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 | LotjaGi1g1v0512100.3 |
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|A0A0S3RRX1|A0A0S3RRX1_PHAAN Uncharacterized protein; Found in the gene: LotjaGi1g1v0512100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:103368418..103380499) extracted from Lotus japonicus Gifu genome v1.2.
TCTAGTTCTCTGTCAAATACATGGTTTAGATGTTTGCATCATTCTAAATAGTAAATACTATTTATTTTTTGGCTGCTTAT TACTTAGAGATTGGATTTTGTATGTCTTTTAACAATTTTATGTTAATTAACTAGATGTAAATGACAATTGGTTATGCTTT GTGATAATGGAGCAGTGTATATTTATTCTATTTCTGTGACAGAATGATTCAGATGATGCTTTCACGGATGTAGTTGTTGA CCAGGATGGTTATTCTGGAAGAACTGAAGTTATGGGAATAGAAGATGAATTAATGGTAGCCAAGAAAGCTCTTTCAGAGG CACAACACAGACAAAATGCTATTGAGAAAGAGAGAGATCAATTGCTTGAAGAACTTGCTCGTTCTGAGGCTAAAAAACAG GAATACATCTCCGCAATTTTACATGACAAAGAAGTAACTATAAAAGAACTTGAGGCTGCCAAATCTCTTTTTCAGAAAAA GCTGGAGGCTTCGGTGGAAGAGAAGTTCACTTTGGAATCTAAGCTGGTCCTTGCCAAACATGATGCTGTTGATCTTGCAG TGCAGGTGGAAAAGTTAGCAGAGGTTGCTTTCCATCAGGCAACTTCTCACATACTAGAAGATGCTCAACTCAGAATTTCA TCTGCTGAAACCACAGCTGCTGAAGCAGCCCATCTAATTGAAAGACAAATTCAGGATGCAACTGAGGGTACATTATCATC CATAGTTGAAAAGTCAAAATATGCTATAGAAAGGGCTCTAGTTGTGGCGGAGGAAGCAGGTGAACGTGCAAAAGAGGCCA TGGAAACATTTATAGATGGCACATCTCCATTTACTGAAATGACCTCTGTCCAGGAAGAAAATATCAAGTTACAGGGCATG ATAAGTGATTTAGAATCTCAGTTGATGGTTGCAATAAATGAGGCTGATAGTCTTAAGATAGAATTAGAGCACGCCAGGCA GCAGCTAAAGGCTTTTGAACAAAGAGCCATTGATGCGGAGAAAGCTTTGCTTGATCTTCAGGAGTCAATCAGGAAAACCA CTCTCAAGCAGGAGGAGGAGATGAAGTTAATGCTGGAGAAAATGAAGAAAGACATGGCAGAAAGGACAAAGGCAATTTCC AAGGCTTTTAAGACTGACTTGAAGAACATCAAGGCTACACTTGAAGCTGCCAAAGAAGTTTCTCATTGTAAAGATTATGC TTACCTAAGAAGATGTGAGGCGCTGCAGAGGTCATTAAAGTCATCCGAAGATGCTTTGAAGATGTGGAGACAGAGAGCTG AAATGGCTGAATCATTGCTATTGAAGGAAAGGCTACAAGATGAAGGGGATAGAGATTCTATATATGTTGTCAATGGTGGA CGGATAGACCTTTTGACAAATGTTGATTCTCAAAAATGGAAACTACTAAGTGACGGTCCTCGTAGAGAGATACCTCAGTG GATGGCACGAAGGATTAAGGCTATCTCTCCCAGATTTCCACCAAGAAAGATTGATGTAGCTGAATCATTGACATCAAAGT TCAGATCCTTGGAGTTGCCTAAAGCTGATGAAGTATGGTCCATCTCTCGAGAAAAGCCAAAGGAAGATGATGCTTTAATT GAACAAGTTTTTGAACGAGAAACAATTGAGAGAAAGCGGAAGGCGCTGGAGCGTGCTCTTCAACGGAAGACTACAAAGTG GCAGAGAGCCCCTGAACAAACAAAACTAGGTTAGTGTGCTGTGTTTTAGTCCATTTCTTGACATTAAATACAAAAATTGC