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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0129700 |
Transcript ID | LotjaGi3g1v0129700.1 |
Related isoforms 6 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Myosin family protein, putative, expressed; TAIR: AT2G31900.1 myosin-like protein XIF; Swiss-Prot: sp|F4IRU3|MYO12_ARATH Myosin-12; TrEMBL-Plants: tr|V7BT17|V7BT17_PHAVU Uncharacterized protein; Found in the gene: LotjaGi3g1v0129700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:15983025..15999521) extracted from Lotus japonicus Gifu genome v1.2.
GCAGGCTGAAATTGAACATTGGAATATACTTTTTTTTTTCTTCTGGGGCTTCTCTTGGTGCCAAGTCAGCATCTGTCGTG GAAGGAGCAAAGAAAAAGGTACCTGAGACTGAGGAGGAAAGGTGGTAATGTAAGGTGTGAGGATTGCTGCTACACCTTTA GCTTTAAAGAGTTACCACCCTGGCATTTTCTCTGCTTTTTGTTTTCCTTTTGAACATTCCCTTTCAGCTTTCTGAGTCTC TGCAATACACCCCTCTTCCTTCTAGCATCTCTCTCAGAATCAGAAACATCCATTGATCTTGGTCCAGTTCTGCAAGCCAC CATTCTGATTTTCATGATCAGCAGAATTTAGTATCATGGTGAGCTTCTAAGATATAGGTTCTGTTTCTGTTATTGATCTA CTCATCTTTTGTTGTCAGATCATATGTTAACACTTTCTTTTGATGGTTCAGGGAACTCCTGTGAATATCATTGTTGGATC ACAGGTTTGGGTTGAGGATCCTGAGATTGCATGGATTGATGGTGAGGTGACAGATATCAAAGGCACAAATGCCACTATCA TTACCACAAATGGGAAAACAGTAAGCTTTTTACCAGATCATAAAACTGGATTACTGATAGCAGAGTTATTTATTTGTGAA ACACATTGCAAAACTTGATTGCAATAATTCCATATTATAGGTTCAGAAATCTGCTATTTGACTAGAACAGCATGGCTACT TTTTGGATCCGAATGATGGAAATGAAATGACTTGAGAAAAAGTTATAGGGAATTCCATAATTTGTTTCTTTGTTCTTTCC CTGGATTTTCTCAACCAGAGTAATATTGATAGGAATTAGGCTTCTTAAGGAGAGGTTATTATTGTAGTTATGGTTAGTTA GTAGAATGGTTAGCTAGTTAAAGGAAGAGTGCCAGTTAGCATTATCAACTGTTAGTGTAACAGTTAGCTAGTTAATTCAG TAGTTTTCTTTGTTCATTGCTAGTACCTATCAAATATATAAAGTTAAAATTATATTATGCTTGGATTAAGCCAGAGAGAT GCTGCTGCAATGTTTATTCTTAGCTCGGGAATAGAGACAAGATAGGCAGAACCATAGAAGTACTTATATTATTGTGAAAT CCTAGCACAAAAGCTCCAGCCACAATTTTCAGCTTCATCAACAGATCCAAAGCAATAACATTTTAGATATTAGTACTAGT CATAGCAATTTCTTATTCCGAAAAAGAGAAATTTATTCATTTCCCTCAAACATATTTTACCATATTTTACAGAAGCAACC AATATAATAAAGAAGAAACTATATTATTGGATAAATTCCTTATCACTATAGCAAAAGTCATAACTTGTTTTAGCTTAAGC TCACTAGCTCAAGAACCATACTTTGATTGAATTCTGATACACCTTAGCCTTATTGAGCCAGATACCGAAACATATCACCA TGCCCATAAATTTGATGCTTGAAGTACAAGCATGAAGAAGTATATAAACTGAGCATTATCCCCAATTTCAGGTGGTTGCA GAAATTTCAAGTATATACCCTAAAGATATGGAGGCACAGCCTTCAGGGGTTGATGACATGACCAAGCTAGCATACCTCCA TGAGCCAGGAGTTCTGTATAACCTTGCCTGTCGTTTTTCTCTCAATGAGATATATGTGAGTCACAACCAGCTAATCAACT TCTCAATATATTTTTTAGTCTAAAAATATTTAGGAAAGGATCAACATCTGACAACCATCCATTATATGAGCAGACATATA CAGGGAATATCTTAATTGCAGTGAATCCTTTTAGAAGACTACCACACCTGTATGACATCCATATGATGCAGCAGTACAAA GGAGCAGCATTTGGAGAGCTTAGCCCTCACCTTTTTGCTGTAGCAGACACCTGTTACAGGTTAGAAATAGATTCTGTACT AGTATCCTAAGAAAACAATTGATTGTAGAGCTGACTCAGTTTAATATATCAGAGCAATGATAAATGAGAATGGAAGTCAA TCCATTTTGGTGAGTGGAGAGAGTGGAGCTGGTAAAACGGAGACAACCAAAATGCTAATGAGATATCTAGCTTTCATGGG GGGAAGGTCTAATACAGAAGGCAGGACTGTAGAACAACAAGTCTTGGAGGTCAGTTTTAACTACTAGCAAATGTTTCTCA GTTAACTCAAATCAGGTATATGTAGTGACACTTTCACTTCTTCAGTCCAATCCAGTGTTGGAAGCTTTTGGAAATGCCAA AACTGTCAAAAACAACAATTCAAGGTAAAAAAAAATGCATACGGATTTTCTCAGATTACATTTTCTTTCATAATTTCCAT TTTAGTTGATATTACAAAATTATTGGACTTTCTGGCAGTCGTTTTGGTAAATTTGTTGAAATTCAATTTGACAAGAATGG AAAGATTTCTGGAGCAGCAATCCGTACCTATCTCCTTGAAAGGTCAAGAGTTTGTCAGGCTTCTGATCCAGAGAGAAACT ATCATTGCTTTTACATGCTTTGTGCAGCACCACCAGAGGTGACTTCTACATAATTAAATTGAAACAAAAAAAAAATTTGT AACATATCATTAACTCCTAAAATCTAACAGTTAAAGTTTGCTTGATAGGATCTTGAGAGGTTCAAGTTAGGGGACCCAAG GCAATTCCACTATCTGAATCAATCAAACTGTTATGAAGTGTCAAATGTAGATGATGCTAAAGAATACTTAGAGACCAGAA ATGCAATGGATATTGTAGGTATCAGCCAGGATGAGCAGGTATTGTGCCAATGCAACAGTGCATCATATTTTGAAGAAGCA