Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0433700
Transcript ID	LotjaGi1g1v0433700.1
Related isoforms 2	LotjaGi1g1v0433700.2 LotjaGi1g1v0433700.3
Lotus japonicus genome version	Gifu v1.2
Description	Prolyl endopeptidase; TAIR: AT1G76140.1 Prolyl oligopeptidase family protein; Swiss-Prot: sp\|P48147\|PPCE_HUMAN Prolyl endopeptidase; TrEMBL-Plants: tr\|I1JSY1\|I1JSY1_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0433700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:92842595..92854110) extracted from Lotus japonicus Gifu genome v1.2.

GATGTATCAAATACAATAAACATATTCCCCGTACAACGCACGGGTAAAAAAAATACTAGTATTCTCTATTCTCAAATTTT CTTTCCTCTCTTTCTCTCCTTAACCAAACAAAACTCTAATGTCTGGAGCTACCAAAGATAGCTAAAGAGTAATGCAAATC AATTCCCTCTATGGCTCTCACCACTTCCTCACTATCCACCTCAACACACAGGTTCAAAAAACCTTTATCTAGTGCCATCT TCAACTCTTTCTTCACCCCCATAGCCTCAGCAAAAACAACCTCCAGGTCCAAACGCAATTTCGAAGCCGCCGCATCCTTA GCATCTCCACCGAACTGGAAGTCGCGAAAAACCATCCCATTCCCCCAGCCTATTACACCTTTCGCCGCCGCTTCCACATT TAATTTCCTCACCCCTGCCGGCGGTGGCTGCCGCCATCTCCGACACCAGAGTTTCTGCGCATCCCGGTAATCCTCAGCGT CTTTAGGTCACGTTCTCAGAGAATCCACGTGATCCACCAATTGCTTAAAATTTGAAACCGTTAGATTTAATAATTTATAT ATAAATCAGTGGCTCATAACGAGTGTAACTAACTATTTAATTATTGACTTTTACAGTAATTTCAATTTCAATTTCAACCT CTTTCAAATTTAATAGCTACCAATCTACTATTTAATCTAACATTTACATTTCATTTTTGGCTTTCATTTTTCATTGTTTC CTTCTCCTTCCCTCGTGGAATTCGAATAGCAGAAGCATGGGTTCCCTCAGTGCCCTAGATGGACCTCTGCAATATCCATC TGCACGCAGAGACGACTCTGTCGTCGACGACTACCATGGCGTCAAGATCGCCGACCCTTATCGATGGTACAGAAATTCAA TTCAATTCAATTGTTCTTGTTGTTGTTGTTGCTGCTCAAATCCACATAGAGCGAAATCTGATTTTGATGATTGTGTTTTT CTTGTTGAAGGCTTGAGGATCCTGATGCGGAAGAAGTGAAAGGGTTTGTAGAGAAACAGGTTCAATTGACGAATACTGTA CTTGAAAAATGCGAGACTAGAACGAAGCTGAGTGAGAAAATCACCAAGCTATTTGATCATCCTCGTTATGAAGCTCCTTT CCGGCGAGCCGATAAGTACTTTTACTTCCACAACACCGGGCTTCAGCCACAAAGCGTCCTCTATGTGCAGGTTTGGTTGA ATGCTTTGCTTGCTTGTTTGTTTAGTTTTGATTTGAGCTTTATAGCGTGTTTAGGTTTACTTTGAAATGCTTTAGAATCA CTTGTGAATAGAAGGTAGAAGTTAAACATGTCTTAGATTTAGGGCAAATGGTGAAATTAAACTTGTATTTGATCGTGTGG CGTGTGTACTATCTTTTCAGGACAGTTTGGAGGGACAGGCAGAGGTTTTGCTTGATCCGAATGCATTAAGTGAAGACGGG ACCGTTGCGCTGAGCACATTGTCCGTGAGCGAAGATGCGAAGTACTTGGCTTATGCGCTTAGTTCAAGTGGGAGTGATTG GGTGACTATAAAAGTAATGCATGTTGAGGACAAGAATGTTGTGCCTGATACTTTATCATGGGTGAGCAAGTGTTAACAGT TTGCGTGCCTTTACCTGAAATGAAAAAACGGTCGTACTGAAGAGTCATTGATGGTTGTAAATGCATTTTTCAGGTCAAGT TTTCCGGTATTAGTTGGACACATGATAGCAAAGGTTTCTTTTATAGCCGCTATCCCACACCCAAGTAAGTGATATCCTAA GTTCACATTCCTTCCAGAAAATATAGGATTTTGTTTCTGACCAACAGAGGTTTTTGAATGTCTAACTCATCTGTGATAGA