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 | LotjaGi2g1v0332100 |
Transcript ID | LotjaGi2g1v0332100.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Major facilitator superfamily transporter; TAIR: AT2G22730.3 Major facilitator superfamily protein; Swiss-Prot: sp|Q9FLG8|SPNS2_ARATH Probable sphingolipid transporter spinster homolog 2; TrEMBL-Plants: tr|I3SWR6|I3SWR6_LOTJA Uncharacterized protein; Found in the gene: LotjaGi2g1v0332100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:80798561..80810123) extracted from Lotus japonicus Gifu genome v1.2.
TGATGATCTAATCCGTTTAAAATGGATTAAGATTCTCTTAAGAGTGTCTTGTTATACCCTAATTTAATTATTTGACAACA CGACGAAACGTTGTATGAAAGGAAAGAGACTGTTCAGAGTCCAGTTCAGCCAAATGATTGCGTGACGGTTGAAGCAAGTA ACACCAAAACTCAACGAACAAATTGAAAAGTTTTCAATTTCAATTTTCAATCCCATAATCTGAGCAGGGTTGGAAGAAAA TGGCATCGGAACCTGGTCAAACCCCCAATCCATCTTGGTTCACGCCCAAAAGGTGCTTCATCTCTTCCTCTTCAAGCTAA TTCAACAAACCCTAGTTTTCCATTCCCCTTTCTTTCTATGTGTGTGATTGATTTCAATTTTCAGGCTTCTTTTGATATTC TGTGTGATTAACACGATCAACTATGTGGATCGAGGAGCTATAGCCAGCAACGGTGTCAATGGAGCACTTCCAACTTGCAC TGACGACTCTGGTGTTTGTACTGCCGGTAGTGGAATTCAGTATGCTCTTTCTCTCTTAACCTTTCTATTTCGAAGCTCCT TTGTTTTGTTACCGTCTTCATCTTATGGTTGCATGGTTTTTTTAGGGGGGATTTTAACTTGAACAATTTTCAAGATGGGG TCCTGTCATCTGCATTTATGGTTGGACTTCTAATTGCGTCTCCAATTTTCGCTTCTCTGGCCAAAAGGTGAGCAGCTTCA TGTTGCTCCTGACTGTTTTCATATTTATGCATTAGCCATGATATAAAATGTCCTAAGTTGTTTTTACTTGATATGATGTA GAGGCTAGTATTTGTAGGTTTACATGTTTGCTGAGGGATCTGTAATTAAGTTGCATAGGTCATTAAACAGCCAAAATGAA AATACCAGAAGATCCTCGATATCCAGGGGTTGTTTTAATGACTTAATATGTGGTGAAATTCTTGAGTCTCTTGGTTGAGT TCTATAAAACAATTTGAATATTAGCTATGGTTAAGTATTCCGCATTCGGAAAACATTGCAAGACTTTCTCTTACAGCCTT ACAGGTAGGATTTGAGGGGGAGAGATTAATCATCCCAAAAACTTAAGTTGTTAGGTCACTATAGGCCTAAGATGTCATGA TTGCATGGATCAATATCCATTGTCACATGGAGGAACCGATAATCCCAAAAGCTTGAGGTGTTAGGGCCAGGCTAAGAGTA GATTTTATCTCTGGGAATAAGGCAAGAAAGAAAAAAATCACCAAAGTTCTTGCTGCTAAAGAGTTAAGGTCTACACTTTG GTTACTTGCCTGCTCTTTTGAAATTCATATCACTGCATAACGTGCCTGTATATGGACAACATGGTTCAGTTCCTCCTGGT CGATGTACAGCACCATAAACATTTCGGTTTCTTCTTATTCCCAGTTTGTTTATTCATTAATGTAATGATAGAGGTGTGAA AACTCTAGGAGCAACTGTTCCAGTGCTTAAACAATTATTTCTACTTATACTAAATAAATTAACATTATTTGTACTTCTAT