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| Field | Value |
|---|---|
| Gene ID | LotjaGi4g1v0191600 |
| Transcript ID | LotjaGi4g1v0191600.5 |
| Related isoforms 6 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Lon protease homolog; TAIR: AT5G47040.1 lon protease 2; Swiss-Prot: sp|O04979|LONP2_SPIOL Lon protease homolog 2, peroxisomal; TrEMBL-Plants: tr|A0A072UQE3|A0A072UQE3_MEDTR Lon protease homolog 2, peroxisomal; Found in the gene: LotjaGi4g1v0191600 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:43836091..43847450) extracted from Lotus japonicus Gifu genome v1.2.
ATGGCTGAATCGGTCGAGCTTCCGAGTCGCTTGGCGATCCTCCCTTTCAGGAACAAGGTCCTCTTACCCGGCGCCATCAT CAGAATCCGCTGCACTTCCCCTAGCAGGTACTAATTTCATTTCCCACAAATTTTTCAATCAATCGGCATATCAAGTTTCC GAACATGGATTTTCGTTTCATGATTTTGCACTTGTGTTTATTGATTGATTGATTGATTTGATACCCTTTAGCTTGTTGTG GTTAATTTGTGGTTTTTTTCTCGCTTTCATTTTTGGTAATTAGTTGTGTTGTTGGGTCCAAAAGGTGATGACTGATGCAT AGGTTTGTACGGAGAAGTTTGAACCTGTATGATTTCTGAGTTTGTCTTTTAGCATTATTATGAAGTTTGACTGTTTGCTT GGCTAATGAATGTAGTGTGAAGTTGGTGGAACAAGAACTTTGGCAGAGAGAAGAGAAGGGGTTGATTGGCATCTTGCCAG TTCGTGATGCTGCTGCTGCTGAAATTAAGCAACTGGGTCCCACTGTATCTCAAGGTGATGATCAACTGGATTTTGCAAGT TAGTTTTGGAAGAACTTGATTTTATAAAATTGATTTTGGTTAAAAGTTATGTTTGGAAAGTTTTCCCTAAAAAGTAAGAT TGTAGTAAAATTCAAGCATAAATGCCAAAACTTCATTTTATCACTTTGACTCAAGGTTCAGAGCACTGTTATCAAATATC TGCCATGGCGGGTTCTTGGGATTCCCCCAGGGCCAATGTCCCGCCTTAATCCGCCATCATTTTTTGTCAAATATGGCGAG TTTTCGGCTCTCCGCATCGTCCGCCATTAACTGCACTATGTTAGAGTATCCAAGTCCCCGAAGGATAGCTCAAGTGGTAA GAGCTAGGGACATAAGGGTTGGGTGGGGTGAAGGGTGAAGGGTCCCGGGTTCGAACCTGGAGGAGGGATTAATTTACTAA CATTTCTAACAACTAACATTTGCCTATCAAAAAAAAAATGTTAGAGTATCCAAACATAAATGATTATCTGCTAAATCATG TTAGAGTAGAGTGAACATAATCTTGAAGGAAAAGGATGCTCAATTGTACTGTTTCACTGCATTAGGTGTAGTTGGTAATC CAACCATTAAAACTTTTTGAAACTTAGATTATATTATTGTAAAAAGTATAATATTCAGTGGTTGAGATCCTGTCCTGTGG AAAAGTCACTGGAGAGAATCCCTTCACAATTTTGAATGTTTAGGAAACTTATAAATTTGGTTTTCTAATATTCATTTTTA TTCTGCTTCTTTGCAGGTGCAGGAACTGATTTTCTAGACCAAAGCTCAAAAGTAAAAGACGGTTCATCAGATTCTCATAA GGCTGATACCAAAAAGCAGAATGATGGTGTTCATTGGCATAACAGGTATAGCTCAAGTAAATAAATTCCTTTCGTGTTAG TTTAAGAATCTTAGATCAAATTGCTTGATAAAAAAATATACATTCTAACAGTTCATCTGTCCATCTGCAGTCCATGTAAA GATGTATTCGTTAAAGATTTTTCCTGATGTTTTTTGATTTGGTTTATTGTCCTTTTCTTCTTCTTCTTCTTCCTCATATT