ATGATTTATGTTTATCCAGAGACATTCGATCAAAGAAAATTTCCCTCCACAGGATGCTATCTTTCGTGTGGTAGCTGCAA TCCTTCATCTAGGAAACATTAACTTCGCCAAAGGGAATGAAGTTGATTCATCAAAATTGAAAGATGACAAATCACTCACC CACCTTCGAACTGCAGCCGAGTTACTCATGTACAAGCATTGATCCAACTTTAAAATCCATATAATCTGTATGCTTCACCT TTAATGTCTATGACATGATTATTTTCAGGTGTGATGATAAAGCACTAGAAGACTCACTTTGCAAGCGAGTCATTGTTACT CCTGATGGGAACATTACAAAACTACTAGACCCAGATGCAGCTGCTTTGAGCCGAGATGCTTTGGCAAAGACTATGTACTC CAGACTGTTTGACTGGTAAAAACAAACTAAGAATGACAACATGTATCTTCATTCAGTCGCAACATTAAAAACCCTGATAA TTTTATATCCAGGAAACATACTACTCCTATACAACATCAATCATAATACACAACAAATCATCTATGAACAAAAAGTGTTT TGATATAATCCAAATGCATGCTTCAAATATGTTAGGATTGTGGACAAGATTAACAGTTCAATTGGGCAAGATGCAAATGC AGTCAGCTTAATAGGAGTCCTTGATATTTATGGATTTGAAAGCTTCAAAGTCAACAGGTAAATGGGATAGTTATGTTTCA TAAAGACAATTTCTTCGTCTCTAAATTTTAATCTCATTCATTCTCTATATACAGTTTTGAGCAACTGTGCATCAACCTAA CAAATGAGAAGTTGCAACAACATTTTAATCAGGCAAGGTTATAAATTCTAAATAGATCTTAAGCAACATTATCGATACAA ACATATAATATAGAAATGCATCTGTTTCCGCAGCATGTATTCAAGATGGAGCAAGAAGAGTACACAAAGGAGGAAATCAA TTGGAGCTATGTAGAGTTTGTGGATAATCAGGATGTTCTTGATCTTATTGAGAAGGTCATTAGAAACTTGTGTATCAGCA TTGCTTGTGAAGGATCTTTTATACCAGATAAATATTGATACTGTTTACATGTATTGCTTGCAGAAACCTGGGGGAATAAT TGCTCTTCTTGATGAAGCCTGGTATGTCAATTTCTCACTTGAAAAACTGTGAATAGATAGATTGGCTATACAGATAAACT TTTTTGCAAATAGTATACCTACAAAATAATTCCTCAATCAAGGAGAGAATGGTGGTAGGATTATTTTTTGAAAGGAAATG GTGGTATAGTTAGCTCAGCCAGATTTTATTTTCCTGCTAAACAGGAAGCAAAAACCAGGAAAGCAAGTCAAAATTTAATT ATATTCTTATTTACTGCAGCATGTTCCCCAAGGCAACTCATGAGACTTTTGCACAAAAGATGTACCAGACATATAAAGGA CACAAGCGCTTCAGCAAGCCAAAACTTGCTCGAACAGATTTCACAATTAACCACTATGCTGGAGATGTAAGACAAGGAAT TCTAAATTTTTCTCGCCGGCCATCCATTTTAAAATTAAAAATGCTAATTTCTTGTCACAAATATTCTTTATTTACAGGTC ACTTACCAAGCAGATTATTTTCTAGATAAGAATAAAGATTATGTTATAGCAGAGCATCAAGCTCTTTTATGTGCTTCCAA GTGCACATTTGTTGCTAATCTTTTCCCTCTTCTACCTGAGGAGACATCAAAGCAATCAAAATTTTCTTCCATGGGCTCAC AGTTTAAGGTAAATATATTTCAATTTCGGTGTTTAGTTTCTCCAGTCTCTAGAAACTCCGAGTCCTTGAATTGCTTCTGA ATAAATCTTAATATCCAGCAACAACTGCAATCACTCATGGAGACACTGAGCACAACAGAACCACATTACATAAGATGTGT GAAACCTAATACAGTTTTGCAGCCAGGAATCTTTGAGAACTTCAATGTCTTAAACCAATTAAGATGTGGGGTAAGTTTAA TTTCTCCTATTGTTCTTAAATGTATGCCTGTTCAGTGGATTTGAGAAATACCCCTGCCGAAAAAAAAGGGACATTTACCT CATTGCTTCTTGCAGGGAGTACTTGAGGCAATAAGGATTAGTTGTGCTGGATATCCAACAAAAAGAACATTTGAAGAGTT CCTTGATCGCTTTGGAATGCTAGCTCCTGATGTCCTTGATGGGTATGCATTACTATAGTCTACAAGAAAATGAAAATGAT GCTTTTTAACTTTGATTGTCATATGAAATTCACACCTTCATGAAGATAGAGCAAGAATGATGAGTCAAAGATGTAATACT CTATTAAACTACTTGAACCACCACATGAAAGTAACTATAACAATAATCTATGATGTAGCTCCTATCATTGAAGATAAGCT CAGATTCACTTGAAAGTAAATATCATATATCTATATCTCTCATTGAAGTTCTAAAAAATATGCTTTGATCTTCACAAACC CATATGATAGTTAATGCTTTCTTGTATGTAGATCTGATGAGAAAAAGGCATCTATTGCAATCTGTGAGAAGATGGGCCTA AAAGGCTATCAGGTAAGTCTATACATGGGAAACATGTTCTATGGAAGTAAAAGGCATAATCATGCATAAAATTTTCAGGA ATTTGTTATAAGCTCTCATCCATTTTATCCCAATGTTTCAATCAGATGGGAAAAACAAAGGTATTTCTCAGAGCTGGTCA GATGGCTGAATTAGATGCACGAAGAGCTGAAGTCTTAGCTAAAGCAGCTAGACTCATACAGAGACAAATCCGAACACATT TAACCAGAAAAGAGTTCATCACCCTTAAAAAGGCCACAATTCAGATCCAGAAGATTTGGAGAGGTCATCTTTCTTAACAA AATAACTTGTATTTTTAGTACATCTCCTTTTTAAGTGCATAATTCTTATGGTTCTGTCCTATAGATAACTTATTCGAGTT ACTTTCTTTTGCCCTTCATTTTTTCAGCAAGACTTGCACGTGAACTATATGAGCACATGAGAAGGGAAGCAGCTTCTATC CGGGTGCAGAAACATGTGCGTGCACACAGAGAAAGAACTTATTACACATCATTACAAGCATCAGCTATTGTTATTCAATC TGGCATGAGAGCATTAGCAGCACGAAATGAATTTAGGTACAGAAGAAGGACAAAGGCTTCAACCAAAATTCAGGTAAAGA CATCACTAGAAGCAATATCTAACACCAACATAGATCATGACATGCATAATGAAATCATTTGGAATCCAAATGTTTGCTCA