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 | LotjaGi3g1v0319300 |
| Transcript ID | LotjaGi3g1v0319300.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Protein NRT1/ PTR FAMILY 5.5; TAIR: AT3G54450.1 Major facilitator superfamily protein; Swiss-Prot: sp|Q9M1I2|PTR46_ARATH Protein NRT1/ PTR FAMILY 5.4; TrEMBL-Plants: tr|I1MIR8|I1MIR8_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0319300 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:67814529..67828841) extracted from Lotus japonicus Gifu genome v1.2.
GAAACTTTTATTTTATTTATTTATATTAAATTTAGTCCAAAGGTATCTATCTATCTATCTGACCTGCGTGGAGAGTGCAG AGAGAGAAAACGTCCCAAAGCATTTCCTAAATAAATTCTCTGCACTATCCCAATTTCTAGTGCTGCTTCACTCACATCCA CAAAGACAGAGCACAACACAAACGTAGTACTAGCTAGTCTAAGAATCATGCCTATATAACCACCAAATCACTCAATAAAG CCACTCCAAATATTTTTCCCGCAAAACATTCAACATTTCCAACTCCCTAAACCAATTATGGCAGATAGCAGCAACAGCAA GAGCAACCCCCTCATCCAACTGATAACACCCTCACCCACAAAGGGTGGTTGGCATGCTGCAATCTTCATCATATGTGAGT TCAATCAATTTTCTCCAACACCCATTTTTTTTTCCTTCCTCTCCTCCATTTCACACCATATTTGGTTATACTATGCTTAT TTTCTTTCCTGTGTTTAGTTGTGGAATTTGCAGAGAGATTTGCATACCAGGGTTTGGCTGGGAATCTGATCACATATCTC ACTAATGTTCTGAATGAACCCATCACAACCGCCGCCAAAAACGTCAACACATGGGTTGGTGTTTCATCACTCTTCCCTCT TCTTGGTGGTTTCGTAGCTGATTCATATCTGGGTCGGTTCAACACCATAGTCATGTCTTCTCTCATTTATCTCCTGGTAA TTAAACCAATATCTCTCCCTTATTAATATTAATTGATATTTATCTTCCTTGTTGTGCTGGAATCTGATGAGCACACTACT CTTCAGTCACTTCTCTTTGTGAATTTTGTCCTTTGTGGATTTGAAGTATATGTTCAAGGCCCCACACATGTACCAACCGT AATATAAATATTACACCTAACATTTGTACTACGTTTTTCTTATAACCGCGCGCAGACCGCAGAGTACTTTATTATTATTA TTATTATTTTTTAAATCTTTTGACAGTCCACACTTTTTTAAAAGGTTAAGAGTAATTTTTTTTCCCCAGAGTTTGATCTT ATGTTTCATGGACACCACGACACCCTTACATGAAGTTAGTTTGTCTACTATTAAATCAATAATGTATAATGTATAATTTT TCAGATTTAAGTGCATTTTTGTTCCTCTAGTTTTGACGATAGGTGATATTTTTCTCCTAATTTTTTCAAGCTAACCAAAT ATCCAGCTTTCAAATTTAAATAAATTTGGTTCTTTTCTCTATGCATAAATATTTTTGAGTTTATGATATATTTGACGTTT TATACAATTTTGAAAGATAGAAAAAAATTAGTGAAATTTTTAAGAAGGATGAAAATAGGGTGTCGAGAGGTGGAAAATTG GGAATAGTAATTTTTATTGCTATTTAATATTTCATATGAGGAGTTTTTATGAAATAACATTTACAATGCTTAAATTGAAA ATTACTGTGAAGATTTTTCCTACAAATTTTTGTATTTGAGAGCTTTAAGAAAAAATAATGATATGGACTTGATTTACAAC AATTGAAAAAGTTAAGGGACAAAATATGCTATAAAAGAATTCATTAAGTACTAAAGTCATACATAGTTAAAAGCCAAAAC TGTGGAGACCAAAAATGCAATTAGGTCTTTACTATATTAATTTTTTTTTTGGTAAGCCAAAGTGATGTATTAAAAGGGGG TACAAGGGGTACTCCACCCCTTAATACAAGAGGAGAACAAAAAGAGACAAAAGAAAGACAAAATGGAAGTAAAAGAAGAG CTATACAATCAAGGTTCTCTATGAAGAAATCATAAAAATAACTACAGAAATCATAAAAATAACTGCATTGTAACACTACA AAAGCAGAACCGCCAGGCCCACCTCAAAGCTATCACAACCAGCAAAAACAGATTGCTGGAACAGCACAAAAAGAGATGCT