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 | LotjaGi1g1v0534000 |
Transcript ID | LotjaGi1g1v0534000.1 |
Related isoforms 4 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | ABC transporter ATP-binding protein; TAIR: AT3G55320.1 P-glycoprotein 20; Swiss-Prot: sp|Q9M3B9|AB20B_ARATH ABC transporter B family member 20; TrEMBL-Plants: tr|I1N529|I1N529_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0534000 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:106226376..106243222) extracted from Lotus japonicus Gifu genome v1.2.
CTGTATCTCTGTCCTTTAAAAAGCATAAAATTATCCAAAATAAATATTAAAAAATAAAAATAGCATCCTTTAAATAATAA AATCAGAAACAAAAAAATAAAAAAATACCCTTTAAGCATGTAGTACACGCCGGCGTTTGACCGTTAAACCTAACCACCAA GAAGAAATCCCAAACCCGAAACGAAGAAGAAGAAGAAACAGTTAGAACAACAACAAGAAGGTTCACGAATTCCGCGTGCT GCTCCTATCTCCATCGTTTCCGCCCTGAGTAACCGCATACGGAAGCGGCAACGGCGGTGCCGGCGCATGCCAGGACGACG TCGTTCGCCGGAGCAAACAAACTAAATTCTATATACCTGAGAACGCGTCACCAATTTCACTAGATCTACAGATTTTCATT CAGAGATGATGTCTAGGGGATTGTTCGGGTGGTCCCCGCCGCATGTGCAACCACTCACGCCGGTTTCGGAGGTTTCCGAG CCGCCGGAGTCTCCTTCGCCGTACCTTGATCCCGGCGCGGAGACCTCCGCGTCGCAGCAGGTGGAGGTTGAGGAGGAGAT GGAGGAGCCGGAGGAGATCGAGCCTCCTCCTGCTGCGGTTCCGTTCTCGCAGCTCTTTGCCTGTGCTGATAAGTTTGATT GGTTCCTCATCGCTGTTGGTTCTGTTGCTGCTGCCGCTCACGGCACCGCGCTGGTGGTTTACTTGCATTACTTTGCTAAG ATCATCCATGTGCTCCGGGTGGATCATGCCTCGTCGCAGGAGCGGTTTGACAGGTTCACCGAGGTTAGATTCTGATTCAA TTATATGCGCAAAATAAAACCCTAGTTTTAGCTTATGATATAGATATATACATGGATGTTTTTGTTCTCCTTTGAGATGT AATTGAAGCTTGAGTTGGAAAATTATTTGTCGAAATCTTGTGTTAGGTTTCGTTGTTATGGGAGCATAGGATGTGCATGA AGGTTTCTGTTTCTGATAGTTTGGCTCGCTTGGCTAGCAAGTTGTTGAGGAAGCTATAAACTTAGGGTTCAAAGCTTTGT TTATCAAAATGTTCTTCTATGGTGTTGTTCTTGTTGGTTGTCTTCTAGGCAATGTGTACTGTTCTATTAGTTTTTTTCTG TTCCATGTCTGAAGTGATTTGGTTAGCATGCGGGAGCTTCGGGGGTTAGAAACATTTTGTATCCAGATTCCTTAAATCGT CGAATCTGCTTCTTGGCGTGATTGATTGGGCAATGAGGAGTTCTGAAATTTGTTTGGTTCAGCTGATTTTTTGTCGTGGC CTCGTGGCTTGTCTTCTTTTGAAATCTGATCAGATTCACGGTCTATTGCCTGCTCCTTATTTTCATAATTGCACCTCTTG CATTGAATAGGCACAATGTCAGTTTAGGTAATTGCACAATTACTTTTCCTTGGAACTTCTCACTCTTGTATAGTCTTTAG GCATTTATGAGGGGAGATCGTTTAATATTTTAGAGATAATTTTTGGCCTATCCTTGTGTATAATGAATGAAATCATCTTG GATGGCCCTGGCCGTAAGGGTTAGTTATATAAAGTTTCATGACTTATAGTAGTTTTTTCAGCTCGATGAGTTGATACAGG AACTAGTCCAACGTCAGTTGATTGAGTCATGGAAGTGGTATCTCCTCTGTATAGCTTAGAATGCATTTCAAATTTTCGAG TCTCAACCATTCAAGGATGACAGAATTGTTAGGTTTTAATCAGTTAGTATTTTCTAGGGTGAATCGGTGGTTCGAAAAAT ATTGGAGTGTGATGGGGTGTACGTTAAATTATGTGCAATTGTCAAGTAATAGGAAGGCATTTTATAATGAGTTTATTAGT TGTTTGGTTGCTGTGAACAATAACCACAGGCAGAGGGCTTTGGGTTTGATATGTTTTGGGGAAAATTCAGAAAACTAATG ATTTGGGGTTTCAAATTTTGATTGGATTGTATTTATCTCGCTGTCTTCTGAGAAAATAAATTTGAAGAGAGTACAACATT GAAAGAAGAAAGATAGTAATTGCACAACTTGGATGCAATTTGCTGCCATAATTCGTAAAACTGATCATCCTGCTAAAAAA GGAAAAAATGTTGCAAATTTCTGAATAGGTCTTTTCTACCTATCACTTATCCTCCAAGGCTAAGGAGTAAAGTTCTAATC CTTTAAGTATTAGAAGTCCTACTATTACTAGGGAAGATATCAAAATAAGATCGGATTTCAGCTGAATAACATAGACTCAA TTTTAAATTAAACCCTGAAAAAATATCGCTAAATACCATTAAATAGAAAATATTCAACTTGAAGTTTCATTCCCTGATAG GGTGATTAGAATTGTCTGCATGTAATATATCTTATGAGTGATTGCCTGATTCTTTCTTTTTGAATTTTGTAAGGGATGGG AGAGTAAAAAACAAGTAGGGAAGTTACGGAAGACGATAAATGTATTGAATTGACGGTGTAGATTATACTGATCCTACTCC TGTAGTTGTATGTGTTTGATTTTATTTTATCTACTATTTCCACCTTTGAAACAGAAGAGCATAAAATGCTTGAATTCATT GGAACACTCTTTACCTCTAACTCTTTCACAAGTTTGTCTATCTTATTCTTGGTTGGTCTAATTTTGGTATACCTTTTGTT ATTTTAAATTTTGAAATGAGGAAATTTTGGAAGATAAATGATCTTCAGTTTTCTGCAAAGCATTCACTGTGATTCAGTGT ACTTATGCTAACTTACCCTTTTTTCTTCTGCAGCTTGCATTGACCATTGTTTATATTGCAGTCGGAGTTTTTGCTGCTGG