Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi1g1v0512100 |
Transcript ID | LotjaGi1g1v0512100.1 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Alpha-amylase; TAIR: AT1G69830.1 alpha-amylase-like 3; Swiss-Prot: sp|Q94A41|AMY3_ARATH Alpha-amylase 3, chloroplastic; TrEMBL-Plants: tr|A0A0L9THE5|A0A0L9THE5_PHAAN Uncharacterized protein; Found in the gene: LotjaGi1g1v0512100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:103367961..103381725) extracted from Lotus japonicus Gifu genome v1.2.
GACTTCTCCAAACAAGAACTTTTCCATAATTGTTTTCTGGCTTTTCCCTTCTACCTTTTCTAACCTTTCCAATTAAAAAC TTTGACTCGGTGAACACGTGAACGTGATCCTCTACTTTTCACGATCCAAGTTCAACCTTCCTTCTCTTCTCTTCTCTTCT CTTCAACTCCAATCTCTGTGCTCTGCGTTCCATTCCCAATCGCGCATTGATCACAAAAATTCTCCCTTTTCTCAAATCAC AGTAAAACTGAGGATCTTGTTTGTTTCAAACCAGGTAACAAAAATCTCTGAACTTGTCTTAATTTCAAAGTTGCATTTCA TCATACATCAAAATTTTCAGCTCAGTTTAGTTGTAGTCACTGTAATATTTCCTCTAATCAATATAAATTATTAATTTTTT TCATTTTCAGTATGATGGTCTTTGCTGTTAATTGTTGATGATGATGATGATGACTTTGTATATAAGGTTAAGGAGATAAC AGGAAAAAAGAAGTGAAGGTAAGGAATAGTGTTATGTTTGTCAGTTTGTGTTGTGCTGTTTTTCAATGTGATGCAAGAAG ATGAGATGATTGTGTAATGTGCAGGAATAAAATGGGAGCTACTACTTTGTTGCCTGATGTAGCAATTGGGCTTCTTCCGC GATGTCCCTTTGTTCCCAGGCACCCTTTTATCTGTAGAGTAACTTCAATTAGATCAATAAGAAAAAGGTGAGCTTGTAGA ACTGTAACTTGTGTGGTATTTTCCTTTCTCAGATTATGTGCAAATGTTGAAGTGAGTTTCTTTGTGTTCTTTGTTTGTTT AATTGCAGGAGTTACTCCTTTGCTGAGAAGAGGGTCTCTAGAGAATCAGTATACACGGTTTTTTCACGAACGGTAAGGAC TTCCTTATGAAATTGGAGGCTTTGGTTTTATGTTTAGGAGTGAATGTAATGGGTGTTTATCCATGTGGAGAAGATTAACT AATAAGGTCGATATAATGATGGGAAGTTTATTTAAGTTATTGCCACTTGGAACAACTGTCATTTTGTGGGGAAAATTGCA AAAAAGGAGTTCTTGCCAAAAACCTTTTTTTGTATACAAACAATTGAGTACTTGAGTCATTGAGCGCTCATGCATTAATT ATTCTTTGAACACAGTCCATTTTCTGAGGTAGTTTACAATAACTGAGAATTCATTATTGTAACCCACTATTTTTTCCTTG GAATACACATCTGGTTCATAGTCAGCTCTAGTTCTCTGTCAAATACATGGTTTAGATGTTTGCATCATTCTAAATAGTAA ATACTATTTATTTTTTGGCTGCTTATTACTTAGAGATTGGATTTTGTATGTCTTTTAACAATTTTATGTTAATTAACTAG ATGTAAATGACAATTGGTTATGCTTTGTGATAATGGAGCAGTGTATATTTATTCTATTTCTGTGACAGAATGATTCAGAT GATGCTTTCACGGATGTAGTTGTTGACCAGGATGGTTATTCTGGAAGAACTGAAGTTATGGGAATAGAAGATGAATTAAT GGTAGCCAAGAAAGCTCTTTCAGAGGCACAACACAGACAAAATGCTATTGAGAAAGAGAGAGATCAATTGCTTGAAGAAC TTGCTCGTTCTGAGGCTAAAAAACAGGAATACATCTCCGCAATTTTACATGACAAAGAAGTAACTATAAAAGAACTTGAG GCTGCCAAATCTCTTTTTCAGAAAAAGCTGGAGGCTTCGGTGGAAGAGAAGTTCACTTTGGAATCTAAGCTGGTCCTTGC CAAACATGATGCTGTTGATCTTGCAGTGCAGGTGGAAAAGTTAGCAGAGGTTGCTTTCCATCAGGCAACTTCTCACATAC TAGAAGATGCTCAACTCAGAATTTCATCTGCTGAAACCACAGCTGCTGAAGCAGCCCATCTAATTGAAAGACAAATTCAG GATGCAACTGAGGGTACATTATCATCCATAGTTGAAAAGTCAAAATATGCTATAGAAAGGGCTCTAGTTGTGGCGGAGGA