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 | LotjaGi2g1v0421900 |
Transcript ID | LotjaGi2g1v0421900.1 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Aquaporin; TAIR: AT5G47450.1 tonoplast intrinsic protein 2;3; Swiss-Prot: sp|Q9FGL2|TIP23_ARATH Aquaporin TIP2-3; TrEMBL-Plants: tr|I3S680|I3S680_LOTJA Uncharacterized protein; Found in the gene: LotjaGi2g1v0421900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:91979935..91994047) extracted from Lotus japonicus Gifu genome v1.2.
CTGATGCAAAGCATACACTTATAGCTTTGGCTCCTCTGTTTTGAATTGGTGTGTGTCAAAAATGGTGAAGATAGCTTTTG GTAGATTTGATGACTCTTTTAGCGTTACCTCCCTTAAGGCTTATCTAGCAGAATTCATTGCCACTTTACTTTTCATCTTT GCTGGCGTTGGATCAGCCATCGCTTACAGTAAGTACAACTGGAGTACCATTTTAAAACCGATTCATTGATGAACCATCAT GTTTAATCATATGACAGACAAATATGATGATTCACTAGTGAGACCAATTTTATATTAATTTGTTTCATATATAATATTAA TTTTTAAAGTTAATATCAGTTTAATCACAATTGATCTATTGAACCGTGAATTAGTGGCATCAACATTTTAATTACCATTT GGTTTTTAAAACATTGCTTTTCATTCATTGTATGGGTCTTAAAACTAGTATTTGATACAAGGGTGCAAAGAATGATGAAA TAGTTCTGTTGTGTTATATAGATGAGCTTACATCGGACGCAGCATTGGATCCAACGGGTCTGGTTGCAGTTGCTTTGGCC CATGCATTTGCACTATTTGTAGGCGTGTCCATTGCAGCCAACATCTCAGGCGGCCATTTGAACCCTGCTGTCACACTTGG ATTGGCGGTTGGAGGAAACATCACCCTCCTCACCGGTTTCTTTTACTGGATTGCTCAATTGCTTGGCTCCATTGTCGCAT GTCTCCTCCTCAATTTTATCACCTCCAAGGTATTAAAGGAAAATTTCTTAAAAACACTAATTGGTTTTATCTCCTTTAGA GTTATCACTAGAAAAAATTATATCTCTCAAATTAGACTATCCGGATTATAAAATTTATCATAAATTTTATGAAATGATCT ACTTTGGGATTTATTGGCAGAGCATTCCAACTCATGGACTAGCTTCTGGAGTGAACCCTGTTGGAGGTGTGGTGTTCGAG ATTATTGCAACTTTTGGATTGGTTTACACTGTTTATGCCACTGCAGTTGATCCCAAAAAGGGTTCATTGGGTACCATTGC ACCTATCGCTATTGGGTTCATAGTTGGTGCCAACATCTTAGCCGCTGGGCCGTTCAGTGGCGGGTCGATGAACCCAGCCC GATCATTTGGTCCAGCTGTGGTTAGTGGAAACTATGTTGATATCTGGATCTATTGGGTTGGCCCATTAATTGGAGGAGCC TTGGCTGGGTTGGTTTACGGTGGCGCTTTCATTTGTCCCCATCACCCCATCCCGACCTAAGAAACCTACCCTTAAATGAA ATTGTTCTTGCCATGAATTGTTCAACTGTTTGCTGCCTTAAACCTCTTATTTCTCTTGGCTCTTTTTTTTTCCTGGTTTT AAAAAGTTGTATCTTTAATTATTTGTAAGTATTTGTTGCTTGTAATAAAACTGTAAAAAAATGATGCATGTTGTTTTGAT TTTTGAAGGCCCTTTGACCCTTTTTTTTTACATGGAAAATTTTCTCGGGCGGGGTGGGCAGCTCACATGGTTGAGTTAAG GGTAATTGCAGGTGAAAGACCAGAGTTCGAACTCTGAAGAGACATAATTTCTACTAATTTACTACATTTTCCTATCAAAA AAATAAATATGGATAATTTTTTCACGTGGACATAATATGTACATTTGTCTCGAGTGACTGAAAGCTGAATCCGTGTAAAT