GGAATAGCAAAGTCTATTGAGTGGGTTGGGAAGATAGTAATTTGGAGCTTGTTATTCTAGTTTACAATTGCTATTTGACT AAAAAATCAGCAAAGTATAAATATAGTGTGCATGGTCTTGAATTTGATAGTTCTGGTCTTAGTGATTTGAAGTGGTACAA TTTCAATGGAGAATTGGAGATCATTTAGATAACTTAATAATGGTGGTGATGGTTGCATCAGTTTCATGTTCCGTTGATTT AAATTTTGAACTAATTACTCTTCTTTTAAACTGTAGAGATGGAGAAATAGTAGATGCTGGGACTGAGACGAACACTAACC TTTATCATGAGCTCTATTATCATTTTCTGGGTACAGATCAATCAGAAGATATTTTGTGCTGGAGAGATCCTGAAAACCCA AAATTTCTGTTTGGAGGAAGTGTTACTGATGATGGGAAGGTACTTTCCTTCTTATCATTGCTTAATTATTATCTGACAAT ATCTGAATACTTTTATGTGCACACAGAATAGTACATGCTTGGGTTTTGGTTGCAACCCTCCAAACCACATTTGGGCAAAA GCTACAAGGCACAAGTTTTTTTCTCAAATGTGGTTTGGAGACCTTGCAAACAAATCCAAAGATGAAATAAGAAAATGTGC AACTGTTGTCTTTGTGCTTTTAGAAACTTCACTGATGTCAATTTTACTAATGTTTCACTATTTTATGCTCTGCCTTCAAT ATGTTTTTTGAATGCATCCTATTTCTACGGAAAACCTGGATCTCTACCATATTGCTTTGCACAATTTTTATTTTATCATT ATAGTTTGGATAATTTGCTGAATATTATATGGAGTATTATTGATAAAATGTTTCTGCTCAATCAAAGCTTTCTTCCCATA AAACCTGGAGCTCTACTCTAAGGCTTTTGCAGACTGTTGCTAAAAATCTGATTAAGCTAAGCAACTCATGGTTATGTAAA TTATGATATATCTACTGCTGTGAGACGTTACATTCTTCACATAGCATCACAGAAGTTTGTTGAAAATATGGTTAAATTCA TGACTTTGTAAGTCAAGGAGTGGCAGTGACTAGTGAGTATACTCTGATTTTTCTTTTACAAGTGCAATAGTTGACTAAGC TACGATGAAATTTTTCATATGATTTTAAAATTTGCACGAATCTGAGTCTATTTATATTGTTTATGCAGTATCTCCTCCTC CATATTGGAGAAGGGTGCGATCCAGTGAACAAACTTTATTACTGTGACTTTTCTAAACTTCCTAACGGATTGGAAAGCTT TCGGAATGAAAACGCCCTCCTCCCATTTGTCAAGCTTATTGATAAATTTGAGGCACAGTATGAAGTCATTGCAAATGATG ATACTGTATTTACATTTTTAACTAATAAAGATGCTCCAAAATATAAACTAGTCCGAGTAGATTTGAAAGAACCAACTGCT TGGGCTGATGTTGTCCAGGAGTCTGAAAAAGATGTACTTGAATCGGCATGCGCTGTAAATGATAACCAATTGATATTGAG TTACTTGAGTGATGTGAAGAATGTTCTACAAGTACGAGACTTAAAAACAGGTTCTTTACTTCATCAATTACCAATTGACA TTGGCACAGTTTCAGGAATTTCTGCACGGCGTGAAGATAGTGTGGTTTTCATTAGCTTTACTAGCTTTCTATCCCCTGGT ATCATTTATCAGTGCAATCTGGGAACAGAGGTTCCTGATATGAAGATATTTCGTGAAATTGTTGTCCCTGGGTTTGATCG CTCTGAATTTCATGTTAATCAGGTAAAAAAAAAGTATTCTTTGGTGCTACAAAGTTATCACATCATTAATTAGGTAGTTT CAAATTCCATTATTCTGTATGAGTACAGTGTGCTATCTCTTGGAGTCTATATTCTTATTGTTAGCGACTTGGTTGTTTCA TTCTTTGATGTAATTTCCACATTTCAGGTTTTTGTCCCTAGTAAAGATGGTACCAAGATCCCAATGTTCATTGTTGCCAG AAGGGATATTATTTTGGATGGCTCACACCCTTGTTTGTTATATGGATATGGTGGTTTTAACATTAATATTACACCATCTT TTAGTGTTAGTCGCATTGTACTCGCAAAACATTTAGGTGTTGCTTACTGCATAGCAAATATTCGTGGTGGTGGAGAATAT GGGGAGGAATGGCATAAAGCAGGCTCCCTTGCTAAAAAGCAGAATTGCTTTGATGACTTCATTTCTGCAGCTGAGTACCT TATATCTACTGGTTATACCCAACCCAGAAAGTTATGCATTGAAGGTGGAAGCAATGGTGGACTTCTTGTTGGCGCTTGTA TAAATCAGGTCTGATTCATTTGCTTTGTGTTTTCATTTTTTGGCCAAACTTTCCATTCAATAGCTCATGCTTATTCTTGG TTTCTGCTTCCCCCTTTCTCTGTACAGAGACCTGATCTCTTTGGCTGTGCACTAGCTCATGTTGGTGTTATGGATATGCT