AGCAGGTGAACGTGCAAAAGAGGCCATGGAAACATTTATAGATGGCACATCTCCATTTACTGAAATGACCTCTGTCCAGG AAGAAAATATCAAGTTACAGGGCATGATAAGTGATTTAGAATCTCAGTTGATGGTTGCAATAAATGAGGCTGATAGTCTT AAGATAGAATTAGAGCACGCCAGGCAGCAGCTAAAGGCTTTTGAACAAAGAGCCATTGATGCGGAGAAAGCTTTGCTTGA TCTTCAGGAGTCAATCAGGAAAACCACTCTCAAGCAGGAGGAGGAGATGAAGTTAATGCTGGAGAAAATGAAGAAAGACA TGGCAGAAAGGACAAAGGCAATTTCCAAGGCTTTTAAGACTGACTTGAAGAACATCAAGGCTACACTTGAAGCTGCCAAA GAAGTTTCTCATTGTAAAGATTATGCTTACCTAAGAAGATGTGAGGCGCTGCAGAGGTCATTAAAGTCATCCGAAGATGC TTTGAAGATGTGGAGACAGAGAGCTGAAATGGCTGAATCATTGCTATTGAAGGAAAGGCTACAAGATGAAGGGGATAGAG ATTCTATATATGTTGTCAATGGTGGACGGATAGACCTTTTGACAAATGTTGATTCTCAAAAATGGAAACTACTAAGTGAC GGTCCTCGTAGAGAGATACCTCAGTGGATGGCACGAAGGATTAAGGCTATCTCTCCCAGATTTCCACCAAGAAAGATTGA TGTAGCTGAATCATTGACATCAAAGTTCAGATCCTTGGAGTTGCCTAAAGCTGATGAAGTATGGTCCATCTCTCGAGAAA AGCCAAAGGAAGATGATGCTTTAATTGAACAAGTTTTTGAACGAGAAACAATTGAGAGAAAGCGGAAGGCGCTGGAGCGT GCTCTTCAACGGAAGACTACAAAGTGGCAGAGAGCCCCTGAACAAACAAAACTAGGTTAGTGTGCTGTGTTTTAGTCCAT TTCTTGACATTAAATACAAAAATTGCTTCTGGAAGATTTCTTTAATTAATGTGATCCACCTCTGGCATGTAAACTTTTAC ATAATGTCAATAACAGAGCCAGGCACAGGATCAGGACGTGAGATTGTGGTCAGTATCTACTTATCCAAGAAGTTGTCAAA TTAAGCGTAAATGTATATTAGTTCCAAATTTATTATGTGTTGCTCAGATGTGGTGGTTGGTGGGAAATTGAAGCCAGAAA ATACTGCAAGATATTTAGAATGCATTGGTTCTTGATACAAAGATTATGAACAAAAACTGATTTTAATTCTTGATTTAGAT ATGAACAATGGGTGCATAGTTTATGTAGCTGCGTTGTTTTTTTCATGTTTGAGTTGGGTATAAAAGTAATTTAATTATAA GATCCCTCCCCTCCCCTTGTGTACCAAACCAAGGTTGTTAATGGCGGATAGCATAGCGTAGCGGCAAGCCCCAAAAACGC TATTTCGAGCGCTATTGCGGCGCTATAGCGGTGAATAGTGGAGTAGCGGTGAACCCCTAGGGCGCTACGCTATAGTGCTA TTGCGCCGCTATAGCACGCTATTGACAAGCCTGTACCAAACAAGTAAAGAGTTATTTCCCCTCCCCTCCTCTCTCTTGAA CCAAACATGGTAAGAATAAAAATCCCTATCCTCCCCTCCTTTCCCCTCCGTTGAACCAAACACACTAGTTCTTGTGCACT ATATGCCAATTTTGTCACTACTTGACTAAAATGCCATTCGATTCATTGAGTAGTATTTCATCATATCTCATGCTTTGTTT TATTTGTATGATTCTATCTGCTTGTTTTCATTAGCTCTTGATATTGCAAATATTTATCATTCCCATTATTTATTACATGT ATTTACTGCTTATAAAGAAAAGTAAAAGGGAATAATAAAAAAGAAAATGTGTCTGGTGATTTTTTTTTTTCAAGTTTCAA GCTTTTAACTGGGAGAGCTGGAGAAGGAGCTGGTATCTTGAATTATCATCTAAAGCTGCGGATTTATCTCAATGTGGGGT GACAGCAGTGTGGTTGCCACCGCCAACTAACTCGGTTTCTCCACAAGGTTTGACTTGTTTTCTTCTTTTTAGAGTACTAT AAGTGTGTAAAGTGTGAACAGTCATTAAAATGTTAACTGTGAGCTGTTCAGTCTGTTGCAACAGTCTTTCAGTTGTAGTG GCTGAACTGCAATGCAGTTACAGCTTCGGTTAGATGAATTGGGTGTCTTATACAAGTTACCTCTCTTCATTAAAGAATAC AGTTTTAAATTTTGCATGATTCAGTATATTTCATCCTTGGACTCTCTCTCTCTCTCTCTCTCTCTCTCTTGCTTCTGCTT TCTCTCATTGTTTTAGTTTCACTGTTTTGTAATACTTCTATACATTCTATGCGATTTAGAGGGCATCCTCGAGTATAACA