Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0494200
Transcript ID	LotjaGi1g1v0494200.1
Related isoforms 1	LotjaGi1g1v0494200.2
Lotus japonicus genome version	Gifu v1.2
Description	Subtilisin-like protease; TAIR: AT2G04160.1 Subtilisin-like serine endopeptidase family protein; Swiss-Prot: sp\|I1N462\|SBT1_SOYBN Subtilisin-like protease Glyma18g48580; TrEMBL-Plants: tr\|V7B5E2\|V7B5E2_PHAVU Uncharacterized protein; Found in the gene: LotjaGi1g1v0494200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:100802603..100814631) extracted from Lotus japonicus Gifu genome v1.2.

TAATAATATAACCTTCAAACACACAAATACTGCATACATTTTAAGTGATCAATAAGAGAGTATTGCTAAATGCTCCATGC AAAAAAAAAAAAAAAATTCAAAGCCAATCATGTGAAACACATTTGCGCCATTAATATTAGTTTTTGAAAGGTATCTTAAC CAAAATTGCATACAGACATGCTAGTCCTTCAACCACGACTATTTTATTGCCTGAGTGTTAGACTTAATTGAATTGGCTAG AATATATATATTTGTACCCACTTCGTCATCATTGCTTTATAAAGGGTCTATCAGCTCCTACTATGTCACACCATCCAATC CAAGAACATAATCTTGATACAAGAACCCTGTTACTTCAATCATGGTACGCATGCTGGTTGTGATTCAAAGAAGCTCTCAA ATCCAGTTCATGTTCTTCTGTGTCCTTCTAACACTTTTGCTTCCCCAAGATGCAGCTCAAGTGACTGAAGGAAGTGCTCT GTTGAAATGGAAACAGAGCCTTGACAACCAAAGCCAAGCTCTCTTGTCAACTTGGACAGGTTCTGATCCATGCAAATGGA AAGGAATTCAATGTGACAAATCCAACTCCATCTCCAACATAAGTCTTGCAAATTATGGACTCAAAGGTACACTCCACAAT CTCAGCTTCTCCTCATTCCCCAACCTCCTCAGCCTAGATATCTCTAGCAACTTCTTTTTTGGGACCATCCCACCACAAGT AGGTGGCATGCCCAAAATAAATCTTTTGAACTTGTCTTACAATTCCTTTGATGGTTTAATTCCTCAAGAAATTTGGACAT TAAGGAGTTTACATGTCCTTGATTTTTACGCTTGTCAACTAGAGGGTTCTATTCCAAGTTACATTACAAACTTGTCCAGC CTATCATATCTAGACTTGGGTGAAAACAAATTGTATGGTCACATTCCTTCTGAGATTGGAAAAATGAACAGCTTGGAGTA CCTTGCCCTTGCAGAAAACAAGCTTTCTGGTTCCATTCCAAGTGAAATTGGGATGCTCACAAACCTTAGGTTTCTTGATC TTTCATTCAACCCTCTCTCTGGTACTATCCCTGAAACAATAGGTAACATGAGCAGTTTAAATAGACTTTATATTGCTAAT ATTTCCCAACTTTCTGGACCAATCCCACCTTCCTTATGGAACAGGTCTAACTTGTCCGAGCTCCAACTTTACCGCAACAA TCTTTCTGGATCAATACCAGATTCCATAGGAAACTTGGTCAATTTGAAACAGCTTACGCTTGATTACAACCAATTTTCAG GGTCCATTCCTTCCACCATTGGGAGCTTGACAAAGCTCACAGACTTATACTTGAGCTTTAATCATTTTTCTGGACCAATT CCTGCCTCTATATGGAATCTTATCAATTTGAATCGCCTCAGTCTCCAAAGTAACAATCTCTCAGGAACTATTCCTACTAC AATTGGTAATTTGAAAAGGCTCACTGTGTTGGAACTGTCCACCAACAAACTCATTATTCTTTTGTGCTTTCCTAAGTCCT TCTTTTATCGTGAATTTTAGGTAGCGTTTGGTAAACATGTAAGAAGGGAACGGAACGGGACATATGGGTTCCGTTCTGTG TTTGTCATGTTTTTTAGATGGAACGGAACAGGACACAAGGCTCTAAGAACAAGACATTTTGGTTCTGTTCTAGTTGTGAT AGGGGTATATATGTAATTAATCTTATGGTTCTGTTCTAGTTGTGATGTATTTGTCAAACACATTGAATAGAACATTTTTG TCCCGTTCCATTATGTTACGTTCAGTTCTGTTCAGTTCCGTTCCGTTCTGTTACGTTTCCAAACGCTACCTTATATTCTA