TGGAAAAGTTCATCTAAAATTTCATCAATAAGAAATTCAAGATGCTTGATTCTTTTTAAAATTAATAATTTAAATTATTC CATTTCATTTCTTCTGACAGACACAATGGAGAAGAGCCAAAGCTGTTTCTGATTACAAACAGCAGAAGAGAGTAGCTCTT TCACTTCAATGTCTCTGGAGAGCTAAAGTAGCACGGAAAGAGCTCAGAAAGCTTCGGATGGTGAGTGTTGCTTCTGTGCA TCATTTTTCTAGAAGCCAATTTTTTTTAGAATATCTAATAAGAAAGAAATATTTTCAAAAGTAGAGGTGTGTAACAGTTT TAAGTTGCTGTGCAGGCTGCAAGGGAAACGGGGGCACTTAAGGAAGCAAAGGACAAGTTGGAGAAGCGTGTTGAGGAGCT GACATGGAGACTGGATATTGAAAAGCACTTGCGGGTAGGGACTATCAACTAGTTCTACATGATAACCACTAAATGGATTC AAGTAAAATTATCAATTATAAGTAAAAATAAAAAGGGATTAATTTTCATTCAAAAGTAAGATTCTATTTTCATAGTTTTT ATCAGTGAGTAACTGTCTAGTGCACTCCTTTCAAGATACTAATGAGGAGAAAAACTATTCAGTCCTTCATATAGCAGTTT ATCCAGCCCATCTAATCTGGAAATAATAACATGCAGCTTGACCTTGAAGAAGCTAAAGGGCAAGAGATAGCAAAATTACA GAATACTTTACAAGAAATTCAAGCTCAGCTAGATGAAGCCCATGCTGCAATTATACATGAGAAAGAAGCAGCAAAAATAG CAATTGAACAAGCACCACCTGTAATTAAAGAGGTACCTGTTGTGGACAACACCAAGCTAGAGTTGCTGACAAATAAAAAT GAGGAGCTGGAGGTAAAATAATTTTTTTCCTGGACATTTTTAAATTTTACTTTTAGTATTAAGATGGTGGGACACTGGAA TTACATTCAGCAGGGTAAGAAGTACTTCTAAATGATAAAATGATACATAAGAAAAGTAAGGAAAGCTTTTTATTAACCCT TTTTTTTAAGAAATATTATTTTTAAAATAAATATTATATCTTTTACCACCAAAAACTTAAATGAATAATGAGAACTGTCA CATATATAAATAATTTGCATGCAAACAGCACTGCATAGATGAATACTTTTCACTTGACAATGTGATGGCAAGTACTTAAA TTGAAGTTCTGAAAATACAGAGTGAAGTAGAACAGCTAAAAAGTAAGATTAAAGAGTTTGAAGAAAGGTGCTCAGAAATT GAAAAAGAGAATCAAGCAAGGCTGAAAGAGGCAGAAGAAGCACATCTCAAAGCGACACAACTTCAGGAGACTATTGAAAG GTTGTGGAAATAATATTTAGCCACACAATATCTCTACCAACATAAACTGGAATTGACCATCTATACTTTACTACTCCAGA TTAGAATCAAGTTTGTCAAACCTTGAGTCTGAGAACCAGGTTCTATGTCAGCAGGCATTAGTAGAATCAAATAATGAAGA ACTATCTGAAGAGATAAAAATGTAAGTACAATATGCTATTTGGATAATTTATTATTATTTTTCTTCTAAGTGATACTTAG TTGCCAGATGCCTGCATTTGAATGTAGTAAATCAAAAACTTTATATGCATCAATGAGCTCCCTTGTTTTTGGATTAGATG TTTTGATATTGTTGAGATATGTTGATTAAATAAATAGGGAATAAATATATTTAGTATATTTTATCTTTTATTAGGATAGA TCTTTTCCTTATTTAGCTATCCCTAAACTCTTATATATATATATGTACTCAGCTTCATGAAATAATCAATCAGAATATTT CATTCAAGTTGGTACCAGAGCTTTCTGATTCAAGTCTCCCTCTGGTTTACTAGTTTAGTTTAGGGTTTCAGCCGTCGTAG GCTAACCCTTATTTTTACCAGTTAGAATTCCGGAAGCAACCACCGGCCGCCACCACTGCTGTTGATTGCTGCTACCATAG TCCGCTGCTGCCACCACTGTGTCGTGATCAGCCGCCACCGCCAGCCGCTGCCGCCGCCGCCGGTCGCCGCTGATAATTTT TTCTGGGTTTGCTTGTTTTTATTCCAGGATTCCTCTTCTGTGGTTCGTTTCTGTGTTTGAGGTCTCTTGTTTCTGTTTTT TGGCCTGTTCCAATCAGTGAGCCTTTCGTTTGAAGTGTGTTTGGATTTGTTTGGTTGCGGTTGTTTTCCCTGTCTCTGTT TGTTCTTTTTCTTCATGGAGGATTTGCTGAAGGATAAGTCTCCCAAGGGTGAGAAGAAGAGTCTCATCTCATTTGCTTTT TCTGGGACTCCTGTTATCACTTCTGAGAAGTTGAATGAGGCAAATTATCTAGATTGGTCCAATGCTGTTGAGATCTGGTT TTTGGGTCAAGGTTTGTCCGAGCACCTTACTAAAAAATGTGCTGATATTGATGCTTCTGAGAAGAAGGAATGGGAGAAGG CTGATTATCAACTTGTTTCTTTATTATACCAGGCAATTGAACCTAGACTGATTGTTCACTTTCGTCCCTACAAAACATGT TATGATGTGTGGAAAAAGGCACAGGACATCTATGCTAATGATATTCAGCGGTTGTATGATTCAGTACGTAATTTGGCAAA TCTCGAGATGACTGATCTTAATTTGCCGTCTTACCTGAATAAGGCACAATCTACCATTGTGGAGCTGAAGTCAATGCTGG TTAATGACGATTTGAAGAAGGTGCTGGAGAAACTTGACAATATGTTCATGGTGTTTGTTTTGCATGGTCTCCATAAGGAT CTGGAATCTGTTCGAAACCAGACCCTTACTAATCCCAATATTCCTACAGCGGAGGAGCTTATTAATCGTTTACTTCGTGT TCCTTCATCTGCCACTTCAACTAGACTTGAATCTCATACAGCCTCTGACTCCTCTGCTCTCATATCAAATTCTTTTGAGT CAGGGGGTCGAGGTCGTGGTCGTAAAGGTGGTGGACGTGGAAGAGGAGGTAGAGGAAATCTCCATTGTTCTTACTGTAAG AGGGATGGACACACACAAGATCGTTGTTACTCTCTAGTTGGGTTTCCAGACAAAACTGCTAATGTCGCACAGTCTTTGGA GTCCAAGGTTGAATCTGATGGTGCAAAGAACCACTCATTCTCAACTGATGAGTACAAGGAATATCTCCAGCTGAAGGGCG CTCAAAGATCATCTTCATCAGCAACTGTTGCTCAAACCGGTAATTCTACGGTTTGTTACTCTCATTCTACACCTGTTGGA TCCTGGGTTTTGGATTACGGTGCCTCAGATCATCTCACTGGTAATCCTTCCTTTTTCTCTAACTTATCTTCACCCAAAAC