GAAGGCTATATTTAATTTTTTCTGGTTCTAGATTTATTTACATGAGACCAAATGATCTTCATAGATATGAATATGTGATC ATATGTGTATCATATTATGTTTATCTTACTTCAAAATAATTGAAGATGTCGCTGATGTTGTTTCATTCATCACCCACTGG CTTGCCTTCGAAATATACTACAAATGCATTACAATATCAAGCATAATAGTAAATTTTCTTCTACTTTGAAAGCATAATTT CAACTGAACTAGGCACAACTTTTTAGCTTTCTTTTGTATAGAAAACATAACAACTCTTTTCTGTAATTGTTCAGATCATA AACAAGACAGTAAGGCATTTCCCTGCACTAGTATTTGTAATTAGTATTTTCCTATTTAGTGAATTTGTTAAAAAATGGAG CATAAGTAATATGCTTGATCTAAGATAAGCATATTTCAGGGGTCCTTTTTATTTCTTGAGAAGCACAGGCAGTTTTGTAC TTTGGATAACTTATAAATGAAAACTCTATGTAAGATTATTATAGCTTCTCATGATTTCTAGTTTATAGGATAAATGCTTT TGCAAGCTTTATTGTCTTCACAAGAGATCTGACAGCATGGTCTTTTCAAATTATTCTTTTTCCCTACAAGGGAATCTTTT CACATTTCTTGCCAAAACAATTTCATTTATGAAGTAATATATGGCCAACCTGTGGTATAACATGCCTTTATGAACAATAT AAACTATTTGCAGGTTACATGCCTTCTGATCTTTACAACTTGAATTCATCCTATGGTTCTGTGGAAGAACTTAAATCTTG TATAGAGGAAATGCATTCTCAAGATCTAGTGGTATGTTGTGCTGCTTTTATTTTGATAAGGCGGTATGTTCTGCTGCTAA TTGACATAAGTAATTGAATATGTGGAGATGCATTGTAGGCAACCAATTAAAATTTTCAAATCTATAATAATCTAAAATTT ATGGCTTATGGGTATCCAAAAGTAACTAGTCCACTTTTCTAATCTAAAGATTTACTTTTTTATTTTGTAGATAATTAATA TCTTTGTTAAATCATGTGGTTTGAATTTCAAATAAGAAAACAGACTTATCAACAACAACAATCAAGCCTTTTCCTACTAG GTGAAGATGTGAAGTTGGCTACATAAATCATTCTACTTTATAATGCTCTATCGGATACTAAACTTACCAATATACTATTT AAGTATAAGTTATGCTTAAGGATTTAGACTATATTTTTGCTACCCTAGGTCTCCCTCTATCCTAACCATTGGACTCTCTA GTCTCTTCCACTTGGTCCCCTCCTTGTAGCTACCTCAACTTTCTGTTTAATGATTGTATTTCTAATCCTATCATGTCTTG TGTAACCACTCATCCATATCAATGTTCCATGGTTGCTACACTAAGCTTACTTTCTTATTGGCTTTTTACCATTTACCATT TAGTTCCATACTCCCATACAACATTACAGGTCTTGTAGTCTTACAGTAAAAATTTCCACTGAAATTATTGAGTTCGTTAT TTTAAATTGTTAGGTGGTAGGGAGAACATCAAGTCATTCAAAATCTCATTTAACTACCTAGGATAAATTTTGTGGGAATG ATAATACACCATGGTTATTTTGAAATGATGTAGCCTTAATTCACGACATAGGAAACAGTTACGTATCTCTTTAGTGAAAA AACAAACAAATATGGAATCAGCTACTGCAGAATGTTGTAAAGAATTATTTTGATGATATTACTGTTTTATTTATCTGTAA GGGGGTCTATTTTTTCTTATCAGTTTTCCTGTCACATAACTGGATTTACATAGTTGAGGTTATGTTTCGAATCTGTTGGC TCCAGTGCAGTGCCAACAACTGTTAGCACGCATTTGAAGACAAAATGTGAACGGAACTCTTCTTATGTATTGAGATAAAA CACTCACTGAGCTATTTCAATAGGATGAATTGTTATTTTTTCTGCTGCCTGTTTGACTTCTTACTCTTCTAGAAACTTCT TTTACTATGTTTAAATTTTACTTTGTTTATTATGATTGTAATATGTTTCCTTTGTAAATAGGTTTTAGGAGATGCCGTCC TTAATCATCGATGTGCACAGAAACAAGTAAGTTATTGTTTAGTCTGAATTATTGTATATATTTCTGTGAAAGGTGATAAA ATATGTTCTTGAGCCACTGATCTAGGGTTTAAGCTTTGAGGGTATTACAGTTGTTTGCAGATTTTAAAAGCAGTTTCTGG TCTTAAGTATGATCCTTATTTTCGCTTAATATATGATAAAAAGTTCTGGTGGAAAGTTATAATTAGTTCTAGCATGAGAG AGTTTTGAGCTGGTGTTTTGTCCATATTTCATGCAACATAACATGGGAGTTGGAGACAGGAAAGTAATGTATAAATCCTT TACCGCTTTGGGTTTTAGGTCTACTGCTTCTCATTTTTGTGATATCAATTTTTTGATGCCTTTGCTTGTTTCAATCAATA