TTGGATTGGTAAAATTAAATCTTCATCAAAACTAATCATGGGAAAATGTGTTTTATTAGATATTGAATTTATATCTGCTG CATTACTAATGGGGTTTTTATTTTTTTATTCCCGGTAATTAGAGGTTTCATGTTGGATTTTGACTGGAGAGCGGCAGACT GCTGTCATCAGGTCCAACTATGTTCAAGTATTGCTAAATCAAGATATGAGTTTTTTTGATACTTATGGGAATAACGGGGA CATTGTGAGTCAAGTATTGAGTGATGTGCTGCTTATCCAGTCTGCCCTTAGTGAAAAAGTATGTCTTGTTCTAATCATGT TATAAATTTGTTCCTTTGGAAATGTTAACTTCTTCACAGATCATATCTCCAGACATATGTCTCGTATATCATGTTTATTT GCCCTTTATGATGCAGGTTGGAAATTATATTCATAATATGGCTACATTCTTCAGTGGTCTTGTCATCGGCTTTGTCAATT GTTGGCAGATTGCTTTGATAACATTAGCTACAGGTCCTTTTATTGTTGCTGCCGGAGGAATATCAAATATATTCCTCCAT AGGCTCGCCGAGAATATCCAAGATGCATATGCTGAAGCAGCTAGCATTGCTGAACAGGTTGTTTATCCTTTGAATTTTAA TCCTGTTATACATTGAACCAAATACTTTCTCCCTTTCTTTTATTGTGTTTATGCATGGGTCAGTCATATAGATGAATTTA AGGTGCCATTGCAGTACTCTTCTGCATTGAAGTTCAAATGAGACCACCTTATCTGTTTTAAAATAACTGCTTCTTTATAA TTAATAATTAATGATTTTTAAAGCTGACTTGTGGAATGGTCCCATGTTGATTTGCTTTCAATTTCTTAGATGGTGTTGTG GATTTATTTTTTATTTGTTTCTACTGGTGCCTTCTGTATTTATGTCATATTGAGTCTTCATTTTGGGTGCTAACATTGAA ATTTTCCTAACCTATCCATAATGAAATCATGACAAGGTGTTCTCAGGGCGAACCATGTTTATATTTTACTAATAGAGTTC GACAGGAATGCATGATATATTGATATCCTTAATCTTTTAAGGTGTTTTTGTTGAAGACTTCCTAAACTATCTACCTGAAA ATGAAAAGATAAGCAACAAGTATTTGGATTGGAGAATAAAAATCGTGCTTTGTCTTGTATGTATCCATCTTTTAAAATTG CAAAGGGGCCGCAATTTTTTTCTCAGTTAAAATCTTACTACAAGATTGCTTTAGGCTTATACTCCCTCCGGTCCTATTTA TAAGCATGAAAGAGAAGAAAAATCTTGGTCCTTTTTATAAGAACCAAATGAAAGTTTGAGCTATATTAATTAATTTTTTC CAATGATGCCCTTATTAATTCTAACTTGTAAAATGTGTCTCATTAATTATTCTCTCTCTTTTCCACTTTCCAACACTAAT AACAAAGGGTAATTTTGGAAGTTCATTTTAATTTAAGACAAATTTAATGCATTTTATCTAGTTTAACTACATTTCTTAAA CTATGTGAATTTTTTTTTTTGTTGCTTATAAATAGGACCGGAGGGAGTAGCTATCTTTTAAAATGGAAATGGAGCCACAA TTTTGTCTGAGTTAAAACCTTACTAGTTTTTCTTTCTTGAGTAGGTATGTTGTTGGAATTTTAAGGTTGAAATACTGATT CGAATTCATACTCCTTTGCTAGAAAATCCTTTGGTAGTAGTCCTGATTAATTTCAAGCTTATATCTTTAACCATAAGAGT CCTAGTGGTGCTTCAGATTTTCTGACTATGATAAAAGCGTCTCACTTTTGGTAACTTAATGGAATCTCCCTCTTCTTTTA ATCTTGCTGCAGAGACTGGACAAATTTTATATATATGTAGATGAGTGTGCACACACACAGACATAGGGTGTAGCTAGTGA GTGTCTTCTTTTCATGAGTGAGAGGAGTATATTCTGACCAATGGCAATACAAGATGGTCGAGATTAAAATTTATTTAATG GTCACATGGCTACTTAAATAAGTCACATGACTTATATGGTTTAATTTTGACTATTCATGATTAGATTTGATGATCAAGTT TACTCCTCTCATTCTCACATAAAGAATACACTCTTAACTGATACGTTCAATATATATACATATATACGATTGCTCTAATT GCTATATTATTAGTTAGATGATAAATGCTTTAGTTTTATCTTAAACTTTTTCTTTAATATTTTGAATTTGACAAAGTGGA AAGAATGGTGAAATTCTTGTTATCTTGTGAAGTATTTAGTGCCATGGATGCTGAGGGTAAATCATTTCTTATGATGCAGG CAGTTTCCTATATAAGGACATTGTATGCATTTACAAATGAAACGTTGGCCAAGTACTCGTATGCAACTTCACTACAAGCT ACTCTTAGATATGGTATATTAATAAGTCTTGTTCAAGGGCTTGGTCTTGGATTTACATATGGGCTTGCAATATGTTCTTG TGCTTTACAACTCTGGGTTGGAAGATTCTTGATTATTCATGGAAAAGCGCATGGTGGTGAAATTATTACAGCTCTGTTTG CTGTAATTCTAAGTGGCCTGTGAGCATCTTTCTCAACTTATATATTTTCATCATATGTTTGTCATTTTACTTATAAATTG TTTCTTTGATTCAGGGGGTTGAATCAAGCAGCCACAAATTTTTACTCATTTGATCAAGGGCGAATAGCTGCTTATAGGCT ATTTGAGATGATAAGCCGGTCATCCTCATCTGTTAATCATGATGGCACTGTCCCTGATACTGTGCAAGGAAATATTGAGT TTCGGAATGTTTATTTCAGTTATCTTTCTCGTCCTGAAATCCCTATCTTGAGTGGATTTTATCTCACTGTACCTTCTAAG AAAACTGTAGCACTTGTTGGCAGAAATGGCTCTGGAAAAAGTAGCATCATTCCTCTCATGGAGCGTTTTTATGATCCTAC ATTAGGTGATATTTCTACTTCAATACTGTTAAGTTTCACAATGCATTCCCAGCACTATTTTGGTAATTTGCAGATTTAAA TTGTTTTGCTAATCATTGATTCAGGAGAAGTTCTTTTAGATGGTGAAAACATCAAGAATTTGAAACTGGAGTGGCTGAGG AGCCAAATAGGACTAGTTACTCAGGAGCCTGCTTTGCTCAGTTTGAGTATAAGAGACAACATTGCTTATGGGAGGGATGT CTCCATGGATCAAATTGAAGAGGCTGCTAAAATAGCTCATGCACATACATTTATTAGCTCATTACAGAAAGGTTATGACA