TTTTTTTGACTGAACTGATGGCTTCTCTTTTATATTTATACTTTCAGATTTTTATAATTGTAAAAGCTTAATTTTCTAAT GCTGTATCGTAAATATTTTACTATCTTATGGATTTTGTGCAATATAAAATCTGCAAATCGAGGTTGATTTTAAAATACAT TTGACTCCAGAGGGGTAGCTGCTCGAGCATTACATTTATCAAGGGGAGTGGAGAAGCCAAGTGGAAGAGTCACATACATA GTAGTTCTTGAAGGTTTGTGTAGATTTAGCGTTGAGGAACTAAACACAAGAGGAATATATCATACTGCAAGGATTTCTTC CCTTGAGACTAAGACTGGTAAGTCAATCATTTTTCTCTTTGGCATTAACTTTTGTGCAGGCAATGTGTGCGTGTACATAT AGATATATAAATATACACACACACACATGCACACATATTATCTTTCTGGTTTCTGTGTAACAAATTTAAACAACAGAAGT TAGATAATAATTATAATATGCAAGAGTTGTATACCTGATAGTGATCTGCTCCCCCAGAAGTTTGATATTATTTTGTTATT AATAATTACATCACTATGTGGAGACTTATGCCTTCTACTTGATGTAAATATTATATATTACAGTGTTTTTTTCTTGCTAT TAATGCATAGATCATTCAAGCATGAACACTATAGTAATTAGGCAACCTTTCCAAATGTATGACGATGTCTGAGAACGCTG TGCGAAATGTTGATCTGATATATATTTGAAGATTCATAGGATGCAATCACTCACTTGTTGGAAACGATGTTAAAGATCAG ATAATGACGATAACATTAAACATTTTAATTGTATACCTTCTAATGAGGTAGGGGTATATGCGGGTTTAACTTGAAGTAGT TTGTTCTCTTTTTGTTCCCTTGTTTTCACTGACTACTTCGCCACATTTTAGGATTACGTAAAAAGTAAAAATGAATAACA GGGGAGCTCTGTTGATTTGATCACTGCTAAGATTTAATGCTTTTTTTTTAAGTTGTTGAGTTGCTTCTGTTTTTCTAATC TAGAGATGGAACAAGTAGAGCAAGATCCAGATTTCATATTGTTGTCTCGCCGATTCAAAGCAACTGCGATGGAGCTTATT TCTGTTCTGGAGCTGGTAAAGCTTGTAACTTGAACACTTCTTCTACATTGAATGAATAACTTGGAATTTCCATTTGAGGA TTGAGCTTTAGAATCCTTATAATTCTGGTTTGATTGGTTGAATAATATCTTGCATTCCATGTTTGCTTATAATATTTTTA ATACATACAATGATGCCTCTGCATTCTTCATATCTTGATAGCTTGTACATAGTCTAATTTTTTAGGTTGGGTAATGGACT TATGCTTTATAGTTATAAATTATTTATATGATTTTGGGATGCCATGTTTTCTTCGTTATATTTGTATTAGTAGCTAACAT TTTGTTTACAGAAACAAAAAACTGGTGGAAGGACAAAACTCCTTTTGGACAATGTTCCAGTTCACAAGTTGGCTGATATA TTTGTTGCTAGTTTTGAGATAAGTTTTGAAGAACAACTATCTATGTTGGATTCAGTTGACCCCAAAGTGAGGCTTTCTAA AGCAACTGAGTTAGTTGATAGGCATTTACAGGTAAGTAATAGAGTTAATGATGCTTGATGTGGGTTTGGTATTCTATTGC CTGTCTCTAATTCTACTCGTGTCTGTCTACTATCAACAGTCAATACGTGTAGCTGAGAAAATTACTCAAAAGGTTGAAGG GCAATTGTCAAAATCTCAAAAAGAATTTCTTTTGCGCCAGCAGGTTAGCTTTCTTGCTGCATTCTTTTTATATATTTGTT AAATATGAATATTCGCAAGGGTATATGGGCTACATTGATACAGATTATACCTTACTAAAAATAAATTACATGTTTCAAGC CAAAATTTCCAATGGCTACTAGCCTAGTATGATAGATGAAAAACCCCTCCACTAAGTATACCTCAGCTGAGCTCTAGCAA TCATTTTGCTCTAATAGTTTAAAATGGAGGGTAAGGAGGTGGAGATGTAAAGGTGGCATATGGAGAGTGGGGTGAAAGAT TCCAGAATGAATGGGGAGTAATAATACATATGGGGGAGGAGAATTGTAGAGAGGGGTATGGAAAAGCTGATGGAGGTTTG GGAGGGGGGTTGACTGCACATTGCAGACTTGTGTGTGAGTCATTCTGTTTTCCAGAGGGATTACCTCCTTTTTTAGGACC