GGTTAATATAATCTTAAGGATATAGAAAGGATGACGCTCTTTGGTTTCATATTGCTCCTATGCTGATTTCACATAACCTG CCAATCATATAGAGCTGGTGTTAGTTTGATCAAATGGGATCCAATATTCTTCATCTTGGAAATTTGGAGTTTGGACATTG AAGGGAAATGAATAGCATCAGCTTTAAGACATAACATCTTATTGCATAGCGATCTTAGAGAATCACATAAATGGACAATG ACAATTTGAACCTTACATTCATCAGAAAGGCTTAGGCATCTTAGAGTGGGATTAAATATTTGTAGCGTCCTTATTTCTAG TTATTTGAATGGTGATCTAATCCATTATCATGTTTTCAGTCACAGTCCGTTTCGGCTTATTGGTGTTGGGTTGTCCGTTT GGACATTTGCAGTAGCTGGATGTGGAATTTCGTTTGATTTTTGGTCTATTACAATATGCCGAATGTAAGGGTTATTTCAG TGCTTTCAATTTTTCAAGGCCTTAATACTTCACCATTTTCTCATTCTATATTTTAAGTCAAGACTGATGTGTTACTCAGG TTAGTTGGTGTGGGTGAGGCTTCCTTCATAAGTCTTGCAGCACCATTCATAGATGACAATGCCCCTGTTGCACAGGTTTG ATTTATTTCTCCATTCCTCTTCAGTATTAGCTGAGATTGATTCTCCATGAATGTAGAGTTGCAGCTTTATATTGTCTTTA TTGATGACAGAAAACAGCATGGCTTGCTACATTTTACATGTGTATACCAGCTGGAACAGCTCTGGGCTATGTTTATGGTG GAGTTGTAAGATTATTTACTTGTATAATCTAGTTTCATTAAGATGTTTTTTTTCTTGATTCTTTTGTTTGATGATGTGAA CTAATGCATTTGATTATACCCATTAATCATGTGTAATTTTCTTGACAAATACATAAAAGTTCAGTCTCAAGAATTGTTGG AACTTCTATTTGTGTTGGTTGAGTTTTTAAGATATCCCCCCAAAAAAGGAAATTTAATCAAAAGAGATAAAAACACCAAT GAAACAAAGATACTGTTCTTCATGAATTAAGATTGGTGGTGCTTCTATTGTCTCTGGTGGTGTGCGACCTTGGAAGGCTT CTCAGGCTCGACAGAGTAGTATTGACATGGCAGGGGGTGTACTTGCAAAAGACACTTTGATGCTCAAGCCAGTGAGATTC CAAAGAGAGAATCTCGAAGTCTAAGAAGAACTCAAAGTTTGCATAATGAATAATGCATAAATAAACAACTAAACTTATTT ATAGGCTCGGTGTCCGTCGTATTTGTGTAATTGTGCCTGGAAGTCTTTAGGAAGCCTTGAGGAAGGTTTTCTTGGATGTC AAACAACCACTTAATCCCAAAAGCTTAAGCTGTTGGGTAAGGGCCATATGAATGGTTTTATATTATATTCTAACACGCCC CCTCACGCAAGAGCCCTTTGGGCTTGAAGCGTGGATAAATGCACAGGCCCACCTACCATGTGCGTAATTAAATTCCACTT TTTACTTAGAAAGTGAGGGAAGCAAGGATCGAACTCTAGACCTCTCGGTCATAGAGGCTCTGATACCATGTCAAACAACC ACTTAATCCCAAAAGCTTAAGCTGTTGGGTAAGGGCCATATGAATGGTTTTATATTATATTCTAACAATGGTCACCTTTG AGTAACCTTGCGATTTATCATTAAGTGTGTCGGAACGATCCGCTCGTCCAAGGCTGGGACGAGATGTTCCTTAACTAAGT CATCCCGTCCGCCACTATGGTACTCAATTAGCTCTGCAGAACTGTTAATGTAAATTAGCCATGCTCTGAAATTAATAATG CAAAAGGAAAATTTAGGAAACTGTTGTCAGAAGAAATGTTTTACCGTTATATAGGCTCCTTGCAAGCGTATTGCTCACGA TAAGATAATTTATAATCTGCATGATCAATGGTACCATGTATTGAACATTGCTCAGTGTTAAAATGAGTCAAATTCAAATT TTCAAATATTGTATAGGTTGGAAGCCAATTTCACTGGCGTGCTGCATTCTGGGGTGAGGCAATTTTGATGCTTCCTTTTC