ATCACAGTGACAAAAAGGCATTTTCCAGGGGTTGAAGATCTTTATATTCACATATGGTGTTTCACACCCTATTCTACGAA TTAAATTGCATTATATAACTATGAATATAATAATTATAAAATGCCCGTTATTGAAACTACTTTTTTAAGGAAGAAAGAAA ATTCCATCTCCATTTTTTATTTAAAGGAGAGGAGACTTTTATAAATTGAAATTAAATAGTAAAAGCTATAAATTAAATAC TCTTTCCTGTGATGATGTGATAAAAAACTAGTTAATTGGAAGAAATATATGAAAGGAAAAAGTTATCATACAAGACAAGA TCGATTATAGAAAAATTAAAGGGAGAAGAACCGTGAACTTTATTTATTTTCTTTTTTGGTAACAACCCTACACTTTATTT GAGTCTGGTCTGGGAAGGAAAAAGAGAGAGAATAAGAATAAGATTTTGAAATTTGTTTGGTAACATAAAAAATTTCTTCA CTTACTTTGGTGAGTGGGAAAATGAGCTATTGGATGAAAACACATAAATGATTTTATATTATATTCTAACACGCTTTCTC ATACAAAAAGCTCACTTAAGCTTAAAGTATGAACAATACACATGCCAACCGATCATATATATAATCATATATATGCTTCT TTTTATTAAATAGTGAGGTAAAAAAGGATCAAGTTCTATATCATTTTGTCATAGCGGTCTTGATACAATGTCATGAATTA ACGACCTCAAAAGCTTAAGCTGTTAAGTGAAGATACATAATTTTTTTTATATTATAAATACATGGTATGTTGAACTTTAT TGTCCATAATGGTTCTACCTACCTGCCAAACAAGATTGGCTTGGGGAACATCAATATGGAACTTCAACTTAAACTGTACT ATGGAATATGGATAATCAATTAAAAGGCTATATAAATCGATGAATATCTTGGCATATAAATTAAATGGCTAAATTAATCT ATTGAACTTGTTATGTCATTTACATTACAACAATACAAATTAAGCCATTGTTGATGTGATCACCCTGCGATTGGAGGTAT GGTGACTCACTGTCCACCTTGGAAATGGCAGTTGCAGCCATTTTTCAGGCTTCTACGGCTTTGTGGCTGGCAATATAGTT TTCCTGTTGTCACAATGTCAAGGCCTCTATGAAGCGTGCTTTTTTAGCTTCTGCTGCCCGCCTCCTCGCCGAGTCTTCCT CACCAGCTCCATCAAGGGAAGCTTGAGACTCTCCTGTGAGTGAGGTGACATCAGCCCTCTCGTTCGTCGACAAGTCTTTT GTGTCGAATAATTGACAACGAGTCTTTCCCCGCCCAAACCCCTTTCATATAAGAAGCTTGGTAGCTTCACCAGCGACATA GTGGGCATCACGAGATCCCTAGTTCAATATTCTCCCCTGAAGGATAACTCAAGTAGTAAGAGCTAGGGACATAAGGGTTG GGTGGGGTGAAGGGTAAAGGGGCCCGAGTTTGAACCCGGATGAGGAATTAATTTACTAACATTTATAACAACTAACATTT TCCTATAAAAAAAACGAGATCCCTAGTTGGGCATAAGTCAGAAGTTTCTCCAACCTATCTTGATACTGAGCATGATATTA GGAAAAAATAAACAAATAAGTTTAGAATAAATTAACATATATAAATAGCATATTGACAAAGGAAAACATGATGAGCTACT TACATGTGTTGCCTCAGATCGATTGTCAATCATTCTTCAGGTGGATGACAAGAACTCTCTCAAATGATAGTGCCTTCATT AATGGTGTTGGCCAAAGGGGATGCGGTGGTCAAAAGAGGTGCGATGGAGGTCGCTAGAGTTGTCAAGGGAGTTGTGCTCA AGGTTGGAGCGGCGAGGAATGGAGGTCATAGGAGAAAGAGGGGTTTTAAGTTAAGAGAGAAAATGTGGTCGTGAGTGTCC GGGGACGACCCATTTCACTCAACATTAGCATCCGCTGGGTCGAATCTACTCACTTAGCCATTGGATTTGGGTTCACAACT AATGTAGGCTCAAGCAAAGTCATAAATGATGTATACTTGGCTTTAATTATGGATTGTAGAGTGGGTAGCGTCGATTTAGC CAACACTACTTTTTAATAGATGTCATAAAATTCCTAAAAACTGACCTTATATTTGAAGCTGACATCTTTGACCTTTTTCG TAAAATGGCTGGTGCAGTTTAGTTAACTGTTTGATCGGGTTGAAATTTTGATGTTGTTCACAACACATTGATCTTCAATC TGACGAGTCGGATCGTCAATCAAATGTCTGTGCTAAAAGAAACAACCCAGGCAAGATGCAGCCACATCACTTAAGTGAAA TCTGTCTTCGAGTGCTTCTTACATTAAAATGCTAAACGATAATAAAATCTTAACAAACTCTAATGAAAACATATAAAATC CTAAAAATCCTAACAATGCATATTGTGATTAAAAATACTTAAAGTCACTAATTATGACTCAATAAAATAAATAAAAACAA