ATAGCTCCCTTTTATCTGCTGAATAATATCCAGAATTTTCAGTTCCTACTATTGCAAGGATTTAGATAGTCTTGGCCATC TCTGCCGCAGAGGAGCATTTTACAGCTTTGTTTATCTTGTTATCTTGTTTGGAATTTTATCTAATTGAATTTTTTTGTGC AAAATATATTTCAGATGAGGGCTATAAAAGAGGAGCTTGGTGATAATGATGATGATGAGGATGACCTAGCTGCCCTTGAA AGAAAGATGCAAAGTGCAGGAATGCCACAGAGTGTATGGAAACATGCACACAGAGAGTTGAGGTACTTTTTTATGGTTTT TTTTATAGGCAAATGTTAGTTGTTAATTGTTAGTAAATTAGTTCCATCGCCAGGCTTTGAACCCTGGCCCTTCACCCTGC CAATCCCTCCATTTCCCTTTTTTATGGTAACATTAACATAGTTAAATATGATGATTATTGATCTTTGTGGGCGAATTACT TGCTATAGATGTTTGGTAAAATAATAAAAAACAGGGATTGTATCTTAAGTGATTTTACAACCTTGTAGAGACAATCAGTT CATTTTACTATACTTTATATCTCAGGAGGATTAAAAAGATGCAGCCTCAGCAACCTGGGTACAACAGTTCACGGGTTTAC CTAGAGCTTCTTGCTGATCTTCCCTGGCAGAAGGCCAGTGAAGAGATAGAACTGGACTTGAGAGCTGCACAGAAGCGACT GGACAGTGATCACTATGGTTTAGTGAAGGTCAAGCAACGGATAATTGAGTACCTGGCGGTTCGCAAGGTTTCTAATTACC CTGTAACTATACTTGTAAGTATCTTGTGCTTGTGACATTTAATGTGTTTCTAATTTATGTATATGCGTGACAGCTTAAAC CAGATGCAAGAGGTCCTGTGTTGTGCTTTGTTGGACCACCAGGTGTTGGGAAAACGTCATTGGCATCCTCTATTGCCGCT GCTTTGGGTAGAAAATTTGTACGCATATCCCTTGGTGGAGTTAAGGATGAGGCTGATATTAGAGGACATCGGAGAACATA TGTTGGAAGCATGCCTGGGCGGCTTATAGATGGATTAAAGGTTAAACTGCACTTAAAATTTTGAACATTTCTTGTAATAG TGTCTGATGTGACATTTGCAAATACGTATTCTTTTGGTAGGTTTTATTTTTTTTATACACGGAATGCTTACATCTTCTTG TTTGCTAGTTTTCGTTCTAGTGAAAGAGACTTGAGAGGTAGTCAATATTAGGAGCAGGGAGCCGAAATCTAGATTCAAAA TGTACCGCAATGAAAATGGCGATTCAGTTAAAAATTAAAATAGCAAGAGAGCAATACATACAAGAAGGTTCAGTAATTTT TAGATTCAGACACTGAAGAAGTGCGTTGTTCAAGAACAACAACTAGACTTTTCCGCTTTTGCCATTAGATTGGATGAGCT ACACAGATCACATAATGCCATAATTCCCTATCCTGTGTCAAGTTCAAAGGTAGACTGCTTGATGGGTTGTTTAGAGTGAA CTAATACATCTACGAGGAATCAATACATATGACTGGAGTGTTAGATCAGATAAAACTCACTAATTCCAAAAAGTATTCAT TTGAAAAATTGAAATAAATAAGTGTTACACGTGTGGTAACAATATAGTAAAGAAAGATTTGGAAACAAGAACAATGTCAT CCTTGGCTTTTGTTTCCATAAAAGATAACATTAGTGACACCACCACTTCCATGAGTCAGTTTTAGAAATCAGAATCAGAT ATAAAAAGAAATTGGAGAGTCTTGAGTTATTTTTCCCTCTTTTCTATTCTTTTTTGGTTCAGTTGTTCCTTTGTCTCTCG AAGGATGTTGGGTCCTCCTATCTTGTAGTTTTCATTTCTCATAACAATTTTTCATCAAGGAGAGAAAGACAACTTAAGTC GAAGGTGTTAAATGTTCATATGTTACAAATAGTTTAGTAAATTCATGTGGCGGAGTTCATTTGTTCTCATGTGATCATAT GTTGTAAGGCTTCTTTTTTGTTGTCTAATGTATAAAATGCTTCAGATAGAATATGGAGGTCAATAAATAGTTTTAATTAG TGTAATCACGTGGCAAAGTTTTTAATTGTTTTAAGATCGTATATTTTTGTTTTTGCTTTGTAATAAATACCTTATCCATA TTTGCTAATTATGTGTCTCATATGAAAAGGGGCAGAAATACAAATGGAGAAGACATTATCTCAAATATTAGCACAGTACT