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LotjaGi5g1v0229900.5

Overview

Field Value
Gene ID LotjaGi5g1v0229900
Transcript ID LotjaGi5g1v0229900.5
Related isoforms 5
Lotus japonicus genome version Gifu v1.2
Description Lon protease homolog; TAIR: AT5G26860.1 lon protease 1; Swiss-Prot: sp|P93648|LONM_MAIZE Lon protease homolog, mitochondrial; TrEMBL-Plants: tr|A0A0S3SQJ4|A0A0S3SQJ4_PHAAN Lon protease homolog, mitochondrial; Found in the gene: LotjaGi5g1v0229900
Working Lj name n.a.

Sequence information

Genomic sequence (LjG1.1_chr5:53723088..53734409) extracted from Lotus japonicus Gifu genome v1.2.

ATGCTGAAGCTCATTTCATCATCGCACATCCACCGCCTCACCCCCGCCGCCGCAGCTCCGGTGCTCCGACCCATAGCGGA GTCCGCATCGCCGATGCATAGACTGCTCAGTTCTCTCGGTCAGAGGAGCGGTAATTTGGGAGGCAGGTATTTTTTCTGTT CGGACTCCAGCGACGGGAACGATCCTGTGGTTGACGCTGAGGTCAAAACGGCTGAGGACGCACCGTCTAAGGCATCCGCT ATCGTTTCCACGAATCCCAGACCCGAAGATTATCTCAGCGTTCGTTTCCCTTACTGTTTTTAGTTGCTGAGTTGTTTAAT TCAAATGATATGTGGTTGTTTGGAAAATTGTAATTCATGGAGAGGATTGATGTTTATGATGCAAGTGAAATTTGTGATGT TATGGGTATAGATAGGTATGGTTTGCTATTTGATTGTGTTAGCAAAGTGTAGCCAAAATTGCTTGCTCATTATCATTTCA AGTCTGAAGAACTCAACTGTTGTTTCTGGCTTTTTCGCTGGGGATTTCGTTAGCTGAGCCGAAATGAAGTGTGTTTAAAT TTAGCTTAGATGTTATTATCATTGTGGTTTCTGCTTTCCATTGCTTGTTGTAAATGTTGTTATCCTACTAAGTAATGTTG CTTTCACACCCCTCTTTGGGGTGGAAAGAGGTGGAATGAAGAGAGAAAGTATGAGATGTGATAAATGATAGGAGGAGAGA GATTGAAATAAAAATGGGTGAAAATGGAGTGTATAAAAAATTAGGTGTGAACGTATCATTGTTGTTATCCTACTTCATAT TTAGTCTGTTCCGAGTTACTTTTGGTGTCTCTGTGATGCATTATGTTATGCAGTTCCCGCACCCTACCCTGGAAATTTTA CTAGGAACATATCAAACAGTATGTTCAGCGCTTGTTAATTGTTTTTTATGTTTTGTAAACAAAATAATTGTAGCTTATGA ACGATATTTCATTTCCTATATCGCTATATTTTCCTTGTACTTGATCACTTATAAATATTGTGAATGTTTTTTTTTCTCCT TTCCTCTGGAACAGGTTTTGGCATTACCATTGCATCATAGACCACTTTTCCCAGGATTTTACATGCCGATCGTTGTTAAG GTATGGTTCTTTTATCAAGAATGATGAGTTAAATCTCTTTATTTTCTCTTTACATGCTTCTGGCTTTACCATATGAGAAT TGTAGTCTCTGGTCAGTGCATGTTGTATTTGTGAGCTAATTGGTTATATGTGAAATGGAAGTATGGTTGTCTAAATTCTA ATTTCTAATTAATATTCCGCTACGCATCTAGGATCCAAAAATGTTGAAAGCTCTACAAGAAAGTCGGGAACGGCAAGCCC CTTATGCCGGTGCTTTCCTTGTTAAAGATGTGCCAGATCCTGATCCTAATGTAGTATCTAGCTCCGACACAGAGAAAAGT GTACATGATTTAAAAGGAAAAGAGTTGCTTAACCGTCTTCACGAAGTTGGGACTCTTGCTCAAGTATGTGAATTTTATGC AACTTATTGTATAGCTTTATAAGCGCTTCAAACTTTGTCACTAATCTCCTTTTCAATACCAGATTACAAGTATCCATGGG GATAATGTGATTCTGATTGGTCATCGGCGTCTCCGCATAACAGAGATGGTAAGTATTAAAAATATAAAATAATTCGAATT ATCAAGATTAGTTTTTGATTTTTTTGTGCCGTTCTGTCCATATTTTTGCTTTAGTTTTGTTCACAGGGATTTATTTCTGA