GATAATAAAAAGGTTGGCCCATACCTGTAATGATGGGCATGACCAGATGGACTGACCTAGGACAAGTATGAGTTGTGCTA ATGAAATATAGGCCCACAAAAAAGTTGGCCTAGACTTGCCCAACCCAAAAAGATGCAGGAACTAAAAGAAATGACTGTTT TAGCGACCAAATTTAACGCCGCCCACAACACCAGCGCTAAGTTTCGCTAATTTTAGTCAACACTAAGCTGTTGTGAAATG CCAACAAATATCCCTACTTAACGGCATCATCGGTATGACTGACGCCAACTTGCGTCAGAAAACCATCATTTAGCAATGGT CATAATCTAGATCATTTCAGCAAGTCTTCAATTCCTCAGTTTCATATTTATATTATGGTTATTTGATATTTTTTCAAATT TTTCCTTATTAGTCCTGACCGCCGACACTAGTGCATTGGTTCTAGAGCCGCCTATGTGACTGACACTAATTTTGAGTTGA TAGAGTCGATTGTATTATCAAGTGTGTAGTGTCAGTTTAGAGTGGGATAAATCGAGTTCACATGTAGCGTTCGTTAAGTA GCTTACGTTACACGTCAACTTTTAGTCTTTTAGCGTCAGCCGCCGGTGCCACTGATGATAAGTGTTATAAATTTAAAAGC AAGGATAATAAATGAATTAAAAAATTATAGATTTCATTCTATTCTGTGCGCGCACTAGCTACAAACAGTTGTACAAAAAT CATTCTAAACACATCCAACTAGCTTTTTTCCTCTATATATGCCATTATTTATGCCGTTTCATTACACTTACACCAGCAAA GGGTAGAACCCCTATGCTACCACAAACATATTCCATAAAAATGGGTCGTTCAATCTCATCAACCCTTCTTTTTCTTGTCT CATATTTTCTTCTTTTTATTTCGTTGCTGAATTCTGTCCATGCTAGCAAAAAGGTAGGGCAGTTTTTCTTGTTGAATGAT CAATGATTGCTCAATTTGCATGTTGTTTTGAAGTTAATTACTACTTTGAAATTATTGAATATGATTGGTGATGATGACAT TATTGAATGATGACTAGTGATGGGTGACTTAACTCTTTGTCAAACTATCCATTTTTAATTTATTACTTGTTCATAGTGCT ACATTGTATACCTGGGAGCACATTCTCATGGTCCAACACCTTCCTCTGTTGATCTTGAAACTGCCACATCTTCTCATTAT GATTTACTGGGTTCAGTCTTGGGAAGGTATATATAAAATGAGATAAACATAATTTTTCCCTAAGCTCTGTTTTAGAAGAA ATTGATCTATTAACTATGTATGTTGATGATCATTGACAGCCATGAGAAGGCCAAAGAAGCAATTCTTTATTCATATAATA AACACATCAATGGATTTGCAGCTTTACTTGAAGAGGAAGAAGCAGCACGGATTGCAAGTATGAAACTCAAAATAATGCTT AAGCACCTTCCAGATCTAGTGTTTTCACCACTTCAAATTAGCTATCACTATATTTGGATTAAATTTCTTCACCTTACAAT CAATTTTGATACTAGAAGTTACGGAAAGAAGCTTTTTCACCAAATTAATTTAGCGTCAAAATTAATGGAATTAATTGGAG AAGTATTTCTAGACAGAGTATATAGTTGACATTGTGTTTATGCAGAAAATCCAAAAGTAGTATCTGTGTTTGTGAGCAAG GAGCATAAATTGCACACTACCCGTTCATGGGAGTTTCTTGGACTGCGAGGAAATGGTGGGAATTCAGCATGGCAAAAGGG GAGATTTGGAGAAAATACAATCATAGCTAACATCGATACAGGTAATTTAAGCTCTAATGTAAAGAAAATAATCAGTAAAT ATCCGCATTATGCATACATTTAATAGACTTTGGAGTGAAAAAAAGAAGACAACATAGTAAAATAATGGATTTGATGCATG GTATGAAAGGAGCTCCACATTCAATATAGTGAGATCCTTATTTCCAACTAATCAATGAAAAAATGTTAAAAATAAAGTGT TAAAGTATGATTGCTAGCACATCTCAAACAGTCAATCATATAATGTTATGGTGTATGAAAGTGTTATGTTGACACTTCTT TCCCTTATATCTTATTCACTATTCAAAAGATTGAGAATAGTGAAAAATGAAATACATATGATAAGTGACATAATATGAAG AAGAAAAGAGAAATTGAAATTGAAAGAAAACAAAGTAGAAATTAATTGTAAATCTGAGCATGAATATATTATATTGCATG CTAAAATCTAAAGTGAAAGTTTTCTTTATGCACAAAAAACAATGTGCATACTGTTGGTTATGCCTTTCTTTATCTTTTTT ATGCACAAAGATGTGTCTTTCTTTGTATTGTACCTCTTTATGTTTTTGACCAAGATGCTAAAATCTTCAAATGTTCTCCT AATGACGTACGATCTGGACAGGTGTTTGGCCTGAATCCCAGAGTTTTAGTGACAAAGGAATTGGTTCTGTTCCTGCAAAA