TTCTGGAAGATTTCTTTAATTAATGTGATCCACCTCTGGCATGTAAACTTTTACATAATGTCAATAACAGAGCCAGGCAC AGGATCAGGACGTGAGATTGTGGTCAGTATCTACTTATCCAAGAAGTTGTCAAATTAAGCGTAAATGTATATTAGTTCCA AATTTATTATGTGTTGCTCAGATGTGGTGGTTGGTGGGAAATTGAAGCCAGAAAATACTGCAAGATATTTAGAATGCATT GGTTCTTGATACAAAGATTATGAACAAAAACTGATTTTAATTCTTGATTTAGATATGAACAATGGGTGCATAGTTTATGT AGCTGCGTTGTTTTTTTCATGTTTGAGTTGGGTATAAAAGTAATTTAATTATAAGATCCCTCCCCTCCCCTTGTGTACCA AACCAAGGTTGTTAATGGCGGATAGCATAGCGTAGCGGCAAGCCCCAAAAACGCTATTTCGAGCGCTATTGCGGCGCTAT AGCGGTGAATAGTGGAGTAGCGGTGAACCCCTAGGGCGCTACGCTATAGTGCTATTGCGCCGCTATAGCACGCTATTGAC AAGCCTGTACCAAACAAGTAAAGAGTTATTTCCCCTCCCCTCCTCTCTCTTGAACCAAACATGGTAAGAATAAAAATCCC TATCCTCCCCTCCTTTCCCCTCCGTTGAACCAAACACACTAGTTCTTGTGCACTATATGCCAATTTTGTCACTACTTGAC TAAAATGCCATTCGATTCATTGAGTAGTATTTCATCATATCTCATGCTTTGTTTTATTTGTATGATTCTATCTGCTTGTT TTCATTAGCTCTTGATATTGCAAATATTTATCATTCCCATTATTTATTACATGTATTTACTGCTTATAAAGAAAAGTAAA AGGGAATAATAAAAAAGAAAATGTGTCTGGTGATTTTTTTTTTTCAAGTTTCAAGCTTTTAACTGGGAGAGCTGGAGAAG GAGCTGGTATCTTGAATTATCATCTAAAGCTGCGGATTTATCTCAATGTGGGGTGACAGCAGTGTGGTTGCCACCGCCAA CTAACTCGGTTTCTCCACAAGGTTTGACTTGTTTTCTTCTTTTTAGAGTACTATAAGTGTGTAAAGTGTGAACAGTCATT AAAATGTTAACTGTGAGCTGTTCAGTCTGTTGCAACAGTCTTTCAGTTGTAGTGGCTGAACTGCAATGCAGTTACAGCTT CGGTTAGATGAATTGGGTGTCTTATACAAGTTACCTCTCTTCATTAAAGAATACAGTTTTAAATTTTGCATGATTCAGTA TATTTCATCCTTGGACTCTCTCTCTCTCTCTCTCTCTCTCTCTTGCTTCTGCTTTCTCTCATTGTTTTAGTTTCACTGTT TTGTAATACTTCTATACATTCTATGCGATTTAGAGGGCATCCTCGAGTATAACAGAAGGCTATATTTAATTTTTTCTGGT TCTAGATTTATTTACATGAGACCAAATGATCTTCATAGATATGAATATGTGATCATATGTGTATCATATTATGTTTATCT TACTTCAAAATAATTGAAGATGTCGCTGATGTTGTTTCATTCATCACCCACTGGCTTGCCTTCGAAATATACTACAAATG CATTACAATATCAAGCATAATAGTAAATTTTCTTCTACTTTGAAAGCATAATTTCAACTGAACTAGGCACAACTTTTTAG CTTTCTTTTGTATAGAAAACATAACAACTCTTTTCTGTAATTGTTCAGATCATAAACAAGACAGTAAGGCATTTCCCTGC ACTAGTATTTGTAATTAGTATTTTCCTATTTAGTGAATTTGTTAAAAAATGGAGCATAAGTAATATGCTTGATCTAAGAT AAGCATATTTCAGGGGTCCTTTTTATTTCTTGAGAAGCACAGGCAGTTTTGTACTTTGGATAACTTATAAATGAAAACTC TATGTAAGATTATTATAGCTTCTCATGATTTCTAGTTTATAGGATAAATGCTTTTGCAAGCTTTATTGTCTTCACAAGAG ATCTGACAGCATGGTCTTTTCAAATTATTCTTTTTCCCTACAAGGGAATCTTTTCACATTTCTTGCCAAAACAATTTCAT TTATGAAGTAATATATGGCCAACCTGTGGTATAACATGCCTTTATGAACAATATAAACTATTTGCAGGTTACATGCCTTC