TAATTATTTGTGTATATGTGAATGAAATTCTTATGTTTGTTTGACAATGAAAACTTATCTTTTTTTGGCAGGTTAGTGAG GATCCGCTTACTGTAAAAGTTGATCATCTAAAGGTATGTCTTTACCTATCGTTTCTTCAGTTTGTATTATTTTCATTATC GTGGAATTTCTCTTCGGCATTCTTATTTGATAAGCCTCTTGTTTCATTTTTTTAAAACTACTTTTACTTGCTTCTACAGG ACAAACCTTACAACAAAGATGATGAGGTCATAAAGGCTACAAACTCTGAGGTTATATCAACCCTAAGAGATGTTCTTAAA ACAAGTTCCCTTTGGAGAGATCATGTTCAAACATACACTAAGGTTTGCACTTTGCACCCTTCTTTTAATGTGTTCATTGG AATATGGGAATGGGGGGAGGGGATTGAAGCTGTCCTTTGTTTGTGTGCCTAGTTTTGTTTGCATATTGATTTGCTTGATT TTTCGGAAGTTTGAATGTAAACTTCAAAGTTAAAACTATTTGATTAAATGGGGTTCTCTTTTTTCCTTTTTGTATTGCAA AAAACTCCCCAACGAATTGCCCTGCATCGCATCTTCCATGCAAGCAGCTCTAACACTCTTCCTTAGGCTAGACCGTTTCA TTTTCGTGTCATACAGTCTGATCAAATATGGAAATTAGTTAATGTTAAATCGTAATGACAATTTTCCACCAATCGTAGAG GAGGTAGAATAGAATGAAGAAATAGAAAATACTAATGAGGAAAAGGAAAGGAAATATTAGGCAGAGAGTGGGTTTTATAA TTTTAACTTCTAAGAGCCAAATTTTAGATATCTTGATAACAATGAACCTATGTTTTATTAAGTCTTTGGCTGCACTATTA AACTAGTTTCTTGCAGTTGTCTTACAGAACAGTTCAAAGTGGAATTTATGGATTCTTGAGTACCACCTTTTTGGCGTACG CTCTTGAATTAACATTATCATATAATGATATAATATTCAGAAGAGCAAAACAACAGGATGAGGATGATGAGTTTGGTTGT GTTTTTGCTGCCTTTCACATGTTTCGTCACTTCCCTATGACTTTTTCACCATGATTGTCGAACATTGGGTCCAATGAGAT CGGATCCTCATATAAGGGCCTTGTGTCCTTTACTTTTTCTGCAAATCCCAGCTGTAGAGTAAAAGACTATTTAAACTGAT TTGCTGTTGTAAACATTTGGTTTTGTTGTCAAAAGCTCCATGATCTTCGTGTCAGTCAGCCTATTCCCAACATATATGAT ATTTTACCTGTTTGTGAAAAAAAATCTGTTTAATGAAATAGGAGAATAATGTAACTATTGTTCTGTTCTACAACCTACAA TAGTGTAAGTGTGTAGCTAATATTCTGTTTAACAACCTACAAGAAATTAAATAGACTGTAAATTTTCAAAGAAACTAATG GACTATGCATCATTACTTTTCCCACAAGCATGAATGAATTTGAAAATATTAAATAAGTGCCTCTCCTGTAATTTTTTATT GCTTGAAAATACAATGCAAATAATGATGCTATCTGAATTCTGAAGTACTGATAGTTGTTACATGGTATGATATTGAATCA CCTGTCATTACTTCACTTTTATTATCGGTGTGTGGTTAAGAGTTTTAAAACGTCAACCTACACTAATATTTATGGAACAC AATTGCTCCATCCATGTTTTTTCCCCGATTATGGTGTTTTCCGGTTTAACTTTCTTGGAATGCAGCAAAACGTAAGTTTG ATGGTAAACCAATCATACGCTATGTTATTAAATTGACTTTTTTTCTTATATTGTGCAGCATATAGGTGATTTTACTCCTT CAAGAATTGCAGATTTTGGAACTGCGATATCAGGAGCAAACAAATTGCAAAGCCAGCAAGTTCTTGAAGAGCTAGATGTG AGTACCGAGTGCATTTGTCATTGACACTAGTAAACTCTGGTTTCCCACTATTTTCGCGTGCAGTAAGCCGGTAACAAGAT TTGATCTCATGGGCCAGACCTTCTCGAAATTTGATGATCTCTATTACCGCTGACTTGATATATAGTGGTGATCATATGGA AAACTCAAATTTTCATGTTTAAAGGTGGTGCATTTTTTGTTTGTTTTGAACAGGTGTATGAACGACTTAAACTTACACTG GAGTTGGTAAAGAAAGAGATGGAAATCACCAAGATTCAAGTAATAATGTCTCGGCTATCTTTAGTGTACTGCAGTGATTT TTTCATCTTATATTGAAGCTTGTGTTGATTCTTGTCAGGAATCAATAGCAAAAGCAATTGAAGAAAAGATAAGCAATGAG CAGCGTCGTTTTTTGTTGAATGAGCAGCTTAAGGCCATAAAGAAGGTACAAGCGATGCTTTGATTTGATAAGTGTACTTC