CCATTTTGGGTTTTGTAATGAAGCCTTTGCAGTTGAAAGGTAGCCATTTTTTGCTGTTTGATTTGATGCAAAATGCCCTT AATTTTTCCAATCCTTATCATAAAAATGATCTATTTGATTTTTAACTATAGGTTTTGCTCCACTGGAATCCAAGAAGACG ATATCGTCTATTGAAACAAATGTTTCAGAACATGGAGGTATTTCCGAATCTTTTTTCTACTACTTTGGTGAACTGTTTTT TATATTTTGTTAGGTATCTTTTAGTAAATTATTGGCTTAATTGCACTTTTCGTCCCTGATCTATACCCCTTGTGCAATTT TGGCCCCCTTTATTTAAACGAGCAATTTTGGTACACTAAAAATTAGATGTGACAATTGGGTCCTTCCGTTAATTTTCCGT CTAAATTGGCATATGTGGCATTCATTAATGATGTGTCACTGACACTACTGCCACTAGGATTCAAAATAAGCCTCCACGTA ATTAAAAGAAAGGTGGAATATTTTTTATGAAAGAAAGGTGGAAATTAAAAAAAAAAGGAAATTACAATCGGCAGTTCTTC AACCCTCCTTCATCTCTCGACATCACCACCACCCCTTCTTCTCTTCTTCTTCTTCTTCTTCCTCCAGCGCACCACCTCCA CTCAATCATCTCATCGCCACACTCTCTTCTTCTTCTTCCCACTCATCACTCCCTTTTCAACCCCACCGAAAACACTTCCC CACCAACCCAACATCCAAATCTGCCATGGAAGGAGATGAATCAGAACCATCCATATTTTCATTCATCAGCATCGATCCCT CCTTCCCACCTTCACCTTATTCTTCTTTCAACCCACATAGAAACCTTAAATTTCCAAAACCCATAATATTTCCAGAAACC CAAAATTGCAACTCTTTCCAGAAACCCCAAACCCCAAATCGTCCCAAACACCACAATCCATCTCCGTCGCCGCTGGAATT CGTGATTTCTACTATCTGCGACACCTTCAACTGGGTTTTCTCAAGGTTGAAGTTTGGTTCTTTGATCTACCTTCATCAAG ATTGAAGCTTGGTTCTTTTATCTACTTTCTCAACTGGGTTTCCTCTACTGCCTTCCTCCCTTATCAAAACCCTCAAACAC AAGCCTTTTACATTTATGAATCGATCCAAAAAATTGGCATATTGTTATCTTTATCATTCGATTTCTATCAAAAAATTGTA GTTTTAGTGTTCTAGAAGTGGTGTTTTTCTTGTTTAATCAACCCAGACTGTGTTGGATCTGTGATTTTTGATGGATGCAG CTGGGTTTAATGATGCAGGTTGGGTTTTGATGGATAGGGAATGGGAGGGATTCGTTTTTCTATTTATGTGTTTTGCTTGT TGATTTATGGGTAGTAACCAATGGTTATGAAGAAGAACAAGAAGTGGGGTTTCAAAGAGAATGGTGGTGGTGGTAAGATG ATGGGGATGGTGGGGATGGAAATGATGAAGATGACCATGAGGAACAGGTGAGAGTAGGGATTAGCTGATGAAGATGACGA TGAAATAGATGAAAAGTTTGTTTTTTTTTTAATTTTTCCTTTGTGGTGCAAATAGCAATTCCACATCACTTAATATGTCC AGGTCAGCTAACAGCGTTAGTAATTTGATGAAGAATTGACGGGAAGGACTCAATTGCCACAAATTAATCTTTAGTGTACC AAAATTGCTCCTTTTAAACAAATGGGACCAAAATTGCACAAAGGATATAGATCAGGGACGAAAAGTGCAATTAAGCCTAA ATTATTATGGAGGAAAGGAATTTAGCTTTCAATATTATTTCCATAGTATCACCAAGCTTGAAAGAAAATTCAAAGGCATG GCAAATTCCTAAGAGAGAAATCTTAAAAAATAGCATTAGTACTACTGAAGAGAAAAGCTGTATTATGTAGATTGGGATGA AAAATTTGCGGTAAATTCCCGACAATGCATTGATTTTATAAGAATTATCTTTTGAATTTCATGTCGCCTTTTAATACTTT TTGTCCTTTTCAAGGAAGAAGCCATGTGTGGTAGGCAATCATTCAAATTAGGATATTTGTCTGTCATATTTTTAGTATTT