GCGAGGACATAAGTTCAAATGTCAAAAAATCACATGTTAGGAGGGACTGTCATGACTTTCTGAACAAGTTTATATTTGTC AAAGATTAGAAAAATCACTTTGCACTATGGATGGCAAAATGGGGATTAAATTTTTTTATATGGACGTAATTAGATTCCTA TTTAAAATTCAAAAGTGAGAGACTAAAACAATGTGTTCATGAATCATGAGCTTATGTTTTTTTTTTCTTTAGTAAATGAG CTTCTTCTTCTTTTTTTTTTTTTGGGTCAAAGATTGATGATTCATTGATAAAGGGCCAAACCCAAAGGCTTAGAAGCCAA GTACAAATCAGCCTTTTCTACAGAAACCCACAAAAGCCTAAACAAACAATACAAAGCCACGGGTCTGCTAGCTGGTACCA GCAAGTGAAAAAACAAAGCGTTTGGAATGGGAAAAAGCAACTAGTACATTAAGGGTCATCAGTAGACAATAGAAAAAAAG CACTTAACCAGCCATGAGACTAAAGGCATAAAAAACAGAAAAGAGGGACCCGCCATGTGACAATACTTGGGTAGGTGGCC ACCATTCAAACTACCAATAAGGACCACAATGAAGGCAATTGAATAAAGATAGTTTCAGTTGCCAAGAAAAAAGAGTTAGA CAACAGGCTAAGGGAATCTGTCAGTGCAAGTAGAACAGCTCCAAACACTCATCTTCATCTCTGAAATCACATAAGAGAGA AGGGGGATCAAAGCACAACAATTGAAGGCCCAGTACCGCATTCAGCCACAGGGATGAAACACTAGAAAAATTGCTGAAAC TAGATCAGATTGGGACTCTTGGAGGGATTAACCTTGCATCATGTATTACTGCAGATTTCACTGCTGGATGAAGAGAAAAA AGCCAGTAGGGCCCCAGATCATTAAGGTAGTTCAGCTTAGCAATTTCATGGGCAACCTTGTTGCTGTTCCTAGGAATCCA CGAAAAACCACACCATTGGAAATGTCTTCTCAGGTTAAGAATATCTGCAACTATGCTGTGGATTTCACCTTGTCCCTTTC CATCCCTGCATGCCTCAACCAAAGGTAAGCAATCTGATTCCACTTCAATTTCTGACCATCCCATGTTATGAGCTAGAATA ATTGCTTCCCTAAATGCTAAAGCTTCTGCCATCAGGGCTGAATGAGAAAAAGCTTTGGAAGCTGATCCAGCAACGAGAAG CCCAGCTTCATCTCTCACAGCGATGCCAATAGAACACAAAGGGGAAGAGGCTTTCCAGCTTGCATCAACATTCAATTTAA GCATCCTAGGTAAAGGGGGTCTCCACGGACGATCATTGAAGGTAGAGCGATCTGAACTCATTCTTTCTTTAATAATCACT GGCTTAGTATTTGATAAATTATGGATCAAGAGTGACAGTTGTCTAATAGTAGCTTCAGTGTTTGGCGCTTCATGTTGGAA AATAACCCTGTTTCTCCCCTTCCAAATAGCCCAAAGAGTGAGGCTAAAGATGGCAAAGTCCTCCTCAGCGTGGGTTGAGA CTGAATTTAGGAAATTGAATTGTTGTAGGATCCAAAGATCCATCCTCTGAAATCCCACTCTATTAATAATCCATTGGAGA GGAGAACCGAACCAAGCCGCACAAGTCCAAGGGCAAAATAGCAGTGCATGCTCAATTGTCTCATCCTCCATATTACATAT TGGGCAAGTACTCTCCCTCGTCATATTCCTCCTGTGAAGATTAGCTAACACAGCAACAGCGTTGCTACAGATTTTTCAGA GGAAGGTTTTCACCTTCTGTGGAGTATCGCACCCCCATATGAACCCCCATAATTCATTAGGAATCACCAGAGAGGAAGAT GGATTAAGAATACTTTCCTGGCAGAATGATCTTGCAACATGGTACCCTGTTTTAATGGTATACTCTCCCGAGTTGGTATG AGGCCAAATTAAGCTATCTTCAACTCCTCTTAGCCCCACCGGCGTTTGTAGGATCTTGACTGCAACGGGAGGTTCAAACA TAGTTTTAATTTGGGAATTAGATTTCCCACCCCTGTTTTAGATTTCCCACCCCATTTAAAAGTGGGGAAAAACCAATATT GCCCCTCCGTGTTTTAGTCCGAAACTTCAACCTTCGGATCAGTACGAAACTTCATCCTTCGGATTAGTATGAAACTTCAA CTTCTGGACACCTCTGACAGATTCTACCACCTTTTTCAGCACCATTACTCCATAGCTTCACCTACCTCACCACCATTATG