AAAACCGAAACAAGCTTGTATTTCTCTCATATCAACAATACTTTTCTTCAGAAAATTGGTTCATTATTTCTTTTGATGTA GTTTCTATCATTAATTTATCCATGGGCCATGAGATACTGCTTGATGTAACTAAATGCTGAGAAAAATGCTGGTTGAGCAT ATCTGTTACATTATTGGTATCATTCTTTGGAAGTCTCAGATTTTAGAATACTATGATGTCCAATCAGAGGACACTGTCCT AATGTCTATCTTTTTCGTAGGTTTTATATTTTATCCTGTGGTCTATAAAGTTTAGGTGTCAATATAGGCCTTTGGTCTTG CTGGTGGCATTTATCCTAACTTGAATGCAGTTATAACTTATAAGTAATTACGAATGATATGCTTTGCTGAAGGCTCAACT ATTTGGGGGTGATCTGAAACTTATTTTCTTTTCATTGGGATTTTTTCCCCTTTTTGCAGGAATTAGGACTGGAGACTGAT GACAAAACAGCTCTTACTGGTTTGTTCTTCTTGTCTATAATATCTGTTTTTATTTCAAGATAGTGGATTTCTTTTATTTA CTTATTTCCTTGCTTAGTGGACTGATGTTGTGTGCATACAAGTTGGCTATGACACTGTAGCTTTGTAGGGCTTATCTGTT TGATTGAAGTCTTTCTGTCTTCCAAATTACTAAAAAATGTTCAGCTGACTGGTTTTTTTAACCCTCTTTATGTTTCTCTA CCAATATCTTTCAAATAATTATATCCTATAGTGATATAAGAATGTTCTTCATATTATACTTTTTATTTTATTTTGTTTTA AGCTTGTTATTGTAGCTTCTAGTTGTTAGTCCACAAACTAAAATGTTTGCTAGGGTGTACTTTCTCCTGAAACTCATTGC TATTATAACATGAATTTTTCTTTTTGTTTCAGCTAAATTCAAGGAAAGGATTGAACCAAAGCGAGAAAAATGCCCGCCTT ATGTTTTACAAGTTATAGATGAAGAGCTCACAAAGCTACAGCTATTGGAGGCTAGTTCTAGTGAATTCAGTGTTACCCGT AACTACTTGGACTGGTTGACTGCACTGCCTTGGGGTGAATACAGGTTTGCGACTTTGCGTACATAGAATTTCGTTCTTAC CACCATTGCTGGAGTAATTTAAATCTATTTAGACTTCAATGCATAACCATTGAGGTGGCTAGGTGTATTTGATACTTTAA AATTAGGACAGCTTAATTTTCAGAGATTTTTGGATGAATTTAGCTTAACACTACCTAAATAATGGAAGAAGTATGAAGAT TTTAAAAAATCAGGTGAGCTTTTTTTTTTTTCTAACTTGTCCTTAGATTTGATACGACGAGAACTAAACTCCATTTAACT AATATTAAACTAGAATTTCACTTTCATCTTGCTCTATCACTTAAAAATTCAACACTAATTGTCACTTTTAACGTTTCGTT AACTTAATTTCATATTTATGATCTAGGATAGTTAAAAGATTTATATATCTTGTTACATATCCATATTCCATACGAACACA ACTTACAACAGAGAACTAGAACTAGTTGGGAATTCTATAAGGACCCTGAACTCCCTTGCGCTTGACATACCTTAGCTTAA TTAAATAATGCATCAAAATAAATACATACACGGTATAAAGACTCTTACAAAAGAATAGCAGAAAACTGAATATTTTCTGC CTCAAGGTTTGCTGTATGCTTTCGTGCCCATGGGACCAAGGAGCTTGCATTATGGCTGCAATTTGCAATCACTACTTTCA ATGTGATTTTTGTCCTAGGGAGCATAACAGTAATAAAAAAGTTTATGAAAACTAGTTACACTCGGATAAGTCCCAGAGAT GACTTAAATCCTTACATACATTCACAACTTAATCAAACATATCAGTTCTTGCCAACGGAAACACATGCCTCTTACCTTCT ATTTGGATGGAAATCCTCAGACACACTGCTCGCTTATGTAATTCCAGCCAAGCAGTGGTGCTTTCCTGTCAGGCCGTGCT ACCCCTGAACCCATCTCCTCTGTTGTTCACGTTCTTTGTTCTGCACTCATCTGCTAATCTGTTTTTCTTTCTTTCTCAGT TTGCCTTTTATCTGTATTATGTAACTATTGTTTTGTTACCCACTCAATTTGGTTGTACCAGTTTTGTCTTCACATCTCTG TCTGTTTTTGCGTTCTGACTTCTTATTGATCTAAAACTTCTGTGTTCAACTTAAAACCCACAACTATTGATTATTAATTA TGATTATAAACATATCTTCAATTTGAATATTTTATACTTTTTGAAAATTTATGTGTAATATAGGTTATTTAACATATGTC TAAATTTTAATGTAGTGGTTATCCTTCAATCGACTATCCAACTAGAGCAGTTTTGGGATTGGCCACTATGTGCTGCTAAC