CACAGGTGAAGCTTGGTTGCATCATCATATACCTATATGGATTGTATTTTGGGAGGCTATATTTTCAATTGTTTCCATTT GAGTGGAGATCACATTTTTATTTCCAAAACTGGTGCTCCTGTCTCAGGTTGGCAGAGCTGGTCTATCTTTGACTGAAGAG CAGAAAATAAAGCTCTCGATTGCAAGAGCTGTGCTTCTAAATCCTTCAGTTCTTCTACTTGATGAGGTTACTGGTGGACT TGATTTTGAGGCTGAGAGGGCTGTTCAGGAGGCTTTGGATCTGCTCATGTTAGGACGCTCAACAATTATAATTGCTCGAA GGCTTAGTCTCATAAGGAACGCTGATTATATTGCAGTTATGGAGGAAGGTCAACTTGTTGAAATGGGTACTCATGATGAA TTGTTGACCTTGGGTGGTCTATATGCAGAGCTTCTTCGATGCGAAGAAGCAGCAAAACTTCCCAAGAGGTACTAGAACAA ACCATGCTTTTTCTTTTGCTATGTATTCTTGTTTGTGTCTGTCTACCCAGAATATAGCATGGTTCTTTCAAAAAAAAAAA AGTATTGCCATGGTGAAAGTGGCAATAATTTAAGAAAATTATTTCTTAGGTTAATAAACTAACTATATTTGTATTCTCTA GTGCATTCCCACTGAACTACATCATTTTAAATTTTTATTTTAATAATGTGCAAGAATTTCCCACTCCTTATTTTTTTACG ATCACCCAGGATGCCTATTCGAAACTACAAGGAGACTGCAGCATTCCAAATTGAGATGGATTCTTCAGCAAGCCATAGCT TCAATGAACCATCATCCCCTAAAATGATGAAGTCACCCTCTCTTCAAAGAGTTTCTAATGTGTCACGGCCTCCAGGTGGC ATCTTTAACTCGCAAGAATCACCCAAAGTTCCAAGCCCACCACCTGAGAAGATGCTGGAAAATGGTCAGGCATTGGATGC AGCTGATAAGGAGCCATCAATAAGAAGGCAGGATAGTTTTGAAATGAGACTGCCGGAGTTACCCAAGATTGATGTACATT CTGTACATCGGCAAAAATCAAATGGTTCTAACCCAGAATCTCCTGTTTCGCCTCTTTTAACATCTGATCCTAAAAATGAA CGCTCCCATTCACAGACTTTCAGTAGACCACATAGTCATTCTGATGATGCTTCAGTTACAACGAGAGAGAAAAAGGATGC ACAGCATCGGAAGCCACCATCACTTAAAAAGCTGATTGAGCTTAGTTATGCTGAGTGGCTTTATGCTGTGTTAGGAAGCA TAGGTGCTGCTATCTTTGGTTCTTTCAATCCCCTTCTTGCTTATGTTATTGGACTTGTGGTGACAGCTTACTATGAAATT GATAATCAGCATCACTTAGAACGGGAGGTAGACAGGTGGTGCTTGATCATTGCCTGCATGGGCGTTGTAACAGTTATTGC CAACTTTTTGCAGCATTTCTACTTTGGTATTATGGGAGAAAAAATGACAGAAAGAGTTAGGAGAATGATGTTCTCAGGTG CATAACAACTCCTCTTGCAGTATTTTCTTTAAAAAAGATGTGGTATTTTGAACATCAATTAATCTGTTTCTATAATATGA CAGCCATGCTCCGAAATGAAGCAGGATGGTTTGATGATGAGGAAAACAGTGCTGACAATTTATCCATGCGATTGGCTAAT GATGCTACCTTTGTACGAGCTGCTTTTAGCAACCGGCTTTCCATATTTATACAGGACAGTGCTGCAGTTATTGTTGGTCT TCTCATTGGTGCTTTGCTGCACTGGCGGTTAGCACTTGTAGCTTTTGCAACCCTTCCAGTTCTCTGTGTTTCTGCAGTTG CTCAGGTTTGCACCAGCTCCTCTGTTTTTCCAATATAACTATTTTTCCTTGTCATGAATGAATAATTCAAAAAGATTAAG TTGTTGGATGATAACATATTTAATTTTTCTGGCTTGAAGTGTGAACAATGCATATCTTGTGTTGAAATTGAACTTGTTAT TTAGAAGAATGGGACAACAAGAATTTAACTGTAGACCGCGTGGTCATAGAGATGGATACTGTTGTACTATCAACTATGAC ATGGACCAATTATCTCAAAAACTAAAGTTGGTGGATCAAAATGAAAACAGATGAATAGTTTTTTTTTTATATCTAACATA CTTGGTTGGGTTGAGCTTTGATTTCTTGGATGCCATGTCAATGCTGTTCGTGGAAATGAATGCCTCTAGCACAATCCTGT GATTTTGAAATTTTCTAATTTATAAAAATTCCAGGTTATGAATGGAACATGGACGCTAATCCAAATTGTGTGATTTAACA CCATTGATATCATGCTAATGGTGTTTTATGTTCATCATAATCACAAACCAAGTAGGATGGATAATATTCAAGTGACAAAT CTGTTTAGATGTAGAATTGGTATCTCCTTTACAGCAGGGTTGTTGTGGGAGGCAAAATAAATTCAAAACCATAAACTTAC TGATACTTGGAAAAAGAAAGGAAAGAAAGGGAAAAGGGCCATTTTCATTTGAGTCTTTTTTTGGGGTTGAGACTTGAGAT TCATTTGTGTTTCTCTGAAATCAAGGCTAAATGGTAATGAGGTGAGCTTGGAAACTCAACGAGTATTCTGTTGTGATTAA TATTGATTTTGAATTTGATGTGGCGTTGTCTTTGAATTTGGGTTAGGCCTAACTCTACTCCAAAAGCTAGCTTGGAGGTG AGGGTTGTTCTATTTTTTAAAAGGACTTAATTGGCCTTATCTCTGGTCAATGTGGGGCTTCTCAACACCTTGCATTAACT CTAATACATGATGTTTCGGTTAGCTAATTAATAGCTTCTAATGAGCTTAATTTGTCAAGTGTCTATGGCTAATTTTATTC TTCCTAAAAATTTGACTTTTGTCCTTAGAAAGTTTATATGGCTGTAATATTTATCTCTTCACAGCATTACTGTTAACATG TTTGAATGCTTGTTCAACATCTTTTGTTGGGTTCACTGATGGAAACCAAAGTCACAGTAAAGAGAAACAGTAAGCAAAAT GAGGAAAAAGGATTTAATATTGATTGAATCAGAACAAATACAATAGCAGAAGCTAAAGTCCCAGAGTAAACACTCCTATA GAGAAGAAACCTCTCTATCCAGATATTTTCTTAACAATACTCTTCATACCCCTTCCCTTTGCTAACAATGAACCTATAAA GGGAATCTCTACACCTCACACATTCCTCCCCCTCCGCATTTCACGTAACTAACTCTCCAACCTCACTCTCTCACCTCCAG CTCATATTCCTGAAGCTTCTTTCCCTTTCTTATTTTTCCTAACATAAACCCTCCACACTTTGGGCCTGCTCTCTTGTGTT