TACACACCATGTTACCCTTGCAAATGGCTCGAAAGTACAAGCCACCGGTGTTGGGCAGACATCTCCTCTTCCTACACTAC CTTTGAGTTCTGTTCTATTAGTTCCGGGATGTGCTTTTAATCTTATTTCTATAAGTAAATTAACCAAATCATTAGGTTGT GCCATAACTTTTACCTCTGATTCCTTCTTTATACAGGACCGGAGTACGGGACGGATGATTGGAGCAGGATCTGAATCACA TGGTCTCTATTATCTACAACAACCATCTTCTGCAATTTGTGCGGCTGCTGCTGAGTCTCCGAGTTTACTTCATCGTCGTC TGGGACATCCGAGTTTGGACAAATTAAAGAAGATGGTGCCTTACTTGTCGCAGTTAGAGTCTTTGGAATGCGAGTCATGT CAGCTTGGGAAGCATGTTAGGTCGTCTTTTCCTAGTAGCATCAATAAAAGGGCCCTACATCCATTTGATGTCATTCATTC TGATGTTTGGGGTCCAAGTCGTGTTTCTTCTATCTTAGGATACAGGTATTATGTCAGTTTTATTGATGATTTCTCCCGGT GTACTTGGATATTTTTAATGAAAGATAGATCTGAGTTGTTTAGTATCTTTCAAAAATTTTGTCATGAAATTGAAACTCAA TTTGATAAGAAAATTCGTGTTCTGCGAAGTGATAATGCTAAAGAGTATTTTTCTGATTCCTTTAACTCTTTTATGAAGTC TCATGGCATTATACATCAGTCTAGTTGTCCACATACACCCCAACAAAATGGGGTAGCTGAGAGAAAACATAGACATATTG TGGATACGGCTCGTACTTTATTGATGAATGCTAATGCACCTTTAAAGTTTTGGGGTGAAGCTGTTTTGACTGCAGGATAT TTGATAAATCGGATGCCATCATTTGTTTTGGGTAATCAGATTCCTCATTCCATGTTGTATCCTAGGGAATCTTCATTTTG TGTTCTGCCTCGTGTCTTTGGTTGTACTTGCTTTGTTCATGATCTTTCACCAGGTCGTGATAAGATGTCTGCTCGAGCTG TCAAATGTGTCTTTTTAGGTTACTCTCGTGTTCAAAAAGGGTATAAGTGTTACTCTTCATCCACACATAAGTTCTACACT TCTGCAGATGTCACGTTCTTTGAAGATACACCTTACTTTGTTACAACTGGTCAACAATCTGATCTAGATATATTTCCTGT GGTTTTACCTGTTCCTCAAGTGTCTATGTCACCATCTTCGGTCGTTACTCCTCAAGCAGACACTTCCACTCCATCAGCGC CAGCTCCTGATATGTCTCGTTATCGCATTACTTATGAGCGTCGCCCACGACGTACAGTAACGGATGAGCCCCACGACTCA GTTTCTGCAGGACATGAGACATGTGATTTGGTTCCTCATCAAGCCTCCTCTCCTGCTTCGGATCCTGTTGACTTGCCCAT TGCCCTCCGGAAAGGTAGTCATTCTACTCGTAATCCTTATCCTATTTATAATTTTCTCTCATATCATCGCTTGCCCCCTG CATACTACGCTTTTGTTTCTACCATATCTTCCATTACTGTACCTAAGACTATACAGGAGGCCCTATCTCACAAAGGTTTG CGTCAAGCGATGATTGACGAGATGACAGCTTTAGAGTCTAATAATACATGGGAGCTTGTTCCTCTTCCTGCAGGGAAATC TATTGTTGGGTGTCGTTGGGTCTTTAATGTTAAAGTAGGCCCTGATGGGCATATTGATCGATTGAAGGCTCGTCTTGTTG CCAAAGGGTACACTCAGGTTTATGGCTTGGATTATAGTGATACTTTTTCACCAGTTGCAAAGATGGCATATGTCCGTTTA TTTTTTGCCATGGCTGCTATGCGACATTGGCCCTTGTTTCAGCTGGATATTAAAAATGCTTTCTTACATGGTGATTTGGA AGAAGAGATCTATATAGAGCAACCACCGGAGTTTATTGCTCAGGGGGAGTCAGGACTAGTTTGTAAATTGCAAAAGTCTC TGTATGGTCTGAAACAATCACCCCGAGCTTGGTTTGGCCGTTTCAGCAATGTTATTCAGCAGTTTGGGTTAGTTCGTTGT GAAGCGGATCACTCAGTCTTCTTTAGGTGTTCATCCTCAAAGAGGTTCATTTATCTTGTTGTCTATGTGGATGATATTGT AATCACCGGTGATGACCAAGAGGGCATACAAGCTCTTAAGCAGCACCTGTTTCAGCATTTTCAGACTAAGGATCTTGGAT CTTTGCATTACTTTCTTGGGATTGAGGTAGCTCAGTCAAAGTCTGGCATTGCTATTTGTCAAAGAAAGTATGCGCTTGAT ATTTTGGAAGAAACGGGCCTTCTTAACTGCAAGCCTGCGGATACTCCTATGGACCCTAATGTGAAGCTTCTGCCTAACCA GGGGGAGCCTTATTCTGATCCAGGAAGATATAGGAGGTTAGTAGGAAAGTTGAATTATCTCACAATGACCAGACCTGATA TATCATTCTCTATTAGTGTTGTTAGTCAGTTTTTAAACTCTCCTTGTAAGAGTCATTGGCAGGCTGTTATTCGGATACTT CAATATATAAAAGGTTCGCCTGGAAAAGGTCTTGTTTATACTGATAGAGGTCATACTAGTATTACTGGATATTCAGATGC GGATTGGGCAGGTGATGCAGGTGATAGGAGATCCACCTCTAGTTATTGTGTTTTTATTGGTGGAAATCTCATCTCTTGGA AGAGTAAGAAACAAAGTGTTGTTGCTAGATGAAGCACCGAAGCTGAGTATCGTGCTATGGCTCATACTACGTGTGAGCTC TTGTGGTTGAAGCACTTACTTCAGGAGTTGAAGTTTTGTGCGATTACTCCTATGAACTTAGTATGTGACAATCAGTCAGC TTTACATCTTTCTTCTAATCCGGTTTTTCATGAACGAACAAAACATATAGAAGTTGATTGTCATTTTATTAGGGAGAAGA TTCTTTGTGGTACTATCAAGACTTCTTCTGTTTGCTCTCAAGATCAGCTGGCTGATATTTTTACCAAGTCTTTACGAGGT CCCCGGATAAAATATATATGTGACAAGCTGGATGCATACGATTTATATGCTCCAACTTGAGGGGGAGTGTTGAGATATGT AGATTAAATAAATAGGGAATAAATATATTTAGTATATTTTATCTTTTATTAGGATAGATCTTTTCCTTATTTAGCTATCC CTAAACTCTTGTATATATATATGTACTCAGCTTCATGAAATAATCAATCAGAATATTTCATTCAAGTGATATGATGTACA GAATTCGCTTTGCAAGATGGTGATACATAAATGAGGCGTCAAAATGAACCTGGTATAGGTCTAGTAATTGTTCATACTTG