TGGGATTGATAACTACGAACCAGATTTCATTAGATACCTATGTTCTACCTTTATCTCTTACAATACTCATAGTATATGCA TGAGTAAAGTAAGAGGGTAGAGTAACATTCCATTTTTCATGCAATTTCGCATTTAGCATATGTGAATATTGGGAAACTAG AATAATGTATCCCAACCAGTTTTAGCATTGCAAAACAACCTAATCCTGGCCAACTCAAAGCACCACAACCGTGTACTTGA GGGAGCACAGCTGTGCTACTGGAATAGTGATGAACATGATTGTGCTTTAGCATAGAGCATGGTTAATTCCCAGGTGCGAA TATGTAGTTATTTTCTCTGTATAACCAGCGAAAAACACCAATACCATCATTACTTTATTATACAATTCAAATCATGAAAA CAGATTCAAAGGATTGAATTTCACAAACCCTATCCCACTATAATCGTATTCATACTGAACCATGACCCAAACATAAATCT TTGAACGCCAACCAAAACTCAAACTTACTCTTATCATAAAGACGCCCCAAGTCTTGGAATTTGAGGTTGAATAAGTTATA ATGACCTTGAAAAATCAAGGGTTTGTTGGGTACGAAGCTTGCCAAGCTTCCTCAGTTGAAGTTGTTGATTCTCTATATCT CCACCTCTGACCTTCAAACTCTTCTCCCTCTCCCTTTTTGAGTTTTTTGACTGGTTTCTGCTACACTTAACCCACTCCGG CACCAAGTCCCCTCCTTCCCTTGCAACTTAATCTCATCATCCAATTTGGAACCACATCCCTCTAAATTTTGAAACAAAAG GTCTTTAGTTAAATTTAACTGTATGTTAAGGGTCTAGTTAGTCAATTTGATTAAGAGTTGCATCCATATAGTACACTTAT AAACTTAAAACTTACATCAGTTAGGAAAGTTGCCAGTTAAGAATTTCGGGGATGTTACATTAAGGGTTTTAATTTTGTGA GTTATAGTCTTTTATATTTTAACAACAAACTATTTTGAATCTCAAGAATTTCAATCTGTTAATTTTCCAATCCAGTGACG AGAACTTTGATGTTATTGGGGCTCAAAAGATTCTTGATGAAGACCATTATGGATTAACTGATGTGAAGGAAAGGATATTG GAATTCATAGCTGTTGGGAAATTGAGAGGATCTTCACAGGGTAAGCGCATGTTCATCTATGTAATGTATCCTAAAGATTT ATATTGGAGGTTTAGTGTGTGCCAAATACTACATTGCTAAATATTGATTTGAATTTTAATGTCTACCAAATACTATTTCT ATCCTTTCTTGAAGCAGGTGAGATGCTTTCATGAAGTACTTTCTAAGTTACCATTTATCTTGATGCTTGATTCTAATTTT ATGTATTCCTACATAGAACATTCTATGGTAGGATGAACCTTCTGTGGAGTATGGTATAAGTTTTTTCTACTGGTATAAAT ATGTGAAATTTGAATATTAACTTAAAATATTACAGTCTTGCTTGACATGGTCAGACTTTGAAATATTTTTTTTTTTTTTA GTTTAACGAAGGCAAACTTACTCAGTTTTATGTATTTTGTGCTGATTATTGTTAAAAAGGTTCTAAGATCTTGGCTGTAG TGTGCTAACCCATTTATTTAATGTTTAATCCTTTGGTGCTTATTGTGTTTGCATGTTCAATAAGTGACATGGTCCTTTAT CTTTCTCAACCTTGCAGGGAAGATTATATGTCTTTCTGGTCCACCAGGAGTGGGCAAAACAAGTATTGGCCGTTCAATTG CACGTGCCTTGAACCGTAACTTCTTCCGATTCTCTGTAGGAGGATTAGCTGATGTGGCTGAAATCAAGGTAGCTAAAGTA TTTTTGTTTCCTTCACAAGGTTGAATTATTTACCTGGTTTATAACAACATAATGTTTTGTATTCTTAATATTTTCTCTAA CAGGGGCATCGTCGAACCTATATTGGTGCTATGCCAGGGAAGATGGTGCAATGCCTTAAGAATGTTGGAACAGCCAATCC TCTTGTTTTGATTGATGAGATTGACAAAGTAATACATTGCTGGACGTTCACTTTTTTTGTGGATGAGTAGCCTTGTTTTC TGATTTCCCATTCTATTTTCTATTGCTATAGGTTCCCCTGACCCTAATAAAATAATCTTTGAATTTCGACTGTATTAAAA TTTCTATAGTTTCTAATCTTGTAAATCTTTTCTAAATATGATGATTTTACACTCTCTTACTATTGTTTTTTTATGGGTAG TTGGGCAGAGGGCATGCTGGTGATCCAGCAAGTGCTTTGTTAGAGCTTCTGGATCCAGAGCAGAATGCGAATTTTCTGGA CCACTATCTTGACGTTCCTATTGATCTATCAAAGGTATAATCTGGTGCATTAATGATGAGGTTATAGAAATGGAAGAGTC