GCCTGCATAAACTCCTCAACCACCCCCCATTTATGGCTGAACACACTGTTTGGATTGGTCCTCGTGTTATTACCAACTTT GATTTAACAGACATAACAGAAGATTGATAATATGATTCATGTTTGTAATGTTGTAACCATGTCTGTAACCATGTCTGTAA CCATATTATTAGCAAGAATATTTTCCTTCAGTATTGTAACGAGGTCTGTTTGTCCCATATTATTGTCACTGCATTTTCAC GTTTCTGTCTTTGTGACAGTATCTGGTTTGAAAGATCCGAATCTTGAAGTTTCATATTAATCCGGTTTTTCAACTCTCGG ACATCTAAAAAAGGGGGGTGGTAAATTTAATTATGAAGCAGTCTGAAACTTATAGTCCTGGATTGATCCGAAACTTAAAG TCCTGGATGGATCCGAAACTTAAAGTCCTGGATAGATTCGAAACTTAAAGTCCTGGATAACTCTTACCAAGCAGCAGAAT GCAGTAAGTTAAGACCAAACCAAAAGGCATATTCATCAATTACAATCTCAACCACCACCACAATTACAAACCAAACATTT CAACCCAACAATTCGTTAGGCAAGTCCTCCAAGACGGCCACGACACCGATCATGTTATTTTAACTGTAACTAAAGAATCC GAACTTTTAACTCTCGGACTAGTCCAGAACATCAACCTCTGGACTGGTATGGAGGTTTAAGTCCCGGAGGGTAGTCCCGA CATTTTTTTAAAAAGGCTAGGGTGGCAATTCTAAAACAGGGGGTGGGAAATCTAATTCCCTTTTAATTTTCAAGCAATCC CAACCATCCCCTGATTCCTTGAGTAACTCAGCAACCTTTAATGGGGGAGTGTTCTGGCTGCGGGCAAGTCTTTCCCCTGT CCAGATCCAGCTATCTTCCCAAACATTAATTTTCTCTCCTGTACCAATTGCCCATCTTCCTCCAGAATTCAAGAGATCTC TACCCTCTAAAAGACTCGTCCACATCCAAGACTGGTTCCTACCCTTCTTCTCCTCAAGGAAATTCCCATTGGGACAGTAG ATGGCCTTTAGTACAGTAACCCACAATGCATTAGGAGAGTGTTCGAATCGCCACGCTTGTTTTGCTAGATAAGCCAAGTT TTGATAGTGGAAGTCCCGGAAGCCAAGACCTCCTTCCTTTTTGCTCCTTGAAATGTGCTGCCAGCTTCTCCAATGAACTC CCCTCTCTTTCCCTTGGCTCTTCCACCAAAATTTTGCCACTGCTGCATTAAGGGATGAGGTAAAGGTTTTTGGAAATTTA ACTATCGCCATCGCAAAAGTTGGGATTGCTTGGATAACAGATTTAACAAGAACTTCTTTCCCTGCTTGGTTAAGTAAAGA TCCTTTCCAGCTCTCCATCTTCCCCAAGATTTTATCCTTTATCCACATCAAGGAAGCAGTCCTATTTCTCCCCCAAATGG CTGGAAGGCCCAAATACTTGCCTGGATCTGCCCAGATTTCCATCTTTAGAATGGTACGGATCTGTGTTCTCTTGGGGGCT GATAAGTGATAGCTTCAAATGACATCTGACTTAGCTGTATTAACTCTTTGTCCGGATGCAATAGAGAAAATATTTAAGAT CTCCAGAACTTGGTACAACTCTTGTGGATGAGCTTTAGCAAACAAAAGTGAATCATCTGCAAAAAACAAGTGGGTGAGAC TAGGTGCTGTGGGAGCAAGTTTGATACCTTCTAGTTTCCCCTCTGTTTTGGCCTTCAATAACATGTGAGATAAAACATCT GCCGCCAGCACAAAGAGATATGGTGATAGTGGGTCACCTTGCCTAAGGCCCCTCTCAGGAGTAAGCCTCTCACTAAGATA CCCATTAACTTTATAATTGTATGTCACTCCTCTAACAATAGTCATGACTTGTGTTATCCATGTTGGGTGGAATCCATAGG CAGCAAGGCATTTCTCAAGGAAATTCCACTCAAGCCTGTCGTAAGCTTTGCTAAGGTCAAGTTTAATAGCAATACAGTCC TTTAGGTCCCCGCCTCTATGTTGGAGGCCATGGAAAACCTCCTGAGCAATGAGGATATTATCCTGAATGAGCCGTCCCCC CACAAACGCACTTTGGTTAGGTGTGATCAACCCATTTAATGCAGTCTTCAGTCTAGTCACCATTATACGAGAGATCATCT