ATAGGATAGGTTTTTAAAAGAAAATGAAAACAACAAAACAAAGGAGACCATGATAAATTGTTCTTTTTTCCTTTCATTTA AGAGTTCTGAATGTGCTGCATTTGTACAATATGTGTTACTTTCCTTTCCATAAATATTTTTGAAGATTAAAGTTTTCCAA TTAAACATCACAGATAATTTCTCAATAACATAGGCCATATATGCTTTTATATCATATCACATTAAGTGGGCTTACACACC ATTTTCTTGACAATAGATTTAGGAAGGAATTTTTAAAACATAAAAAAAATTACTGGCATATACACGTCTCTAAATTAGTT CCAATTTAATGCCATCTCTAGCCTCAAGGATCAGATAGAAAATCTAGAATCAGAGAATGAAGTTCTAAGGAGCCAGGCAG CCGCTGTTGTCGAGCAGAAGGTTTATCCAGAAAAGATAGAAACAGGCCAGGAGGTTGCTGTTGTAGAACAGATACAACCA AGAGTTATTACAGATACCATGACTTCACAAATAAAGGTATACTACTCTGAGCTTTCCCTAAGGATTATTCATTATGTGAC AATTATCTTTTATGATGATCGATGCAGAACTTGGATAACAGAAATCAAACAGAAGAAGAATGGCATGCCAGAAAGGTATT TCCAACTTGATAACATGTGTTTTTCAATAATTTCAAGGGTAAGTAATTGATCACAGTAATTGAAATTGAAAAAATGATGT TTCCAGGAACTTAGAGCACCTGTGTCTTTGCTTACGAAACAAAGATCACTCACAGACAGACAGCAGGTATATATGATCTC ATAACACAATTAAGTGAGGCAGAAATTCCACCCTAAAATTAAATGGTATCTTACAGTTTTTATATATCTATATCTTCTAA ACAGGAAAGTTATGATGCACTGCTCAAGTGTCTCATGGAAGATAAGAAATTTGAGAAAAACAGACCAGCAGTTTCTTGCA TTGTTTATAAAGCACTTCTTCATTGGAGATCATTTGAATCGGAGAAGACACATATATTTGATAAAATTATTCACGCTATC AAATCATCTATAGAGGTAGTATTTTCCAAGAGCTTTATACACCAACAATAGTTAAGGAATTCTTGATAAAACATCAGTTT TTGAACCTAAATTATTGAAAGCAATTTATCATTTTATGTCCTGGCAGAGCCAAGAAGGAATCAATGACCTAGCATATTGG CTTTCAACAACTTCAACACTTCTGTTTTATCTACAATGTACCATCAAGGCCAGCAATACAACTAGGGCCGCTTCGCGTAA TAGGAACTCCCCTGCCAGCCTATTTGGCAAAATGGCACAAGTATGATTTCGAAGCTGCAAAATTTCAGTTCATTAAATCA ATGTTAAAAACATAACGATACTTGATGTACAATGTCAGGGCTTACGTTCATCTTCATTGGGCATGGGGATTTCAAGTGGC TACAGTGGAATGGTGGAAAAGCCAAATGAGCAATCTAAAGTGGAAGCCAAATACCCAGCAATTCTTTTTAAGCAACATTT AACTGCATATGTGGAGAAGATTTATGGAATGATCCGAGATAGTTTAAAGAAAGAGATTAGCCCATTCTTAAATTTGTGTA TTCAGGTAATCATGTTGAAGAAAAACAGACAATACAAAGTACAACAGAAAATTGGACATTGGTTGATTAGATAAATCTTT TATCACCATTGACAGGCACCAAGATCCTTAAGGACCAGATCAATAAGAGGGTCATCTAGAAACATCCATTCAAATATAGT TGCAAAACAACAGGCATTGCATATGCACTGGAAAAGCATTGTGAACAAATTAGATCATACCTTGGATATATTGTCTGCTA ACTATGTAAGCATGAATTACTCCCTTAATATTGCTTTGGCTGGGTTGTTCAGATCAGATAAGAGATTTCTCAAATTTCTA CATCTCATAACTTCAGGTCCCTCCCATGATAACAAGGAAGATATTTAGTCAGGTCTTCTCATTCATGAATGTTCAACTGT TTAATAGGTGAGCAGATTTTCCATTCAATTGCACTAAGTATATTGGAGTAGTGATTGTTGATTCAACTTAGTACAGATTC TCATAAAATTATGGTCTGTTAGTTTGTTGCTTCGCCGGGAGTGCTGTTCCTTTAGCAATGGAGAGTATTTGAAGGCAGGT TTGCATGAGTTGGAACTCTGGTGTCTAAAAGCAACAGATCAGGTAGCTTTAGAAATTTGCCATAACCTAGACTAAACAGA ACAGAAGTGCAAGACACCAATTATCTAAGTCCTTACTTTTGTGTTACTTCTTATTCACTTTGCAGTTTACGGGGACATCT TGGGATGAACTCAAACACATACGCCAAGCTGTCAGCTTTCTGGTATACTTTCTTGAACAATGATTACAAAATAATGCACA CTTTCTTTCCCCTTTCCTCAATATTCGATTTTAAAATGCTTCATTTATGCAGGTTTTGCATCAAAAGACTCAAAAACCTT TGGAGGAGATCACAAAAGAACTCTGCCCGGTAATTTAATTAACTAACTCATAACCAAGACACAACAGTTAATACTTAGTA TCTCAATAACAGTTTCTATCTTATACCTACTTGGATAAGTAGCTTTTCTCTAACTTATGGTTTTTTATCAAGAATGACTT TTTTTTTACTTTGAAACTATCTAAATCACATGCTTAAAATTCGAGTAAAAGAGGAGTGCCTCTAATACAATGTAACCTAT AATCTCTTGTTTTATGTTCCCTATATCAGGTGTTAAGTATTCCACAAATATACCGTATTGGAACTATGTTCTGGGATGAC AAGTATGGAGCACAGGGACTATCTGCAGAGGTAAGTTCTTGTCTCCTCAAACATTTTCGGCTCAGCTGCATGTTTGTGCA ATGCATTCTATCATAGCTTCATTCTACAGCACATTCAATTCTTTCTTAATCCCAAATATACTAAAACATCATTCATTTAA TTTTTACAGGTAATTAGCAGAATGAGAGTGCTTATGACAGAAGACTCCGAAAACATACCACCCAATAACTCGTTCCTTCT TGAAGTGGATTCCAGGTAATGAACTATTTAACATGCTTCTACATCTAAAAATCACTTCTTAGCCAATATAAACACATTTT GTTTATGTTTGTTGTATGAAAAAGCATACCGTTCTTAATGGAGGAGATGTTCCGGTCCATGAGTGACATTCGGTTATCTG ATATGGATGTGGATCCGCCACCAATCCTGAGACAAAGGTCTGATTTCCAGTTCTTGTTGCAACAAATTGATAGTAGTGAC TCTCAATGAGGTAGCAAATTCTGGTGCTGAGTGCTGACACAGTTTTGGTTTTTGATTTTGAATTCAATTAGTTTGGGTTT CGTGTGAAGCAAGTAATTGAGTGGTGAGATGGAGAATTGTAATTAGGTTATATAAAAACAAATACATTTTTTCATTTGCT ATTGGAGAGATTTCAAATTTTTTTATTTTTCTTGTAAGGCTTCTTGTCAAGGAAGGCCACCTTGAATTTTGACATTGTTG TATATTGTTGCTTTGAAAAGGAATGAAATGAAGAAAGTTTGATTTAGCTTGATTTCAGTTTCCGGGTTTAACGCTCACAT TCAAATAGGTTGAGGGTTCGAATCCTCCTAAGGACAGTAAAATTTCAGTCGGTGGGCAATCATCCTCGGGAAAATTCATC TGCGCTCATACCCAGGA