ATCAAATTTCGTAAGAATTTCTTTGATGAATAACAGAGTAGAATGTGGACATTAACACAAGAAAAGCCCAAGCCATGTCA ATATGTTGACCAGGGAAAATCGAAATAAGTAGAACAATTACAATGATAAACATCAAGTATCTTCATAGTCAACAGAAAAT ATACCTTCTCTGCGCTAAACTTCAGCTTGATTCATAGTATTATTTTCATTTTATATCAAAATATAGCATGTGAAACACTA GTTGGAGCAATCTCCTTAAAAAGCGCAGTTCAAAGTATTGAATGTGTGGTGTTAAATGGCTGTAATAGAAATTAACAACC TTTACTTGTTTCAGAGTCCAAATGGTGTTTGGAATATTTTTGGTGGCAAGCTTGCATGGGGACCTGAAGCAATTGTGTGT GATGATCCAAATTTTCAGGGGCGTGGAAATCCTTCCAGTGGTATATTTAATTATCTATATACACCTAGGAAGTTTTGATT TTTCAACTTTCAATCATGTATTTTCAATAAGTAATTTACTTAGGAAGCTTTTGGGGCTGTTTCTTGTCATTCCAGTTGAA ACAAAACTTTTTTTTGAAAGACAATTGAAACAAAACTTAATTAAATGAGTATGAGGAACAATCTTGAGCTCTGAAGCATG GGTACGTGATGTTGGGCTGCGTACCCGTACCGGGTACGTACCCGGTACGAATACGCTACGGGTACGCGTACGGTACGTAC CCGGTACGTACCCGTTTCACAAAACCTTGCCGTCAATGGTTAAATCTTCATTTTCAATCTCCAATCCAATCTAAAACAGA TAACTCCATTGCTTGGAGAGCTTGGAGGTTATATGTGTGGACAAAAGAGAACGACGAGGGTGGCTCCTCTTGACTGCGGC GCATCAACCATCCTGCGATGGCGGTGCTGAGAATCAGATCGAGAGGGGAAGCTCGCGGTAAGGGAGGCCGGAGCGGTGGC ACAACCGTGATGGTTCCGGCGGCGAGGTTCGGACAACGTAGTGGTTCGGTGCGACGCAATTCAGACAATAGGAACGATGG TCAAGCTGCATATCTCCTTTCTAATTGATGAACTCTTTGAAGTTACAGATCTTAGTGGGGAAGTGGGAAAGGTAGACGTG GGGGGTGGAAAGAGAACAGGGAAGGGTTAGGAAAATTACCAAGGGGCACATACTTCTAATGCTTTGAAAAAAGAGAGAGT GGGTATTTTTGTCCTAAATAAAAGGTGTTGAGTGCTAACTTACTCCTTCTAAAAAACAAGTGGGAGTAAGTTAGCATTCC CCTTATTTTAATTAGTTATATATTTTTTTTTTGCATAATTTATTTATATTTAAATATTATGTATAAAAAAATATATATTT ATCTAACGTACCCGTACCCCCATTTTTTCAAAAATCACGTACCGCGTACCCAATACCGTACCCGTACCGGGTACCGTACC CGTACCCGTGCAACACAGATCTTGAGAAATGGTGTGAGTTTGTAAATTTGTTCGAGTATTTGCTTCATTTGGACCAAGGC TGTTGTGGTCCTGGAAACATTACATTCCCCTTGTGCAATATTACCCTGAGATGGAAGACAAAAATGTGGTACCTATTCCA CAGTTACGACTGTATAATGTTGTACCACTACATTGATGATCTTATGGAGTTTTCCCTTATCTTTAGACTTCTTTTAATGC TATATGTGAGTACCTATTCCACAGTTACGACCGTATAGTGTTGTACCACTACATTGATGATCTTATGGAGTTTTCCCTTA TCTTTAGACTTCTTTTAATGCTATATGTAGGTGACATCTTCCATGCCGCACCAAATATTGATCATTCTCAGGACTTTGTG CGGAAAGATATCAAAGGGTGGTTGAACTGGCTTCGCAATGATATAGGTTTTGATGGATGGCGGCTTGACTTTGTAAGGTA ATTTTGTTTTATGTGTATAATGGGTATCCAAAAAAATTTCTTTATCCATTAAGTCCTTCTAAATATCTCTTGTTTCACTT TACACATTCTGAGCGATTGAAGAAAAAATTTAGAAGAATTTCTCCTGTAAAAGTAAATGCAATCAATTGCAGAATTTGAT AACTCTACCAACTCTTGTATATGTGATAAACTGATCAACTAAGTTGTTTTTTTATATTAGGAGAGAGAGAGAGAGAAGTA CATTTTTATAACGTAGTTCCAAATTTTGGGGAACTCGATAGCTGGATAGTGATGGCAATGTCGCAGAGGATAATATGCTC TGATACCATGATGAAATTATAGGATTTAGTCTAAGATATAGAAAGAGAAAAGATGAACACAATGAATATTGATATAATAT TATTGGGTGTAATCGTGCAAACGACAAAATACTTGATATTTATAGTGATGGGCAGACTCCTAATTCTAGTTAGACGAGGA AACAAATCAACATAAATAAGAAATAAAGAAACCAATCTAAAGAATAATCTAAATTACCTTAATTACTCTAGGATATGGTC