ACGGTTCCACAAATTTACCATAGGTTTGTTTAGATCTGCTACATCTAGCAATTTGCTTATTAGTGTCAAATATTGAATTT TAATTGTTATTCAGGTCATGCTTGGACCTCGGATTATGGTTGTTCAGATAAGGAGGAAGAGTTTCATTGGCTAATCAAGT GAGTGAGGTTTATCCTATCTTGAAATTATCAAGGATAAATTTATATATGTAATTACATTATTTTGTTTTATTTATATTAG TGTCAAACTGCTTAAAATTACTAGTAAGTGATGGTGGTATGGTCAGTTTTGGACAATTTAAATGGGCTATAATGGATTGG AAGCCATATTTTATAAATACTTAACATGGGTAGATTTCTCATAGTTGCATAATGGACAGAGAATGAGGTAATACTTATAT ACTACCCAGCTCAAAATAATTTCTTACATCTTAAAATCTGTGAGACAATCTCTTTGTTTGACTATTGTACTATCGCCACC CTTGGTCCTTGATTTCATACACATTTGATTTTTGTTTTCTTTCCCTGGAAGTCCATAAACTTCACACCATATGCTCCATC TGGTTTGATGAGGAGTTATTGTCATATTTATGCAGGAGGTAGTGTCATTTGATAAATTATTATTTATCAATATAATGGGA AAGAATAAGGAACTCTATAAATATAAAAATAATGATAACAAACCTTAAAAATCAGTAGTTTGGTCATATATGGCTTAACA TTTCGACTCTGAGACTTGGCAATGAATGAGTATCCTGTCTAGTTACTTGCTGAGATGAATATACAGCTAATTGTGCTTTA ATCCTGAAGCTGAAACTATCTTGGTAGTATACACTTCGTTACAATTCTGTATAATTCTGTTGGGGGGTTTTTAGGTTGGT GTTAACTCACAATATTCTGGTAAGAAAAAAGTAAATAATTATAATATATCTGTTTTCATCCTATTGTTTCTCCACCATGT TTTGAAACCCAGACTCCTGTCCTTTCCTACTGTCTGGATATGCAACTTTTGTGTGTGTGTTGGAACTATGACGTTTCTAT GATCCACTGTTCTAGGTACTCACCACTACACAATGTCCGGCGACCATGGGAGCAGCATCCTGAGCAGTCAATTCAGTACC CATCAACCATGTTGTTGACAGCTGATCATGATGATCGGGTTGTGCCACTGCACTCATTGAAGCTATTGGCGGTTAGTCTG CTGCACATAAATAGTAAATATAGATTGAAGACACAATTGGACTTTTATATACTGAATTATGTTGCTAGATAAAGAATAAG TGCATATTTGGAAACTCTTCTACAACTGATTATGCAGCCATAATCAATTGTGGCAAGAAGCTTCTGTGACTAGCTTCTAG GTCTCAGAATTAATTCTGATGAAAGAGAAGCTGATCCAATCATATGCTTTGAGTGTTTATAAACTAAATTAATTAAAATT AACAAATTGTTGTTGCATATTGGGGTGGCTGTCACTCACTTTATCACAGTCCCACCTGTTTTTCTTTATCTCTTTTAACA CATCCATTTGTTGGCAGACCTTGCAGTATGTCCTTTGTAGTAGCTTGGAGAAAAGTCCCCAGACGAATCCTATAATTGGT CGCATTGACTGCAAGGCTGGACATGGAGCGGGTCGTCCAACACAGAAATTGGTAAAAATTCAGGCTGTTTTCCCCTTTTC TCCCTTTTCTATGTTGTATCTCACGTTGAACATTTATTTGTCAGATCGATGAAGCTGCTGACCGGTATGGTTTCATGGCT AAAATGTTACAAGTGCATTGGATTGAATAAAGACCACTGATCCGCAAGGTTGAGATCATAATGGAATAATTTCCTTTCAG ACAATGCCTGTGAACTGTTTTATTATCTTTTCTCCACTTTTATGAAGAAAATATCTTGAACATGAGAGTTAGGGAAGTGA GGGTTAGCTTGTCAAGTTTCCATGCTCCAGTCCCAACTGAATTGTTTTTTATTTTGAATTCGGTTTACAATATTTTAATG TTCGTTTAAAAACATTGATATTTAAGTATATTTAGATATCAATTGAATGAAATCTATTTTCCGATGTAACAAAAAAATCA ATTGAATGAAATCTGAGAGGACTTTCATCCCGTTCTATTAGAAGAGTTATGTACTTTTTTCCTTGAAGTGTTTTTTAACA TCCATTTACATTAGGTTAACGGATGATTGGAATTGACATGGTATCCTTGGGGTATGATATCCAAAGTATTGAAATCTGAG TAAGTTGTTAAGCATTTATTAAATTGTGATTTTGTAAAAGCTAGAATAAGTTTTAGTAGAAGTTTATGTGAATAGCTTAT GGGATTTGAATTAATTATAAGGGTTTTGAATTGATTTTGAGGGAAATAAATTGATCCAAATATGATAGCATTTTTGGAAA