TTGGCCCACTCTCTACCAACGGTCCTATCACTCCCACCATCTTGAGGAACAACCTTGTCCTCAAGGTTGAAAGCGGGAAA CTGATTTGAAAGAGTAAACTCATCTTCCCATGTAGCTTCTTCAGCAGGTTTTCCTTGCCACTGAATCAAGTACTGAGTGA TTGTCCCCCCCTGCTGCTGTACAGTGCGAACAGCCAAAATTGAGCTGGGTTCAATGGTAATAGGAGTCTCTCCGGCCAAA CCTTCTGGCAGATCTTTCTCAGCTTGATATTCCCCAATTGCCCGTTTCAAAAGAGAGACATGGAAGACAGGGTGGACTCG CGAATTTGCAGGCAAACGGAGTTTGTATGCGACAGCACCAATGCGTGCAACGACCTCGAAAGGACCAAAATAACAAGGAG CTAGCTTAGGATTAATCCTTTGAGCCACAGACTGTTGTTTGTTGGGTCGTAACGCAAAGGAAATTTCCTTGCGTTTCTTA TCAGCCTGGGATTTCATCTTGCCCTGAGCGCGCAAAAGATGGGCTTTCAGTTGGCGCAAAGCCTCATCACGATCCTGCAA TTCACGGGCTACAGCCTCCACCTTAGTTTCTCCAATTGTGAAACGTAACAGAGTGGGTGGCGCTCTGCCATACACTACTT CAAAAGGGGTGACCCCGGTTGAGACATGGTACGTTGTATTGTACCAATATTCTGCCCAAGGCAGCCATTGAAGCCATGTC CGGGGTTGATCCGCGATAAAACATCTCAAGTAAGTTTCCAGACAACGATTGATGACCTCCGTTTGGCCATCCGTCTCAGG ATGGTAGGCGGTGCTCATAGCCAAACGTGTGCCCTGTAGCTTGAATAATTCAGTCCAGAAAGTACTCACGAACACAGGAT CACGGTCACTCACAATAGACACGAGAACACCATGAAGCCGCACTATCTCCTTAGCAAAAGTTTCTGCTATTCCTTTTGCT GTGTAGGGACGTTTGACTGGAAGGAAATGGGCATACTTAGATAAACGATCAACAACGACGAAAATTGTATCCGTACCTCT TATCTTAGGCAAACCCGTGATAAAGTCCATAGAAAGCTCTTCCCAGATTCTGTCCGGAATGGGTAGAGGCTGGAGTAAAC CCCCTGGAGAAGTGGCCACATATTTCTGACGTTGACACACATCACACCCCTTCACAAACTGCTGTACTGAGTTCTTCATG CCAATCCAGTAGACATTAGCTGCCAGTCGACGATAGGTACGGTAGAAACCGGAGTGGCCCCCTTGTGGAGTGGTGTGGAA TTCTTGGAGCAACTTGGGAATCCACTTAGAATTTGCAGAAATTACCAGTCGATTAGAGTAGTACAGCACCCCTTGAGAAT AATTAAAACCGGGCTTGCTCATTGGGTCCTCTTTCAAAGCAGAGATGATGGAAGCTAATTTAGCGTCTTGATGCGCTTCT TGGACAATTTGTTCACCTTCTAACCAGCTTGGATAAGAGATTATAGAACTGAACTCTCCTTCTTCAAACATGCGGGACAA AGCGTCAGCTCCTTTGTTTGTTGGGCCAGGTTTATAAACTATATCAAACTGATATCCCAACAGCTTAGCGGCCCAGTTTT GCTGATCTACAGTGGTAATACGCTGGTGGAGCAATTTTCGAAGGCTCTTCTGGTCAGTACGTACGGTGAATTGCCTACCC AGCAAGTAGGGACGCCAATGCTGGATTGCCAACACAATGGCCATAAGCTCTTTCTCGTATGCCGACTTGGTCAAATTACG CTCACTGAGGGCTTTGCTAAAGTATGCTATTGGCCTTCCATTCTGCAGTAAAATCGCTCCAATCCCATTCCCTGAAGCAT CGCTCTCAATCACGAACGGTTGAGAGAAATCGGGTAGAGCCAACACGGGATCAGTGGTCATACAGGTTTTTAACATATCA AATGCTTCCTGTGCCCTCGCATTCCACTTGAAACCTTCCTTCTTGGTTAGGTCTGTTAACGGCCGAGCAATCTTCCCATA ATTCTGGACAAATTTACGGTAGTAACCCGTTAGTCCCAAAAATCCTCTTACTCCCTTCACATTCTTGGGAGTAGGCCAAT TGATGACACTTTGTATTTTGCTCGGATCCATGGAAACCCCCTGAAATGAGACTACATGCCCCAAATACTCAACTGACTGT TGTGCAAATGAGCATTTCTTTCGGTTTGCTACCAACCCCTGTTTTCTCAGTCTGTCAAACACCATTGTGAGCTGCTGTAA GTGTGTTTCCCAGTCAGAACTGTACACTAATATGTCGTCGAAGAACACTAGTACATTCCGACGCAACAAGTCACGAAAAA CCTCATTCATCAATGCTTGAAAGGTTGAAGGCGCGTTCATTAACCCAAAAGGCATTACCAAGTACTCGTAATGGCCTTCG TGGGTACGAAACGCAGTCTTGGGCACGTCTTCTTCTCTTACCAGAACTTGGTGGTACCCGGATTTCAAGTCCAATTTGGA GAAAAACCGAGCCCCATATAACTCATCAAGAAGCTCATCGATCACCGGAATGGGAAACTTATCAGGGATAGTGGCTTTGT TTAATTCACGGTAGTCCACGCACATTCTCCAGGACCCATCTTTTTTTTTAACCAAGATTACTGGACTCGAAAAAGCACTC TGGCTATGTCTTATGATTCCCTGCTGTAACAGCTCTTGCACCTGCTTCTCAATTTCATCTTTGTGATGATGGGAAGAACG GTATGGTCTCACGTTGACTGGACCATGCCCTGCTAATAAATTGATTTGATGCTCTCGCTGCCTCTTGGGTGGAAGCCCTC TTGGAGCCGTGAAAACGTCCACAAATTTCTCCAATAGGGAGGTTAATTGTTGGCTCTGCTTCTCAGTCAATTGCTCTACA TTCCTGTTTTGTGATTTGGAAATTTGGGACTCCAAGACACTAGACAGAAAATACCCTTCAGGAGTTCTGATATCCTGGTG CAGAAAGCTTTGCAATGCCCCTTGATCATCTCGAGAGCCTCCCTGTCCCTGAAAATGGAACCAACGCCCTTCCTGTTGGA AGCGTACAGTCTGCTTTCCCCAATTAATGAGCATATCTCCCAGAGTTACCAACCATGCTATTCCCAGTACCAGGTCGATT CCATCAAGGTCGAAGAGTATGGCTTCCACTATGGTTTTGTAATTAGCAATTTCCAAACTAACCTGCTCACACTTACCACT TGCAGTAGTCTTACTTCCATCTCCTAGAAGGATGCGCATCGTCGGAGTAGCTTGGGTTGCCCATCCCATAGTCTCGACCA CACGCTTGGATATGAAATTGTGTGTGGCTCCGCTGTCCACGAGGATCAAAATCGGGACTCCCAGAATTGAGCCCTGCAGT