CATACCGCACAAGCCAGCAGCAACAGCAGGAAAATGGTGCTCAAAACCCACCATTCCCACAGCAAGTCCAAGGCCCAACA AAGCCAAGCAGAAACCAGCAACAGACGTGAAGATACACAGGCCACAGCAAAGGTCTTTACTATATTATAATTAAAAGTAA ATACTTAATTAATAAAAAAGTTAAAAGTAATATGTTAACTTTAGACTAGTAAATATATAAAATAATTTCAAAATTAAATT TATTAGTTTTAACCGTAAATCCATAATGAATATTACATTATGTATTTTCTAATTTTTATTTTAAGAAAAATATTTATTAT TATATTTATAAAGTAATATATTAATTTTTTTTTGAAACGAGTAATAAATTAATTTGAATTGAGTGAATATATAAATTACA TAAAACCAAACATTTTTACGGTAATTTGTTTAAAATTTGAAAAACTCATATAAAATATTTTAAGAAAATATATTAAAAAT TATCAAAATGACTTCTTCTCCAAAATAAAAACATTTTCTCAGTAAAAATACAAAAACAACTTGTTTTGAATTTTTTTCTC CAACTTAATTTATGGACTTGATTATACTTATAGTATTGAAAATGCATGATTTTAATCTCTATAATTTCAACTGATCGAAT TAAGTTATTCTAACCAGTGTTGATCTGTCATAAAAAACTAATTAATTTTTTTTTATATTGATCGTAATTTTTTATGCGAA TGTAAAATTTAACCTCTATTTTTTTATCCACCTTCATCACTTTACACGCCAATTTTTTTTTTATATATATCTAATTTTCT TTAGTTATTGGATAAGAAATTAACATTTAAAACAAAATTATTCAATTTTAAAAGTTGAGGAATTTAATTTAATTCGAGCA ATTAAAATTATTGGATTGGCATTGAGCGGTGGAGGTGCTATGCAAGTTTTTTATACTTGAGTGATGATTAATTCTTAAGT GGGGGCATTTTTAGTTATGAGTACTTAATTTCCATGGACTCAAGACAAAAGACTTGAGCCACATCTAATATGATTCCAAT ATTCCATTTCAAGATTTGCGTATTTCGTGTGATTTGTGCATTTTATATGTGTCAGCCTAATGCATGCACCGTTGCAATTA ATTTAATACATGTAGATTTAACTAGCCGTTGTTTAATTTATGGATAAGAATCTCACATTCTAACGTCATGATCAACTACA ACACAGGGCATGATTTTCTTGACACTATCAGTGTCGGCATTGAAGAGCAAAACGCTTTTCTTCGTGGCACTTTATGTGCT TTCCATCGGCGACGGAGGCCATAAACCTTGTGTTCAGACCTTCGCCGCCGATCAGTTTGATGAGGACTCGCCGGAGGAGA AGGAGGCCAAGAGTTCATTCTTCAACTGGTGGTACTTAGGCATTGTGGCTGGATCCACTGCTGCTGTGTTTGTAGTCATC TATCTTCAGGTAAACTAATCAAATCCTTAATAGTAAATATCTAATTTGATGAACCCTAAATGTGTTTAATTTACTTCTAA TTAAATGATGAGATATATGCTTAAAAATATCTAATTTCAGTGGTTAAAAATATTGAATTTTTGTATTTATAGCTTCTCCA GAATAATAATATCTTACTTTAAAAAAAAAAAGAATAATAATATCTCATCATGATTGCTGATTTGTTTTTTTTTTTTTGGT ACATATGAAATTTAAACAACAAAACTAAGGCTCCTCCATGTCCATAGACAGGAGAGGCAACACCACCCTAGGGGGAGCAG CAAGCTCAGTAGCTGGACACTGTAGAGACGCACCCAAACCCGCTAGACAATCTGCTGGCGCATTGCCCTCACGAGGGACA TATGCAATCGAAACCTCCCAAGCCCTTGAGATCATCAATTGAATTTCCAACAACACACTCCCATATTTATGAAACTGGAA CTTATCCTTCCCTAACGCCTGCACCAACTCAAGACAGTCCACTCCACAGCTCACCTTCTTCCAACTCTTCTTCCAACTGA ACCTTAATCCCATGAGCAGCGCTTGGATTTCTGCCAACAGAGAATCACCACCACCTGCACCAGCATAAAATCCGCCTATC CACACTCCATCCTCATCACGAACTAAACCTCCCATTCCCATTCGGTTGTGTTCCAAGCTGTAAGCGCCATCAACCATTAA CGAAACTGCACCAGGTGACGGTCTCCGCCACTTAGCCCTGGCAGTTGTTAACGGATTATGCAATACCTGACCCTCCAACC ATGAAGCATAATCCTTCATATCATGAACTATTGCCTCATACACCGACTGCACCGTCCACAATCCGTCACCCAGGACAGCT TCGTTGCGCCATCTCCAAAGACGCCAAAGGATAGCTGCGAACAACGTTGCATGAGCACCCTGCAACTGACGTTGAACCCA