TGATCTTTACAACTTGAATTCATCCTATGGTTCTGTGGAAGAACTTAAATCTTGTATAGAGGAAATGCATTCTCAAGATC TAGTGGTATGTTGTGCTGCTTTTATTTTGATAAGGCGGTATGTTCTGCTGCTAATTGACATAAGTAATTGAATATGTGGA GATGCATTGTAGGCAACCAATTAAAATTTTCAAATCTATAATAATCTAAAATTTATGGCTTATGGGTATCCAAAAGTAAC TAGTCCACTTTTCTAATCTAAAGATTTACTTTTTTATTTTGTAGATAATTAATATCTTTGTTAAATCATGTGGTTTGAAT TTCAAATAAGAAAACAGACTTATCAACAACAACAATCAAGCCTTTTCCTACTAGGTGAAGATGTGAAGTTGGCTACATAA ATCATTCTACTTTATAATGCTCTATCGGATACTAAACTTACCAATATACTATTTAAGTATAAGTTATGCTTAAGGATTTA GACTATATTTTTGCTACCCTAGGTCTCCCTCTATCCTAACCATTGGACTCTCTAGTCTCTTCCACTTGGTCCCCTCCTTG TAGCTACCTCAACTTTCTGTTTAATGATTGTATTTCTAATCCTATCATGTCTTGTGTAACCACTCATCCATATCAATGTT CCATGGTTGCTACACTAAGCTTACTTTCTTATTGGCTTTTTACCATTTACCATTTAGTTCCATACTCCCATACAACATTA CAGGTCTTGTAGTCTTACAGTAAAAATTTCCACTGAAATTATTGAGTTCGTTATTTTAAATTGTTAGGTGGTAGGGAGAA CATCAAGTCATTCAAAATCTCATTTAACTACCTAGGATAAATTTTGTGGGAATGATAATACACCATGGTTATTTTGAAAT GATGTAGCCTTAATTCACGACATAGGAAACAGTTACGTATCTCTTTAGTGAAAAAACAAACAAATATGGAATCAGCTACT GCAGAATGTTGTAAAGAATTATTTTGATGATATTACTGTTTTATTTATCTGTAAGGGGGTCTATTTTTTCTTATCAGTTT TCCTGTCACATAACTGGATTTACATAGTTGAGGTTATGTTTCGAATCTGTTGGCTCCAGTGCAGTGCCAACAACTGTTAG CACGCATTTGAAGACAAAATGTGAACGGAACTCTTCTTATGTATTGAGATAAAACACTCACTGAGCTATTTCAATAGGAT GAATTGTTATTTTTTCTGCTGCCTGTTTGACTTCTTACTCTTCTAGAAACTTCTTTTACTATGTTTAAATTTTACTTTGT TTATTATGATTGTAATATGTTTCCTTTGTAAATAGGTTTTAGGAGATGCCGTCCTTAATCATCGATGTGCACAGAAACAA GTAAGTTATTGTTTAGTCTGAATTATTGTATATATTTCTGTGAAAGGTGATAAAATATGTTCTTGAGCCACTGATCTAGG GTTTAAGCTTTGAGGGTATTACAGTTGTTTGCAGATTTTAAAAGCAGTTTCTGGTCTTAAGTATGATCCTTATTTTCGCT TAATATATGATAAAAAGTTCTGGTGGAAAGTTATAATTAGTTCTAGCATGAGAGAGTTTTGAGCTGGTGTTTTGTCCATA TTTCATGCAACATAACATGGGAGTTGGAGACAGGAAAGTAATGTATAAATCCTTTACCGCTTTGGGTTTTAGGTCTACTG CTTCTCATTTTTGTGATATCAATTTTTTGATGCCTTTGCTTGTTTCAATCAATAATCAAATTTCGTAAGAATTTCTTTGA TGAATAACAGAGTAGAATGTGGACATTAACACAAGAAAAGCCCAAGCCATGTCAATATGTTGACCAGGGAAAATCGAAAT AAGTAGAACAATTACAATGATAAACATCAAGTATCTTCATAGTCAACAGAAAATATACCTTCTCTGCGCTAAACTTCAGC TTGATTCATAGTATTATTTTCATTTTATATCAAAATATAGCATGTGAAACACTAGTTGGAGCAATCTCCTTAAAAAGCGC AGTTCAAAGTATTGAATGTGTGGTGTTAAATGGCTGTAATAGAAATTAACAACCTTTACTTGTTTCAGAGTCCAAATGGT GTTTGGAATATTTTTGGTGGCAAGCTTGCATGGGGACCTGAAGCAATTGTGTGTGATGATCCAAATTTTCAGGGGCGTGG