TGGCGTGGGGGTAACATCTGTCAAATTAACAAGCTCCGAGGTTCAAAGCAAGTTCCATGTAACAGGTCCCAACTAAGCTT TCACTTTTTCCTTTGAGTTTGTTTTAAACAATAAAGATGGGCTAGATACTAGAGTGTGATATGGAATAGTAGTAAAAAAG AAAAAAAGAGTCCCCAATTATATGCACTACATGCACTTATAAAAAGTGGACATTTAAGCATTATCCACTAGAGCCCCCAT TAACGGTCTTTCCCATTATAACTTTATTTAACCCAAGCATATGCTAAAGGAGTAATGATATATACACAACTCATTTTTTA AACACTTCATTCTCACCTCTTTTTATTTCTATCTCTCTCATCTTATCATCTATCACATCTCATATTTTCTCTCTCTTACT TTTTCTTTTCTTCCTATCTCTCTCACCATTCCACCTCTCCATCTCAAAAGAGAGGTGTGGATGAAACATTATCCTATCCT AAAGTATAGCTCATTCCTTGAAAACATGACAGATCTCACCAGAAATTATATACTTTTACTGATGTTGTCAATTTGGTTCA ACATACACCCTGTATGATAAAGCAGTGACAACACTCTTATATGCATTTTTTCTCTCTCTTTCTATCATCTCTAGAAATTA GGAGGCCTATACTCAACCACAAAAGCTAGCTCAAGAGTTGAGGTTTGCACTACCCTTATAAAGCTTATCTTGACTCTATC TCTAGCCAATGTGAGACTTCTAACACACCCCCTCACGTCCAGGATTGAAAAGACTGGAACGTGGGATCAACAACGGGTGG CCCAAATATGCGTGGTCTCCACAACAAATGGATCTAGGATAGGCTCTGATACCATATTAGAAATTAGGAGGCCTATACTC AACCACAAAAGCTAGCTCAAGAGTTGAGGTTTCTAACTTGTCATGTCGTATAACATATTTATATTTAATACTTTGCTCTT TTCTCTTCTTATATTTTGGTTTTTACACAAAAAGAATATTTCACAAACCTTATTGTTCAACATAGTTTCTCTCAGTCTCT TTCTATCACATCAATTACTTATATCTTTTCTTCCATTTTCACTTTTGAGTGTTTGTTTGTTGTATGCGCTATGTTGATAT TTTAAAATCATTTTACTTTTTATATAAAAAATCTGTTTGATTGCAGATTTTGAAAACTGTATTTAAAAAGTGTTTTTAAA AACTGTTTTGATGTTTAAAAAAAAACCGTTTGAATTAGATGTTTTCTAACATTACAAAATTGTAATATGAAAACTAAAAA TAGAAAACATCTTTTAGTTGTTCTGGTATTTTAATTTTAAAAATTGAAATTGAGAACGGTTTTCGAAAACAATTTTTGAA AACAAACAAATTTTTAAATTTGCAATAAAAAAACAGTTTTCAAAAACTGTAATCAAACAGGCCAAAAATTACTCACTTGA GAAATGTTAGTTAGACATAAAAGTTATATCACCATCTATTTATATATACTTGTATGAAATGTGCTACACATGACACTAGG AAGCTAATTGGAGCAAGATTCTTTAGCAAAGCTTTTGAGGCATATAATGGCAAACTTCCCCCAACACAACAAACAGCACG TGACTTAGTAGGCCATGGTACCCACACACTATCAATAGCTGGTGGAAATTTCGTTCCTGGAGCACAAGTATTTAGTAATG GTAATGGCACAGCAAAAGGTGGATCACCAAGAGCACGAGTTGCAACCTACAAAGTGTGCTGGTCGCTAACTGATCCAGCT AGTTGCTATGGCGCGGATGTGTTGGCGGCCATAGACCAAGCCATAAGCGATGGTGTTGATGTGATTTCTGTATCTGCTGG AGGAAGATCTTTTATCAGTGCTGAAGAAATTTTCACTGATGAAGTTTCCATAGGATCATTTCATGCACTTGCCAAAAATA TATTAGTAGTTGCTTCTGCAGGGAATGATGGACCTGCACTTGGAACTGTGTTGAATGTGGCTCCATGGGTGTTTACTGTT GCTGCTAGCACCATTGATAGAGAGTTCAGCAGTACTATAACTTTGGGTAACAACCAACAAATTACGGTATCATCCTTCTT TCTTCAACTTATTGTTATTCTTTATCTAAGTAATGTGAATTGAAAAAAATCTCTTTTTTTTAGATAACCCAAATTTATAT ATATAGAGCTCAAGATGTGCCAAAGAGAAACAAATGTAATTGTACAGACCCAAGGCCAAAAGAAAACAGAGAAAATGAGG AAACATGGGAGGAATCAGAAAAAACAAACAGAACAAAGAAAAAAAAATCTCATTTAGGAGAGTTATGAGGATTCCCTTAA ATGGCATATTCCCTTAAATCTCTAATAATAGACAACAACAAAAAAATTGTATATATTTAAGCTGGCTTAAATTCAATTGC