AGTTTGAATCGTGTTAGAGAAGAAACCTGGCCAAACTGGAGCTTGAAACCGAAGCCACACCTCCCTGGCATGTGGACAAT CACGCAAGCAATGTAAATTATCCTCCATGCCATGAGAGCAGCGCACACACGCCGGGGATAGCGAAAGATGACAGCGATAA CGATGAGCATTAACTTGAGTCGCATCATGTAGAAGCTGCCACATGAACATCCTTATTTTCTCCGGCACCCGTAACTTCCA GACCCGGTTCCAATCATAGACTAAGTGAGGCCCCATACCTGGTTTATTAAGCCACCAATACGCTGAAGCAGCAGAGTACA TTCCTGTGGGACAAGGTTGCCAAGTCCACACATCTTGCAAGTTTGGATTCAGTCTCGGATGGACCTCATGCAACGCGTCT TGGAACTCCTGCGGCATGGGAGTGTACAGCGCATTCAAATCCCAGTGCCCATCCCGGATTAAATCCCTCAGCTGCAGCGC TGTATCCGCAATATTAATAAACGGTACCTCCCTACCCATTGCACCTCGCCCGCACCAGTCGGTAAACCAAACCGAAGTTT CCCCTGCACCCAATTTAAACACAAAACCGTCGCGAAGCACATCCCTGGCCTTCAGAATACCCTTCCACAACGATGACGCA GAGGGAATAGCAGAAACACTCATGACAGAGTGAGTAGACAAGTACTTATGCGACAGAACTTGAACCCAAAGTTTCTGGGG GGAGTGAAGAAGGGACCAAATTGTCTTTCCAAGCACTGTTGTATTAGCTAAACTCGCGTCCCTCACACCAAGACCGCCAT CCTTCTTTGCTCTACGAACATTATCCCATGCCACTAAATGCCACCCTCTATCTGATGTGCGAGAAGACCATATGAAGTTC CGCACCGACTGATTGATCAATTGAGTTGTCTTGCGTGGTAGCCATACTGTCTGAGTAACGTATGTAGGGATCGATGTGAG CACTGCCTTTGCCAAGCACACCTTCCCTGCCCTGTTTAGTAACCGAGACTTCCAAGAAGAGAGCCGACGAGTAATCTGAT TGAGCAGGAATTGGAACCTTCCATGAGTGACACGCCCTCCTTTTAAAGGGAATCCCAAATAACGGCCAAGTTCACGAACC ATAGGAATGGGACACACATCCCTCAGCCTCCTCTGAACCCCACGCGGAACTCCTTTGGAACAAACAGCTTTAGACTTCTG AGTATTAACTACAAGACCAGAACTACGTCCAAACTCCTCCAGCAACTGAGCAATCCCATGAATTTGGCTCTCCTTGGCCT TACAGAAGAGCATCACATCATCTGCGAAGAAAATATGCGACAAAGTTGGTCCTCCACGAGAGATAGCGATAGGTTGCCAC ACTTTTTCTTCAACTGCCCTCTGAATGTGGATTGATAATTGCTCCATACACAATACAAATAAATACGGTGACATTGGATC CCCTTGACGAAGACCTCTTTCCGTATGGAAGCTAGGGAGGCGAGATCCGTTCCATAATATAGATACCCGAGAAGACTTCA CACAACACATAACCAAATTAATAATTAATGGTGGAAAGCCAAATTCATTGAGGGTGTTTTCTAGAAACGTCCAATCAAGC TTGTCATACGCCTTTTCCAAGTCAATCTTCATAGCTAAAGAGCCATTCTTTGCATTAGAATTCTCCAAATAATGAATAAC TTCCTGAGCAAGAATAGCGTTATCAGTAGTACCCCTTCCAGGAATAAAACTAGATTGAAGCGGGCCTACAATCTTCTCCA TAAACGGACGGAGGCGCCCCACAAAGACTTTAGTAATGATTTTGTAAATTACATTACACAGTCCTATGGGTCGGTACTCT TTCATTTGGGTTGGCACATCTATCTTGGGTAACAGAACCAGTAACGCCTCCGCAATAGAAGGATCAATAGTTCCAGAAGC GAACGCATCTCGAACAATTCTCCACACATCATCACCCACAATGTCCCAATAAGTTTTAAAGAAAACCGGTTGAAAACCAT CTGGGCCTGGGGCTTTGAAAGACTTCATTGACATTAACGCCGTCCTCACCTCTGCTTTGGTAACCGGGGCTTCAAGCGCT CTTCTGCAGTCCTCAGAGATTTTGGGGATATTACCCGCAACAAAAGGCTCATGCTGCAACCCTCCAGACCTGCAAAACAA AGCTTTGTAAAAATTAATTGCCTCTTGCCTGAGCTGGCTATCATCCGTGCACCACTCTCCATTGATCTTAAGCCGATGAA TTTTATTGCGTTTCCTACGAATAATCGTTTGTGTATGAAAGAAGGCTGTATTTCTGTCTCCAAATTTCACCCACTGTTCT CTGGATTTTTGATACCATAGCAGTTCCTCCTGTCTCAGGACTTCCCCATACTCCTCCTGTAATCTACGCTCTAACTGCAC CAAACTAGATGTGATGAGGTGATCCAACTCACGCTGAACTCCTTTCAACCGCCCTTCTAAAGTTCGCTTTCGCCGGAATA