AGAACTTTTTCTTGCTTTGCATCAGAGCTTTGTTTTTCTTTTGTATAGTATAGAATGATCACCTTCTTGTGGTACTAAAT AATTTCTATGCTCAAAGTTAGAGGTTTTCCTTATAGATGATGGCGTGCTTGCTCAAGATCAAGCCTTTATCAGAGGAACC AGGTGAGTGGCTCTGTCACCTTTGATATCCCTGAATTTTGAAGTCCTTATCATTTTGCTATTTGGTTTTTCAGTTTTGTA TATGTTTCCTGTTTCTGATACCAAGCAGAAGAGAACCCTAAAACAAAGCAAATACTTTTTATGATGTCCAAAAATGAGGT AAAGGAAAATAGTTTGAGACCATAAAGGGGGAACAGTTAATATCCTAAAATGGGAATGCTTTAAATTTAATAATGTCAGA GTTTGCAATGCCAATAACATAATCTTAGAATTTTGAAACAGAGTATGATGTAGGTACATTTATAAATTTAAAACATTTGA CGCCAAGCAGTTATAGTGCTATTACAGGTCGATAACCTTGTCAAAACCCAGGGTGGACTGATAATGATAGTACACAAAAA CAGTCAGAGAGACACAAACACATGCCTACTCAGTGACGTCCTGGAAAGGGGATTCCCACACTTCATGTCATGTTTTCTTT TCCTAAAATCCAATGCTCTGTACTTAATAAAATTTAAGAGAGAATCACAAATATTTGTCCTTACATATGAATCACAGATG CCCCCAGTTTCACCCCTTCCTACTTTTAGGGAACTTTTTTTAAAAAAAATTGTTTTCATATATTGTAGTTAACAATCAGT TTTACAAACACATGATTTGAGATTCCTTGATGATTAATTGATTATGGTCATAATAGATTGGCGAATTTGTTTGCTTCTCC TGAGTCCTGATCCATGAGAATGATGAAAACATTACTTTCCTCCTTTTTGATGCTTAACTTACAATTATCAGGTCAACATC CAAATTGAGGAATCAGTTCACCAGATTCTCAAAAGATATGCAGGAGCTTTTGTATGACCAAGTGTATATTATAAATGTTC TAGGTACTTGTTTCTTTTCCCATCTAGGTATCTACAGATATTATTTTTCTCTCATTTGTTTCCGAGCTTTGCTATATTGA CCGAAACGAATCGCACAAACTGGTGTTAAATAAGAGAAACCCATGACTATTCGTAACGGTTGTGCTTAATTAATGAAAGG CACATACACATCATATGTTTCATCTCTTAGAACTTGACGCTGATATATACAAAATGGAACATTATTGTGATAACTACATC AGCTGTTATGCCTGATAAGTTGAATATTTTTTTCGATTTGACTTTTGAGAATTTGATAATTATATTGTCAATTGTAAACT AAGTTATATATCTCCTTACTGAAGAATTTATTCATTGCCAGGGTATATATCGTACAATTTTGTCATTGGAGCTTACTCAT ACTGGGGGCCAAAGGCAGGATACAGTATTTACCATATGGTATTCTGAACTTTGCCTTCAATGATTTGACTACTTCTGCTT CATATTATATTGAGAAATTACTTCGCAAATTCCTTATCTAAATGGTTTTATTGAAGATTTTGTTTCTGGTAGTCTCCAAT GGAGTTGATTTATTTATGTAATCAACCGAACCTAATGGGATAAGGCTTAATTTTTGTTGTTCCTTATTTATTCATATTAT TTGTGTGTTACCTTAACTTCATTGCAAGTCTAGTATTGGCCTTGGGCCTCTAGACATTTATGGCAATGCATTTTTTTGAC AGTTTTTTTTTTTGACAGAGTAATCCTGATTTGTTATTTGGAGGTATTACAATTGTTTGTGGGATTTTGGGGACATTAGG TGGAGGCTTGATTCTTGACAGGATGACTTCAACAATATCTAACGCTTTCAAGGTAAACTTAGTTGTTTTCCACTTACATA TCTTGTGAAGAGAGTGAAATGACTAATGAATAGCCTATTGACTAGGGTAAGTAACACTTGTAAAGATGGTGGATTTCTTG AATTTGGAAGATCCCTTGACCTAGGTGTAAGAAATACAGCTTCACCTATAATAGTAGTATAGACAGACCCCATTCGGATA