TTCATTGTTTGTCCCTGTATGGGCTCGGAGCTCAGCCGCATGATGCTGCACGCGCAGTCGACTGCAGCATCGTCTTCATC CTCCGTTTCAGCTGATAGCTCCCCTGCTTCCCCAACGTCATCCCCTTCTTCCAGCAGCATGATTCGGATTTGTTTGTCTG GGCATTGATGGAGAGGGTGGTACTTTCCCCCACACTTAAAACAAAGACCCTTCTGCCGGCGATCCAACAGCTCTTGGTAT GGTAGGTGGCGAACACCCTTGTCGCGCGGTTGGGGTCGAGGGTTCCCCTTCTCCTCTCTGCGATCTCCCTTATCGTTCTT CACCATGATCCAACCCGGAGGTGAATCCCGACCCGGTGGACCTGTCCCACTTGAAACTTGGTGGGCTGCTCGGGTAAAAG AACCCGGCCCATAACCCGATCGCATCCCTCCTCCTTTTGACCCGACTGATGAGCGAACCGGCCCATGGAACTCCGTCTCT ATTGCTTTGGCCAAGGGAATCAATCTGGATCGAGGGAGAGAAGTCAGGGCTCGCATGCTTCTGACCCGTGCGCGAATGTC TTCACGGAGGCCATGGATGAAGTATCCGAAATACTGTTCATCTGGGAGATTCGGTGCTTGTGATAGCAACCGCTCGAATT CCTGAACATACTCGTCAATGGTACCTCTCTGTTGAAGATCGGAAAGTTGCTCAAAGACATCTCCTCGATTAGCCGTTCCA TAGCGTTCAAGCAGTTCATTGGTGAGTTTTTCCCAAGTTAAACCTGGGTCCAAGTGCAGCAAGGAGTTGAAGTAATGGAT TGTGGATCCCTCCATACACAGGTGAGCCAGATTTACCTTGACCTCTGGACTCGTTCCCATGACATGGAAGTATACCTCAG CTCGAGCAATCCATCCTGCAGGGTCCTCTCCATTGAACAAAGGAAGCTCGACTTTCTTAGCCGATTTCCTAAATTCATCC AAGAGTCCTCCATCAAGCTTAGTCCAACCAGATACATAAGAAGGTCCTCCGTTCTCCTTCTCCGATCTAACAGGGTTGGG GTTATCGCGGATACTCCCAGAGTCTTCCTTCTCTGGCGTTGGTTTGCCCACATTCTGGGCCAGGAGTTCAAGCAACTGCG CTTGATTGTTGTCAGCTTTCTCCTGCATCAGGACAAGGGTAGTACGAAGATGAGCTACTTCGTCTTCAAGCGCTGCAACC TTTGCATCCATTTTCTTTGCTGTTTTCTGCGGTGGCATCAATCAGATTTCCAGCACTGGTATCAGTCTCGTGATTATCCG GTAGGTCGGACCAATTTGATGGAAACCAAAGTCACAGTAAAGAGAAACAGTAAGCAAAATGAGGAAAAAGGATTTAATAT TGATTGAATCAGAACAAATACAATAGCAGAAGCTAAAGTCCCAGAGTAAACACTCCTATAGAGAAGAAACCTCTCTATCC AGATATTTTCTTAACAATACTCTTCATACCCCTTCCCTTTGCTAACAATGAACCTATAAAGGGAATCTCTACACCTCACA CATTCCTCCCCCTCCGCATTTCACGTAACTAACTCTCCAACCTCACTCTCTCACCTCCAGCTCATATTCCTGAAGCTTCT TTCCCTTTCTTATTTTTCCTAACATAAACCCTCCACACTTTGGGCCTGCTCTCTTGTGTTTTGGCCCACTCTCTACCAAC GGTCCTATCATTCACTGTCAGTTTTTGTGGAAATCTTAGGGTCTATTTGGTTTAAGAAAATGTTTTTTGATTTCATTTTT AATTAGACAAATGTTATCTTCTTTTCACTTTTTTCCCCCTGTTTTCAATAAAAAATGCATATTAAATTCAACCTGCTTAA ATATTGCAGAAATTGTGGCTTGCTGGATTTTCAAGGGGCATCCAGGAAATGCACAGAAAGGCATCTTTGGTTCTTGAGGA TGCAGTTAGAAACATATACACTGTAGTTGCATTTTGTGCTGGCAATAAGGTAATGGAGCTCTATAGGCTGCAGTTAAAGA CAATATTTAAGCAGAGCTTTCTTCATGGGTTGGCAATTGGTTTTGCATTTGGCTTTTCACAATTTCTACTTTTTGCTTGT AATGCCCTTCTGCTTTGGTACACTGCAATATGTGTAAAAAATGGTTATGTAGATCCATCTACAGCGCTCAAGGAGTACAT GGTTTTCTCATTTGCAACATTTGCACTTGTGGAGCCTTTTGGATTGGCTCCTTACATACTTAAACGAAGAAAGTCTCTCA TATCAGTGTTTGATATTATAGACCGTGTACCTAAAATTGATCCTGATGATACCTCAGCATTGAAGCCGCCCAATGTATAT GGAAGCATTGAGTTAAAAAATGTTGATTTTTGTTACCCATCTCGTCCAGAAGTGTTGGTATTGAGCAATTTTAGTCTCAA AGTCAATGGGGGCCAAACAGTTGCTATTGTGGGAGTTTCAGGGTCAGGAAAGAGCACTATCATATCTTTGCTTGAGAGAT TTTATGATCCCGTAGCCGGCCAAGTTTTTCTGGATGGGAGAGATTTAAAGCTCTATAACTTGAGATGGTTGAGGAGCCAC CTTGGTCTGATCCAGCAGGAACCTATTATCTTCTCAACAACCATAAGGGAAAACATTATATATGCAAGGCACAATGCCAG TGAAGCTGAGATGAAAGAGGCTGCAAGAATAGCAAATGCTCATCATTTCATCAGCAGTTTGCCTCATGGTTATGACACTC ATGTCGGGATGAGAGGTGTTGACTTAACCCCAGGACAGAAACAGAGAATTGCAATTGCAAGGGTAGTGCTGAAAAACGCG CCTATCTTGTTGTTGGATGAAGCAAGTTCATCAATTGAATCTGAGTCAAGCAGAGTGATACAAGAGGCTCTAGACACGCT AATAATGGGAAACAAGACCACTATTTTAATAGCGCATAGGGCTGCGATGATGAGGCATGTGGACAATATTGTAGTGCTTA ATGGAGGCCGGATAGTGGAGGAAGGGTCTCATGATTCATTGGTGGCAAAGAATGGTCTGTATGTCCAATTGATGCAACCT CATTTTGGTAAGGGTTTGCGGCAGCATCGGCTTGTTTAGCATGGTGGTTGCTAAACACTGATATGAGTAATTGCTACTAA TGTTGGTTCATGAGTTGAATCACTGGTGACTCCTGCACCTGAAGGTTTTTACCAAGAATTCCAGGGGAGGGGGGAGGTTA TGGGTGGCGGCAATGGTAATGATGGGGCCTGGAGCAGCACTCGGAATTCGTAGGCATAGGAAGAGACACTGTAGGATGAA