TCAGGAGAAAATTGCAGCAACTGATCGGGCGAAATTGAGAGACATTCTCTGGGTCTAAGATTTTTGGAACAAGAGCAACT ACCGTTTCATTCACCTCTGAAGGTAGCTCACCACGTTTAAAGAAAGCTGAGATAGCATCACAAACATTATCTTTAATTGT TTCCCAGTGACTTTTGAAGAAGAGGCCATTAAAACCGTCTGGGCCTGGTGCTTTTAAGCTGCCCAGATTATTCAAAGCTT CAACAATTTCTGCCTCACTAGTTTCTTCAATTAGGAGTCTATTCAGACCTGCTGTAACTTTCCTGGGGACAGCTTCTAGA CAATTTTCTACCATGTGTACCCCATCAGACTTGTAGATTTCCTTGTAGTGAGCAAGGAAAGCGTTCATAACGTTGTTCTG CCCTTCTACCCAGTTCCCATCATCACTCTTGAGCCTGACCAACCTGTTTCTGTTACGACGCTGAATGGTAGTAGCGTGGA AGAATTTGGTATTTTTATCTCCAAATTGATTCCAATTCAGCCTAGATCTTTGACTCCAGTAGAGTTCTTCTTGCCTCCAT AGCTCTTTGATCTTGGCTTTTAAGCCATGTACTTTCTCCCAATTAATGTCCTTGTGAGCTTTATCTAATTCCAATTGGAC TTCAGCTTTTGCACCCTGAATTTCCTTGTCTGCTACCCCAAAAGTTTTTCGCTGCCAGACTAAGAGTTTGCTTCTGCTTG CCATTAATCCATGTGAGAGATTTCTCCACGCGTTAAATCTGCCATTAATGCTATCCCAGCCCTCCTTCACAACTCCTTTG CAATCAGTATGCTCATCCCAATAGATTTCATACTTAAACTGTTTCCCGCTTCTGGTACTAGGCAGAGGTTGCAAATAGAC TGGGGAGTGATCTGAAGAGATGGAAGGATAAGCAATAGCTGTTGCATTTGGGAAGAGGGACCTCCATTCCCAGTTGGCAA GGACCCTATCTATTCTCTCTCTGGTCACAACGCCCTCTCTAGGATTACTAAACCAGGTGAACTTGCTGCCCTTTAATTCA AGATCCATCAGATTCGAATTTTGCAAGAATTCCCTGAATATGCGTATTCTAGAAGCTTGAGCTGGCCTTAATCCTTCCTT CTCATAGGGGAATAAAATTTCATTAAAATCTCCCACACAACACCAAGGAATTGAGTGGCCCTGAACTAGATTTGAGATAG TGTGCCAAAGTATTCTCCGTCTCTGAGGATTGGGGTCTCCATAGGTGAAAGTACATTCCCACGAGCTGGGATCATCTCTA GATGAGATCACTGAGTGAATAAAATTCTGAGTATGTTCTACCACCTCCAACTCCACATTATCTGACCAGAAGAGAGCTAA TCCTCCAGACAGTCCAACTGGTTCCACAACAAAACAGTGTGTAAATTTTAGACTAACTTTTATGGTTTCAATTCTGTTCC TCCTTGCTCGTGTTTCCATGAGGAACAGAATCGACGGCTTGTGCTTAGTGACCAGCTCCCTAAGCTCATTCCTGGTCGGG GTCGCCGCCACTCCCCGACAATTCCAACAGAGTGTATTCATGGCCCCTTAGGGGGCAAGTTTTGGCTCGCCTCCTCAGCC TCTGTAACATTAAGTTCAACAATTTTCCTTTTAACTTCCATCCTCCTCTTCTTTGCTTCACATTGATCCATTGTTATTAT TTCTGCCCTCCCAGTGTTCTCCCTTGCTCTCTTCAGGGTTAGCCCGCTCTCAAGCCCCGTAGCTAGTAATTGTTCACATC TTGGGCTTAGTTGGTTGGGATTCAGACTTTGCTCCTCATCATCATCATCACTTGGAATTTCTACTGTGTAATGTTTAGTT ACATAAATGCTTCGGGGGATCCTTCTGAAGGTTCTGATGTTGTAAGGGGCAATGCCACCTGTTTGAGTGGAAGTGCAGGG AGCTGTGCTTGGGGACACTTGATCAACAGTAGCATATGTAGGTTGGACTATATTCACTGGATTACCATACCACTCCATCA TATTAGCTGGTCTATTGGTAAGGACAGCTTGGGAGAAAAGAGGGGCGTGTTCCATACCCTGAGCTTTCATAATTTCTGCA TTCCTAGCTCTCATACCAAATTCCCCTAGGTCAGCATTTATCTGGGCAACTCTTAACTTTGACCTCTGAATGGCCTCATT