TGCTTTTGCAATTAAGTACGGGAATAAATTTATATGAATAAGGTGCCAAAATTATTTCTGAGAAAGAAATAAGCTAATCC AAAATATGGGGAGAAGCTTCGGTCGTGCCAAAGAATATCCTTCATATAGGAATATTGGATAAAGTTTTTTTTTTTTTTTT TGAGTAAGAATATTGGATAAGGTTGGATATGATAAAGTTAAACAAAAGTCAAAATACATCCTTCATATAGGATAAAGTTG GATAGGATAAAGTTAAACTAGAGGTCCGCTTTGACTTATAATACTCTATTTGTAGTGTATTTAATTCCACCATGACAATT TCTAGAATCAATTATTATCAGAAGCTACAACTCTTAACTTCTAGATATCACCGTGTCTTGGATTTTTTGCAAATAATGCA ACCAAACATGCACTTAAGTATAGTAATTTTAAAAAAAAAAAGAACATTTATGAAACATTGTAATTCAGCTCAAATGCGTT TAATCATTATTAATTTAGGCCCCGTTTAAAAACACAGCTTAATTAAGCGCTTATGTATAAGCTATTTTAAATTTTTTATT GAAATAAATTGAAAATAAGCTATATATAAGCATAAGCTCTTTTTCATAAGTTATCCTGAATAGTTTTGAAAATAAGCTCA AAACAGCTTATGGCAGGCCATAAGCTGTTTGCATAAGCTCTCCCAAACATTGGCATAAGAGCTTATGCTATCAGATAAGC TCAAATAAGCTCTTCCAAACGGGGCCTTATTATTGAATACACAGTTAGCTTAATAGCAAACCCTGTGCAAAAAAATTCGA TTATTGAATACACAGTTAGCTTAATAGCAAACCCTGTGCAAAAAAATTCGAACTAGCATTACATGCAATTGAACTCCTTC ACAGTGATGAAGTCAAACCACGCAGATCAACATAGCCAGAAAGGACAGTCCGCTTGCGTTCTTTGACCATAGTCCGATAA ATAACCCTGCAAAATTTCAATTTTTAATCACCATCTTCTCAAGCATTTGAATAGAAAGCCAGAAAACTCAATGATTAATG CTTTACATAACAAAATTGTGTTTGAAGTGAGTCTACCTCAAACCTTCAAGCCACATCTCAGTAACTAGAGTTTCACCCGG GTACACATGAAGAAGAAAACGCCCCGCTATGCTTTTTATCATGTCGGGATCTCCTTTACATATGTTCTTGATGATTGCCC TAACTGCAAATCCTAGTGTGCATAGCCCATGCAATATTGGTTGCGAGAATCTTTGGCAACAAGTTAAAAACAACATTAGA TTAGCCACACAATGACACAAATGACTGCAAAAAGTATAGTCACAAGATGTATCCCTGATGGCTTAAAATCTTAAAATGCT TAGTAACCACCAATTCAATTGTTTAATTCATATGACCAATCCTCTTTTCTTCCTTCAAACAAAAAAAGCTTCATGGCTGA TAAGAGGGAAAATTCTCTTTCACCTAATTCAACAAGCATACATGAATACATCTTTGAATGGGGGGAAAGGGAATCTAGTT GGAGTTTCATCAGAAAGCAGGATGAGAGTACTAACCCAGCAACCTTTGCAATCATGGGATCAGAATGAAGAGGATTGTAG TCACCCGATAGCCTATAGAGCAACGCCTGCCAAAAGGAGGAGACATTCAGAAACTGTATAGAAATTCATAAAGTAGCATA TCAGAAGTTCTCAATGACAACTTGAACTACAAAATTAGTATAATACTTAGAGGAGCTAGGAAAAAAAAGGGGGAAAGATT AAAAACTGTTTTGACAGACAAACTGTTGGTGGCTTGGTGCCCATGTAGATGAAATAGTGTGTAATTAAACTACTAACGAA ACCATAGTCATGAAGTGTCTAAGCAAAGGTAAAGATCCTGAAACCAATGTAATTAGCATTGATTTCTTGCATAAATTCAT TTATAGAAATGTTTTCATCGATATAGTAGTGATATAAAGCGCCGACACAATAATCACCAGTATAAGTTATTAACTAAATA GGCAAGCCACCAAAACCAAGGGAAAAGAATCTTACTAGCAGAAATTGCATGAATTTCTTTTTTAACAATGTAACTATTGG AACAAAGGAATTACTTTTTCAAAATCATTTGGTATAAGTTGGACCATTTGAAAATACTTCAACTTGTTCTACAAGATCAA CCTACTGGTCACTTTATTGCTTTACTGCAATAACTAGAGCTCAAGACATGTTTCTTTCAAAGTTGGAAGACAAATATAAT GGTAGCAGATTAAGCATATCAATGACCATAAGGGGAAAAAATAAATGCCACATTACTTCCTGAACAGTTAATTTTTTTTA GTTGACAAAAATAGATTTCATGGATGACTGTTATAGTCCAAGACAGTGGACAACCAATATCTAAAATACAAGGCTAAAGA CTGAAAATTAATAAAGTACATAAAAAAAATTGGGGGGGGGGGGGGGGAGGGGGGGGGATCACACATAATGTAATCTACAT