AAATCCTTCCAGTGGTATATTTAATTATCTATATACACCTAGGAAGTTTTGATTTTTCAACTTTCAATCATGTATTTTCA ATAAGTAATTTACTTAGGAAGCTTTTGGGGCTGTTTCTTGTCATTCCAGTTGAAACAAAACTTTTTTTTGAAAGACAATT GAAACAAAACTTAATTAAATGAGTATGAGGAACAATCTTGAGCTCTGAAGCATGGGTACGTGATGTTGGGCTGCGTACCC GTACCGGGTACGTACCCGGTACGAATACGCTACGGGTACGCGTACGGTACGTACCCGGTACGTACCCGTTTCACAAAACC TTGCCGTCAATGGTTAAATCTTCATTTTCAATCTCCAATCCAATCTAAAACAGATAACTCCATTGCTTGGAGAGCTTGGA GGTTATATGTGTGGACAAAAGAGAACGACGAGGGTGGCTCCTCTTGACTGCGGCGCATCAACCATCCTGCGATGGCGGTG CTGAGAATCAGATCGAGAGGGGAAGCTCGCGGTAAGGGAGGCCGGAGCGGTGGCACAACCGTGATGGTTCCGGCGGCGAG GTTCGGACAACGTAGTGGTTCGGTGCGACGCAATTCAGACAATAGGAACGATGGTCAAGCTGCATATCTCCTTTCTAATT GATGAACTCTTTGAAGTTACAGATCTTAGTGGGGAAGTGGGAAAGGTAGACGTGGGGGGTGGAAAGAGAACAGGGAAGGG TTAGGAAAATTACCAAGGGGCACATACTTCTAATGCTTTGAAAAAAGAGAGAGTGGGTATTTTTGTCCTAAATAAAAGGT GTTGAGTGCTAACTTACTCCTTCTAAAAAACAAGTGGGAGTAAGTTAGCATTCCCCTTATTTTAATTAGTTATATATTTT TTTTTTGCATAATTTATTTATATTTAAATATTATGTATAAAAAAATATATATTTATCTAACGTACCCGTACCCCCATTTT TTCAAAAATCACGTACCGCGTACCCAATACCGTACCCGTACCGGGTACCGTACCCGTACCCGTGCAACACAGATCTTGAG AAATGGTGTGAGTTTGTAAATTTGTTCGAGTATTTGCTTCATTTGGACCAAGGCTGTTGTGGTCCTGGAAACATTACATT CCCCTTGTGCAATATTACCCTGAGATGGAAGACAAAAATGTGGTACCTATTCCACAGTTACGACTGTATAATGTTGTACC ACTACATTGATGATCTTATGGAGTTTTCCCTTATCTTTAGACTTCTTTTAATGCTATATGTGAGTACCTATTCCACAGTT ACGACCGTATAGTGTTGTACCACTACATTGATGATCTTATGGAGTTTTCCCTTATCTTTAGACTTCTTTTAATGCTATAT GTAGGTGACATCTTCCATGCCGCACCAAATATTGATCATTCTCAGGACTTTGTGCGGAAAGATATCAAAGGGTGGTTGAA CTGGCTTCGCAATGATATAGGTTTTGATGGATGGCGGCTTGACTTTGTAAGGTAATTTTGTTTTATGTGTATAATGGGTA TCCAAAAAAATTTCTTTATCCATTAAGTCCTTCTAAATATCTCTTGTTTCACTTTACACATTCTGAGCGATTGAAGAAAA AATTTAGAAGAATTTCTCCTGTAAAAGTAAATGCAATCAATTGCAGAATTTGATAACTCTACCAACTCTTGTATATGTGA TAAACTGATCAACTAAGTTGTTTTTTTATATTAGGAGAGAGAGAGAGAGAAGTACATTTTTATAACGTAGTTCCAAATTT TGGGGAACTCGATAGCTGGATAGTGATGGCAATGTCGCAGAGGATAATATGCTCTGATACCATGATGAAATTATAGGATT TAGTCTAAGATATAGAAAGAGAAAAGATGAACACAATGAATATTGATATAATATTATTGGGTGTAATCGTGCAAACGACA AAATACTTGATATTTATAGTGATGGGCAGACTCCTAATTCTAGTTAGACGAGGAAACAAATCAACATAAATAAGAAATAA AGAAACCAATCTAAAGAATAATCTAAATTACCTTAATTACTCTAGGATATGGTCACGATATATAAAATGTATTTTCATAT TCTAACAATATGTTAAATGGAGCGTGTCAGTTGTCTTTGTTTGCTATGTGCTACGAAGCTTTAGTTTTAATGAAATGGAA