ATCATTTTTCATGGTTTATTTATTATATGTTCATTGCCGATCTAAAATGACTTGTTGTATCTGTCTATAGCGAGGTCCTT GGGTAATAAAATAGTTCTTGAATGTATAGCTTTCATTCAGTGCCTTGGAGGCAGGCATATTCTAAATGTTTTTAGCATGG TGACTCATACATTGGAAATTTCACTGCAGGTTCTTTTTGTTTGCACTGCAAATGTTGTGGAGATGATACCCAATCCTTTG TTGGATAGGATGGAGGTTATTTCTATTGCTGGGTATATTACTGATGAGAAAATGCACATTGCTAGAGATTATCTGGAGAA GAGTACACGTGAAGCATGTGGAATAAAGCCTGAACAAGTATCTATCTTTTCCACCTGTTTTTGATTTCTTTTCCTGCAGA TATTGAATATTCGAGTCTATTGCTAGGCTATCAAGATGATGCCATTTTTTATTGCCTTTTATTTGTTCATTTTAATTGGC TTAAAAATATTGACTACGAAAATTAAATTGCTTCAGGTGGAAGTGACTGATGCTGCTCTTCTTGCTCTAATAGATAATTA CTGCCGAGAATCAGGTGTTAGGAACCTTCAAAAGCAAATAGAGAAAATTTACCGAAAGGTTTGTCGATGTAATTTTTTTA GGTCAACAGTGTCAAACTTTCAGGTTGAAAAGACATGGTTGAAACTCTTGATCTGTTTTTTTTGAATTTTTTTACTTCTA GTTCATCACTATATATAAATTTAAATTCAGTAAATGCTGCAGTTATATGTGGCCTAATGTTCTGTTTGTGGGATGGCAGA TAGCACTACAACTTGTGAGGAAAGGGGAAGAAATTGATGCTACTGTTGCTAGTTCTCAGTCTTCCGAATCCAAGAAAGAC AAAGTAGATTTTGATGAATCAAGTTCAAACACCATTCAAAAAGAGAACTCTAAGTTAGAAGAGAGTAGTAATCCTGAACA AATGGGCGAAAGTGAAACCTGTGAAGAAGTTGACAAGGTGCAAGCAGTACCTGATGATCAATCTACAGATACGGAGGTAA TTTAACACTCCGGAAAACTGAATCATAATTAACTCTTTTAAAAAAGGGATCTTCTTTTCTGAAGTTGATTGAATGAGCAA GAAAACAGACCTACTAATGCCAAATGTTAATGAGACCTTGAGAAGTTACAAAGTGTTTTTTTTTTCTGGCATCTGAAATC TTTTTGTGCTCCAATAATCACTACGCAAACTTTGTAATTTATGTTTTGCCCCGTGAAACCTGGCAAGTGTTTTTGTGGTG GTCCTACAGCCTCCAGTTCACTCATGTGATATTATAATTTGGCAGGTTGCAAAAGAAAGTGAGGAAGAGAAGGAAACTGA AACAAAGACTATTGAAAAAGTATTAGTTGATGAATCAAACTTAACTGATTTTGTTGGCAAGCCTGTGTTCCATGCTGATC GCATCTATGATCAGACACCTATTGGGGTTGTTATGGGTCTTGCATGGACTTCAATGGGCGGTTCGACGCTGTATATAGAG ACCTCATTTATTGAGGAAGGGGAGGGAAAAGGAACACTGCAACTCACTGGTCAATTAGGAGACGTGATGAAAGAAAGTGC TCAGATTGCTCACACAGTTGCCAGAGCAATACTACAGGAGAAAGAACTAGAAAACCCTTTCTTTGCAAATGCAAAATTAC ACCTCCATGTTCCTGCAGGGGCTACACCAAAGGACGGACCCAGTGCTGGTTGCACGATGATCACTTCTTTGTTGTCCCTT GCCATGAAGAAGCCTGTGAAGAAGGATCTAGCAATGACTGGGGAAGTAACACTTACAGGGAAGATTCTTCCTATTGGCGG GGTATGTAGAGAAATACCATCTATTGCAAAATTATTGTTCACTATTTTTAGATTCAGAAACTTCTCTGCATCTCCAGCTT CCTCTGATTTTATAGTTATGGAATTTCTTTTAAAGGACTATATTTATTTTCAAATTTTCATACAAATAAAGAGGATTTTA TAAATGAGATATTCTCCTGCTTTCATTATCATTCACCAACAAATTACATTAAGAATAAAAGAAAATAAAGTCCTGTAGTT CATCACTCTATTTTGTGCTAAGAATTTCTTTTTTCACTTTTTTTTTTTGTTTCTAAAACTTCCGTTCATGCAATGATGTG GAAATTGCAGGTTAAGGAGAAAACCATAGCTGCGAGAAGGAGTGGTGTTAAGACTATAGTGTTCCCTTCGGCTAACAGGA GAGATTATGATGAGCTAGCACCTAATGTGAAAGAAGGTCTTGATGTTCATTTTGTTGATGATTTCAAGCAGATATTTGAT TTGGCTTTTGGCGATGACTAGTCTCAGAATATAGACAAGTAA
Download Genomic Sequence