TTCAAACAATATTGAATAATTATAACATGCCTGAGATGCTTGGGTATGATCTTCAAACACTGAAAAGGGTTTACTATCAG GAATTTTTACAGCTGAAGTCTGGTTCAAGGGGTAGTTTGAGTAAGAAAATGGTTTAGACGAGTTTGAGAAGCCACCAGCA CCCCGTAGATAGACAGTGGACCTGCAGCAACTTACTATTTGAGTGTGATGGTGGAAACAAACCATTAAAAGAATGTTTTC AGTTGTACCTGTTCATGCATAATAAATCACCAGATTCTTTCTCATAACTTTTTGTTTCAACCTCCAAAATTGCTGCTTTA CCTGGAATTAAAGCAATATCCCATTAAGAAGCAGAATATATGAGTAAAGGGGGGGAGGGGGGGGGGGATTTAAAAATGTA CATAAATAAGATATCCATTTTGCAAATCTGTGATAGTCAAACTTTACAGCAAACAAATGCACAACAGATCATTAAGCAGA AACTGTTTTTGCAATTCAACCTTTATCATGTAATCCTGCAAGACTGACTTTATTGTGAATCTGTAACAACAATAGTATAT CATGAGCTTATCAATGAAGAATAAGAGAGAAAATCACAATAGTAGAAATTAACCTTAACAGGCTGATGAAAATCACAATG AACTATTTCAGACTATTATAATTGTAAGGGCAGGGAGACATATTCTTTACTTTTTTTGGGGGGAGGGGGGGTATCTTGTG CAAGGTAGTTATCTCTTTATAAAACTGATTAGGTCATTCTATTCTATCCACAATTTAAGAACAAATTAACAGCCCATTCT TCTCAAATAAATGTGATTTTACAATAATTTTTCTCAGTTCTCAAAGTGACATCTGAATGAAAATGCCATGGAGCAAATAC ATGGCTATTCCACATAGGCATGAAATACATGTCAGATGCTTGGATTTCATAAAGGATTCCTCATTCACTGAAGATGGCAT GTCTCCCTTGAGTAAAATTTCATTCACATATGTTGATCTATACTTAATTTGATTTTCTTGCGAATTTCATCTGACATGTT GGTGTAGTGAGCTAAAATTGGAACCACAAAACACTAGTTTAACTAACAATTCAATGGAAACACCCAGTTCGCCAAATATT GATTATAAACCTTACATGACAGCTCGAAGGAAATGGTTTGTACAGCTCTATGTATTGTTGACCATGCAGCAGAAGGCGTG GATCAAATCTGGCATCCACAAATTTCTACCTTTGGTTAAGAATTAGAAGCGAAAGAAAAGTAAGACTAACATGACAGCAG ATGGAGTGAAAATAGTAAAGAAGTATACATTCACCCATAAAATAAAAGCTACGGAGATCATATAAACAACTAGATGGGTT CAACTGCACCTTAATTAACAATACACAAAGTATTAGCACAAACATATTGAAAGTAGTGAGCAGTACTCACTGCAAGCCAG GGAGATCGAATGCTGCAGATCCAAGTGCAATTATAGCAGCAAATGTAGGCAAAACCTATAAAGAGACAAATGAACTATTC TATGTCAACAGGGACTGCCTCAAAATAAATGAATTCCTAGCAATATCCTGGTACTATAAAAGTAATGGTTGAAGCAAATT GTGTTACACAGAACATTTACCAAGAATACCTTAAAAATAACAATATCCTGATTGATTTCTGATGGTAAACAAACAATACC TTGATACTCTCCTGACCATCTTCATGGTAAACAAATTTAAGCTCATCGGCATCGACAGCGTTGGAAGCACATGCCCCTAT GCCTAAGGCATAAAGTGCTGAATCTCTGTTAAACATGTATTTTAAGCATGATTACTTATCCAACAAATTTTTCCTTTCAT GAAATTAGATAAGGGAGAATTGAAAGTGTGGCATAAGAAGATCATACCTTTCAGTATATGAGTAGGTGGTCTGCAGTCCA TATTATGCAATCAAAACAATAACAGAAGTTCAGAATTCAATTAAAAATAAAATCCACCACCAATTATTCTACAAACAGTT TGTCTACAAAAAACAAAAAAGAGAAATAGAGAGAGAAAGATACATACATCAGGGAATTTGTGAGAAAGCGCAAGGGCAGG GTCGAACTCTGGTGTATCCGCCATCTAGCACTATGCTGAAGATCAAAGTAAATCGATAATTTGATTGAGACAAAGAAAGA TAAGGTACAGTTCTTAAATTACGTGAAAAAAGAGAACACTATCTGTTCTGTCTTCAGGGCGATCAGGATTATGTTCCTCC GAAGCCTCCACCCAAGCCTAGGAAACTAGCTAGTGATTGCATTAAATCATATATAAATATGAATATTTTTTATTTG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0433700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGTTCCCTCAGTGCCCTAGATGGACCTCTGCAATATCCATCTGCACGCAGAGACGACTCTGTCGTCGACGACTACCA