TGTTTCCAAACACCTCCTCATTGAAAGATAAAGAATCAACCTGTACCCGTGAGAGCTTAGCTTGAATGTTACCCCCCGGG CTCCTCCAAGCATTCGACACAACCTCCCTATACTGGTCATGAGCCGTCCATGCTGCTATAAAACGAAATGGTCGGTCTTG TGGCCCTACGGACTGAACATCACAATGAACCAGAATTGGGTTATGATCAGAAAACATCCTAGTCAGTACCTCCACATATC CTTCCGGGAAAGCATGTCTCCAATCAACATCACCCACCGCACGATCTAACCGCTTGGATATTTTCAGTAATCCATGCTCC TTTCTATGCCAAGTAAAGAATCCTCCTTTAGTTTCCAAATCTACCAGGCTACAACTCTCAAGCGTAGAGGCAAATTGCAT GGCTCGACTATGATTAAAAACTCCACCTCTAACCTCAGATGGGAGAATAACCTCATTAAAGTCACCAACTACCAGCCACG GTTCAGTGATGTTAGCCCTTAGTTGCTGGAGATGATCCCAAAGCTCAGACCTTCTTGCCGGGATTGGACTCGCATAAACT GCTGAACAAATCCAAGAATATGCCCCTATCCGAAGCGTAAAAGTTACTGCCTGAGGGTGCAAGCAAACACCATTTAGTAC TGCTTTACTCCCTTGGTTCAATAGCACCCATATGCCACCGCTATGCCCACGAGCCTCCTCAATACAAGCCAAGGAATAGC CATTAGTTCTCCAAAAAAATTCTGTTTGCCGAAACTGACAGTGTGTCTCCACAAGGATCAACACATCTGGTTTGGTACCA CGGATAAACTCCTTCAATGCTAATTTAGAATTAGCATTCATTGCTCCTCGAATGTTCCACATGAACACTGTAAGATCTTC AAAACCCAACATGAGAAACATTATGGGGAGAAATTTAGAGTATGACTCTCATACTCCAGCAGATTCTTTAAAAATCACAT CCTTTGGCAACACTATGTTGTCAATAACTCTGCGTTCCATGGAAGCAGTAAACTGTGACTGTGTTCTAGCATCCTCTCCA ACAGCAATGCTGGACGTGTCACCTGAAGGCACTTCCCCATGCATGGTGCCCACACCACCAATCCGCGCCAAATACTCCTC AGCCATCTCCAACGCTTGTGGAGAGGGTTGTGTATTTGTTTGCAAACCCCGCGGCATGCTCTTTCCATTCTCCTTATTCT CCACTGGCAGCAACTTGAAATTCCTAGGACGTTTCCGATATTGCATGGAACCACTCGAATATGGCAAACCATTAGTTTGA AATGTTGGTAAATCTTTGGAGATAGAGTTACCGGTTTTCCCACTATTCTCAGCCTTATTTCCAGCAGTATTCGATTTATT TCCTTTCCCATCAGGTTGCACAAAATCCTGCTTGATTGGTGCCACCTTTTTAGATTTGTTTTTCTTTTTTCTCTCAACCT TCAGCCATTCCCCATGCGCCGAATCTGGACACGTATCTGCAGCTTTAATGCTTCCTGGAATTACGCCAGAATTCCCGCTA GGGTTTCCGCTCCCAGTAGTTGCACTGCCTGGTTGTTCGCCCTGCGCCGTCATCTCCTCAACCACCGTTACAGCCGCCAC CTCACGTGAAACTCCCTCCATTACTGATGTAGGTTTCTGCTGCACCGGCGCCGCCGAACAGTTGCGAGTTAAATGGCCAT AACATCCACATGCACCACACAGCAAGTGCAAGCCTTCATACTCTACCTTGTACCAAGTGCCACGCAGTCGAAGCATCCCC ACTACCGGTTCATTCAAATCAATCTCGACGCACACACCAGCAAAGCGACCCTTATTCATGTCGACAGTGTTCATGTCTAC CTTGATAGGTTTGCCTATCCCTTTGGCCAAAGTCAGCAGGATCCTCCTATGATAGAACTGTAACCCTAAACCAGGTATAC GCACCCATACCGCCGTCGTATTGATCTTCGAGTCCGCCGCAACAAAGTCTGATGTCCACGGTTTAACCGATAAATAATGA TCAAATATCATCCATGGGGCACCTGTGAGCACCTTCACCTTGTCCTCTGGTGAGTCAAACTTCACATAGTAGTATCCATT ATGGACCTCAATGAGTTCAAAGCTACCTTGCAGCCTCCAAAGGGGCTTCAGTCTTTCACACATCAACCTGTAGCCTATCT TTTTGCCCAGCAACTTAATGACCAAGCAATCCTCCCATGGGTGACAAATCGTCTTATACGCGTTGTCATCAAAATCAAAC GATGGGAAGAGACGATTCCCTTCCACCAGATCCATCCTCATCACGCCGGCTTCCAGTAAATCAACATCATCCGGGATGGG GACCGGTTTCGCCCCTAACACCTTATCCTTGAACGTAGGTTTCCGTGTTGGAGGCGGTGGTGCCTCCGGCTCCGTCGTAT TCTCATGTGCATGCTCAGAATCTTCCATTTGAATCTCGTTCCGGCCGTCACTCTGGTCCCCCATGGTGATTGCTGATTTG