TAGATATGTAGGGTTTAAATATAGGATTTTGGAGTTTGGTTGGTTTGCATATTTGGGCTGGATTCTTTTGGAGGCAAGCA GCTTTGACTGAGGGTGTTTTCTATCCATGCTATTGATTTTGTTTCTCAAGAGAGGGTGGAATCAACACTAGTTCTGCTGA GGTGACTCTCTGGACCTGTTTTCACTCTACCTAACCCACGCGTGAATGATAATCTTCCATAACTGTAATTTTGTTTTTTC AACTTGTGATAATTGTAGAGAATTCAGATCCAAGAGTTGTAACTACTGTATATATATAGCAATAGTTTAGAAGGCATTCC TTTTGCTGCTTGAATCCTGGGTGTTATTCCCCATATTAATGGATGCACATTTTCAAGTGTATTTTGCTAAGAATCTGAAC TAACAGCCTCAGTCTTCTCTACCTTTTAGATTTTCTGTCACGTTTCCTTACCGATCTAGCATGTATTTTTTATAGAAGTT GTATTTAACATCAACGGAAGTGCAATTTTCACCTTCCATATAACAAATTGTTGCTTCCATAATTGCAAAACCTTAAATCA AACATAATTTCAGTGCTTATTTGTAATTGTGACCATTCGTCCAATGAAATGCACTTGTTGGATTGAGCGATTGTGCTTTT ACATTCACCCAACACAAATTTAAAGATTGCTTAACATATGAACATGTATGGCCTCACATTGTTCACAACGTTTCCTAAGT CTAGCAGTCGGAGCAAAACATGAATGCATACAATTTTTCGTTTCGGC
CDS sequence (LotjaGi1g1v0534000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGATGTCTAGGGGATTGTTCGGGTGGTCCCCGCCGCATGTGCAACCACTCACGCCGGTTTCGGAGGTTTCCGAGCCGCC GGAGTCTCCTTCGCCGTACCTTGATCCCGGCGCGGAGACCTCCGCGTCGCAGCAGGTGGAGGTTGAGGAGGAGATGGAGG AGCCGGAGGAGATCGAGCCTCCTCCTGCTGCGGTTCCGTTCTCGCAGCTCTTTGCCTGTGCTGATAAGTTTGATTGGTTC CTCATCGCTGTTGGTTCTGTTGCTGCTGCCGCTCACGGCACCGCGCTGGTGGTTTACTTGCATTACTTTGCTAAGATCAT CCATGTGCTCCGGGTGGATCATGCCTCGTCGCAGGAGCGGTTTGACAGGTTCACCGAGCTTGCATTGACCATTGTTTATA TTGCAGTCGGAGTTTTTGCTGCTGGTTGGATTGAGGTTTCATGTTGGATTTTGACTGGAGAGCGGCAGACTGCTGTCATC AGGTCCAACTATGTTCAAGTATTGCTAAATCAAGATATGAGTTTTTTTGATACTTATGGGAATAACGGGGACATTGTGAG TCAAGTATTGAGTGATGTGCTGCTTATCCAGTCTGCCCTTAGTGAAAAAGTTGGAAATTATATTCATAATATGGCTACAT TCTTCAGTGGTCTTGTCATCGGCTTTGTCAATTGTTGGCAGATTGCTTTGATAACATTAGCTACAGGTCCTTTTATTGTT GCTGCCGGAGGAATATCAAATATATTCCTCCATAGGCTCGCCGAGAATATCCAAGATGCATATGCTGAAGCAGCTAGCAT TGCTGAACAGGCAGTTTCCTATATAAGGACATTGTATGCATTTACAAATGAAACGTTGGCCAAGTACTCGTATGCAACTT CACTACAAGCTACTCTTAGATATGGTATATTAATAAGTCTTGTTCAAGGGCTTGGTCTTGGATTTACATATGGGCTTGCA ATATGTTCTTGTGCTTTACAACTCTGGGTTGGAAGATTCTTGATTATTCATGGAAAAGCGCATGGTGGTGAAATTATTAC AGCTCTGTTTGCTGTAATTCTAAGTGGCCTGGGGTTGAATCAAGCAGCCACAAATTTTTACTCATTTGATCAAGGGCGAA TAGCTGCTTATAGGCTATTTGAGATGATAAGCCGGTCATCCTCATCTGTTAATCATGATGGCACTGTCCCTGATACTGTG CAAGGAAATATTGAGTTTCGGAATGTTTATTTCAGTTATCTTTCTCGTCCTGAAATCCCTATCTTGAGTGGATTTTATCT CACTGTACCTTCTAAGAAAACTGTAGCACTTGTTGGCAGAAATGGCTCTGGAAAAAGTAGCATCATTCCTCTCATGGAGC GTTTTTATGATCCTACATTAGGAGAAGTTCTTTTAGATGGTGAAAACATCAAGAATTTGAAACTGGAGTGGCTGAGGAGC CAAATAGGACTAGTTACTCAGGAGCCTGCTTTGCTCAGTTTGAGTATAAGAGACAACATTGCTTATGGGAGGGATGTCTC CATGGATCAAATTGAAGAGGCTGCTAAAATAGCTCATGCACATACATTTATTAGCTCATTACAGAAAGGTTATGACACAC AGGTTGGCAGAGCTGGTCTATCTTTGACTGAAGAGCAGAAAATAAAGCTCTCGATTGCAAGAGCTGTGCTTCTAAATCCT TCAGTTCTTCTACTTGATGAGGTTACTGGTGGACTTGATTTTGAGGCTGAGAGGGCTGTTCAGGAGGCTTTGGATCTGCT CATGTTAGGACGCTCAACAATTATAATTGCTCGAAGGCTTAGTCTCATAAGGAACGCTGATTATATTGCAGTTATGGAGG AAGGTCAACTTGTTGAAATGGGTACTCATGATGAATTGTTGACCTTGGGTGGTCTATATGCAGAGCTTCTTCGATGCGAA GAAGCAGCAAAACTTCCCAAGAGGATGCCTATTCGAAACTACAAGGAGACTGCAGCATTCCAAATTGAGATGGATTCTTC AGCAAGCCATAGCTTCAATGAACCATCATCCCCTAAAATGATGAAGTCACCCTCTCTTCAAAGAGTTTCTAATGTGTCAC GGCCTCCAGGTGGCATCTTTAACTCGCAAGAATCACCCAAAGTTCCAAGCCCACCACCTGAGAAGATGCTGGAAAATGGT CAGGCATTGGATGCAGCTGATAAGGAGCCATCAATAAGAAGGCAGGATAGTTTTGAAATGAGACTGCCGGAGTTACCCAA GATTGATGTACATTCTGTACATCGGCAAAAATCAAATGGTTCTAACCCAGAATCTCCTGTTTCGCCTCTTTTAACATCTG ATCCTAAAAATGAACGCTCCCATTCACAGACTTTCAGTAGACCACATAGTCATTCTGATGATGCTTCAGTTACAACGAGA GAGAAAAAGGATGCACAGCATCGGAAGCCACCATCACTTAAAAAGCTGATTGAGCTTAGTTATGCTGAGTGGCTTTATGC