TTTGGGAAGATATTCTAGTTTTTTTATTTCCTAACTAATTTATTCTCATGTAAAATTTGGTTACTCTTATTTTCTGCCTG CAGAGGCTTTTCTGGTACATATGTAAAAGAATATATTGAAGCATCAAATCCTGTATTTGCCATTGGAGAATATTGGGACA GTTTGGCCTATGAACATGGAAGTTTGTGTTACAACCAAGGTTATTATTTACTCCTATCATACTCAATTGTATTAGTCCAT TCTTATTTTGAATATAGTAGGAAGTTGGTTTGTGTTGATAAAATCATATTTTGTCACCTACCAGGCACTGGAAACACACA CAGCCGCAGGATTTTATTATCGTCTTATTTTGGCCTTTACATGTTTCTTGTTAATGTGATGTATCATGCTAGGCCTCTTG AATTAATTGCTTTTTCAATTGGGCAGAATTAAGGACCTGGACCATTAAGTTGTAAGATTTAACTTAAAGAGACAAAAAAG CTTAAGAAGGATCATTCAGATTTTAATTAGATAGAAGTACGATTTAATGTCGCCAAATATTCAAAATTATCCTTAGTGAA ATCTCAATGACAACTATGGACCACTCAAAGATAAACGGAAGCTATAGTGTCTGTTATTAAATGATCAGAGATGAGTAATT GCTGTTGACAACAAATATCATATTTTTGACACTTGATCCAGTAGGTCAGAGATTGACAGCTTGATCTTTGTCCTACCTTT TTGAGGAGACATTGGTTCTGTGCATATTGGTCGTAGCAAGCAACAGTAAGAATGAGAAGGGAAAGGAAGGAAATCAACTC GCAATTTGCAATTGAGGGTCCTCAACTTGGTACCAAGAAAATGTTTTCTTAGTGAAACATTATTTGAGCTGCTGTCAGTA GATAGATAGATATATCTGATATCATATGATATGTCACATTTTCAGCTTTGGAACAATCATAATCAGTACCATGACTAGAT CATCAAACCTTAATATCTTTTAGGAAACCACACTGCATATGGCTAGTACAAGGAGGCAGCAGTTTTTGTTGATTTATTAT CAACTTTATCTCCTACTTAGTGACCTCTAAGGGGCAGCATACTTTTAATATATTTGAATATTGTTCGTGTTGAGGAAATC CTATAATGCTACTGCTTGTGTTCACACTTCACAGTCACACTGATTCTGTGATATTCTATACTTTTTTCTCTCAGTCCTTC TGCAGTAATTTGAAATATTTCTAACGTATCCCATTTTTTATTTTTCTATGACAAGCTATTTCTGACATTTATAATAAATA GATGCTCATCGGCAGCGAATAGTTAACTGGATCAACGCAACCGGTGGTACTTCGTCTGCATTTGATATTACGACAAAGGT ACTTTTATGTTGAGTAAATTCCATAGCAGTTAATAAGTTACTTCATGATATCAAATCCAGAAACTTATTATATGCAAATT TTAATTTAAGGAGATGCAAGTTTAAGGGTAAGTGGGTCTGAATTGAAGTAACGCGTGCTGAGGAGATGAACCTACCTAGA AAGTTGAAACCCACAAAACAATCGAGAAATGTTAAGTTGTATTTATTTATTTGGATGTCTATATGAATATAAATTTTGTT TTAGTAGATAAATGTTCAATTGTAGAAAGGATTCATGTAGAAATATCGAGGGAGGACACAATGACGAAGAATATACATCT TGAGGAAGGAAAATAAATCTCCAAAAATAGAAAAAAGCAAGCCAAAATAGCTCATAAGGTTCTCCAATCTCCCTTCATAA TGAACATCAGCAATAGAAATTCCTTTGAAATAGTCATGAGTATAGCACCAGAGAGAAGCAGTAACCACATTTTTATCCTA CTGCAATGTGAGAGGACATGCCCAATGTATGTAAACAAAAAAAGGCCAAACAAATTATTCCTCCAAAAGCAGCTACTTTG CCATGGAAATGTGATTGGCTGAAGTTTCTAGCTTGCAATGGAAATGTGATTAGGCTGCTGAAGTTTCAGAGTTAATCTAC GTATGAGACAAATATTGGGAGAAAGAGATGTTGGAACCTTACAAACTTCTAGTTGCAACATATCATTTGTATCAATTCTA