TGGGCTAAAGAGCACTTATTAGAGCTTACCTACTAGAAAAAGCACTGAATAAGTTATAATAAGTGCTCTTTGGTCTGAAT TCAAACATGCTCATAGTCGAAAATGTATGGTTATTAGTTACAGGGACACTAACTAAATCTAGGCAGAGGGTTCTTTAATA CATAATTTCCTGAATTCATCAGCATTTATAACATTTTTTAATCTTGTACAAGTTCACTAGTACATTTATTTGCTTTTTTA TTTTCATTATTCATTATCCCAGTCTTCTTTATCTTAAATATATCTTATGTTATATTATAATTACCTTCGAGTTCCTTTGT CTTGAAGTTTCCTCTGTTCCATTTTTGTTTAGGCTCTACATTTTATGGTATTTTTATGGGATGTTAATTCATTTCTTCTC TGGCTTGCCTTGTTACGATTGCAGCTTCTTTCTGGAGCAACACTTCTAGGCGCAATATTCTGCTTGGTTGCTTTCCTTTT CAAGAACTTGTCTGGGTTCATAGTCTTCTTCTCTATCGGTGAACTGCTGATTTTCGCCACTCAAGTAATTTTATGAATCA CTCAGTGGATTATTATTTTTTATCCTTAAAGTGTTCACTTCACCTGCTTTTTATTTATATAACAATTGTTTTCTATTCGT TATGTACTGGATTAGCTGTTGTATAATAGTTGCATCCTATTATTTTTGTGTATTATATTCTTATTTTATTAATATTGTCT CTTAATTTGTTGGAGTTATTTGTGTAATATTTGGTTGATGAGATAATATTATTTTTGCAGGCTCCTGTAAATTATGTTTC TCTCCGTTGTGTAAAACCAAGTTTGAGGCCGCTTTCTATGGCAATCTCTACTGTTTCAATCCATATCTTTGGTGATGTGC CTTCTGCACCACTCGTGGGGGTCCTACAGGTTATTCTAAGATTTTCCTTATAGACATACTTGAATTTTATTAGATGATGA TTTACACCTAAAGTGTTAGTGCTCTAGTGAAGTTCATCTTACCCACTATGTCCTTTCTAAGCATGATGGGTATGATATGT AAATGTAATCAAGTATAAGTTTTGCTTTTAATTTTGATATTTGTATTATCAAGTACAATAAAGTTGTAGGATACATATGA GACCTAGTTTTTATTCTTGCAATAATTTTCTTCCTAATTGTCTAGTTAGATCAAGGGTTTCAGTTCTTACTTTGTTAGAA GAGAAGTAATTGTCCCCTTGAATGCTATTGCAAAGATGTTTGAACAATTTGTGGTGCTTATGAAAAAGATCTCATAATAT TTAGGTGCATACCAAAGTAATTTAGATAATTTTTAATTATCTCTTAGGATTGATTTTCATATTTCATGATATGTTTCTTA TTTAATTACTTAGGAGTCTAGTAATTATCATGATTAGTTTCTTATTTAATTAAGATTAGGAGTCTAGTATTAGTTATGAA AGAAGGCTAGTGCTGGGTCTTTTGTATCAAAATCAAAATCACAATTTAATTTTTTTTTCCGTCTCTCCTGCCTTATCTAA AATGTAAACCTATAACCTGAGCATGGTATAAAGTAGTATCATGTCCTGTCTGTATTTGACTGCTGAGTTTCCTGAAGTTT GGAACTCTGTTATATTATATCATTTGTATGACTCTTTTCTTCTCATCCTTTCTGAAGTTTTAGCTCTTGTTGTGTATAAT TGCTTGTTAGGAAATCTCCTGTCAATCAAGTATACAAGCAAGAATAAAACTTCTCCAAATCTTCAAGAACAATATTTAGA ACTTTAAAGAAGAAGAAAATTTAGTGTACCCAGAAAAATAAATAAATTGAAATTGAAAGTAAGGCTTGTGTGCATTACAG CCATGGATAATTCATATAATCATATATATTCTAAGTGGCTAGAACAAACTGATTTCTGTTTTGCATGATGTGGCCATTGT CAAGATTTACTGCCTTGACATTCTTCACATATTCAGCCTTTTGCCTCTATCTATTAGAGTGTAAATTTAAGCATTTTTCT AACACCAAACAACTTGGTTTTCTTGTGCAGGATCGTATTAATGACTGGAGGAAATCAGCACTTTGTCTAACATCCGTTTT TTTTCTTGCCGCCGGAATATGGTTCATAGGTAAGTGGCTTGCAGCTTTACTAGTAATTTCTTGTCATAACTCTACTAGAT