TGTGTTAGGAAGCATAGGTGCTGCTATCTTTGGTTCTTTCAATCCCCTTCTTGCTTATGTTATTGGACTTGTGGTGACAG CTTACTATGAAATTGATAATCAGCATCACTTAGAACGGGAGGTAGACAGGTGGTGCTTGATCATTGCCTGCATGGGCGTT GTAACAGTTATTGCCAACTTTTTGCAGCATTTCTACTTTGGTATTATGGGAGAAAAAATGACAGAAAGAGTTAGGAGAAT GATGTTCTCAGCCATGCTCCGAAATGAAGCAGGATGGTTTGATGATGAGGAAAACAGTGCTGACAATTTATCCATGCGAT TGGCTAATGATGCTACCTTTGTACGAGCTGCTTTTAGCAACCGGCTTTCCATATTTATACAGGACAGTGCTGCAGTTATT GTTGGTCTTCTCATTGGTGCTTTGCTGCACTGGCGGTTAGCACTTGTAGCTTTTGCAACCCTTCCAGTTCTCTGTGTTTC TGCAGTTGCTCAGAAATTGTGGCTTGCTGGATTTTCAAGGGGCATCCAGGAAATGCACAGAAAGGCATCTTTGGTTCTTG AGGATGCAGTTAGAAACATATACACTGTAGTTGCATTTTGTGCTGGCAATAAGGTAATGGAGCTCTATAGGCTGCAGTTA AAGACAATATTTAAGCAGAGCTTTCTTCATGGGTTGGCAATTGGTTTTGCATTTGGCTTTTCACAATTTCTACTTTTTGC TTGTAATGCCCTTCTGCTTTGGTACACTGCAATATGTGTAAAAAATGGTTATGTAGATCCATCTACAGCGCTCAAGGAGT ACATGGTTTTCTCATTTGCAACATTTGCACTTGTGGAGCCTTTTGGATTGGCTCCTTACATACTTAAACGAAGAAAGTCT CTCATATCAGTGTTTGATATTATAGACCGTGTACCTAAAATTGATCCTGATGATACCTCAGCATTGAAGCCGCCCAATGT ATATGGAAGCATTGAGTTAAAAAATGTTGATTTTTGTTACCCATCTCGTCCAGAAGTGTTGGTATTGAGCAATTTTAGTC TCAAAGTCAATGGGGGCCAAACAGTTGCTATTGTGGGAGTTTCAGGGTCAGGAAAGAGCACTATCATATCTTTGCTTGAG AGATTTTATGATCCCGTAGCCGGCCAAGTTTTTCTGGATGGGAGAGATTTAAAGCTCTATAACTTGAGATGGTTGAGGAG CCACCTTGGTCTGATCCAGCAGGAACCTATTATCTTCTCAACAACCATAAGGGAAAACATTATATATGCAAGGCACAATG CCAGTGAAGCTGAGATGAAAGAGGCTGCAAGAATAGCAAATGCTCATCATTTCATCAGCAGTTTGCCTCATGGTTATGAC ACTCATGTCGGGATGAGAGGTGTTGACTTAACCCCAGGACAGAAACAGAGAATTGCAATTGCAAGGGTAGTGCTGAAAAA CGCGCCTATCTTGTTGTTGGATGAAGCAAGTTCATCAATTGAATCTGAGTCAAGCAGAGTGATACAAGAGGCTCTAGACA CGCTAATAATGGGAAACAAGACCACTATTTTAATAGCGCATAGGGCTGCGATGATGAGGCATGTGGACAATATTGTAGTG CTTAATGGAGGCCGGATAGTGGAGGAAGGGTCTCATGATTCATTGGTGGCAAAGAATGGTCTGTATGTCCAATTGATGCA ACCTCATTTTGGTAAGGGTTTGCGGCAGCATCGGCTTGTTTAG
Protein sequence (LotjaGi1g1v0534000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MMSRGLFGWSPPHVQPLTPVSEVSEPPESPSPYLDPGAETSASQQVEVEEEMEEPEEIEPPPAAVPFSQLFACADKFDWF LIAVGSVAAAAHGTALVVYLHYFAKIIHVLRVDHASSQERFDRFTELALTIVYIAVGVFAAGWIEVSCWILTGERQTAVI RSNYVQVLLNQDMSFFDTYGNNGDIVSQVLSDVLLIQSALSEKVGNYIHNMATFFSGLVIGFVNCWQIALITLATGPFIV AAGGISNIFLHRLAENIQDAYAEAASIAEQAVSYIRTLYAFTNETLAKYSYATSLQATLRYGILISLVQGLGLGFTYGLA ICSCALQLWVGRFLIIHGKAHGGEIITALFAVILSGLGLNQAATNFYSFDQGRIAAYRLFEMISRSSSSVNHDGTVPDTV QGNIEFRNVYFSYLSRPEIPILSGFYLTVPSKKTVALVGRNGSGKSSIIPLMERFYDPTLGEVLLDGENIKNLKLEWLRS QIGLVTQEPALLSLSIRDNIAYGRDVSMDQIEEAAKIAHAHTFISSLQKGYDTQVGRAGLSLTEEQKIKLSIARAVLLNP SVLLLDEVTGGLDFEAERAVQEALDLLMLGRSTIIIARRLSLIRNADYIAVMEEGQLVEMGTHDELLTLGGLYAELLRCE EAAKLPKRMPIRNYKETAAFQIEMDSSASHSFNEPSSPKMMKSPSLQRVSNVSRPPGGIFNSQESPKVPSPPPEKMLENG QALDAADKEPSIRRQDSFEMRLPELPKIDVHSVHRQKSNGSNPESPVSPLLTSDPKNERSHSQTFSRPHSHSDDASVTTR EKKDAQHRKPPSLKKLIELSYAEWLYAVLGSIGAAIFGSFNPLLAYVIGLVVTAYYEIDNQHHLEREVDRWCLIIACMGV VTVIANFLQHFYFGIMGEKMTERVRRMMFSAMLRNEAGWFDDEENSADNLSMRLANDATFVRAAFSNRLSIFIQDSAAVI VGLLIGALLHWRLALVAFATLPVLCVSAVAQKLWLAGFSRGIQEMHRKASLVLEDAVRNIYTVVAFCAGNKVMELYRLQL KTIFKQSFLHGLAIGFAFGFSQFLLFACNALLLWYTAICVKNGYVDPSTALKEYMVFSFATFALVEPFGLAPYILKRRKS LISVFDIIDRVPKIDPDDTSALKPPNVYGSIELKNVDFCYPSRPEVLVLSNFSLKVNGGQTVAIVGVSGSGKSTIISLLE RFYDPVAGQVFLDGRDLKLYNLRWLRSHLGLIQQEPIIFSTTIRENIIYARHNASEAEMKEAARIANAHHFISSLPHGYD THVGMRGVDLTPGQKQRIAIARVVLKNAPILLLDEASSSIESESSRVIQEALDTLIMGNKTTILIAHRAAMMRHVDNIVV LNGGRIVEEGSHDSLVAKNGLYVQLMQPHFGKGLRQHRLV
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 |
---|---|---|---|---|---|---|
Phobius | 1 | 78 | 78 | - | – | |