TCATAATAAGTATTTTAAAGCTAACTATACTGATTTTTTTTTTGGTTCTTTCTCTACACATTATAATACATACTTGAAGT CTGCAAGGGCAAGCAAAAAGATTGGACCTAACAGAATATAATTTATAAAATTTAGTTTCTTGCCTTTTCTTTTCCACTGG GGTCCTAGACTAATGGATACTTTTCACATTTGATCGATGTAGAGAGTAGGTGTTTGCAATCCGGTTATGTTGCTTGATGA AGTTGACAAGACAGGCTCTGATATTCGTGGAGACCCGGCTTCAGCATTGCTAGAGGTTCTGGATCCAGAACAAAATAAAA CATTCAATGATCAGTATCCTACACTTTTAAAGATGTCTTCCCATAATTTGTTCTCCCTCACTGGTTGTGTTGATTTAACT GTTTGCCTCTTGGATGATTTGTTAAGGATAAGCCAATCCTAAATTAAGTTAACTCTCTTTTAGTGAGGGAATTGTGTTAA TGTTCCGCATACCCATATACCTATTAATTTGTCAGAACTTTTTCCTTTTTGTTAATTTTGTTTTTGTTTATCTGATGCTC ATTGCTGAGTTAGGATATCTTATCCTGCTTATTGTTGGCATCCTTTTTCTTCCTCACTAATTATGTTTCTTCTATTGTAC GTATTTTTTAAAAAGAATTCCTTCTAAAGTTGTTCCTTAATGTTAGCTAGCTATTTAAATGTTCCATTTGATCTATCCAA GGTAGTTTTTGTGGCTACCGCAAATAGGATGCAGCCTATTCCCCCACCACTTCTTGATAGGATGGAAGTAATTGAGCTTC CTGGATATACACCTGAGGAAAAGCTACAGATAGCCATGCGTCATTTGATTCCAAGAGTTCTAGACCAGCATGGGCTGAGT TCTGAGTTTCTTCAGATTCCAGAGGTATTGAATTTTTTTTATATAAGAAGATCAGGACTGATGCAAATTTTCTGCTCATT CAGTGGAAGTGCATTTATTTTGGGTGCCATCTTGATTAAAGCCAAACAAACAAATACATCCATATTTCAAAGAAAAGGGG GGCATTTGATGCATTATTAATTTTACATATGTTAACAATTCAATTTTATAATTATCCGTTCTAGTTGAGTTCTTTTCTCA GTCTGCATAATCTTGGAAAACTAATGTTTTCTATGGTTTAACTTTAAACATGGATCATGTTTTTTGTTGATTGAACATTG AAAGTCTCTGTGTTTGCATTTCTTCATTCTACAATATCCATCGCACTCAAAGGATGCGATAAAACTAATAAAAACATATG AAGCATAATGGTCACACTGAAATACTTCATATGCCAATTGTACTATTAGCAAGCAATGTTGTATAGATTTCTAATTAAGA ACTATTTATCTAGGCGATGGTGAAACTTGTCATTCAGAGATATACTAGGGAAGCTGGTGTGAGAAGTTTGGAGAGGAACC TAGCTGCCCTGGCTCGTGCTGCTGCAGTAAAAGTTGCAGAGCAAGAACAAGTAGTTCCATTGAACAAAGGGATGCAAAAA CTCACTACACCACTTCTGGAAAACAGACTGGCTGAAGGAACTGAAGTTGAAATGGAAGTGATACCGATGGGTGTCAATAG TCAGGACATCTCAAGCACATTCAGGATTTCCTCTCCATTGGTTGTTGATGAAACTATGCTTGAAAAAGTGCTTGGGGTAA TTGACATGCAATACTATGTTGTAATGCATTTTTACTTTATAGCTCTAATGCATTATTACTAGTGAATGAGTTGCCTTGAT TATGATGTTATCATGAACCATTTTACATAATCAAATCATTACATAGTTAAATGATGATTAATTTGATGATATTCTAAAGT AGGAGCAAGGCCTAATTTGTCGGTATCATAAAATGCAGCCTCCAAGATTTGATGGTAGTGAAGCTGCTGAACGTGTGGCT ACCCCTGGAGTCTCTGTTGGACTTGTTTGGACTGCTTTTGGGGGAGAAGTTCAGTTTGTGGAGGCTACAGCAATGGCGGG GAAGGGCGAACTACATCTCACTGGACAACTTGGTGATGTTATCAAAGAATCAGCACAGATTGCACTAACATGGGTAAGCA ATCATATCTATTTGACTTTCGTCCCCTGCAAGGGGTTCCTTTAGCTTACAGATAAATTATTGAATTTATATAAGCAATAA TCAATCCTCTAACAAGATATAATGCTGCCTCCCTCCCCTTCACCCTGGTGATAAGGAATAGGTCTTGTGTGTGTATTATT