TGGCGTCAAGATCGCCGACCCTTATCGATGGCTTGAGGATCCTGATGCGGAAGAAGTGAAAGGGTTTGTAGAGAAACAGG TTCAATTGACGAATACTGTACTTGAAAAATGCGAGACTAGAACGAAGCTGAGTGAGAAAATCACCAAGCTATTTGATCAT CCTCGTTATGAAGCTCCTTTCCGGCGAGCCGATAAGTACTTTTACTTCCACAACACCGGGCTTCAGCCACAAAGCGTCCT CTATGTGCAGGACAGTTTGGAGGGACAGGCAGAGGTTTTGCTTGATCCGAATGCATTAAGTGAAGACGGGACCGTTGCGC TGAGCACATTGTCCGTGAGCGAAGATGCGAAGTACTTGGCTTATGCGCTTAGTTCAAGTGGGAGTGATTGGGTGACTATA AAAGTAATGCATGTTGAGGACAAGAATGTTGTGCCTGATACTTTATCATGGGTCAAGTTTTCCGGTATTAGTTGGACACA TGATAGCAAAGGTTTCTTTTATAGCCGCTATCCCACACCCAAAGATGGAGAAATAGTAGATGCTGGGACTGAGACGAACA CTAACCTTTATCATGAGCTCTATTATCATTTTCTGGGTACAGATCAATCAGAAGATATTTTGTGCTGGAGAGATCCTGAA AACCCAAAATTTCTGTTTGGAGGAAGTGTTACTGATGATGGGAAGTATCTCCTCCTCCATATTGGAGAAGGGTGCGATCC AGTGAACAAACTTTATTACTGTGACTTTTCTAAACTTCCTAACGGATTGGAAAGCTTTCGGAATGAAAACGCCCTCCTCC CATTTGTCAAGCTTATTGATAAATTTGAGGCACAGTATGAAGTCATTGCAAATGATGATACTGTATTTACATTTTTAACT AATAAAGATGCTCCAAAATATAAACTAGTCCGAGTAGATTTGAAAGAACCAACTGCTTGGGCTGATGTTGTCCAGGAGTC TGAAAAAGATGTACTTGAATCGGCATGCGCTGTAAATGATAACCAATTGATATTGAGTTACTTGAGTGATGTGAAGAATG TTCTACAAGTACGAGACTTAAAAACAGGTTCTTTACTTCATCAATTACCAATTGACATTGGCACAGTTTCAGGAATTTCT GCACGGCGTGAAGATAGTGTGGTTTTCATTAGCTTTACTAGCTTTCTATCCCCTGGTATCATTTATCAGTGCAATCTGGG AACAGAGGTTCCTGATATGAAGATATTTCGTGAAATTGTTGTCCCTGGGTTTGATCGCTCTGAATTTCATGTTAATCAGG TTTTTGTCCCTAGTAAAGATGGTACCAAGATCCCAATGTTCATTGTTGCCAGAAGGGATATTATTTTGGATGGCTCACAC CCTTGTTTGTTATATGGATATGGTGGTTTTAACATTAATATTACACCATCTTTTAGTGTTAGTCGCATTGTACTCGCAAA ACATTTAGGTGTTGCTTACTGCATAGCAAATATTCGTGGTGGTGGAGAATATGGGGAGGAATGGCATAAAGCAGGCTCCC TTGCTAAAAAGCAGAATTGCTTTGATGACTTCATTTCTGCAGCTGAGTACCTTATATCTACTGGTTATACCCAACCCAGA AAGTTATGCATTGAAGGTGGAAGCAATGGTGGACTTCTTGTTGGCGCTTGTATAAATCAGAGACCTGATCTCTTTGGCTG TGCACTAGCTCATGTTGGTGTTATGGATATGCTACGGTTCCACAAATTTACCATAGGTCATGCTTGGACCTCGGATTATG GTTGTTCAGATAAGGAGGAAGAGTTTCATTGGCTAATCAAGTACTCACCACTACACAATGTCCGGCGACCATGGGAGCAG CATCCTGAGCAGTCAATTCAGTACCCATCAACCATGTTGTTGACAGCTGATCATGATGATCGGGTTGTGCCACTGCACTC ATTGAAGCTATTGGCGACCTTGCAGTATGTCCTTTGTAGTAGCTTGGAGAAAAGTCCCCAGACGAATCCTATAATTGGTC GCATTGACTGCAAGGCTGGACATGGAGCGGGTCGTCCAACACAGAAATTGATCGATGAAGCTGCTGACCGGTATGGTTTC ATGGCTAAAATGTTACAAGTGCATTGGATTGAATAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0433700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGSLSALDGPLQYPSARRDDSVVDDYHGVKIADPYRWLEDPDAEEVKGFVEKQVQLTNTVLEKCETRTKLSEKITKLFDH