TCAAGTCCTGTTCAAGTGGAAGGCTTGATCAATGGAGTTTCCAAACTGGCTTTTGCTGTTGCTATAATAGCTATTGTTTG ACTACCCTTGTTTTTGATATATTGTAATTTTCTATATTAACTTTTGATTTCTTTTTTTTTATGCCATGGGGAGGAAGCAG GGGACTTAACTCTGAAAATTTTGTCATAATTTAATATTAATCTTGATTCATTCTGAGGATTGTTGCTCTGTTTGTTACCC TTTCCAGGGAATACTTCATTCTGCTCTGCATAATGAATATTGGAGACTGATAGATCCACAGGGGAAACCCACAGGAGTAA TGGGGTGGTGGCCTTCTCGTGCTGTCACATTCCTGGAGAACCATGATACGGGGTCCACACAAGTATCTAATCTCTCTCTC TCTCTCTCTCTCAAAGTATGATACATAAAATATTAACGTTGGTAATTATATAGAATATATATTTACAAGGGAAACATATC GCTTTGAGCTTGTTGACTTGAGCTAAGTGTTTCCTGTGGTTGGCTCTGGTTAATGTGGTTCATTGCACAATAATTCTTCC TACATAGTTGGTTAGGTAAACCTACGTAGTTTAGGTTATTAATCCTAGATTCTTAACTCACTAATTATATTCTACTTTCC AAATTATAGATTGCAATTTGAACTTTACCCAATCATTTCTATGGAGTTCCATGTTTCTTCTATATTTATATTGCAATAAC ATCTTGTCTACAGTTGTGGGTTGAATTTACAATTCTTATATTTTCCACTGGTTGCAGAGTCTGATCTTTGTTTCCCTCAG TAATTTGAGCCATGGCATTGTTGCATATAACATTACCCCCTTTTATGCTCAACTTACAACCTGGCCATGCTAGAGAATGG GTTAAAAACGGATTTAACACTTCATTTTATTTTCAGGGCCACTGGCCATTTCCGCGAGATAAGCTCATGCAGGGATATGC TTACATTTTGACTCATCCTGGAACTGTAAGTTCTCAACACATTCACATCCAGTACCTTCATTGTTTAAGGTAGTTCGCTA AGATTTTCCCAAAAATATAAGCTTTATTGTGACGCCTAAACAATTTAGGGTATATTTGCAAGTTGAGTTTTGGAGGGGGA GGGAAGGGAAGGGAGAGGCTTATGAGAAACCCTCCCTTGTTTGAGAGTATGTTTATTAAGGAGCGAAGGGTTTGGGGAAT TTATGGAAAACCCTTGAAAACCCCTCAAAAACCCTCCTATAGTTATTTTGTGGAGTCCCCAACTTGGGGGGTTCTGTATG ATTTAGAACTTGCAAACAAGGGGAGGGCTTACCCCCCTTCCCCTCAAAGACCTCCCCTCCCCTAAAAACTCACAAACAAA GCCTTAGTTTCTCCTTGACAAGGACTATGGAATCAAACTAGTTTTAAGGATAATCTACTTGCATAACTCTTAGAATCTTC ATGGTCCCATATTAATAATTTATTTTTCTTGTATTGCAAATTTGTGCAGCCTGTGATATTTTATGACCATTTCTACGATT TTGGCATCCATGATGTGATAACTGAGTTGATCGAGGCTCGTAGACGGGCTGGGATCCATTGCCGGAGCTCTATCAAGATA ATACATGCACACAATGAAGGTTATGTAGCCCAGGTTGGTGATGCACTAGTCATGAAGCTTGGGCACTTTGATTGGAATCC CTCCAAGGAGAACCAGTTGGAAGGGAGCTGGCAAAAGTTTGTTGACAAAGGACAGGACTACCAAGTGTGGTTGAGACAAT AG
CDS sequence (LotjaGi1g1v0512100.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAATGATTCAGATGATGCTTTCACGGATGTAGTTGTTGACCAGGATGGTTATTCTGGAAGAACTGAAGTTATGGGAAT AGAAGATGAATTAATGGTAGCCAAGAAAGCTCTTTCAGAGGCACAACACAGACAAAATGCTATTGAGAAAGAGAGAGATC AATTGCTTGAAGAACTTGCTCGTTCTGAGGCTAAAAAACAGGAATACATCTCCGCAATTTTACATGACAAAGAAGTAACT ATAAAAGAACTTGAGGCTGCCAAATCTCTTTTTCAGAAAAAGCTGGAGGCTTCGGTGGAAGAGAAGTTCACTTTGGAATC