CDS sequence (LotjaGi3g1v0129700.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGAACTCCTGTGAATATCATTGTTGGATCACAGGTTTGGGTTGAGGATCCTGAGATTGCATGGATTGATGGTGAGGT GACAGATATCAAAGGCACAAATGCCACTATCATTACCACAAATGGGAAAACAGTGGTTGCAGAAATTTCAAGTATATACC CTAAAGATATGGAGGCACAGCCTTCAGGGGTTGATGACATGACCAAGCTAGCATACCTCCATGAGCCAGGAGTTCTGTAT AACCTTGCCTGTCGTTTTTCTCTCAATGAGATATATACATATACAGGGAATATCTTAATTGCAGTGAATCCTTTTAGAAG ACTACCACACCTGTATGACATCCATATGATGCAGCAGTACAAAGGAGCAGCATTTGGAGAGCTTAGCCCTCACCTTTTTG CTGTAGCAGACACCTGTTACAGAGCAATGATAAATGAGAATGGAAGTCAATCCATTTTGGTGAGTGGAGAGAGTGGAGCT GGTAAAACGGAGACAACCAAAATGCTAATGAGATATCTAGCTTTCATGGGGGGAAGGTCTAATACAGAAGGCAGGACTGT AGAACAACAAGTCTTGGAGTCCAATCCAGTGTTGGAAGCTTTTGGAAATGCCAAAACTGTCAAAAACAACAATTCAAGTC GTTTTGGTAAATTTGTTGAAATTCAATTTGACAAGAATGGAAAGATTTCTGGAGCAGCAATCCGTACCTATCTCCTTGAA AGGTCAAGAGTTTGTCAGGCTTCTGATCCAGAGAGAAACTATCATTGCTTTTACATGCTTTGTGCAGCACCACCAGAGGA TCTTGAGAGGTTCAAGTTAGGGGACCCAAGGCAATTCCACTATCTGAATCAATCAAACTGTTATGAAGTGTCAAATGTAG ATGATGCTAAAGAATACTTAGAGACCAGAAATGCAATGGATATTGTAGGTATCAGCCAGGATGAGCAGGATGCTATCTTT CGTGTGGTAGCTGCAATCCTTCATCTAGGAAACATTAACTTCGCCAAAGGGAATGAAGTTGATTCATCAAAATTGAAAGA TGACAAATCACTCACCCACCTTCGAACTGCAGCCGAGTTACTCATGTGTGATGATAAAGCACTAGAAGACTCACTTTGCA AGCGAGTCATTGTTACTCCTGATGGGAACATTACAAAACTACTAGACCCAGATGCAGCTGCTTTGAGCCGAGATGCTTTG GCAAAGACTATGTACTCCAGACTGTTTGACTGGATTGTGGACAAGATTAACAGTTCAATTGGGCAAGATGCAAATGCAGT CAGCTTAATAGGAGTCCTTGATATTTATGGATTTGAAAGCTTCAAAGTCAACAGTTTTGAGCAACTGTGCATCAACCTAA CAAATGAGAAGTTGCAACAACATTTTAATCAGCATGTATTCAAGATGGAGCAAGAAGAGTACACAAAGGAGGAAATCAAT TGGAGCTATGTAGAGTTTGTGGATAATCAGGATGTTCTTGATCTTATTGAGAAGAAACCTGGGGGAATAATTGCTCTTCT TGATGAAGCCTGCATGTTCCCCAAGGCAACTCATGAGACTTTTGCACAAAAGATGTACCAGACATATAAAGGACACAAGC GCTTCAGCAAGCCAAAACTTGCTCGAACAGATTTCACAATTAACCACTATGCTGGAGATGTCACTTACCAAGCAGATTAT TTTCTAGATAAGAATAAAGATTATGTTATAGCAGAGCATCAAGCTCTTTTATGTGCTTCCAAGTGCACATTTGTTGCTAA TCTTTTCCCTCTTCTACCTGAGGAGACATCAAAGCAATCAAAATTTTCTTCCATGGGCTCACAGTTTAAGCAACAACTGC AATCACTCATGGAGACACTGAGCACAACAGAACCACATTACATAAGATGTGTGAAACCTAATACAGTTTTGCAGCCAGGA ATCTTTGAGAACTTCAATGTCTTAAACCAATTAAGATGTGGGGGAGTACTTGAGGCAATAAGGATTAGTTGTGCTGGATA TCCAACAAAAAGAACATTTGAAGAGTTCCTTGATCGCTTTGGAATGCTAGCTCCTGATGTCCTTGATGGATCTGATGAGA AAAAGGCATCTATTGCAATCTGTGAGAAGATGGGCCTAAAAGGCTATCAGATGGGAAAAACAAAGGTATTTCTCAGAGCT GGTCAGATGGCTGAATTAGATGCACGAAGAGCTGAAGTCTTAGCTAAAGCAGCTAGACTCATACAGAGACAAATCCGAAC ACATTTAACCAGAAAAGAGTTCATCACCCTTAAAAAGGCCACAATTCAGATCCAGAAGATTTGGAGAGCAAGACTTGCAC GTGAACTATATGAGCACATGAGAAGGGAAGCAGCTTCTATCCGGGTGCAGAAACATGTGCGTGCACACAGAGAAAGAACT TATTACACATCATTACAAGCATCAGCTATTGTTATTCAATCTGGCATGAGAGCATTAGCAGCACGAAATGAATTTAGGTA CAGAAGAAGGACAAAGGCTTCAACCAAAATTCAGACACAATGGAGAAGAGCCAAAGCTGTTTCTGATTACAAACAGCAGA AGAGAGTAGCTCTTTCACTTCAATGTCTCTGGAGAGCTAAAGTAGCACGGAAAGAGCTCAGAAAGCTTCGGATGGCTGCA AGGGAAACGGGGGCACTTAAGGAAGCAAAGGACAAGTTGGAGAAGCGTGTTGAGGAGCTGACATGGAGACTGGATATTGA AAAGCACTTGCGGCTTGACCTTGAAGAAGCTAAAGGGCAAGAGATAGCAAAATTACAGAATACTTTACAAGAAATTCAAG CTCAGCTAGATGAAGCCCATGCTGCAATTATACATGAGAAAGAAGCAGCAAAAATAGCAATTGAACAAGCACCACCTGTA