PRYEAPFRRADKYFYFHNTGLQPQSVLYVQDSLEGQAEVLLDPNALSEDGTVALSTLSVSEDAKYLAYALSSSGSDWVTI KVMHVEDKNVVPDTLSWVKFSGISWTHDSKGFFYSRYPTPKDGEIVDAGTETNTNLYHELYYHFLGTDQSEDILCWRDPE NPKFLFGGSVTDDGKYLLLHIGEGCDPVNKLYYCDFSKLPNGLESFRNENALLPFVKLIDKFEAQYEVIANDDTVFTFLT NKDAPKYKLVRVDLKEPTAWADVVQESEKDVLESACAVNDNQLILSYLSDVKNVLQVRDLKTGSLLHQLPIDIGTVSGIS ARREDSVVFISFTSFLSPGIIYQCNLGTEVPDMKIFREIVVPGFDRSEFHVNQVFVPSKDGTKIPMFIVARRDIILDGSH PCLLYGYGGFNINITPSFSVSRIVLAKHLGVAYCIANIRGGGEYGEEWHKAGSLAKKQNCFDDFISAAEYLISTGYTQPR KLCIEGGSNGGLLVGACINQRPDLFGCALAHVGVMDMLRFHKFTIGHAWTSDYGCSDKEEEFHWLIKYSPLHNVRRPWEQ HPEQSIQYPSTMLLTADHDDRVVPLHSLKLLATLQYVLCSSLEKSPQTNPIIGRIDCKAGHGAGRPTQKLIDEAADRYGF MAKMLQVHWIE

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
PANTHER	PTHR42881:SF8 View details on PTHR42881:SF8 Search for proteins/transripts with this domain View external data on PTHR42881:SF8	7	731	725	0.0	–
PANTHER	PTHR42881 View details on PTHR42881 Search for proteins/transripts with this domain View external data on PTHR42881	7	731	725	0.0	–
SUPERFAMILY	SSF50993 View details on SSF50993 Search for proteins/transripts with this domain View external data on SSF50993	10	429	420	1.57E-104	–
Pfam	PF02897 View details on PF02897 Search for proteins/transripts with this domain View external data on PF02897	14	429	416	2.7E-143	IPR023302 Show description in modal box View details on IPR023302 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.1820 View details on G3DSA:3.40.50.1820 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.1820	25	721	697	1.1E-279	IPR029058 Show description in modal box View details on IPR029058 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.130.10.120 View details on G3DSA:2.130.10.120 Search for proteins/transripts with this domain View external data on G3DSA:2.130.10.120	81	440	360	1.1E-279	–
SUPERFAMILY	SSF53474 View details on SSF53474 Search for proteins/transripts with this domain View external data on SSF53474	451	675	225	1.0E-42	IPR029058 Show description in modal box View details on IPR029058 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00862 View details on PR00862 Search for proteins/transripts with this domain View external data on PR00862	481	499	19	1.7E-52	IPR002470 Show description in modal box View details on IPR002470 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00326 View details on PF00326 Search for proteins/transripts with this domain View external data on PF00326	496	726	231	7.3E-67	IPR001375 Show description in modal box View details on