ACGATATATAAAATGTATTTTCATATTCTAACAATATGTTAAATGGAGCGTGTCAGTTGTCTTTGTTTGCTATGTGCTAC GAAGCTTTAGTTTTAATGAAATGGAATTTGGGAAGATATTCTAGTTTTTTTATTTCCTAACTAATTTATTCTCATGTAAA ATTTGGTTACTCTTATTTTCTGCCTGCAGAGGCTTTTCTGGTACATATGTAAAAGAATATATTGAAGCATCAAATCCTGT ATTTGCCATTGGAGAATATTGGGACAGTTTGGCCTATGAACATGGAAGTTTGTGTTACAACCAAGGTTATTATTTACTCC TATCATACTCAATTGTATTAGTCCATTCTTATTTTGAATATAGTAGGAAGTTGGTTTGTGTTGATAAAATCATATTTTGT CACCTACCAGGCACTGGAAACACACACAGCCGCAGGATTTTATTATCGTCTTATTTTGGCCTTTACATGTTTCTTGTTAA TGTGATGTATCATGCTAGGCCTCTTGAATTAATTGCTTTTTCAATTGGGCAGAATTAAGGACCTGGACCATTAAGTTGTA AGATTTAACTTAAAGAGACAAAAAAGCTTAAGAAGGATCATTCAGATTTTAATTAGATAGAAGTACGATTTAATGTCGCC AAATATTCAAAATTATCCTTAGTGAAATCTCAATGACAACTATGGACCACTCAAAGATAAACGGAAGCTATAGTGTCTGT TATTAAATGATCAGAGATGAGTAATTGCTGTTGACAACAAATATCATATTTTTGACACTTGATCCAGTAGGTCAGAGATT GACAGCTTGATCTTTGTCCTACCTTTTTGAGGAGACATTGGTTCTGTGCATATTGGTCGTAGCAAGCAACAGTAAGAATG AGAAGGGAAAGGAAGGAAATCAACTCGCAATTTGCAATTGAGGGTCCTCAACTTGGTACCAAGAAAATGTTTTCTTAGTG AAACATTATTTGAGCTGCTGTCAGTAGATAGATAGATATATCTGATATCATATGATATGTCACATTTTCAGCTTTGGAAC AATCATAATCAGTACCATGACTAGATCATCAAACCTTAATATCTTTTAGGAAACCACACTGCATATGGCTAGTACAAGGA GGCAGCAGTTTTTGTTGATTTATTATCAACTTTATCTCCTACTTAGTGACCTCTAAGGGGCAGCATACTTTTAATATATT TGAATATTGTTCGTGTTGAGGAAATCCTATAATGCTACTGCTTGTGTTCACACTTCACAGTCACACTGATTCTGTGATAT TCTATACTTTTTTCTCTCAGTCCTTCTGCAGTAATTTGAAATATTTCTAACGTATCCCATTTTTTATTTTTCTATGACAA GCTATTTCTGACATTTATAATAAATAGATGCTCATCGGCAGCGAATAGTTAACTGGATCAACGCAACCGGTGGTACTTCG TCTGCATTTGATATTACGACAAAGGTACTTTTATGTTGAGTAAATTCCATAGCAGTTAATAAGTTACTTCATGATATCAA ATCCAGAAACTTATTATATGCAAATTTTAATTTAAGGAGATGCAAGTTTAAGGGTAAGTGGGTCTGAATTGAAGTAACGC GTGCTGAGGAGATGAACCTACCTAGAAAGTTGAAACCCACAAAACAATCGAGAAATGTTAAGTTGTATTTATTTATTTGG ATGTCTATATGAATATAAATTTTGTTTTAGTAGATAAATGTTCAATTGTAGAAAGGATTCATGTAGAAATATCGAGGGAG GACACAATGACGAAGAATATACATCTTGAGGAAGGAAAATAAATCTCCAAAAATAGAAAAAAGCAAGCCAAAATAGCTCA TAAGGTTCTCCAATCTCCCTTCATAATGAACATCAGCAATAGAAATTCCTTTGAAATAGTCATGAGTATAGCACCAGAGA GAAGCAGTAACCACATTTTTATCCTACTGCAATGTGAGAGGACATGCCCAATGTATGTAAACAAAAAAAGGCCAAACAAA TTATTCCTCCAAAAGCAGCTACTTTGCCATGGAAATGTGATTGGCTGAAGTTTCTAGCTTGCAATGGAAATGTGATTAGG CTGCTGAAGTTTCAGAGTTAATCTACGTATGAGACAAATATTGGGAGAAAGAGATGTTGGAACCTTACAAACTTCTAGTT GCAACATATCATTTGTATCAATTCTATCAAGTCCTGTTCAAGTGGAAGGCTTGATCAATGGAGTTTCCAAACTGGCTTTT GCTGTTGCTATAATAGCTATTGTTTGACTACCCTTGTTTTTGATATATTGTAATTTTCTATATTAACTTTTGATTTCTTT TTTTTTATGCCATGGGGAGGAAGCAGGGGACTTAACTCTGAAAATTTTGTCATAATTTAATATTAATCTTGATTCATTCT GAGGATTGTTGCTCTGTTTGTTACCCTTTCCAGGGAATACTTCATTCTGCTCTGCATAATGAATATTGGAGACTGATAGA