ATTAAAGAGGTACCTGTTGTGGACAACACCAAGCTAGAGTTGCTGACAAATAAAAATGAGGAGCTGGAGAGTGAAGTAGA ACAGCTAAAAAGTAAGATTAAAGAGTTTGAAGAAAGGTGCTCAGAAATTGAAAAAGAGAATCAAGCAAGGCTGAAAGAGG CAGAAGAAGCACATCTCAAAGCGACACAACTTCAGGAGACTATTGAAAGATTAGAATCAAGTTTGTCAAACCTTGAGTCT GAGAACCAGGTTCTATGTCAGCAGGCATTAGTAGAATCAAATAATGAAGAACTATCTGAAGAGATAAAAATCCTCAAGGA TCAGATAGAAAATCTAGAATCAGAGAATGAAGTTCTAAGGAGCCAGGCAGCCGCTGTTGTCGAGCAGAAGGTTTATCCAG AAAAGATAGAAACAGGCCAGGAGGTTGCTGTTGTAGAACAGATACAACCAAGAGTTATTACAGATACCATGACTTCACAA ATAAAGAACTTGGATAACAGAAATCAAACAGAAGAAGAATGGCATGCCAGAAAGGAACTTAGAGCACCTGTGTCTTTGCT TACGAAACAAAGATCACTCACAGACAGACAGCAGGAAAGTTATGATGCACTGCTCAAGTGTCTCATGGAAGATAAGAAAT TTGAGAAAAACAGACCAGCAGTTTCTTGCATTGTTTATAAAGCACTTCTTCATTGGAGATCATTTGAATCGGAGAAGACA CATATATTTGATAAAATTATTCACGCTATCAAATCATCTATAGAGAGCCAAGAAGGAATCAATGACCTAGCATATTGGCT TTCAACAACTTCAACACTTCTGTTTTATCTACAATGTACCATCAAGGCCAGCAATACAACTAGGGCCGCTTCGCGTAATA GGAACTCCCCTGCCAGCCTATTTGGCAAAATGGCACAAGGCTTACGTTCATCTTCATTGGGCATGGGGATTTCAAGTGGC TACAGTGGAATGGTGGAAAAGCCAAATGAGCAATCTAAAGTGGAAGCCAAATACCCAGCAATTCTTTTTAAGCAACATTT AACTGCATATGTGGAGAAGATTTATGGAATGATCCGAGATAGTTTAAAGAAAGAGATTAGCCCATTCTTAAATTTGTGTA TTCAGGCACCAAGATCCTTAAGGACCAGATCAATAAGAGGGTCATCTAGAAACATCCATTCAAATATAGTTGCAAAACAA CAGGCATTGCATATGCACTGGAAAAGCATTGTGAACAAATTAGATCATACCTTGGATATATTGTCTGCTAACTATGTCCC TCCCATGATAACAAGGAAGATATTTAGTCAGGTCTTCTCATTCATGAATGTTCAACTGTTTAATAGTTTGTTGCTTCGCC GGGAGTGCTGTTCCTTTAGCAATGGAGAGTATTTGAAGGCAGGTTTGCATGAGTTGGAACTCTGGTGTCTAAAAGCAACA GATCAGTTTACGGGGACATCTTGGGATGAACTCAAACACATACGCCAAGCTGTCAGCTTTCTGGTTTTGCATCAAAAGAC TCAAAAACCTTTGGAGGAGATCACAAAAGAACTCTGCCCGGTGTTAAGTATTCCACAAATATACCGTATTGGAACTATGT TCTGGGATGACAAGTATGGAGCACAGGGACTATCTGCAGAGGTAATTAGCAGAATGAGAGTGCTTATGACAGAAGACTCC GAAAACATACCACCCAATAACTCGTTCCTTCTTGAAGTGGATTCCAGCATACCGTTCTTAATGGAGGAGATGTTCCGGTC CATGAGTGACATTCGGTTATCTGATATGGATGTGGATCCGCCACCAATCCTGAGACAAAGGTCTGATTTCCAGTTCTTGT TGCAACAAATTGATAGTAGTGACTCTCAATGA
Protein sequence (LotjaGi3g1v0129700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGTPVNIIVGSQVWVEDPEIAWIDGEVTDIKGTNATIITTNGKTVVAEISSIYPKDMEAQPSGVDDMTKLAYLHEPGVLY NLACRFSLNEIYTYTGNILIAVNPFRRLPHLYDIHMMQQYKGAAFGELSPHLFAVADTCYRAMINENGSQSILVSGESGA GKTETTKMLMRYLAFMGGRSNTEGRTVEQQVLESNPVLEAFGNAKTVKNNNSSRFGKFVEIQFDKNGKISGAAIRTYLLE RSRVCQASDPERNYHCFYMLCAAPPEDLERFKLGDPRQFHYLNQSNCYEVSNVDDAKEYLETRNAMDIVGISQDEQDAIF RVVAAILHLGNINFAKGNEVDSSKLKDDKSLTHLRTAAELLMCDDKALEDSLCKRVIVTPDGNITKLLDPDAAALSRDAL AKTMYSRLFDWIVDKINSSIGQDANAVSLIGVLDIYGFESFKVNSFEQLCINLTNEKLQQHFNQHVFKMEQEEYTKEEIN WSYVEFVDNQDVLDLIEKKPGGIIALLDEACMFPKATHETFAQKMYQTYKGHKRFSKPKLARTDFTINHYAGDVTYQADY FLDKNKDYVIAEHQALLCASKCTFVANLFPLLPEETSKQSKFSSMGSQFKQQLQSLMETLSTTEPHYIRCVKPNTVLQPG IFENFNVLNQLRCGGVLEAIRISCAGYPTKRTFEEFLDRFGMLAPDVLDGSDEKKASIAICEKMGLKGYQMGKTKVFLRA GQMAELDARRAEVLAKAARLIQRQIRTHLTRKEFITLKKATIQIQKIWRARLARELYEHMRREAASIRVQKHVRAHRERT YYTSLQASAIVIQSGMRALAARNEFRYRRRTKASTKIQTQWRRAKAVSDYKQQKRVALSLQCLWRAKVARKELRKLRMAA RETGALKEAKDKLEKRVEELTWRLDIEKHLRLDLEEAKGQEIAKLQNTLQEIQAQLDEAHAAIIHEKEAAKIAIEQAPPV IKEVPVVDNTKLELLTNKNEELESEVEQLKSKIKEFEERCSEIEKENQARLKEAEEAHLKATQLQETIERLESSLSNLES ENQVLCQQALVESNNEELSEEIKILKDQIENLESENEVLRSQAAAVVEQKVYPEKIETGQEVAVVEQIQPRVITDTMTSQ IKNLDNRNQTEEEWHARKELRAPVSLLTKQRSLTDRQQESYDALLKCLMEDKKFEKNRPAVSCIVYKALLHWRSFESEKT HIFDKIIHAIKSSIESQEGINDLAYWLSTTSTLLFYLQCTIKASNTTRAASRNRNSPASLFGKMAQGLRSSSLGMGISSG YSGMVEKPNEQSKVEAKYPAILFKQHLTAYVEKIYGMIRDSLKKEISPFLNLCIQAPRSLRTRSIRGSSRNIHSNIVAKQ QALHMHWKSIVNKLDHTLDILSANYVPPMITRKIFSQVFSFMNVQLFNSLLLRRECCSFSNGEYLKAGLHELELWCLKAT DQFTGTSWDELKHIRQAVSFLVLHQKTQKPLEEITKELCPVLSIPQIYRIGTMFWDDKYGAQGLSAEVISRMRVLMTEDS ENIPPNNSFLLEVDSSIPFLMEEMFRSMSDIRLSDMDVDPPPILRQRSDFQFLLQQIDSSDSQ