TTATACTTCATTATATTCATTTGACTTATTATGAGATGTACATTATTTTATTTATATTCATTTATCTTTATTGTTACGTG TATCATTATTTTCTTTTATATTGCATTATTTCTATATTATTTAGATATTTGATAACATGTACGCACACACACACAATGCA CATATTATAGTGTGTGTATCTCGTAGATTATCTAATATCAATGTGTGTGTGTGTGATATCCACCCTGTTATCTAATATTT TTGAGACATCACTAGAGAGTGAGACACTCTAATTCTATACTCTCTAACTCAGTTAGCCACATCATCTCTTTCTCTAAAAT ATTCATTCTCTCTTAATTTTTTCTCACTCCGTAGAGCATACGCGCTTGTCTGCATCTGTTCTTTTAATTTTTCTTACGTT ACATTCCTCTTAATGTTTTGCTTTTTGAAAATTGAATCCTAATGAATTTTAGACCAATTACGTAGGGTAATTCAATACCA GTCAGAGCAAATAAAGCATCTCCATAGCTGTAATTTTTTTTTTCAAACACAAATTATTTTTACTCAATTTGATTTTTAAA TATATTAATATATTTAATTAAATAAAGAGTAAAATAAGAAGAAACATATAAATTTTTCAAAAGTATGGTTTGACTATATT TATCACTTACTGTTGATATTTTTTCACTTTTGATTTTGTTCTATTATAAATGTATAATTTTTTTATCTATAATTGTATAA ATTTAATTATAAGAATTTGTGTTAATGTAATTACGAAAGTATATTACTTTTCCATATAATTTTAATACAAATAATAATTT AAACAGAAACCCGTGCATTTGCACGGGTAAAAGACTAGTTTCCACAATCCGTTGACCCAAGACCTGAAAATGAATGATCC AAGCTCCAACCCTGTATAATTTCACAGCCAACATTGGCAGCGGTATGTATTTTGGCCAAAAAAACACAAACACTAATCAA CCAACACTATCATTTCCTATTTGGGTTGTTCATTTCATCCATGCGGAATAACATATATATCCAGTCCACTATAACATATA TCTGCTAAAATGTTTTAGACAAACTTTGAAGATGACCTGTAAATCATGAAGACGGTTAGGCCCCAACATGGAAAAAGTGG CATTTTCTTTTACTATTTAGATTTAATTTGGTCATTTAGATTCAAGGATGCACAATATCCGTGTTACTGCTCATTGGCTC GTGTTTGTTTGGCTCGTGTTTGTTTGCGTTTAACACTTTCCATCTCAGTGTTATATGTGCTAGACACATGGATTAAATCA AGATTCATTACTTTCTTTTCTTGACTTTAAATAATTGATCTCCTGATAGGTAAGGGCAAGGGCAACTGATCTTAGGCTGG CTGCTGGAGAAGGATTTAATCTTTTGGAGGGACGTGATGTACATATACATTTTCCTGCAGGTGCTGTGCCTAAAGATGGG CCCTCAGCAGGTGTAACCTTGGTCACGGCTTTGGTATCGCTTTTTACTCAGAAAAGAGTGAGATCAGATACAGCTATGAC TGGAGAGATGACGTTAAGGGGTCTTGTTCTACCTGTTGGTGGTGTCAAGGATAAGGTAATGTTATTTTGTCTTCATGACC CCTGTCCAATTTATTGAGCTAAGCCATGGGTCTTACAAGAACGAAATCAATCTTATGATACTAATAAATAGAACACTTGA AGTTGATCAATTCACATTTATATTATTTAATGATATTTTGCTAGATATATATATAAGTTAATAAGCTAATACACATAAAG GAATCCACAAAACTTTGGGATTGAAGGACATCACAGCTCTCTGCATCCTCTCTAATCTAAGGAAACTTTCATGAACCAAC TATCCTAAAAGTTTAAGCTATTGGATGAAGACATTTGAATGGTTTTATATTATATTCTTAACATCCCCCTCATGCAAGAG CCCAATGGGATTGGAGCGTAGACAATGCACATGCCTACCTACTTTGTGCTGAAATTCAACCTTTTTTATTAGAATAAAAA GGGTATTAAGGATCAAACTCTAGAGTCTAGACCACTTGGTCATGGATGCTCTGATGCCATGTTAATTGACAGAATGAGTA ATATATGATAGATACATGAAATACATGATAACATTGTTACCCTATTTACAATAATTACTTTACATAATTACAAAGGCTAC