TCCACAGGGGAAACCCACAGGAGTAATGGGGTGGTGGCCTTCTCGTGCTGTCACATTCCTGGAGAACCATGATACGGGGT CCACACAAGTATCTAATCTCTCTCTCTCTCTCTCTCTCAAAGTATGATACATAAAATATTAACGTTGGTAATTATATAGA ATATATATTTACAAGGGAAACATATCGCTTTGAGCTTGTTGACTTGAGCTAAGTGTTTCCTGTGGTTGGCTCTGGTTAAT GTGGTTCATTGCACAATAATTCTTCCTACATAGTTGGTTAGGTAAACCTACGTAGTTTAGGTTATTAATCCTAGATTCTT AACTCACTAATTATATTCTACTTTCCAAATTATAGATTGCAATTTGAACTTTACCCAATCATTTCTATGGAGTTCCATGT TTCTTCTATATTTATATTGCAATAACATCTTGTCTACAGTTGTGGGTTGAATTTACAATTCTTATATTTTCCACTGGTTG CAGAGTCTGATCTTTGTTTCCCTCAGTAATTTGAGCCATGGCATTGTTGCATATAACATTACCCCCTTTTATGCTCAACT TACAACCTGGCCATGCTAGAGAATGGGTTAAAAACGGATTTAACACTTCATTTTATTTTCAGGGCCACTGGCCATTTCCG CGAGATAAGCTCATGCAGGGATATGCTTACATTTTGACTCATCCTGGAACTGTAAGTTCTCAACACATTCACATCCAGTA CCTTCATTGTTTAAGGTAGTTCGCTAAGATTTTCCCAAAAATATAAGCTTTATTGTGACGCCTAAACAATTTAGGGTATA TTTGCAAGTTGAGTTTTGGAGGGGGAGGGAAGGGAAGGGAGAGGCTTATGAGAAACCCTCCCTTGTTTGAGAGTATGTTT ATTAAGGAGCGAAGGGTTTGGGGAATTTATGGAAAACCCTTGAAAACCCCTCAAAAACCCTCCTATAGTTATTTTGTGGA GTCCCCAACTTGGGGGGTTCTGTATGATTTAGAACTTGCAAACAAGGGGAGGGCTTACCCCCCTTCCCCTCAAAGACCTC CCCTCCCCTAAAAACTCACAAACAAAGCCTTAGTTTCTCCTTGACAAGGACTATGGAATCAAACTAGTTTTAAGGATAAT CTACTTGCATAACTCTTAGAATCTTCATGGTCCCATATTAATAATTTATTTTTCTTGTATTGCAAATTTGTGCAGCCTGT GATATTTTATGACCATTTCTACGATTTTGGCATCCATGATGTGATAACTGAGTTGATCGAGGCTCGTAGACGGGCTGGGA TCCATTGCCGGAGCTCTATCAAGATAATACATGCACACAATGAAGGTTATGTAGCCCAGGTTGGTGATGCACTAGTCATG AAGCTTGGGCACTTTGATTGGAATCCCTCCAAGGAGAACCAGTTGGAAGGGAGCTGGCAAAAGTTTGTTGACAAAGGACA GGACTACCAAGTGTGGTTGAGACAATAGATTGACAGTAGAATTGCTTCTTTCTGTCATGGAAATTAAAAATAGCTTCCAT AAAATGCATTCATAGGAGGAAAAAGAGAATCTTGTTTGTAATATAACCAAAACCTACCAACATATTAATCCATTTTAAGG GTATTTTACATCAGCTGTGTCAAATACCTCTGTCAAGAAACACTATAATGTATAAATAAAAATAAAATTATTGAAAAAAT TCAAGCACAATTTTCATTTTAATTTTTATATAACTAATATGCGTATTGGTTGATCTTTTAGCTAGCTGACTCTATCTTGT TATCCTAAAAAACTTGTAATTAGATTTGTTATTTGTCCCTAAATGATAGCTGAAGTGGTAAGAGTTGTTGGACATATGAG TTCGGGAGGGGGAGGTTCAGGGATCAACCCTGGAGGGTTGTAGTTTATGTTTCCAATGTACCGAAAAAATTCATTATTTG ATACT
CDS sequence (LotjaGi1g1v0512100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGAGCTACTACTTTGTTGCCTGATGTAGCAATTGGGCTTCTTCCGCGATGTCCCTTTGTTCCCAGGCACCCTTTTAT CTGTAGAGTAACTTCAATTAGATCAATAAGAAAAAGGAGTTACTCCTTTGCTGAGAAGAGGGTCTCTAGAGAATCAGTAT ACACGGTTTTTTCACGAACGAATGATTCAGATGATGCTTTCACGGATGTAGTTGTTGACCAGGATGGTTATTCTGGAAGA ACTGAAGTTATGGGAATAGAAGATGAATTAATGGTAGCCAAGAAAGCTCTTTCAGAGGCACAACACAGACAAAATGCTAT TGAGAAAGAGAGAGATCAATTGCTTGAAGAACTTGCTCGTTCTGAGGCTAAAAAACAGGAATACATCTCCGCAATTTTAC