ATATGCTTTGAGTTGGAACAGTTTTGGATTAATAGATTTTTAAGGATGTGCCTGTAGAACTCATTATGAAGAAAATGTCA ATATTCGTGCATGTGTTTTCAAATACTTCTGCACGTTTATTTGTCTATTTATCTTTTGTACCTGAAAATAATACAATAAT TATCAGTAGTAGAATGCAAAAGAATGTCAACTAGAATAGTTTGTCCTCTAGACTCTCAAGAACCAGTTTAGCTAGTCATC ATCCCTTTCCTTTTGGCATTAGGGGGAACTATAATTCATTAATGATAAGAAATACCAATCCTGGCTACTCTGTGAATTGT TAGTTGACCACACCACACTTCAACGATTTACTGATTTAGCAATAGTATCAGGAAAAATCCTGCTACTAATTGTTGGAAGG AGTTATACTGTTGAAAATTGACATATGATTGAACTATAGTTAATTAATCGTAATAATTCTACAGGGATCTTTTTGAGAAC TGTTGATCTATCTACTGAAGATGATGAGGACCAATCTGCCACAAGTTTAAGAGGGAAAATGAAGCCATTGCTTGAAGGGA ACAGTGATGCTTCCAGTCAGGCCTAATTTCTCATGCACTATGCTTACCATTTGTACATGACACAAGTGTAAATTATCTTT AGTCTCCTGATTGTTCCTTCAAGGAGGGAAAATCAGTAGTATCTATACTACAATCAGTCATATGGAAGGAAAATGGTGGA TGGTGGAATGTGGGACTAGACTCTTTAAATTGTAAAAAGGGATGTAGGATAACCTGTATGTATATGTTTGGAGGAGTCTG ACTAGATTCTCATCTCGCACGAGTTTGGAAAAAGAGAATTGTTTAGGGTTTGGATAGAAATATAGAACGAACTTGGCTGG CAAACACAACACTTCTCGTCGATAAGAAGCACACGCAGATAAATACATCAATGATTCAATGCTTTTTGACACGAAATTAT TATTATTATTTTATATAGTATGTTTCGTTTCAGTAACAACTATCAATTTTTAAAGACACGAAAAATAATAAGTGATACGA AGATGTTGCTCACTGAAAAGTAGACGAAATAATGGACTGGTTTAGCATTCCTAGTGTCTTACATTTCAGTAGTTTATAGA TGTATTCTTTTTTTAATTAAAATGTATCTCTACATGCGACAACCATCCTAATCCCTAGGTTGAGTATGAGTAGGTAAGCT TCTCTCAATGAATTTATTTTCATACATTGCTCAACAATTAAATCTTAACTACTTAAGAAAGCTATCTACCAATTTGTGCT GAGATTTGTTGTGTATAACTCTCACCTCCGTTTGCTGCGATTTGGGATTTGTTGGCAGCTTATAGATGAATTTTTTATTG TGATAAAGATAGTAAAACGTAGATAAAACACTTCTAGATTAGGGACATGCTGGGGATAAGACTCACTCTTAGGATGTATT TTGTGTATTGATTCTTACATTTCATATCGAAAATTTTCATAATATATACTCTCAATTCTTTATTAACGGGGTAGAAAGAA AAAAACACGTATTAAGATTTTTTTATTTTACCCTTTAAAATGAATTTTATTTCTCTTCATTTATTGTTCTCATAATAGCA TTACTTGAAAAAACATCAATCAATTTTCTTGAACACACTTTTT
CDS sequence (LotjaGi2g1v0332100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCATCGGAACCTGGTCAAACCCCCAATCCATCTTGGTTCACGCCCAAAAGGCTTCTTTTGATATTCTGTGTGATTAA CACGATCAACTATGTGGATCGAGGAGCTATAGCCAGCAACGGTGTCAATGGAGCACTTCCAACTTGCACTGACGACTCTG GTGTTTGTACTGCCGGTAGTGGAATTCAGGGGGATTTTAACTTGAACAATTTTCAAGATGGGGTCCTGTCATCTGCATTT ATGGTTGGACTTCTAATTGCGTCTCCAATTTTCGCTTCTCTGGCCAAAAGTCACAGTCCGTTTCGGCTTATTGGTGTTGG