CTATTTACTTTATTTTTAAAATAACAATGATCCAGTGGATGGAACTATGCTCTATTTACTTGTTTAAGTTCATAACAAGT TTATTTTGAGGAAAGAGTTGTCAGATATGTATCTTTGTTGAGATAGACATGCAAAAAATGGGTCTCTTTTGTGCTTTACG GCATTGTGAACTTGATTGTGAGGACGAGATGCCCATCAGATGACATGAAAGAAAGGTTTATATATATTTTATACCCAAAA CAATAAAAAGAAAAAACTAACCAATCACCAAAAGAGAACTATGAACTCAGTCGGCCATTACAAGTGGAACTACACTACAA AATAGAATGCATTTGTACAGTTGATTGTACCTGGCTTTTAAATTCATTGATCGTATCTGAATAAACACTTCCCAGCTCCA GTGACAGTAAGATAAGGTTCTTAAAGGTGGCATAATTTGATTTTGGTTTAACTTTTACAGATATTAGCTGCACATCGTTA TGGTATTAAGAGAGTTATCCTTCCTGAAAGGAACTTGAAGGACTTGGTTGAAGTACCATCATCAGTGCTGGCCAATCTGG AGGTAATTTTGCTTCCATGTTTTGTAGTATGGGTGCTCAGTTTTTTATGAGTTGTCCGTGCTTCGTACTGATTTAGACAA GTATTTGGTGTTGGAAGTTCTCTCTGTATTTTACTTTCCCACTTTTAACTATTGTATTTGGTTTTCTACTTTGTCATGAT GCACAATCACGTCCATTATATCTTATCATCTCTGAAATGAAACACAAAATCACAGTCTCCTTTTTGAACTTGACAGATTC TGCTTGCAAAGCGAGTGGAAGATGTGTTAGAGCATGCATTTGACGGTGGGTGCCCTTGGAGACAGAACTCAAAGTTGTAG
CDS sequence (LotjaGi4g1v0191600.5) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTGAATCGGTCGAGCTTCCGAGTCGCTTGGCGATCCTCCCTTTCAGGAACAAGGTCCTCTTACCCGGCGCCATCAT CAGAATCCGCTGCACTTCCCCTAGCAGTGTGAAGTTGGTGGAACAAGAACTTTGGCAGAGAGAAGAGAAGGGGTTGATTG GCATCTTGCCAGTTCGTGATGCTGCTGCTGCTGAAATTAAGCAACTGGGTGCAGGAACTGATTTTCTAGACCAAAGCTCA AAAGTAAAAGACGGTTCATCAGATTCTCATAAGGCTGATACCAAAAAGCAGAATGATGGTGTTCATTGGCATAACAGAGG GGTAGCTGCTCGAGCATTACATTTATCAAGGGGAGTGGAGAAGCCAAGTGGAAGAGTCACATACATAGTAGTTCTTGAAG GTTTGTGTAGATTTAGCGTTGAGGAACTAAACACAAGAGGAATATATCATACTGCAAGGATTTCTTCCCTTGAGACTAAG ACTGAGATGGAACAAGTAGAGCAAGATCCAGATTTCATATTGTTGTCTCGCCGATTCAAAGCAACTGCGATGGAGCTTAT TTCTGTTCTGGAGCTGAAACAAAAAACTGGTGGAAGGACAAAACTCCTTTTGGACAATGTTCCAGTTCACAAGTTGGCTG ATATATTTGTTGCTAGTTTTGAGATAAGTTTTGAAGAACAACTATCTATGTTGGATTCAGTTGACCCCAAAGTGAGGCTT TCTAAAGCAACTGAGTTAGTTGATAGGCATTTACAGTCAATACGTGTAGCTGAGAAAATTACTCAAAAGGTTGAAGGGCA ATTGTCAAAATCTCAAAAAGAATTTCTTTTGCGCCAGCAGATGAGGGCTATAAAAGAGGAGCTTGGTGATAATGATGATG ATGAGGATGACCTAGCTGCCCTTGAAAGAAAGATGCAAAGTGCAGGAATGCCACAGAGTGTATGGAAACATGCACACAGA GAGTTGAGGAGGATTAAAAAGATGCAGCCTCAGCAACCTGGGTACAACAGTTCACGGGTTTACCTAGAGCTTCTTGCTGA TCTTCCCTGGCAGAAGGCCAGTGAAGAGATAGAACTGGACTTGAGAGCTGCACAGAAGCGACTGGACAGTGATCACTATG GTTTAGTGAAGGTCAAGCAACGGATAATTGAGTACCTGGCGGTTCGCAAGCTTAAACCAGATGCAAGAGGTCCTGTGTTG TGCTTTGTTGGACCACCAGGTGTTGGGAAAACGTCATTGGCATCCTCTATTGCCGCTGCTTTGGGTAGAAAATTTGTACG