ATGACAAAGAAGTAACTATAAAAGAACTTGAGGCTGCCAAATCTCTTTTTCAGAAAAAGCTGGAGGCTTCGGTGGAAGAG AAGTTCACTTTGGAATCTAAGCTGGTCCTTGCCAAACATGATGCTGTTGATCTTGCAGTGCAGGTGGAAAAGTTAGCAGA GGTTGCTTTCCATCAGGCAACTTCTCACATACTAGAAGATGCTCAACTCAGAATTTCATCTGCTGAAACCACAGCTGCTG AAGCAGCCCATCTAATTGAAAGACAAATTCAGGATGCAACTGAGGGTACATTATCATCCATAGTTGAAAAGTCAAAATAT GCTATAGAAAGGGCTCTAGTTGTGGCGGAGGAAGCAGGTGAACGTGCAAAAGAGGCCATGGAAACATTTATAGATGGCAC ATCTCCATTTACTGAAATGACCTCTGTCCAGGAAGAAAATATCAAGTTACAGGGCATGATAAGTGATTTAGAATCTCAGT TGATGGTTGCAATAAATGAGGCTGATAGTCTTAAGATAGAATTAGAGCACGCCAGGCAGCAGCTAAAGGCTTTTGAACAA AGAGCCATTGATGCGGAGAAAGCTTTGCTTGATCTTCAGGAGTCAATCAGGAAAACCACTCTCAAGCAGGAGGAGGAGAT GAAGTTAATGCTGGAGAAAATGAAGAAAGACATGGCAGAAAGGACAAAGGCAATTTCCAAGGCTTTTAAGACTGACTTGA AGAACATCAAGGCTACACTTGAAGCTGCCAAAGAAGTTTCTCATTGTAAAGATTATGCTTACCTAAGAAGATGTGAGGCG CTGCAGAGGTCATTAAAGTCATCCGAAGATGCTTTGAAGATGTGGAGACAGAGAGCTGAAATGGCTGAATCATTGCTATT GAAGGAAAGGCTACAAGATGAAGGGGATAGAGATTCTATATATGTTGTCAATGGTGGACGGATAGACCTTTTGACAAATG TTGATTCTCAAAAATGGAAACTACTAAGTGACGGTCCTCGTAGAGAGATACCTCAGTGGATGGCACGAAGGATTAAGGCT ATCTCTCCCAGATTTCCACCAAGAAAGATTGATGTAGCTGAATCATTGACATCAAAGTTCAGATCCTTGGAGTTGCCTAA AGCTGATGAAGTATGGTCCATCTCTCGAGAAAAGCCAAAGGAAGATGATGCTTTAATTGAACAAGTTTTTGAACGAGAAA CAATTGAGAGAAAGCGGAAGGCGCTGGAGCGTGCTCTTCAACGGAAGACTACAAAGTGGCAGAGAGCCCCTGAACAAACA AAACTAGAGCCAGGCACAGGATCAGGACGTGAGATTGTGTTTCAAGCTTTTAACTGGGAGAGCTGGAGAAGGAGCTGGTA TCTTGAATTATCATCTAAAGCTGCGGATTTATCTCAATGTGGGGTGACAGCAGTGTGGTTGCCACCGCCAACTAACTCGG TTTCTCCACAAGGTTACATGCCTTCTGATCTTTACAACTTGAATTCATCCTATGGTTCTGTGGAAGAACTTAAATCTTGT ATAGAGGAAATGCATTCTCAAGATCTAGTGGTTTTAGGAGATGCCGTCCTTAATCATCGATGTGCACAGAAACAAAGTCC AAATGGTGTTTGGAATATTTTTGGTGGCAAGCTTGCATGGGGACCTGAAGCAATTGTGTGTGATGATCCAAATTTTCAGG GGCGTGGAAATCCTTCCAGTGGTGACATCTTCCATGCCGCACCAAATATTGATCATTCTCAGGACTTTGTGCGGAAAGAT ATCAAAGGGTGGTTGAACTGGCTTCGCAATGATATAGGTTTTGATGGATGGCGGCTTGACTTTGTAAGAGGCTTTTCTGG TACATATGTAAAAGAATATATTGAAGCATCAAATCCTGTATTTGCCATTGGAGAATATTGGGACAGTTTGGCCTATGAAC ATGGAAGTTTGTGTTACAACCAAGATGCTCATCGGCAGCGAATAGTTAACTGGATCAACGCAACCGGTGGTACTTCGTCT GCATTTGATATTACGACAAAGGGAATACTTCATTCTGCTCTGCATAATGAATATTGGAGACTGATAGATCCACAGGGGAA ACCCACAGGAGTAATGGGGTGGTGGCCTTCTCGTGCTGTCACATTCCTGGAGAACCATGATACGGGGTCCACACAAGGCC ACTGGCCATTTCCGCGAGATAAGCTCATGCAGGGATATGCTTACATTTTGACTCATCCTGGAACTCCTGTGATATTTTAT GACCATTTCTACGATTTTGGCATCCATGATGTGATAACTGAGTTGATCGAGGCTCGTAGACGGGCTGGGATCCATTGCCG GAGCTCTATCAAGATAATACATGCACACAATGAAGGTTATGTAGCCCAGGTTGGTGATGCACTAGTCATGAAGCTTGGGC ACTTTGATTGGAATCCCTCCAAGGAGAACCAGTTGGAAGGGAGCTGGCAAAAGTTTGTTGACAAAGGACAGGACTACCAA GTGTGGTTGAGACAATAG