TTTGTTTGTAATTATGGATAGATATAAATCAAATGCATTTCAAAAAAGAAATAAGTCAAATGACCCATCAGGGATCTGTG GCCTTGCTCCTAAAGGTCTGACTTGGTCCGTCTCATATATTAAAAAGTTAGATATTTTAAAAAGTCTATAACTAAAAAGG CCAGGCCAATGTGATTAAAAAAACTTGTTTGACATGATATACAACCTGTTTACATAATATTATTTTTATTAATAATATAA ATAAATATACTATACTATTTTAATTAACCTTTTTTAGAAATCAGATATAAAGAAACGCAAATACACTTTCCCTTATTTTA AAAAAAATGTATATTAACCCACGATATATATATTAGTCCGTTGACCTATTAACTTTTGTAAGAGAGAATTTTTTGTTAGG CATTTTAAAGAGAGAATTTTATACTAAACCTGTTTGTAAACATACTAATAAATTAGGTCATATCGTCTAAAAAGACAAAT TAGACCTTAAAATTTGACTTATAATAAGTCATAGACTTGAGTTAAGAAGTTGGAATAAGATCAAATTTAAGCCACGTAAA ACCTGACTAGACCTCCTATTTTCATTCTTATTTGCAATTGATTTCTTTACACGCATTTGACAACATCCACGTTGTATATG TCTCAACTATTTTGAATTATTAGGCACCATTAGTCATGTTGTGTACGAAAGTTTCACCCATTTAAGCAACATCCAAGACA AATTAAAGTTGGTCACTGAACCTTCTTACTTTATGTATATAACATTTTCTCTAGTGTCCAAATGTTTTCTTTTTTCATCA AATTATTATCTTCTATATGTTCAATTATTTTTCGAAGTCTTGTTGGTATTCTTATAAGCTTGGTCATCTTTTCTTGATTT TAGACATTTGTTTTCTGGGGAAATCATGCATGATCGAAAATCCAATTGGATCTTTTATTTTTCATGATTGAAATGACTTC CACCTAGTCCAAATATAATATCAAAGTTGCAATAAGATGCTAAATAATATTTTCATATATATAAAAGAGTGGTTTCCCAG TTAGGCAGGACTAGTCAAATGCGAGAAGCAATTTATAATAATTGTTATGTGACGCCAAAACAACTAGAATATTACTTTAG CGCATGATATATATATTACAAGGAGAATCTAGGGATCATAAGACGCATTTCCTTTTCAATAAACAAATTTCACCAACATG AGAACATATTCCTCATAGAAGTGTCTTTTCCATTTATGCATCTGTGAGAAAATTAAGTGACAGGAATAGCTCATGGAAAA GGTGAGAGAAGTGGAGGTTGTTTTCAGATTTTATATCATACTAATGGTTATAGATAAATTGAGTTGAAACATGGTTTATC ATCAGTATAAAATATTTTTCTTAGCATCTTCATTTTAAATAAATGCTTTTGCTTTTCATAAAAATAAAATTCTTAACAAG TCGATTAAGATAATGGTTTAATTAGTACGTATTTCATTCTTAAGTAAGTAGTTGAGTGTCCCGTTATCAACTTTTGTAAA TGGAAAAAATTTAATTAGCCAATCTTTTAGTGCAAGACTGAAACATGAAATTAGTGTCACAATTACACACTATGAAAAAA TATTAGTTAAGAAAAAAAAGTGTAAAACGTTTTTTGCTATCATTTAATGATGTATGAGTAAGCAATGATTATGCTAAATA AATAGTTTTTAATACAAATTTCAACTCAATTTATCTACAATCATTTATATTTTAGTGTTAACAAATGAGATTCACTGTAA ACAACCGTGAAACTAATCTCTCGCTCCACTGTCAGTATGCTAATTAAGCAGTAGGATACCGATGAATAAGTTTTTTCTAT TCATAAAAGTTGGAATCGAACCCCAAACCACTTGCTTAAAAAACGAAGTGCTGAATTACTATATAAAAGATTTTACTTTT ATAAGGGATTGGTATCTACAACCATATTGGTAACATATAATTCTTTTTATTAATGTGTGAAAACATAAAAATAAGATTTT TTTTATCTATCATCATAACCCCACACATATGAACCAGTAAATAGTAGATTCAAGTGGTACATAATTTATTAATTTTTAAG AAATGTATAAATTTAAATCTTGTGTATAGAATAAAGTAACGGCTAGCTAGGATAGCTAATCTCACAAAAATGTTACTACC CCAGGCTCGAACGAGATTATCTAATGTGAATAATACATGATATAATTTGGTAGATAAGATGAATTCGTATCACTATTATA GTAATTGACAAATTCCTTGTAGATCTTTTCATAAAGAGCCAATAAAATGATTATGATTGATGATGGTGATGCCAATTGAC AAGAATGAATTTGGGGAAAACATGAACAGGACAATGTTGGGTGGGGAGTGGGGTTGGGAGTTCTGGCAGGGATGCTGGCA