TGAGAGGTTACTACCATATTCGTCTATTTCTTGTTCTTCTTCAGTGCTGGAAAGCTGGTTTTGGTTAGTAGTGACCTCAT CACCCACTAGCCTTTGGCTGAATCTGAGGGGGTAAACAGGGGGCATATCACTTTCTCTTCTCAGTTCAGATGTGTCTTCT CGATAAATTTCAGAAGGAGAGAAGCCATGTAATTCCGCTATAAGATTTGGGGAGCGAGGTCTTTCCTCCTCCGGTTCCGG GTCAAAATATTCAGGGGATTCAGCTCTCAGAGAATGAGTATCTCTTTCCACCTCCATGTTATGTGTTTCCTCGTTCTGTC TTATTGTATTATCCTCAGGGGTTTGTTGGTTTTGTGGAGCATCAGTGCTTTGAGCTTTTTCGCTTGTGTTCTCAGCAGAT ACTACAAAGCCTCTTGGTTTCGAGCCCAGCTTCGCCTTCCAGTAAGCAAGTTCCGCATCTTCAACAGAACCTCCTTGTTG TTCTTTCTGAGGATTTGCTTTATCTCCCTCTTTCCCTTGTGTGGAGCTTCCTGCAGCTAGGCTTGTAAGGGAACGAGCAG GAGGGGTACTGAGAGCTTGAGTGTATCTAGGAATCAAAGGATTTAGTAGAGAGTATGCCTTGGGCTTTTTGCAGCTCGTT TGCTCATGACCTATGGTTCCACATTTAAAACATACCCCCTGTAGTTTCTCATATCTGAGAAAGACCCAAGCTTTTGGTAG AATAGCACGTTTAAATTCACAGAAACATAATTTAGAAGCTAGGCCTCGAGTTTAATTTCTGAGGCCTAGAGTAGAATTGG GCTGGGAGGCCCAAGTGAACAACCAGAAGGCTGAAGTGGCTAAAGAATATTTTGACAAAAAAAGTGTTGGGTTGATGTTC TTAGAGGAAAAAATCAAATTGACCAAAAAAAAAAGAGGAAAAAATCAGGAATTGGATCAAGTAATAGCAGAGCACTTGGC AGCAAAAAGGGAAAAGGGCCAAGACTTTGATAGCTACTAACATGTGTTTAACCTAACGTCAACCTACCAATTAATCACAC CATTAACAAATGCATGTCATGTACAAAACTAAATAATGAATAACTAAAATAGTAAAATACTATAAGGATCAAATTGGCTT TGTTGATACTCAAATTTCTTAACATAACAGAGGAATATTAATTTTGTGCCAGCTAAACATGAACGCAGCTTCAGCCAATT TGGCTTTCTTGATAATCATCTTCACTCTCACAGTCACATCTAGTTTGTCTTTCTCCCTCCCCTTCCTAACACACAACATT TCAGAATCACACATAAAAAAATATGAAGCTTAAAAGGTTTACATGTTTTTGTTTGCAGGTGTACAATTCAGAAGGATGGT AGTAGAAGCACAAGAACAAATTTACAAATGTAAAAGTGATGCAGATTGTGAAAGCCAATGTGATGGAGGAGGCTGCGAAA AACTCTGCCTTAGGTTGCCTAGTGTTTGCGTCAATGACCAATGTGCATGCCCTTTTGGATCAGGACACTCAGCTACCAAA ACCTTGACAAATTCAACTTGTGCCCTTGATGAAGATTGCTCAAAGCTTTGTCCTTCAGATTGCAATATCAGAAGCTGCAT CAAGGAAAAGTGTCAATGTGGATGTCATGGATAATCAATGAAGCATCCTCCTTTTCTGTTGTGGTTGTAGGGTTACCGAC AAATGTGGGCTGATGCGAGTGCAATTGTGGTTGGGATGCTTGTGGGGAACCAAAATTCGTTACCTTGTGAGAGCAATCGT GTTAGTGGATCACAATTTCAAACCTTTTCTAAATAAAAAAGAGGTTGATGTTGAATGAGTTCATTTTTATGTTTTTAGTT CTTATCAATAGGCATTAAATTAGTGTTAAGTAGTATTAACGAACAGGGCACCATGAACTATGCTTGTTATTTACAATATA CTTTCAATTAAGTTACAGAAAAACCATTTTTATTTGTGAACTAATTGTTCTTGGGTCATAAACAACTCTAGTATGACTAT TATTGTTTCATTTTCTTTGTCATATAGGTATAACATTCTTAGGAGTATAGTTGTTTGGCAAAATTTTAGATGTAACATGT ACAATCCAAACAAATCAAGTGCTGGTACTGATATTTAAAAAGAGCAGAGATCGTTCTGTTGCTTCAAAAGAGTTGACACG ACCAAGTAAAAACTCTATCCCTTCAACCCATTTTTGTTTGTGGAGCTCGCTCTCGCACTTGAATTCTAGAAGACCTTGTG