Protein sequence (LotjaGi1g1v0512100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGATTLLPDVAIGLLPRCPFVPRHPFICRVTSIRSIRKRSYSFAEKRVSRESVYTVFSRTNDSDDAFTDVVVDQDGYSGR TEVMGIEDELMVAKKALSEAQHRQNAIEKERDQLLEELARSEAKKQEYISAILHDKEVTIKELEAAKSLFQKKLEASVEE KFTLESKLVLAKHDAVDLAVQVEKLAEVAFHQATSHILEDAQLRISSAETTAAEAAHLIERQIQDATEGTLSSIVEKSKY AIERALVVAEEAGERAKEAMETFIDGTSPFTEMTSVQEENIKLQGMISDLESQLMVAINEADSLKIELEHARQQLKAFEQ RAIDAEKALLDLQESIRKTTLKQEEEMKLMLEKMKKDMAERTKAISKAFKTDLKNIKATLEAAKEVSHCKDYAYLRRCEA LQRSLKSSEDALKMWRQRAEMAESLLLKERLQDEGDRDSIYVVNGGRIDLLTNVDSQKWKLLSDGPRREIPQWMARRIKA ISPRFPPRKIDVAESLTSKFRSLELPKADEVWSISREKPKEDDALIEQVFERETIERKRKALERALQRKTTKWQRAPEQT KLEPGTGSGREIVFQAFNWESWRRSWYLELSSKAADLSQCGVTAVWLPPPTNSVSPQGYMPSDLYNLNSSYGSVEELKSC IEEMHSQDLVVLGDAVLNHRCAQKQSPNGVWNIFGGKLAWGPEAIVCDDPNFQGRGNPSSGDIFHAAPNIDHSQDFVRKD IKGWLNWLRNDIGFDGWRLDFVRGFSGTYVKEYIEASNPVFAIGEYWDSLAYEHGSLCYNQDAHRQRIVNWINATGGTSS AFDITTKGILHSALHNEYWRLIDPQGKPTGVMGWWPSRAVTFLENHDTGSTQGHWPFPRDKLMQGYAYILTHPGTPVIFY DHFYDFGIHDVITELIEARRRAGIHCRSSIKIIHAHNEGYVAQVGDALVMKLGHFDWNPSKENQLEGSWQKFVDKGQDYQ VWLRQ
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 |
---|---|---|---|---|---|---|
Coils | 90 | 131 | 42 | - | – | |
Coils | 140 | 160 | 21 | - | – | |
Coils | 273 | 335 | 63 | - | – | |
Coils | 341 | 361 | 21 | - | – | |
Coils | 398 | 418 | 21 | - | – | |
PANTHER | 404 | 965 | 562 | 1.0E-280 | – | |
PANTHER | 404 | 965 | 562 | 1.0E-280 | – | |
Coils | 532 | 552 | 21 | - | – | |
MobiDBLite | 548 | 567 | 20 | - | – | |
SMART | 571 | 899 | 329 | 9.7E-36 | ||
Gene3D | 571 | 903 | 333 | 6.2E-134 | – | |
CDD | 572 | 910 | 339 | 1.49574E-179 | – | |
SUPERFAMILY | 578 | 887 | 310 | 4.88E-66 | ||
Pfam | 597 | 664 | 68 | 4.1E-10 | ||
SMART | 900 | 964 | 65 | 2.8E-7 | ||
Pfam | 901 | 962 | 62 | 4.8E-18 | ||
Gene3D | 904 | 964 | 61 | 1.8E-7 | ||
SUPERFAMILY | 905 | 963 | 59 | 5.04E-6 | – |
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 | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Molecular function | Alpha-amylase activity | Catalysis of the endohydrolysis of (1->4)-alpha-D-glucosidic linkages in polysaccharides containing three or more alpha-(1->4)-linked D-glucose units. | ||
Molecular function | Calcium ion binding | Interacting selectively and non-covalently with calcium ions (Ca2+). | ||
Biological process | Carbohydrate metabolic process | The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule. |
Expression pattern of LotjaGi1g1v0512100.1, 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…