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 | 5 | 1577 | 1573 | 0.0 | – | |
PANTHER | 5 | 1577 | 1573 | 0.0 | – | |
ProSiteProfiles | 8 | 57 | 50 | 18.159 | ||
Pfam | 11 | 46 | 36 | 1.7E-9 | ||
SUPERFAMILY | 35 | 785 | 751 | 2.8E-287 | ||
SMART | 56 | 732 | 677 | 0.0 | ||
ProSiteProfiles | 62 | 731 | 670 | 277.034 | ||
Gene3D | 63 | 662 | 600 | 1.1E-253 | ||
Pfam | 64 | 719 | 656 | 9.8E-252 | ||
CDD | 76 | 719 | 644 | 0.0 | ||
PRINTS | 92 | 111 | 20 | 1.0E-61 | ||
PRINTS | 149 | 174 | 26 | 1.0E-61 | ||
PRINTS | 196 | 223 | 28 | 1.0E-61 | ||
Gene3D | 247 | 311 | 65 | 1.1E-253 | – | |
Gene3D | 312 | 421 | 110 | 1.1E-253 | – | |
PRINTS | 429 | 457 | 29 | 1.0E-61 | ||
Gene3D | 438 | 622 | 185 | 1.1E-253 | – | |
PRINTS | 482 | 510 | 29 | 1.0E-61 | ||
Gene3D | 666 | 731 | 66 | 1.9E-15 | – | |
Coils | 723 | 743 | 21 | - | – | |
Gene3D | 732 | 785 | 54 | 8.2E-11 | – | |
SMART | 733 | 755 | 23 | 8.1 | ||
ProSiteProfiles | 734 | 763 | 30 | 7.144 | ||
Pfam | 736 | 754 | 19 | 0.013 | ||
SMART | 756 | 778 | 23 | 0.69 | ||
ProSiteProfiles | 757 | 786 | 30 | 8.773 | ||
Pfam | 759 | 777 | 19 | 0.03 | ||
SMART | 781 | 803 | 23 | 15.0 | ||
ProSiteProfiles | 782 | 808 | 27 | 7.236 | ||
SUPERFAMILY | 785 | 882 | 98 | 1.1E-10 | ||
Gene3D | 786 | 836 | 51 | 2.1E-7 | – | |
SMART | 804 | 826 | 23 | 17.0 | ||
ProSiteProfiles | 805 | 834 | 30 | 7.968 | ||
SMART | 829 | 851 | 23 | 2.2 | ||
SMART | 852 | 874 | 23 | 5.8 | ||
ProSiteProfiles | 853 | 882 | 30 | 8.023 | ||
Coils | 876 | 910 | 35 | - | – | |
Coils | 915 | 949 | 35 | - | – | |
Coils | 972 | 1089 | 118 | - | – | |
CDD | 1155 | 1542 | 388 | 0.0 | ||
ProSiteProfiles | 1204 | 1518 | 315 | 51.369 | ||
SMART | 1393 | 1500 | 108 | 1.4E-39 | ||
Pfam | 1393 | 1497 | 105 | 1.4E-23 |
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 | Motor activity | Catalysis of the generation of force resulting either in movement along a microfilament or microtubule, or in torque resulting in membrane scission, coupled to the hydrolysis of a nucleoside triphosphate. | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Actin filament organization | A process that is carried out at the cellular level which results in the assembly, arrangement of constituent parts, or disassembly of cytoskeletal structures comprising actin filaments. Includes processes that control the spatial distribution of actin filaments, such as organizing filaments into meshworks, bundles, or other structures, as by cross-linking. | ||
Cellular component | Myosin complex | A protein complex, formed of one or more myosin heavy chains plus associated light chains and other proteins, that functions as a molecular motor; uses the energy of ATP hydrolysis to move actin filaments or to move vesicles or other cargo on fixed actin filaments; has magnesium-ATPase activity and binds actin. Myosin classes are distinguished based on sequence features of the motor, or head, domain, but also have distinct tail regions that are believed to bind specific cargoes. |
Expression pattern of LotjaGi3g1v0129700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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