TATTATTGTAAGGAAAATTATTTGTAGACGTTTTTATAGTGCATATATTCAATAGATACTCAGACAAAAAAAGTACCGAA GAGTAAGAAGTAATTGATGTAATATATGTAAAAAGAGAAAAATGAGTTATTTGTTGAATGTATGTCCCGTTTATATATTT AAGTATCACAACTGTTACTGTACTTAATAGGAAAATGAGAGAAAAGTAGAGAATTTTCTGATTAACTGATCTAATTGAAC GTATTTGTAGTTACACATAATGTGAAACTAAGTCTCTAACTGTAATCGAGCTAAATAGTATAACAACCAAACAACTAGAT AACCGAAAAAGACTAACAGAAAACTGATTCTAACTACAATTAAATTAAGAGTAGAGTAATTGTTGAAATAATATTTTACT TTTTTATTTGCAGGGAGCCAGTCTTTTTGTGAACTTGCCACCTAACCAATTATTTTCTTTGATCCTTTCAACTGATGCTA AACTTGCCAATGCAACCAATCGAGACGCGTAAGTACAAATCTCAAAAAGATTTGCCTTTTCTATAAACTTATAGTCGTGA TTCATGAACCACAGTTTTTAGGCAACACTGAACCGCCACAAACTGTAGAGTTTTATTATTATGCAATTTGTGGCAGTCAA AGACCTGCACAAACTACAGGTTTAATTGAAGTTAATGAAAAACCGTTGGACATGAAATCATTTTTTTTAACTTAGATGCC TTTGTTTATTAAATGCCATGTTTCTTACATTCATTTTTATATGCATGTTATTGCAGTCAACTTTGTAGACCTGGAACACT TGACCCTGCAAAAGTAAAAGGCAAAGTAGTGGTATGCACTCGAGGTGGAAAAATAAAATCAGTAGCTGAGGGCAGTGAAG CTCTATCTTCTGGTGCAAAGGGAATGGTTCTGAGTAATCAAAAGCAAAATGGAAACACACTTCTTTCTGAGCCTCATGTT TTGTCAACCGTGAACACTGCAAAAGTTCCTGGATCAAAAACAACACCTGGTGGCGCTGGCATAACTGCTACGTATAATTA CACATAACCATCCTTTAAAATTGTTACATTTTTTAAAATTTCATGTTACATATGAAGGGCTCTATTTATTCACTTTATTA CTATATTTCTTTGAATTGAAGGGACTCTACAATAAATTCATCCACTACATTAAAGTTGTCCCCAGCAAAAACATTCCTTG GAAGAAAGCCAGCTCCAGTTATGGCTTCATTCTCATCTAGAGGGCCAAATAAAATTCAACCAGCAATACTAAAGGTAATT TAAAAAAACTTAGAATTTTATCAATTATACTCATTTTGTATTTTTTTTTATTAGATTGATTTTGTTCTCTATTTTAGCCT GATGTAACTGCACCTGGTGTGAGCATACTCGCTGCGTATTCACCATTTGCAAGTGCATCTAACTTATTATCAGACACTCG TCGGGGGTTTCCATTTAATGTACTGCAAGGAACTTCCATGTCTTGCCCTCATGTTGCTGGTATTGCTGGACTTATTAAAA CACTTCATCCTAATTGGAGTCCGGCCGCTATCAAATCAGCAATCATGACGACAGGTACTCTCTCTATCTCTCTTTTCCTG TCAAGAGTGATTTTCGGTATTCAAACATGGGTGACATATTTACTTATGTTTAAATTTATGGCTTTGCAGCAAGCACAAGA GATAACACCAATAAGCCGATACGAGATGCTTTCAACAAAAAATTGGCAACCCCATTTGCTTATGGTTCAGGGCATGTTCA ACCTAACAGTGCAATAGATCCTGGGCTTGTTTATGATCTAAGCATTGTTGATTACTTGAACTTCTTATGTGCTTCTGGAT ATGACCAACAACTCATTTCAGCACTAAACTTCAACAAGACATTTACTTGTTCAGGATCTCACAGCATAACAGACTTGAAC TACCCTTCAATCACATTACCAAACATCAGGTCAAATGTGGTAAATGTTACTCGCACAGTCACCAATGTTGGGCCACCAAG CAAGTATTTTGCAAATGCACAATTGCCAGGACATAAAATTGTTGTTGTTCCAAATTCCTTGAGTTTCAAGAAAATTGGTG AAAAGAAGACATTCCAAGTTATTGTGCAGGCAACGAGTGTGACTCAAAGGAGAAAATACCTATTTGGGAAATTGCAATGG ACAAATGGAAGACACATAGTTAGGAGTCCCATTACAGTTCGACACATATGAGAAAGCATTGTGTTATGATATTATGATAT GAGGACCACTATGTTTGAGCATTGGGATTTCATGTTATCTATGTGTGCGTGTTTATTTTATATTATCATTTTCTTTGGTT GTTTGGGGATCATAGTGTGATGTGTTTTTGCAATAAATGATATGTTAGATGAGTGCAATGAACATGCTTAGTGCTTAAAT TTGAAGTGTACAGGGGTGGAAAAGTTATGGGCCCTTTTTTAAGCTTGATTTTTGTTCCTTCCCTGTATTTTGGATGATGC