TAAGCTGGTCCTTGCCAAACATGATGCTGTTGATCTTGCAGTGCAGGTGGAAAAGTTAGCAGAGGTTGCTTTCCATCAGG CAACTTCTCACATACTAGAAGATGCTCAACTCAGAATTTCATCTGCTGAAACCACAGCTGCTGAAGCAGCCCATCTAATT GAAAGACAAATTCAGGATGCAACTGAGGGTACATTATCATCCATAGTTGAAAAGTCAAAATATGCTATAGAAAGGGCTCT AGTTGTGGCGGAGGAAGCAGGTGAACGTGCAAAAGAGGCCATGGAAACATTTATAGATGGCACATCTCCATTTACTGAAA TGACCTCTGTCCAGGAAGAAAATATCAAGTTACAGGGCATGATAAGTGATTTAGAATCTCAGTTGATGGTTGCAATAAAT GAGGCTGATAGTCTTAAGATAGAATTAGAGCACGCCAGGCAGCAGCTAAAGGCTTTTGAACAAAGAGCCATTGATGCGGA GAAAGCTTTGCTTGATCTTCAGGAGTCAATCAGGAAAACCACTCTCAAGCAGGAGGAGGAGATGAAGTTAATGCTGGAGA AAATGAAGAAAGACATGGCAGAAAGGACAAAGGCAATTTCCAAGGCTTTTAAGACTGACTTGAAGAACATCAAGGCTACA CTTGAAGCTGCCAAAGAAGTTTCTCATTGTAAAGATTATGCTTACCTAAGAAGATGTGAGGCGCTGCAGAGGTCATTAAA GTCATCCGAAGATGCTTTGAAGATGTGGAGACAGAGAGCTGAAATGGCTGAATCATTGCTATTGAAGGAAAGGCTACAAG ATGAAGGGGATAGAGATTCTATATATGTTGTCAATGGTGGACGGATAGACCTTTTGACAAATGTTGATTCTCAAAAATGG AAACTACTAAGTGACGGTCCTCGTAGAGAGATACCTCAGTGGATGGCACGAAGGATTAAGGCTATCTCTCCCAGATTTCC ACCAAGAAAGATTGATGTAGCTGAATCATTGACATCAAAGTTCAGATCCTTGGAGTTGCCTAAAGCTGATGAAGTATGGT CCATCTCTCGAGAAAAGCCAAAGGAAGATGATGCTTTAATTGAACAAGTTTTTGAACGAGAAACAATTGAGAGAAAGCGG AAGGCGCTGGAGCGTGCTCTTCAACGGAAGACTACAAAGTGGCAGAGAGCCCCTGAACAAACAAAACTAGAGCCAGGCAC AGGATCAGGACGTGAGATTGTGTTTCAAGCTTTTAACTGGGAGAGCTGGAGAAGGAGCTGGTATCTTGAATTATCATCTA AAGCTGCGGATTTATCTCAATGTGGGGTGACAGCAGTGTGGTTGCCACCGCCAACTAACTCGGTTTCTCCACAAGGTTAC ATGCCTTCTGATCTTTACAACTTGAATTCATCCTATGGTTCTGTGGAAGAACTTAAATCTTGTATAGAGGAAATGCATTC TCAAGATCTAGTGGTTTTAGGAGATGCCGTCCTTAATCATCGATGTGCACAGAAACAAAGTCCAAATGGTGTTTGGAATA TTTTTGGTGGCAAGCTTGCATGGGGACCTGAAGCAATTGTGTGTGATGATCCAAATTTTCAGGGGCGTGGAAATCCTTCC AGTGGTGACATCTTCCATGCCGCACCAAATATTGATCATTCTCAGGACTTTGTGCGGAAAGATATCAAAGGGTGGTTGAA CTGGCTTCGCAATGATATAGGTTTTGATGGATGGCGGCTTGACTTTGTAAGAGGCTTTTCTGGTACATATGTAAAAGAAT ATATTGAAGCATCAAATCCTGTATTTGCCATTGGAGAATATTGGGACAGTTTGGCCTATGAACATGGAAGTTTGTGTTAC AACCAAGATGCTCATCGGCAGCGAATAGTTAACTGGATCAACGCAACCGGTGGTACTTCGTCTGCATTTGATATTACGAC AAAGGGAATACTTCATTCTGCTCTGCATAATGAATATTGGAGACTGATAGATCCACAGGGGAAACCCACAGGAGTAATGG GGTGGTGGCCTTCTCGTGCTGTCACATTCCTGGAGAACCATGATACGGGGTCCACACAAGGCCACTGGCCATTTCCGCGA GATAAGCTCATGCAGGGATATGCTTACATTTTGACTCATCCTGGAACTCCTGTGATATTTTATGACCATTTCTACGATTT TGGCATCCATGATGTGATAACTGAGTTGATCGAGGCTCGTAGACGGGCTGGGATCCATTGCCGGAGCTCTATCAAGATAA TACATGCACACAATGAAGGTTATGTAGCCCAGGTTGGTGATGCACTAGTCATGAAGCTTGGGCACTTTGATTGGAATCCC TCCAAGGAGAACCAGTTGGAAGGGAGCTGGCAAAAGTTTGTTGACAAAGGACAGGACTACCAAGTGTGGTTGAGACAATA G
