm of View details of GO:0001871 View details of GO:0030246

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0204300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi2g1v0204300.1