CATATCCCTTGGTGGAGTTAAGGATGAGGCTGATATTAGAGGACATCGGAGAACATATGTTGGAAGCATGCCTGGGCGGC TTATAGATGGATTAAAGAGAGTAGGTGTTTGCAATCCGGTTATGTTGCTTGATGAAGTTGACAAGACAGGCTCTGATATT CGTGGAGACCCGGCTTCAGCATTGCTAGAGGTTCTGGATCCAGAACAAAATAAAACATTCAATGATCACTATTTAAATGT TCCATTTGATCTATCCAAGGTAGTTTTTGTGGCTACCGCAAATAGGATGCAGCCTATTCCCCCACCACTTCTTGATAGGA TGGAAGTAATTGAGCTTCCTGGATATACACCTGAGGAAAAGCTACAGATAGCCATGCGTCATTTGATTCCAAGAGTTCTA GACCAGCATGGGCTGAGTTCTGAGTTTCTTCAGATTCCAGAGGCGATGGTGAAACTTGTCATTCAGAGATATACTAGGGA AGCTGGTGTGAGAAGTTTGGAGAGGAACCTAGCTGCCCTGGCTCGTGCTGCTGCAGTAAAAGTTGCAGAGCAAGAACAAG TAGTTCCATTGAACAAAGGGATGCAAAAACTCACTACACCACTTCTGGAAAACAGACTGGCTGAAGGAACTGAAGTTGAA ATGGAAGTGATACCGATGGGTGTCAATAGTCAGGACATCTCAAGCACATTCAGGATTTCCTCTCCATTGGTTGTTGATGA AACTATGCTTGAAAAAGTGCTTGGGCCTCCAAGATTTGATGGTAGTGAAGCTGCTGAACGTGTGGCTACCCCTGGAGTCT CTGTTGGACTTGTTTGGACTGCTTTTGGGGGAGAAGTTCAGTTTGTGGAGGCTACAGCAATGGCGGGGAAGGGCGAACTA CATCTCACTGGACAACTTGGTGATGTTATCAAAGAATCAGCACAGATTGCACTAACATGGGTAAGGGCAAGGGCAACTGA TCTTAGGCTGGCTGCTGGAGAAGGATTTAATCTTTTGGAGGGACGTGATGTACATATACATTTTCCTGCAGGTGCTGTGC CTAAAGATGGGCCCTCAGCAGGTGTAACCTTGGTCACGGCTTTGGTATCGCTTTTTACTCAGAAAAGAGTGAGATCAGAT ACAGCTATGACTGGAGAGATGACGTTAAGGGGTCTTGTTCTACCTGTTGGTGGTGTCAAGGATAAGATATTAGCTGCACA TCGTTATGGTATTAAGAGAGTTATCCTTCCTGAAAGGAACTTGAAGGACTTGGTTGAAGTACCATCATCAGTGCTGGCCA ATCTGGAGATTCTGCTTGCAAAGCGAGTGGAAGATGTGTTAGAGCATGCATTTGACGGTGGGTGCCCTTGGAGACAGAAC TCAAAGTTGTAG
Protein sequence (LotjaGi4g1v0191600.5) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAESVELPSRLAILPFRNKVLLPGAIIRIRCTSPSSVKLVEQELWQREEKGLIGILPVRDAAAAEIKQLGAGTDFLDQSS KVKDGSSDSHKADTKKQNDGVHWHNRGVAARALHLSRGVEKPSGRVTYIVVLEGLCRFSVEELNTRGIYHTARISSLETK TEMEQVEQDPDFILLSRRFKATAMELISVLELKQKTGGRTKLLLDNVPVHKLADIFVASFEISFEEQLSMLDSVDPKVRL SKATELVDRHLQSIRVAEKITQKVEGQLSKSQKEFLLRQQMRAIKEELGDNDDDEDDLAALERKMQSAGMPQSVWKHAHR ELRRIKKMQPQQPGYNSSRVYLELLADLPWQKASEEIELDLRAAQKRLDSDHYGLVKVKQRIIEYLAVRKLKPDARGPVL CFVGPPGVGKTSLASSIAAALGRKFVRISLGGVKDEADIRGHRRTYVGSMPGRLIDGLKRVGVCNPVMLLDEVDKTGSDI RGDPASALLEVLDPEQNKTFNDHYLNVPFDLSKVVFVATANRMQPIPPPLLDRMEVIELPGYTPEEKLQIAMRHLIPRVL DQHGLSSEFLQIPEAMVKLVIQRYTREAGVRSLERNLAALARAAAVKVAEQEQVVPLNKGMQKLTTPLLENRLAEGTEVE MEVIPMGVNSQDISSTFRISSPLVVDETMLEKVLGPPRFDGSEAAERVATPGVSVGLVWTAFGGEVQFVEATAMAGKGEL HLTGQLGDVIKESAQIALTWVRARATDLRLAAGEGFNLLEGRDVHIHFPAGAVPKDGPSAGVTLVTALVSLFTQKRVRSD TAMTGEMTLRGLVLPVGGVKDKILAAHRYGIKRVILPERNLKDLVEVPSSVLANLEILLAKRVEDVLEHAFDGGCPWRQN SKL