CAGTTTTGATACCAAAATAGAGATCTCCTGAGGCTTCCCTTTCTTTTCTATATGGCCATGCAGTATCTTCATCACAAACT CCATATACCACACCTGGTAACAACAAATGTTACATTGTATTAGAAAATACCCAATTGCAAGATATGTGCATAATTGTTAT TTGTGAGGAGTTTCTTTAATGCTAAAAAGCACTTACATTTATTCTTTTTGGAGAAAGCTCCTCCAACATGCTTACTTTTG ATCTTAAGTTTAACCTGAAAAAACAAGACATTTAATTTCTTATATCTGTGAATGAATAAGACATTTAACCACATGAACAT TGTTTGTTAGGTACTGATTAGTGTACCTGACTTTTCTTATTGATGTAAACAGTGACATGTTTCCATCTTAATGCACCTGA GAAAAAGTGCACTAACCTTTGATTAGAAATAATGATAACCAAATAGAATAATGTGTATTATTATTGGAAGAGAAAACTAA GTCCTCATAAATCACCTTTTTCTGTGAGTTGCAACAAGTCTCCAACGCATGGAGGATGACGTTCCAACTTCTCACCATCA AAAGCAGGAAGCAAATGCGTTTCTGCTGCTATTGCTCTGTCATAGGGACTTATAGATGCAATCTTCTTTGCTTCTTTTGG CAATCGAGCTCTAAGAGCTGCTTCTCCTCGCAGAGCTGATATTGCATCAAGAAAATAATGTAGCAAGGAAAAATCAATAT TCATTCATTGTTTGGAAATCATTTCTACATTTAATTCTAAATTCCAGAGAAGCCTATATAGTTTGTTTTTACGTTGAGAA ACCTCACATACTCAATTCTAATATAGAGTAAAATCAATTCTGGATGACAATGTAGATGGAAATCAAGCCTATATAGTGAC AGATTTGATTCTGATTAAATAGAAGTTAGTTAATACATTCATCCTATCAATACCTTATATAACAAAACTTACAAACATTT TCCCAAAGTAGATAGATTGAGAAACTACCTGTTGCAGCTGCAGCAGTGAGAGTCATTAGATCACCAGGGGTTTGAATATC AACCGCAGATTTGACAGTAGAAGCCAGACGGTCGTGATCAGCTCCGGCTAACTCCGCCATTTCAACACAATATGATGCTA AGAGCTTTGTGGCTGAAGCCATTGCAAGATCCAATTTGGTGTGAGAGTCACTAGAAGGGTCCTTTACTACAGCGACAGAA GCCAGTGCAGAGGCTAAACCAGCAATGGAAATAGCAGAATGTACACGTGCATTTTCTAGACGTGCCTTTTCTTTCTTCTT AATTGTGATGTTTGTTGTATTGGTACGATGCTTGTGATGTAACCATTTTCCAATGGTACCTATTCTTCTACAATTAGAAG AAGGTGTGATATTGCCTAGCTGCAAAAAGGTAGCATGAAACCACACAATGTATCAAAAGAATGTTTTTATTCATCTTTGA ATTTCAATTTCTTTAGTCTTTTTGTGATCCGGTCCATGCTTGTTTGGTTTCACAATACAATTTGCACAAAATTCACCTTT AATCAGAAACTAAGATAATGTTTGGAAAATAGAATCATTCCCAGTTGGTTAAAATCAATTCTAACCAGTTGAAATGATAG TAAAATTGATTTCATTGGTCAAGAATTGGATCCTCTTAGCACATAGTTGCTTCTACGTAATTAATTCTAAAATTTATAAC TCAATTGCATAACGTTGCCCTACAAAACCACTTTTTTCCATAAAGGTACCGAAACATAAATCACACAACTTTAACTCATA TTTGCCGGATGTAATTTTAGTTGAATCAACTTCAAAATCAATTTTGCTTACGCTAATCCAAACACACATTAAAACTTGTA ACTTTTAACTAGAATATTTCAGCATAAAACCAAACATGCTACTAGAAGTTTAGAACACTTAAAACAATTGTTACTCAATA TACATTCAATTCAATCAATTACAAATGGTCATTTTGTGAGAGGAAAGGTTAAAAGTTGGAGGAGAATGGCTTACTGCTAA TTGAGGTTTGGAAATAGCTTCTGCTAAAGTGTGTGGTGGACTCTTATGAAGCAAGGTTTGTTTGTGTTGTTTCTCTGAAA GAGCCTTTGAAATTTCTGAAGCAGAGAGACTCCATGACCTGGATAAAAACTCCATGGGCTCAAGGGGTGTCGGTGGCTCA