TTGGCACTTGCACTGTTCTTGTTGGGAATCAAAAGGTACAGAAAGGAAGGCCCAGCAGGGAGCCCATTCACCAGGTTGGC CCAAGTTTTTGTTGCCGCTGCTCGCAAGAGGCGCGTGCAAGTCACTCCCGGTGGTCACAACAATTATTGCTATACTGAGG TGGAGCGTGACGATGAGCCTCACCGTCTTCATCTTCGACCAAAAATTCACACTTTGCTCCATACTCCTCAATGTAGGTGG GTACCACTTCTCTTTGTACTCTACAACTCTCCTTATTCATTGGATTAAAACTAAGCTTTTTATCTCATTTGATATCCATA TTTAAAATGCAAAACATATTTTTCATTTCTCTTTACTGCACATAACATACTTTTTAAGTTTTAATTGTGGGTATGTCCAA ATTACTTTTAAACATGTATCTTAGAAAGTTCTGCTCATAACAAGTGTTAAAATATCAATGAACCATTTTAAATTAAAGTG TTATTTATTTAGATGATTTAGACAACCTCCATTTTGTAAGTAGACATGAAAACAATGCTGAATTTGTGGTAAGAGGACTC ACGTTTATTGAATGTCTAGTTTTGATTAAATTTAGATGGTTTTTCACTCATTTAAAAATCGAAGGATTTCATATCTTTTT AACTAACCTGTCAAGTTATTTTATAAAATAAACTTTTATAATTTACAATTTAGTTCTAAATATTTTAAAAATATATTAAA AGGTACTATACCATCTTTTTTATAAGGGTATCACAGCAAACTTTCTTAAAGTTATTTTAATCATTTAAAAAATTGTTAAA TGATAAAAAAAACATTTGAGTTTTGTTAGCAACTACTTAGTTAAACACGTTTTCTTTTCACTCTTTTTGGGTAAAGACTA AAGAGTGTGAATGTAATTAACATATTATAGAATGTATTCAATTAACTTCTCAAAAAGAATAAGAGGTTTCTTGTATACTT GGCTATGCACGTATGTATATATGGAGAATGATAATTAGACATCCGTATCACAATTATCCCACATGAATGAATTGAAATCT TTTATTCTCTGTCTCATTTCGAATCCCATAAATAAAATTTTGCAAATTCACCATTCCAAGTTTGGAAGTATTTTTTTTTC TATCACTCATTCGAAAAATTGTTGTATGTTCACCCAAGAAATGTCTATATCTTTCTCAGAATTTTAAGGTTTCTAATTCT TAAGAGGTCTAACTTACTAGTCACTAAACCAACCCTTGTAATTGCTCTCTGGCTCATGTGTTTTTATTGACTAAATTTGC AACAGATTCTTGGACAAGGCAGCCATCATTGACGAAGCCGACACCACAAGCAAAACCAGAGATCCATGGAGGCTATGTTC AGTGACACAAGTAGAAGAAGTGAAGCTGGTCCTCCGCCTCATCCCCATATGGCTAAGCTGCTTGATGTTCACCGTAGTCC AAGCCAACCTCCACACATACTTCACCAAACAAGGCAGCACCTTAGTCCGTTCCATAGGCCCTCACTTCCAAATCCCACCA GCATCACTCCAAGGCCTTGTCGGCGTCACGATCCTCTTCGCAGTCCCACTGTATGACAGAGTCTTCGTGCCTCTCGCGCG AAAATTCACCGGCCAGCCGACCGGCATCACAGTCATGCAGAGGATTGGAGCTGGTTTGTTTTTATCCATTCTCAACATGG CAGTGTCAGCTCTGGTGGAAACCAAGAGGGTTGGCGTAGCGAGAGACCACGGTTTATTGGATAATCCTAAAGCAGTTTTA CCAATGAGCATTTGGTGGTTGCTACCTCAGTACACGATCACTGGGGTTTCTGATGCTTTTACAATTGTTGGCCTTCAGGA GTTGTTCTATGATCAAATGCCTGAGTCATTGAGAAGTTTGGGAGCTGCTGCATATATAAGCATTGTTGGAGTTGGAAGCT TTGCTAGTAATGTTGTTATTGCTGTAGTGGAGGCAGTTTCATCAAGACATGGTGAGAAATGGTTGGGGAATAATCTGAAC AGGGCACACCTTGATGGATTTTACTGGGTTATGGCTGTGATGAGTGCTGTCAATTTGGGGGCTTACCTTTGGCTGGCAAA GGCTTTTGTCTACAAGAAGGTTGATGGTGGGGGTGAAATAACTACCTGTCAGGGTTCTAGACTCAACAGAATCAGTTCTG AAATGTAAATTAAACCAGAGAAATAAAAAAGTTGAGAGTCTGTTCTGGAAAGTAAATTAAACCAGAGAAGTAAGAATAAA AGAAAGCTTTTGCTATAGGTAGTGCTACCATTTCAGAACCGTAGATGAGAATATGCTTGATGGGCTTTGTGATATCAATA ATTAATAAGCTAGTTGCATCTTGGTTTCAATCTAAGTAGATCCTCCGTGTGTGTAAGAGGTAAGTAAGATTGAGATGAAG GGAATTGCAGGGTGAAGGGTCAGGATTCAAACCCTGACGAATTGCGGGATGAAGGGCCAAGGTTCAAACCCTGACACTAA TAATTAACAACTAACATTTGCCAAAAAAAAGTAAGATTGAGATTCTAGCAAGATGGGAGGGAGGGGGTCAAAGGTCATAA ACGACTGATCATACCAGGAACAGAATGGGTTAAGTTTCACACTTTAACCCCACCGATAAGTTTTACCGATGCC