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
| Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
|---|---|---|---|---|---|---|
| PANTHER | 1 | 883 | 883 | 0.0 | ||
| PIRSF | 1 | 636 | 636 | 1.2E-174 | ||
| PANTHER | 1 | 883 | 883 | 0.0 | – | |
| Hamap | 3 | 883 | 881 | 54.614 | ||
| SUPERFAMILY | 10 | 248 | 239 | 1.49E-8 | ||
| SMART | 10 | 249 | 240 | 1.0E-30 | ||
| Pfam | 11 | 249 | 239 | 5.0E-22 | ||
| ProSiteProfiles | 11 | 249 | 239 | 27.441 | ||
| TIGRFAM | 13 | 871 | 859 | 4.1E-304 | ||
| MobiDBLite | 80 | 99 | 20 | - | – | |
| MobiDBLite | 81 | 99 | 19 | - | – | |
| Gene3D | 176 | 292 | 117 | 1.3E-22 | – | |
| Coils | 284 | 304 | 21 | - | – | |
| SUPERFAMILY | 348 | 614 | 267 | 1.14E-49 | ||
| Gene3D | 361 | 539 | 179 | 2.5E-66 | – | |
| CDD | 381 | 542 | 162 | 2.23051E-13 | – | |
| SMART | 396 | 541 | 146 | 1.5E-12 | ||
| Pfam | 400 | 537 | 138 | 1.6E-21 | ||
| PRINTS | 404 | 423 | 20 | 5.5E-50 | – | |
| Gene3D | 540 | 629 | 90 | 6.5E-24 | – | |
| PIRSF | 651 | 874 | 224 | 6.8E-75 | ||
| Pfam | 665 | 871 | 207 | 3.2E-78 | ||
| ProSiteProfiles | 688 | 873 | 186 | 68.26 | ||
| Gene3D | 690 | 880 | 191 | 1.3E-73 | ||
| SUPERFAMILY | 691 | 871 | 181 | 1.56E-48 | ||
| PRINTS | 691 | 707 | 17 | 5.5E-50 | – | |
| PRINTS | 773 | 792 | 20 | 5.5E-50 | – | |
| ProSitePatterns | 776 | 784 | 9 | - | ||
| PRINTS | 803 | 822 | 20 | 5.5E-50 | – | |
| PRINTS | 826 | 844 | 19 | 5.5E-50 | – |
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 |
|---|---|---|---|---|
| Molecular function | ATP-dependent peptidase activity | Catalysis of the reaction: ATP + H2O = ADP + phosphate, to drive the hydrolysis of peptide bonds. | ||
| 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). | ||
| Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| Biological process | Proteolysis | The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds. | ||
| 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. | ||
| 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. |
Expression pattern of LotjaGi4g1v0191600.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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