IPR001375 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00862 View details on PR00862 Search for proteins/transripts with this domain View external data on PR00862	508	532	25	1.7E-52	IPR002470 Show description in modal box View details on IPR002470 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00862 View details on PR00862 Search for proteins/transripts with this domain View external data on PR00862	536	555	20	1.7E-52	IPR002470 Show description in modal box View details on IPR002470 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00708 View details on PS00708 Search for proteins/transripts with this domain View external data on PS00708	543	573	31	-	IPR002471 Show description in modal box View details on IPR002471 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00862 View details on PR00862 Search for proteins/transripts with this domain View external data on PR00862	566	586	21	1.7E-52	IPR002470 Show description in modal box View details on IPR002470 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00862 View details on PR00862 Search for proteins/transripts with this domain View external data on PR00862	648	670	23	1.7E-52	IPR002470 Show description in modal box View details on IPR002470 Search for proteins/transripts with this domain View on EBI InterPro Service

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:0004252 View details of GO:0004252 AmiGO InterPro QuickGO	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 View details of GO:0004175 View details of GO:0008236
GO:0006508 View details of GO:0006508 AmiGO InterPro QuickGO	Biological process	Proteolysis	The hydrolysis of proteins into smaller polypeptides and/or amino acids by cleavage of their peptide bonds.	Subterm of View details of GO:0019538
GO:0008236 View details of GO:0008236 AmiGO InterPro QuickGO	Molecular function	Serine-type peptidase activity	Catalysis of the hydrolysis of 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 View details of GO:0017171 View details of GO:0070011
GO:0070008 View details of GO:0070008 AmiGO InterPro QuickGO	Molecular function	Serine-type exopeptidase activity	Catalysis of the hydrolysis of a peptide bond not more than three residues from the N- or C-terminus of 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 View details of GO:0008236 View details of GO:0008238

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0433700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0433700.1