CDS sequence (LotjaGi5g1v0229900.5) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCTGAAGCTCATTTCATCATCGCACATCCACCGCCTCACCCCCGCCGCCGCAGCTCCGGTGCTCCGACCCATAGCGGA GTCCGCATCGCCGATGCATAGACTGCTCAGTTCTCTCGGTCAGAGGAGCGGTAATTTGGGAGGCAGGTATTTTTTCTGTT CGGACTCCAGCGACGGGAACGATCCTGTGGTTGACGCTGAGGTCAAAACGGCTGAGGACGCACCGTCTAAGGCATCCGCT ATCGTTTCCACGAATCCCAGACCCGAAGATTATCTCAGCGTTTTGGCATTACCATTGCATCATAGACCACTTTTCCCAGG ATTTTACATGCCGATCGTTGTTAAGGATCCAAAAATGTTGAAAGCTCTACAAGAAAGTCGGGAACGGCAAGCCCCTTATG CCGGTGCTTTCCTTGTTAAAGATGTGCCAGATCCTGATCCTAATGTAGTATCTAGCTCCGACACAGAGAAAAGTGTACAT GATTTAAAAGGAAAAGAGTTGCTTAACCGTCTTCACGAAGTTGGGACTCTTGCTCAAATTACAAGTATCCATGGGGATAA TGTGATTCTGATTGGTCATCGGCGTCTCCGCATAACAGAGATGGTTAGTGAGGATCCGCTTACTGTAAAAGTTGATCATC TAAAGGACAAACCTTACAACAAAGATGATGAGGTCATAAAGGCTACAAACTCTGAGGTTATATCAACCCTAAGAGATGTT CTTAAAACAAGTTCCCTTTGGAGAGATCATGTTCAAACATACACTAAGCATATAGGTGATTTTACTCCTTCAAGAATTGC AGATTTTGGAACTGCGATATCAGGAGCAAACAAATTGCAAAGCCAGCAAGTTCTTGAAGAGCTAGATGTGTATGAACGAC TTAAACTTACACTGGAGTTGGTAAAGAAAGAGATGGAAATCACCAAGATTCAAGAATCAATAGCAAAAGCAATTGAAGAA AAGATAAGCAATGAGCAGCGTCGTTTTTTGTTGAATGAGCAGCTTAAGGCCATAAAGAAGGAATTAGGACTGGAGACTGA TGACAAAACAGCTCTTACTGCTAAATTCAAGGAAAGGATTGAACCAAAGCGAGAAAAATGCCCGCCTTATGTTTTACAAG TTATAGATGAAGAGCTCACAAAGCTACAGCTATTGGAGGCTAGTTCTAGTGAATTCAGTGTTACCCGTAACTACTTGGAC TGGTTGACTGCACTGCCTTGGGGTGAATACAGTGACGAGAACTTTGATGTTATTGGGGCTCAAAAGATTCTTGATGAAGA CCATTATGGATTAACTGATGTGAAGGAAAGGATATTGGAATTCATAGCTGTTGGGAAATTGAGAGGATCTTCACAGGGGA AGATTATATGTCTTTCTGGTCCACCAGGAGTGGGCAAAACAAGTATTGGCCGTTCAATTGCACGTGCCTTGAACCGTAAC TTCTTCCGATTCTCTGTAGGAGGATTAGCTGATGTGGCTGAAATCAAGGGGCATCGTCGAACCTATATTGGTGCTATGCC AGGGAAGATGGTGCAATGCCTTAAGAATGTTGGAACAGCCAATCCTCTTGTTTTGATTGATGAGATTGACAAATTGGGCA GAGGGCATGCTGGTGATCCAGCAAGTGCTTTGTTAGAGCTTCTGGATCCAGAGCAGAATGCGAATTTTCTGGACCACTAT CTTGACGTTCCTATTGATCTATCAAAGGTTCTTTTTGTTTGCACTGCAAATGTTGTGGAGATGATACCCAATCCTTTGTT GGATAGGATGGAGGTTATTTCTATTGCTGGGTATATTACTGATGAGAAAATGCACATTGCTAGAGATTATCTGGAGAAGA GTACACGTGAAGCATGTGGAATAAAGCCTGAACAAGTGGAAGTGACTGATGCTGCTCTTCTTGCTCTAATAGATAATTAC TGCCGAGAATCAGGTGTTAGGAACCTTCAAAAGCAAATAGAGAAAATTTACCGAAAGATAGCACTACAACTTGTGAGGAA AGGGGAAGAAATTGATGCTACTGTTGCTAGTTCTCAGTCTTCCGAATCCAAGAAAGACAAAGTAGATTTTGATGAATCAA GTTCAAACACCATTCAAAAAGAGAACTCTAAGTTAGAAGAGAGTAGTAATCCTGAACAAATGGGCGAAAGTGAAACCTGT GAAGAAGTTGACAAGGTTGCAAAAGAAAGTGAGGAAGAGAAGGAAACTGAAACAAAGACTATTGAAAAAGTATTAGTTGA TGAATCAAACTTAACTGATTTTGTTGGCAAGCCTGTGTTCCATGCTGATCGCATCTATGATCAGACACCTATTGGGGTTG TTATGGGTCTTGCATGGACTTCAATGGGCGGTTCGACGCTGTATATAGAGACCTCATTTATTGAGGAAGGGGAGGGAAAA GGAACACTGCAACTCACTGGTCAATTAGGAGACGTGATGAAAGAAAGTGCTCAGATTGCTCACACAGTTGCCAGAGCAAT ACTACAGGAGAAAGAACTAGAAAACCCTTTCTTTGCAAATGCAAAATTACACCTCCATGTTCCTGCAGGGGCTACACCAA AGGACGGACCCAGTGCTGGTTGCACGATGATCACTTCTTTGTTGTCCCTTGCCATGAAGAAGCCTGTGAAGAAGGATCTA GCAATGACTGGGGAAGTAACACTTACAGGGAAGATTCTTCCTATTGGCGGGGTTAAGGAGAAAACCATAGCTGCGAGAAG GAGTGGTGTTAAGACTATAGTGTTCCCTTCGGCTAACAGGAGAGATTATGATGAGCTAGCACCTAATGTGAAAGAAGGTC TTGATGTTCATTTTGTTGATGATTTCAAGCAGATATTTGATTTGGCTTTTGGCGATGACTAG
Download CDS Sequence