Protein sequence (LotjaGi1g1v0512100.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MNDSDDAFTDVVVDQDGYSGRTEVMGIEDELMVAKKALSEAQHRQNAIEKERDQLLEELARSEAKKQEYISAILHDKEVT IKELEAAKSLFQKKLEASVEEKFTLESKLVLAKHDAVDLAVQVEKLAEVAFHQATSHILEDAQLRISSAETTAAEAAHLI ERQIQDATEGTLSSIVEKSKYAIERALVVAEEAGERAKEAMETFIDGTSPFTEMTSVQEENIKLQGMISDLESQLMVAIN EADSLKIELEHARQQLKAFEQRAIDAEKALLDLQESIRKTTLKQEEEMKLMLEKMKKDMAERTKAISKAFKTDLKNIKAT LEAAKEVSHCKDYAYLRRCEALQRSLKSSEDALKMWRQRAEMAESLLLKERLQDEGDRDSIYVVNGGRIDLLTNVDSQKW KLLSDGPRREIPQWMARRIKAISPRFPPRKIDVAESLTSKFRSLELPKADEVWSISREKPKEDDALIEQVFERETIERKR KALERALQRKTTKWQRAPEQTKLEPGTGSGREIVFQAFNWESWRRSWYLELSSKAADLSQCGVTAVWLPPPTNSVSPQGY MPSDLYNLNSSYGSVEELKSCIEEMHSQDLVVLGDAVLNHRCAQKQSPNGVWNIFGGKLAWGPEAIVCDDPNFQGRGNPS SGDIFHAAPNIDHSQDFVRKDIKGWLNWLRNDIGFDGWRLDFVRGFSGTYVKEYIEASNPVFAIGEYWDSLAYEHGSLCY NQDAHRQRIVNWINATGGTSSAFDITTKGILHSALHNEYWRLIDPQGKPTGVMGWWPSRAVTFLENHDTGSTQGHWPFPR DKLMQGYAYILTHPGTPVIFYDHFYDFGIHDVITELIEARRRAGIHCRSSIKIIHAHNEGYVAQVGDALVMKLGHFDWNP SKENQLEGSWQKFVDKGQDYQVWLRQ
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 | 31 | 72 | 42 | - | – | |
Coils | 81 | 101 | 21 | - | – | |
Coils | 214 | 276 | 63 | - | – | |
Coils | 282 | 302 | 21 | - | – | |
Coils | 339 | 359 | 21 | - | – | |
PANTHER | 345 | 906 | 562 | 6.4E-280 | – | |
PANTHER | 345 | 906 | 562 | 6.4E-280 | – | |
Coils | 473 | 493 | 21 | - | – | |
MobiDBLite | 489 | 508 | 20 | - | – | |
Gene3D | 512 | 844 | 333 | 5.4E-134 | – | |
SMART | 512 | 840 | 329 | 9.7E-36 | ||
CDD | 513 | 851 | 339 | 2.15837E-179 | – | |
SUPERFAMILY | 519 | 828 | 310 | 4.06E-66 | ||
Pfam | 538 | 605 | 68 | 3.8E-10 | ||
SMART | 841 | 905 | 65 | 2.8E-7 | ||
Pfam | 842 | 903 | 62 | 4.5E-18 | ||
Gene3D | 845 | 905 | 61 | 1.6E-7 | ||
SUPERFAMILY | 846 | 904 | 59 | 4.68E-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 LotjaGi1g1v0512100.3, 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…