CDS sequence (LotjaGi3g1v0319300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCAGATAGCAGCAACAGCAAGAGCAACCCCCTCATCCAACTGATAACACCCTCACCCACAAAGGGTGGTTGGCATGC TGCAATCTTCATCATATTTGTGGAATTTGCAGAGAGATTTGCATACCAGGGTTTGGCTGGGAATCTGATCACATATCTCA CTAATGTTCTGAATGAACCCATCACAACCGCCGCCAAAAACGTCAACACATGGGTTGGTGTTTCATCACTCTTCCCTCTT CTTGGTGGTTTCGTAGCTGATTCATATCTGGGTCGGTTCAACACCATAGTCATGTCTTCTCTCATTTATCTCCTGGGCAT GATTTTCTTGACACTATCAGTGTCGGCATTGAAGAGCAAAACGCTTTTCTTCGTGGCACTTTATGTGCTTTCCATCGGCG ACGGAGGCCATAAACCTTGTGTTCAGACCTTCGCCGCCGATCAGTTTGATGAGGACTCGCCGGAGGAGAAGGAGGCCAAG AGTTCATTCTTCAACTGGTGGTACTTAGGCATTGTGGCTGGATCCACTGCTGCTGTGTTTGTAGTCATCTATCTTCAGGA CAATGTTGGGTGGGGAGTGGGGTTGGGAGTTCTGGCAGGGATGCTGGCATTGGCACTTGCACTGTTCTTGTTGGGAATCA AAAGGTACAGAAAGGAAGGCCCAGCAGGGAGCCCATTCACCAGGTTGGCCCAAGTTTTTGTTGCCGCTGCTCGCAAGAGG CGCGTGCAAGTCACTCCCGGTGGTCACAACAATTATTGCTATACTGAGGTGGAGCGTGACGATGAGCCTCACCGTCTTCA TCTTCGACCAAAAATTCACACTTTGCTCCATACTCCTCAATGTAGATTCTTGGACAAGGCAGCCATCATTGACGAAGCCG ACACCACAAGCAAAACCAGAGATCCATGGAGGCTATGTTCAGTGACACAAGTAGAAGAAGTGAAGCTGGTCCTCCGCCTC ATCCCCATATGGCTAAGCTGCTTGATGTTCACCGTAGTCCAAGCCAACCTCCACACATACTTCACCAAACAAGGCAGCAC CTTAGTCCGTTCCATAGGCCCTCACTTCCAAATCCCACCAGCATCACTCCAAGGCCTTGTCGGCGTCACGATCCTCTTCG CAGTCCCACTGTATGACAGAGTCTTCGTGCCTCTCGCGCGAAAATTCACCGGCCAGCCGACCGGCATCACAGTCATGCAG AGGATTGGAGCTGGTTTGTTTTTATCCATTCTCAACATGGCAGTGTCAGCTCTGGTGGAAACCAAGAGGGTTGGCGTAGC GAGAGACCACGGTTTATTGGATAATCCTAAAGCAGTTTTACCAATGAGCATTTGGTGGTTGCTACCTCAGTACACGATCA CTGGGGTTTCTGATGCTTTTACAATTGTTGGCCTTCAGGAGTTGTTCTATGATCAAATGCCTGAGTCATTGAGAAGTTTG GGAGCTGCTGCATATATAAGCATTGTTGGAGTTGGAAGCTTTGCTAGTAATGTTGTTATTGCTGTAGTGGAGGCAGTTTC ATCAAGACATGGTGAGAAATGGTTGGGGAATAATCTGAACAGGGCACACCTTGATGGATTTTACTGGGTTATGGCTGTGA TGAGTGCTGTCAATTTGGGGGCTTACCTTTGGCTGGCAAAGGCTTTTGTCTACAAGAAGGTTGATGGTGGGGGTGAAATA ACTACCTGTCAGGGTTCTAGACTCAACAGAATCAGTTCTGAAATGTAA
Protein sequence (LotjaGi3g1v0319300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MADSSNSKSNPLIQLITPSPTKGGWHAAIFIIFVEFAERFAYQGLAGNLITYLTNVLNEPITTAAKNVNTWVGVSSLFPL LGGFVADSYLGRFNTIVMSSLIYLLGMIFLTLSVSALKSKTLFFVALYVLSIGDGGHKPCVQTFAADQFDEDSPEEKEAK SSFFNWWYLGIVAGSTAAVFVVIYLQDNVGWGVGLGVLAGMLALALALFLLGIKRYRKEGPAGSPFTRLAQVFVAAARKR RVQVTPGGHNNYCYTEVERDDEPHRLHLRPKIHTLLHTPQCRFLDKAAIIDEADTTSKTRDPWRLCSVTQVEEVKLVLRL IPIWLSCLMFTVVQANLHTYFTKQGSTLVRSIGPHFQIPPASLQGLVGVTILFAVPLYDRVFVPLARKFTGQPTGITVMQ RIGAGLFLSILNMAVSALVETKRVGVARDHGLLDNPKAVLPMSIWWLLPQYTITGVSDAFTIVGLQELFYDQMPESLRSL GAAAYISIVGVGSFASNVVIAVVEAVSSRHGEKWLGNNLNRAHLDGFYWVMAVMSAVNLGAYLWLAKAFVYKKVDGGGEI TTCQGSRLNRISSEM