GGTATGGCTGGCAAGGATGGCACCATTTTGAGTTGCTCATGTTCCTCCACACCCTCCTCTGACTCTAACCCATGCCAGGA CTCATTCTTCCAAGGTGGAAATAAACTACCTTCCATTTTCGATTCTATCACTATCTGACAAATTCTGAATGCTTTAGTCA CTTCAAATCGTTATGTGTATAGTATACAATTTTGTCCAATACCTATAACATTATCAAACAGAATCCAAGAAGCAGAAAAA AAGGGTTAGTATTAAATAAATTATCTGATAGAGATTCAAGAAAACAGAAGCAAAAGTGACTTTGCAGCGCCACTATTCAT ATATGTATATGTTGAGAAGTCTCACATTGACTAGATATATGGTCTAATAAATGTTTATAAAGGGTAGAGCAAACCTAACC GAAATCTAAGAATATCCTGATTAAACTTCACTCAAATTTTCCAAAATCTTCACTGAATTAATCTTATAAAAGATGAGGTC AATTTTAAACACAAGTACAACTTCGGCAAAATCTTCAGGCAAACTTCAGAGGCAGATTATTTAACCAATTTCTCATCCCC CACAAGGAAATATAAACTTTGATAATCTAAAAGAAGAAATGAAGAAACCCAAATAAGATCTTCATCAAACTTCTATAGCC AGATTACTTGATGAAGCAATTTGTACACTTGATAAAAGAAAAGTGAAAAGATAGATACGGAGAATGAAATGAAACCTGCT ATACAGAGTGATCAATAGAAGCTTCACCTGCTTTACGATTATCAGCTTCAGTGTCAAAATATTTATAGGAGACAGAATTT GGAGGCAGAGAGACAGAAGAGATTGAAGGGAAGAGTGATCAAAATTTTGTGCTATGAACCACCACAATTTCAGGTGGAAG TTATCTAAACAGTCCAAGACCGTCCTATATTAACTAAGCTTAAAAAACAGTGTGTGCTGTATATTAAAGAAAACATAGTC CTGGAGAAGCGGGTAGTGGTTCATGCAGAGCACTGTTATCGATGAAAAGTATGAGTGATAGTAGATTGAGAACTAATGGT ACAACAAAAAATAGATGTGTGATGTGTCTTTCATTTTACAACATGAGTTTTAGCAAGTTTGCATCCATGAGAATCAGTTC TATCACACATATGAGCTATCCTCAAGTTAGATTTTAATAGCACTTTTAGTTCGTCTAGTATCATAATTATGATGAAATTG AGTTCTGAAATGGGGTCGTCGCGCCCAAGAGAAAAATAAAATTTATCCCCTTTAAATTCTGTATTATACATCTCCTAATT AGATATTGATGAATTTGTTTATTGTGTTGAATTTTGTCATCTTACATCTCGTTCTCGTGTTTTAAACAAACGATTGTGGT CTTTTACATTTAGTTTTTGATGAAAATACGACATAGTTGCAAAATCAAACAAATGCAAGGAACCACAATCGCTCGTTGTA AAACACGAAAATTGATTATACTAATGATACTAG
CDS sequence (LotjaGi2g1v0421900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTGAAGATAGCTTTTGGTAGATTTGATGACTCTTTTAGCGTTACCTCCCTTAAGGCTTATCTAGCAGAATTCATTGC CACTTTACTTTTCATCTTTGCTGGCGTTGGATCAGCCATCGCTTACAATGAGCTTACATCGGACGCAGCATTGGATCCAA CGGGTCTGGTTGCAGTTGCTTTGGCCCATGCATTTGCACTATTTGTAGGCGTGTCCATTGCAGCCAACATCTCAGGCGGC CATTTGAACCCTGCTGTCACACTTGGATTGGCGGTTGGAGGAAACATCACCCTCCTCACCGGTTTCTTTTACTGGATTGC TCAATTGCTTGGCTCCATTGTCGCATGTCTCCTCCTCAATTTTATCACCTCCAAGAGCATTCCAACTCATGGACTAGCTT CTGGAGTGAACCCTGTTGGAGGTGTGGTGTTCGAGATTATTGCAACTTTTGGATTGGTTTACACTGTTTATGCCACTGCA GTTGATCCCAAAAAGGGTTCATTGGGTACCATTGCACCTATCGCTATTGGGTTCATAGTTGGTGCCAACATCTTAGCCGC TGGGCCGTTCAGTGGCGGGTCGATGAACCCAGCCCGATCATTTGGTCCAGCTGTGGTTAGTGGAAACTATGTTGATATCT GGATCTATTGGGTTGGCCCATTAATTGGAGGAGCCTTGGCTGGGTTGGTTTACGGTGGCGCTTTCATTTGTCCCCATCAC CCCATCCCGACCTAA