Protein sequence (LotjaGi5g1v0229900.5) extracted from Lotus japonicus Gifu v1.2 Proteins.

MLKLISSSHIHRLTPAAAAPVLRPIAESASPMHRLLSSLGQRSGNLGGRYFFCSDSSDGNDPVVDAEVKTAEDAPSKASA IVSTNPRPEDYLSVLALPLHHRPLFPGFYMPIVVKDPKMLKALQESRERQAPYAGAFLVKDVPDPDPNVVSSSDTEKSVH DLKGKELLNRLHEVGTLAQITSIHGDNVILIGHRRLRITEMVSEDPLTVKVDHLKDKPYNKDDEVIKATNSEVISTLRDV LKTSSLWRDHVQTYTKHIGDFTPSRIADFGTAISGANKLQSQQVLEELDVYERLKLTLELVKKEMEITKIQESIAKAIEE KISNEQRRFLLNEQLKAIKKELGLETDDKTALTAKFKERIEPKREKCPPYVLQVIDEELTKLQLLEASSSEFSVTRNYLD WLTALPWGEYSDENFDVIGAQKILDEDHYGLTDVKERILEFIAVGKLRGSSQGKIICLSGPPGVGKTSIGRSIARALNRN FFRFSVGGLADVAEIKGHRRTYIGAMPGKMVQCLKNVGTANPLVLIDEIDKLGRGHAGDPASALLELLDPEQNANFLDHY LDVPIDLSKVLFVCTANVVEMIPNPLLDRMEVISIAGYITDEKMHIARDYLEKSTREACGIKPEQVEVTDAALLALIDNY CRESGVRNLQKQIEKIYRKIALQLVRKGEEIDATVASSQSSESKKDKVDFDESSSNTIQKENSKLEESSNPEQMGESETC EEVDKVAKESEEEKETETKTIEKVLVDESNLTDFVGKPVFHADRIYDQTPIGVVMGLAWTSMGGSTLYIETSFIEEGEGK GTLQLTGQLGDVMKESAQIAHTVARAILQEKELENPFFANAKLHLHVPAGATPKDGPSAGCTMITSLLSLAMKKPVKKDL AMTGEVTLTGKILPIGGVKEKTIAARRSGVKTIVFPSANRRDYDELAPNVKEGLDVHFVDDFKQIFDLAFGDD
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.