TAATTAATAAATTTCGTGTTTATCCGGAATTTTTTTTTTGAAGTCCATACTCTGACAAGTGACAACTCTACCGACCATGC TATACCATTCTTCGTGTTAGATTAAATTTTTGAGCCATTTGCTTCAAGGGTTGATTGGTCTTGATGACTACCTCATGGCT TTGAAAGTAGGGCCTCAGTTTGTGAATTGAGATCACCAGGGCAAAGCACCGTCTTCTCATTATTCTTGTGTCTCAAGCTC AACCCCTGGAAAGCTCTGCTCACAAAGTATATTTCTCTTTGTTTTTATGCCTCCTCTTGTACCAATGTTGAACTCATTGC TGAGTTGGTTACTGATTGATACATCAATA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0494200.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGACTCAAAGTGCTACATTGTATACCTGGGAGCACATTCTCATGGTCCAACACCTTCCTCTGTTGATCTTGAAACTGC CACATCTTCTCATTATGATTTACTGGGTTCAGTCTTGGGAAGCCATGAGAAGGCCAAAGAAGCAATTCTTTATTCATATA ATAAACACATCAATGGATTTGCAGCTTTACTTGAAGAGGAAGAAGCAGCACGGATTGCAAAAAATCCAAAAGTAGTATCT GTGTTTGTGAGCAAGGAGCATAAATTGCACACTACCCGTTCATGGGAGTTTCTTGGACTGCGAGGAAATGGTGGGAATTC AGCATGGCAAAAGGGGAGATTTGGAGAAAATACAATCATAGCTAACATCGATACAGGTGTTTGGCCTGAATCCCAGAGTT TTAGTGACAAAGGAATTGGTTCTGTTCCTGCAAAATGGCGTGGGGGTAACATCTGTCAAATTAACAAGCTCCGAGGTTCA AAGCAAGTTCCATGTAACAGGAAGCTAATTGGAGCAAGATTCTTTAGCAAAGCTTTTGAGGCATATAATGGCAAACTTCC CCCAACACAACAAACAGCACGTGACTTAGTAGGCCATGGTACCCACACACTATCAATAGCTGGTGGAAATTTCGTTCCTG GAGCACAAGTATTTAGTAATGGTAATGGCACAGCAAAAGGTGGATCACCAAGAGCACGAGTTGCAACCTACAAAGTGTGC TGGTCGCTAACTGATCCAGCTAGTTGCTATGGCGCGGATGTGTTGGCGGCCATAGACCAAGCCATAAGCGATGGTGTTGA TGTGATTTCTGTATCTGCTGGAGGAAGATCTTTTATCAGTGCTGAAGAAATTTTCACTGATGAAGTTTCCATAGGATCAT TTCATGCACTTGCCAAAAATATATTAGTAGTTGCTTCTGCAGGGAATGATGGACCTGCACTTGGAACTGTGTTGAATGTG GCTCCATGGGTGTTTACTGTTGCTGCTAGCACCATTGATAGAGAGTTCAGCAGTACTATAACTTTGGGTAACAACCAACA AATTACGGGAGCCAGTCTTTTTGTGAACTTGCCACCTAACCAATTATTTTCTTTGATCCTTTCAACTGATGCTAAACTTG CCAATGCAACCAATCGAGACGCTCAACTTTGTAGACCTGGAACACTTGACCCTGCAAAAGTAAAAGGCAAAGTAGTGGTA TGCACTCGAGGTGGAAAAATAAAATCAGTAGCTGAGGGCAGTGAAGCTCTATCTTCTGGTGCAAAGGGAATGGTTCTGAG TAATCAAAAGCAAAATGGAAACACACTTCTTTCTGAGCCTCATGTTTTGTCAACCGTGAACACTGCAAAAGTTCCTGGAT CAAAAACAACACCTGGTGGCGCTGGCATAACTGCTACGGACTCTACAATAAATTCATCCACTACATTAAAGTTGTCCCCA GCAAAAACATTCCTTGGAAGAAAGCCAGCTCCAGTTATGGCTTCATTCTCATCTAGAGGGCCAAATAAAATTCAACCAGC AATACTAAAGCCTGATGTAACTGCACCTGGTGTGAGCATACTCGCTGCGTATTCACCATTTGCAAGTGCATCTAACTTAT TATCAGACACTCGTCGGGGGTTTCCATTTAATGTACTGCAAGGAACTTCCATGTCTTGCCCTCATGTTGCTGGTATTGCT GGACTTATTAAAACACTTCATCCTAATTGGAGTCCGGCCGCTATCAAATCAGCAATCATGACGACAGCAAGCACAAGAGA TAACACCAATAAGCCGATACGAGATGCTTTCAACAAAAAATTGGCAACCCCATTTGCTTATGGTTCAGGGCATGTTCAAC CTAACAGTGCAATAGATCCTGGGCTTGTTTATGATCTAAGCATTGTTGATTACTTGAACTTCTTATGTGCTTCTGGATAT GACCAACAACTCATTTCAGCACTAAACTTCAACAAGACATTTACTTGTTCAGGATCTCACAGCATAACAGACTTGAACTA