Protein sequence (LotjaGi2g1v0421900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVKIAFGRFDDSFSVTSLKAYLAEFIATLLFIFAGVGSAIAYNELTSDAALDPTGLVAVALAHAFALFVGVSIAANISGG HLNPAVTLGLAVGGNITLLTGFFYWIAQLLGSIVACLLLNFITSKSIPTHGLASGVNPVGGVVFEIIATFGLVYTVYATA VDPKKGSLGTIAPIAIGFIVGANILAAGPFSGGSMNPARSFGPAVVSGNYVDIWIYWVGPLIGGALAGLVYGGAFICPHH PIPT
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 | 20 | 20 | - | – | |
PANTHER | 1 | 240 | 240 | 6.3E-127 | – | |
PANTHER | 1 | 240 | 240 | 6.3E-127 | ||
Gene3D | 2 | 242 | 241 | 2.3E-88 | ||
SUPERFAMILY | 13 | 240 | 228 | 5.49E-67 | ||
Pfam | 14 | 231 | 218 | 2.8E-77 | ||
CDD | 19 | 231 | 213 | 2.95429E-63 | ||
PRINTS | 19 | 38 | 20 | 6.3E-55 | ||
TMHMM | 20 | 42 | 23 | - | – | |
Phobius | 21 | 42 | 22 | - | – | |
TIGRFAM | 23 | 231 | 209 | 1.0E-55 | ||
Phobius | 43 | 53 | 11 | - | – | |
Phobius | 54 | 75 | 22 | - | – | |
TMHMM | 55 | 77 | 23 | - | – | |
PRINTS | 63 | 87 | 25 | 6.3E-55 | ||
Phobius | 76 | 95 | 20 | - | – | |
ProSitePatterns | 81 | 89 | 9 | - | ||
Phobius | 96 | 122 | 27 | - | – | |
TMHMM | 97 | 119 | 23 | - | – | |
PRINTS | 100 | 119 | 20 | 6.3E-55 | ||
Phobius | 123 | 141 | 19 | - | – | |
TMHMM | 139 | 161 | 23 | - | – | |
Phobius | 142 | 160 | 19 | - | – | |
PRINTS | 144 | 162 | 19 | 6.3E-55 | ||
Phobius | 161 | 171 | 11 | - | – | |
TMHMM | 171 | 193 | 23 | - | – | |
Phobius | 172 | 193 | 22 | - | – | |
PRINTS | 177 | 199 | 23 | 6.3E-55 | ||
Phobius | 194 | 212 | 19 | - | – | |
Phobius | 213 | 237 | 25 | - | – | |
TMHMM | 214 | 236 | 23 | - | – | |
PRINTS | 214 | 234 | 21 | 6.3E-55 | ||
Phobius | 238 | 244 | 7 | - | – |
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 | Channel activity | Enables the energy-independent facilitated diffusion, mediated by passage of a solute through a transmembrane aqueous pore or channel. Stereospecificity is not exhibited but this transport may be specific for a particular molecular species or class of molecules. | ||
Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
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 LotjaGi2g1v0421900.1, 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…