MobiDBLite | 1 | 59 | 59 | - | – | |
PANTHER | 54 | 1399 | 1346 | 0.0 | ||
PANTHER | 54 | 1399 | 1346 | 0.0 | – | |
SUPERFAMILY | 70 | 379 | 310 | 9.03E-46 | ||
Gene3D | 71 | 666 | 596 | 3.5E-184 | ||
TMHMM | 79 | 101 | 23 | - | – | |
Phobius | 79 | 103 | 25 | - | – | |
CDD | 82 | 379 | 298 | 1.03123E-89 | – | |
ProSiteProfiles | 83 | 371 | 289 | 36.743 | ||
Pfam | 86 | 354 | 269 | 1.6E-43 | ||
Phobius | 104 | 123 | 20 | - | – | |
Phobius | 124 | 144 | 21 | - | – | |
TMHMM | 129 | 151 | 23 | - | – | |
Phobius | 145 | 225 | 81 | - | – | |
TMHMM | 204 | 223 | 20 | - | – | |
Phobius | 226 | 250 | 25 | - | – | |
TMHMM | 228 | 250 | 23 | - | – | |
Coils | 250 | 270 | 21 | - | – | |
Phobius | 251 | 302 | 52 | - | – | |
Phobius | 303 | 330 | 28 | - | – | |
TMHMM | 308 | 330 | 23 | - | – | |
Phobius | 331 | 344 | 14 | - | – | |
Phobius | 345 | 363 | 19 | - | – | |
TMHMM | 345 | 367 | 23 | - | – | |
Phobius | 364 | 823 | 460 | - | – | |
SUPERFAMILY | 393 | 638 | 246 | 1.25E-76 | ||
Gene3D | 397 | 644 | 248 | 3.5E-184 | – | |
ProSiteProfiles | 404 | 639 | 236 | 21.175 | ||
Pfam | 425 | 569 | 145 | 1.3E-24 | ||
SMART | 431 | 610 | 180 | 2.0E-7 | ||
MobiDBLite | 666 | 705 | 40 | - | – | |
MobiDBLite | 666 | 729 | 64 | - | – | |
MobiDBLite | 743 | 809 | 67 | - | – | |
MobiDBLite | 755 | 779 | 25 | - | – | |
Gene3D | 769 | 1006 | 238 | 1.1E-51 | ||
MobiDBLite | 780 | 809 | 30 | - | – | |
SUPERFAMILY | 810 | 1136 | 327 | 1.96E-49 | ||
CDD | 823 | 1134 | 312 | 6.55479E-95 | – | |
Phobius | 824 | 853 | 30 | - | – | |
TMHMM | 824 | 856 | 33 | - | – | |
ProSiteProfiles | 828 | 1120 | 293 | 37.912 | ||
Pfam | 833 | 1097 | 265 | 6.3E-42 | ||
Phobius | 854 | 872 | 19 | - | – | |
TMHMM | 871 | 893 | 23 | - | – | |
Phobius | 873 | 895 | 23 | - | – | |
Phobius | 896 | 948 | 53 | - | – | |
Phobius | 949 | 969 | 21 | - | – | |
TMHMM | 949 | 971 | 23 | - | – | |
Phobius | 970 | 974 | 5 | - | – | |
Phobius | 975 | 998 | 24 | - | – | |
TMHMM | 976 | 998 | 23 | - | – | |
Phobius | 999 | 1046 | 48 | - | – | |
Gene3D | 1007 | 1148 | 142 | 1.2E-134 | ||
TMHMM | 1047 | 1078 | 32 | - | – | |
Phobius | 1047 | 1074 | 28 | - | – | |
Phobius | 1075 | 1093 | 19 | - | – | |
TMHMM | 1093 | 1115 | 23 | - | – | |
Phobius | 1094 | 1115 | 22 | - | – | |
Phobius | 1116 | 1400 | 285 | - | – | |
SUPERFAMILY | 1141 | 1387 | 247 | 1.85E-83 | ||
Gene3D | 1149 | 1387 | 239 | 1.2E-134 | – | |
ProSiteProfiles | 1151 | 1388 | 238 | 22.709 | ||
Pfam | 1169 | 1317 | 149 | 4.5E-30 | ||
SMART | 1178 | 1365 | 188 | 4.6E-15 |
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 | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Cellular component | Integral component of membrane | The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane. | ||
Molecular function | ATPase activity | Catalysis of the reaction: ATP + H2O = ADP + phosphate + 2 H+. May or may not be coupled to another reaction. | ||
Molecular function | ATPase activity, coupled to transmembrane movement of substances | Catalysis of the reaction: ATP + H2O = ADP + phosphate, to directly drive the active transport of a substance across a membrane. | ||
Biological process | Transmembrane transport | The process in which a solute is transported across a lipid bilayer, from one side of a membrane to the other. |
Expression pattern of LotjaGi1g1v0534000.1, 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…