CCCTTCAATCACATTACCAAACATCAGGTCAAATGTGGTAAATGTTACTCGCACAGTCACCAATGTTGGGCCACCAAGCA AGTATTTTGCAAATGCACAATTGCCAGGACATAAAATTGTTGTTGTTCCAAATTCCTTGAGTTTCAAGAAAATTGGTGAA AAGAAGACATTCCAAGTTATTGTGCAGGCAACGAGTGTGACTCAAAGGAGAAAATACCTATTTGGGAAATTGCAATGGAC AAATGGAAGACACATAGTTAGGAGTCCCATTACAGTTCGACACATATGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0494200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MDSKCYIVYLGAHSHGPTPSSVDLETATSSHYDLLGSVLGSHEKAKEAILYSYNKHINGFAALLEEEEAARIAKNPKVVS VFVSKEHKLHTTRSWEFLGLRGNGGNSAWQKGRFGENTIIANIDTGVWPESQSFSDKGIGSVPAKWRGGNICQINKLRGS KQVPCNRKLIGARFFSKAFEAYNGKLPPTQQTARDLVGHGTHTLSIAGGNFVPGAQVFSNGNGTAKGGSPRARVATYKVC WSLTDPASCYGADVLAAIDQAISDGVDVISVSAGGRSFISAEEIFTDEVSIGSFHALAKNILVVASAGNDGPALGTVLNV APWVFTVAASTIDREFSSTITLGNNQQITGASLFVNLPPNQLFSLILSTDAKLANATNRDAQLCRPGTLDPAKVKGKVVV CTRGGKIKSVAEGSEALSSGAKGMVLSNQKQNGNTLLSEPHVLSTVNTAKVPGSKTTPGGAGITATDSTINSSTTLKLSP AKTFLGRKPAPVMASFSSRGPNKIQPAILKPDVTAPGVSILAAYSPFASASNLLSDTRRGFPFNVLQGTSMSCPHVAGIA GLIKTLHPNWSPAAIKSAIMTTASTRDNTNKPIRDAFNKKLATPFAYGSGHVQPNSAIDPGLVYDLSIVDYLNFLCASGY DQQLISALNFNKTFTCSGSHSITDLNYPSITLPNIRSNVVNVTRTVTNVGPPSKYFANAQLPGHKIVVVPNSLSFKKIGE KKTFQVIVQATSVTQRRKYLFGKLQWTNGRHIVRSPITVRHI

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
Gene3D	G3DSA:3.30.70.80 View details on G3DSA:3.30.70.80 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.80	1	90	90	3.2E-28	IPR037045 Show description in modal box View details on IPR037045 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10795 View details on PTHR10795 Search for proteins/transripts with this domain View external data on PTHR10795	3	761	759	0.0	–
PANTHER	PTHR10795:SF604 View details on PTHR10795:SF604 Search for proteins/transripts with this domain View external data on PTHR10795:SF604	3	761	759	0.0	–
Pfam	PF05922 View details on PF05922 Search for proteins/transripts with this domain View external data on PF05922	6	90	85	5.7E-14	IPR010259 Show description in modal box View details on IPR010259 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd04852 View details on cd04852 Search for proteins/transripts with this domain View external data on cd04852	87	584	498	1.0478E-125	IPR034197 Show description in modal box View details on IPR034197 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52743 View details on SSF52743 Search for proteins/transripts with this domain View external data on SSF52743	89	622	534	9.69E-75	IPR036852 Show description in modal box View details on IPR036852 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51892 View details on PS51892 Search for proteins/transripts with this domain View external data on PS51892	94	618	525	26.744	–