Merging data from EBeye. Please wait…

Domains

Sorting

Prediction algorithm Identifier Start End Length E-value InterPro ID
SignalP_GRAM_POSITIVE
SignalP-TM
1 18 18 -
Hamap
MF_03120
6 953 948 70.879
IPR027503
PANTHER
PTHR43718
13 704 692 0.0
IPR027065
PANTHER
PTHR43718:SF7
13 704 692 0.0
PIRSF
PIRSF001174
80 704 625 7.2E-182
IPR004815
Gene3D
G3DSA:2.30.130.40
82 214 133 4.1E-13
SMART
SM00464
93 303 211 2.9E-49
IPR003111
Pfam
PF02190
94 303 210 6.2E-34
IPR003111
ProSiteProfiles
PS51787
94 303 210 29.726
IPR003111
TIGRFAM
TIGR00763
96 950 855 0.0
IPR004815
SUPERFAMILY
SSF88697
97 302 206 9.69E-15
IPR015947
Gene3D
G3DSA:1.20.58.1480
220 346 127 5.6E-25
Coils
Coil
291 320 30 -
Gene3D
G3DSA:3.40.50.300
419 595 177 5.9E-64
SUPERFAMILY
SSF52540
420 667 248 1.23E-45
IPR027417
CDD
cd00009
435 598 164 1.88499E-14
SMART
SM00382
452 597 146 4.4E-11
IPR003593
Pfam
PF00004
456 593 138 4.1E-21
IPR003959
PRINTS
PR00830
460 479 20 3.3E-53
Gene3D
G3DSA:1.10.8.60
596 688 93 7.1E-25
MobiDBLite
mobidb-lite
673 740 68 -
MobiDBLite
mobidb-lite
695 716 22 -
PANTHER
PTHR43718
711 953 243 0.0
IPR027065
PANTHER
PTHR43718:SF7
711 953 243 0.0
PIRSF
PIRSF001174
713 953 241 6.1E-85
IPR004815
MobiDBLite
mobidb-lite
718 740 23 -
Pfam
PF05362
746 950 205 1.9E-76
IPR008269
Gene3D
G3DSA:3.30.230.10
762 953 192 1.9E-87
IPR014721
ProSiteProfiles
PS51786
768 952 185 83.619
IPR008269
PRINTS
PR00830
771 787 17 3.3E-53
SUPERFAMILY
SSF54211
771 950 180 3.3E-50
IPR020568
PRINTS
PR00830
852 871 20 3.3E-53
ProSitePatterns
PS01046
855 863 9 -
IPR008268
PRINTS
PR00830
882 901 20 3.3E-53
PRINTS
PR00830
905 923 19 3.3E-53

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 , while the GO metadata was last updated on .

GO term Namespace Name Definition Relationships
GO:0004176
Molecular function ATP-dependent peptidase activity Catalysis of the reaction: ATP + H2O = ADP + phosphate, to drive the hydrolysis of peptide bonds.
Subterm of
GO:0004252
Molecular function Serine-type endopeptidase activity Catalysis of the hydrolysis of internal, alpha-peptide bonds in a polypeptide chain by a catalytic mechanism that involves a catalytic triad consisting of a serine nucleophile that is activated by a proton relay involving an acidic residue (e.g. aspartate or glutamate) and a basic residue (usually histidine).
Subterm of
GO:0005524
Molecular function ATP binding Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.
Subterm of
GO:0006508
Biological process Proteolysis The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds.
Subterm of
GO:0006515
Biological process Protein quality control for misfolded or incompletely synthesized proteins The chemical reactions and pathways resulting in the breakdown of misfolded or attenuated proteins.
Subterm of
GO:0030163
Biological process Protein catabolic process The chemical reactions and pathways resulting in the breakdown of a protein by the destruction of the native, active configuration, with or without the hydrolysis of peptide bonds.
Subterm of

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Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0229900.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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