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 | 70 | 70 | - | – | |
| Gene3D | 11 | 267 | 257 | 2.0E-92 | – | |
| PANTHER | 15 | 557 | 543 | 3.9E-289 | – | |
| PANTHER | 15 | 557 | 543 | 3.9E-289 | ||
| SUPERFAMILY | 17 | 547 | 531 | 5.62E-28 | ||
| CDD | 25 | 551 | 527 | 0.0 | – | |
| TMHMM | 68 | 90 | 23 | - | – | |
| Phobius | 71 | 90 | 20 | - | – | |
| ProSitePatterns | 82 | 106 | 25 | - | ||
| Phobius | 91 | 95 | 5 | - | – | |
| Pfam | 93 | 512 | 420 | 6.9E-91 | ||
| TMHMM | 95 | 117 | 23 | - | – | |
| Phobius | 96 | 117 | 22 | - | – | |
| Phobius | 118 | 165 | 48 | - | – | |
| TMHMM | 163 | 185 | 23 | - | – | |
| Phobius | 166 | 185 | 20 | - | – | |
| Phobius | 186 | 190 | 5 | - | – | |
| TMHMM | 189 | 211 | 23 | - | – | |
| Phobius | 191 | 211 | 21 | - | – | |
| Phobius | 212 | 319 | 108 | - | – | |
| Gene3D | 272 | 556 | 285 | 1.3E-95 | – | |
| TMHMM | 316 | 338 | 23 | - | – | |
| Phobius | 320 | 341 | 22 | - | – | |
| Phobius | 342 | 360 | 19 | - | – | |
| Phobius | 361 | 378 | 18 | - | – | |
| Phobius | 379 | 397 | 19 | - | – | |
| TMHMM | 397 | 419 | 23 | - | – | |
| Phobius | 398 | 419 | 22 | - | – | |
| Phobius | 420 | 443 | 24 | - | – | |
| TMHMM | 444 | 466 | 23 | - | – | |
| Phobius | 444 | 470 | 27 | - | – | |
| Phobius | 471 | 481 | 11 | - | – | |
| TMHMM | 481 | 503 | 23 | - | – | |
| Phobius | 482 | 506 | 25 | - | – | |
| Phobius | 507 | 525 | 19 | - | – | |
| TMHMM | 524 | 546 | 23 | - | – | |
| Phobius | 526 | 545 | 20 | - | – | |
| Phobius | 546 | 575 | 30 | - | – |
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 |
|---|---|---|---|---|
| Biological process | Oligopeptide transport | The directed movement of oligopeptides into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. Oligopeptides are molecules that contain a small number (2 to 20) of amino-acid residues connected by peptide linkages. | ||
| Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
| Molecular function | Transmembrane transporter activity | Enables the transfer of a substance, usually a specific substance or a group of related substances, from one side of a membrane to the other. | ||
| 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 LotjaGi3g1v0319300.1, 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…