PRINTS	PR00723 View details on PR00723 Search for proteins/transripts with this domain View external data on PR00723	115	134	20	1.8E-10	IPR015500 Show description in modal box View details on IPR015500 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00082 View details on PF00082 Search for proteins/transripts with this domain View external data on PF00082	115	610	496	6.7E-41	IPR000209 Show description in modal box View details on IPR000209 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.200 View details on G3DSA:3.40.50.200 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.200	118	632	515	2.7E-167	IPR036852 Show description in modal box View details on IPR036852 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00723 View details on PR00723 Search for proteins/transripts with this domain View external data on PR00723	195	208	14	1.8E-10	IPR015500 Show description in modal box View details on IPR015500 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.50.30.30 View details on G3DSA:3.50.30.30 Search for proteins/transripts with this domain View external data on G3DSA:3.50.30.30	333	485	153	2.7E-167	–
CDD	cd02120 View details on cd02120 Search for proteins/transripts with this domain View external data on cd02120	339	446	108	8.38421E-26	–
PRINTS	PR00723 View details on PR00723 Search for proteins/transripts with this domain View external data on PR00723	547	563	17	1.8E-10	IPR015500 Show description in modal box View details on IPR015500 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00138 View details on PS00138 Search for proteins/transripts with this domain View external data on PS00138	548	558	11	-	IPR023828 Show description in modal box View details on IPR023828 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.60.40.2310 View details on G3DSA:2.60.40.2310 Search for proteins/transripts with this domain View external data on G3DSA:2.60.40.2310	635	762	128	6.5E-31	–
Pfam	PF17766 View details on PF17766 Search for proteins/transripts with this domain View external data on PF17766	664	759	96	8.4E-25	IPR041469 Show description in modal box View details on IPR041469 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

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0494200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0494200.1