GTTGTCCGTTTGGACATTTGCAGTAGCTGGATGTGGAATTTCGTTTGATTTTTGGTCTATTACAATATGCCGAATGTTAG TTGGTGTGGGTGAGGCTTCCTTCATAAGTCTTGCAGCACCATTCATAGATGACAATGCCCCTGTTGCACAGAAAACAGCA TGGCTTGCTACATTTTACATGTGTATACCAGCTGGAACAGCTCTGGGCTATGTTTATGGTGGAGTTGTTGGAAGCCAATT TCACTGGCGTGCTGCATTCTGGGGTGAGGCAATTTTGATGCTTCCTTTTCCCATTTTGGGTTTTGTAATGAAGCCTTTGC AGTTGAAAGGTTTTGCTCCACTGGAATCCAAGAAGACGATATCGTCTATTGAAACAAATGTTTCAGAACATGGAGATGAT GGCGTGCTTGCTCAAGATCAAGCCTTTATCAGAGGAACCAGGTCAACATCCAAATTGAGGAATCAGTTCACCAGATTCTC AAAAGATATGCAGGAGCTTTTGTATGACCAAGTGTATATTATAAATGTTCTAGGGTATATATCGTACAATTTTGTCATTG GAGCTTACTCATACTGGGGGCCAAAGGCAGGATACAGTATTTACCATATGAGTAATCCTGATTTGTTATTTGGAGGTATT ACAATTGTTTGTGGGATTTTGGGGACATTAGGTGGAGGCTTGATTCTTGACAGGATGACTTCAACAATATCTAACGCTTT CAAGCTTCTTTCTGGAGCAACACTTCTAGGCGCAATATTCTGCTTGGTTGCTTTCCTTTTCAAGAACTTGTCTGGGTTCA TAGTCTTCTTCTCTATCGGTGAACTGCTGATTTTCGCCACTCAAGCTCCTGTAAATTATGTTTCTCTCCGTTGTGTAAAA CCAAGTTTGAGGCCGCTTTCTATGGCAATCTCTACTGTTTCAATCCATATCTTTGGTGATGTGCCTTCTGCACCACTCGT GGGGGTCCTACAGGATCGTATTAATGACTGGAGGAAATCAGCACTTTGTCTAACATCCGTTTTTTTTCTTGCCGCCGGAA TATGGTTCATAGGGATCTTTTTGAGAACTGTTGATCTATCTACTGAAGATGATGAGGACCAATCTGCCACAAGTTTAAGA GGGAAAATGAAGCCATTGCTTGAAGGGAACAGTGATGCTTCCAGTCAGGCCTAA
Protein sequence (LotjaGi2g1v0332100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MASEPGQTPNPSWFTPKRLLLIFCVINTINYVDRGAIASNGVNGALPTCTDDSGVCTAGSGIQGDFNLNNFQDGVLSSAF MVGLLIASPIFASLAKSHSPFRLIGVGLSVWTFAVAGCGISFDFWSITICRMLVGVGEASFISLAAPFIDDNAPVAQKTA WLATFYMCIPAGTALGYVYGGVVGSQFHWRAAFWGEAILMLPFPILGFVMKPLQLKGFAPLESKKTISSIETNVSEHGDD GVLAQDQAFIRGTRSTSKLRNQFTRFSKDMQELLYDQVYIINVLGYISYNFVIGAYSYWGPKAGYSIYHMSNPDLLFGGI TIVCGILGTLGGGLILDRMTSTISNAFKLLSGATLLGAIFCLVAFLFKNLSGFIVFFSIGELLIFATQAPVNYVSLRCVK PSLRPLSMAISTVSIHIFGDVPSAPLVGVLQDRINDWRKSALCLTSVFFLAAGIWFIGIFLRTVDLSTEDDEDQSATSLR GKMKPLLEGNSDASSQA
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 | 74 | 74 | - | – | |
PANTHER | 6 | 497 | 492 | 1.2E-275 | – | |
PANTHER | 6 | 497 | 492 | 1.2E-275 | – | |
SUPERFAMILY | 8 | 470 | 463 | 3.4E-48 | ||
ProSiteProfiles | 19 | 470 | 452 | 17.779 | ||
CDD | 20 | 456 | 437 | 1.96897E-73 | – | |
Pfam | 47 | 413 | 367 | 6.8E-29 | ||
Phobius | 75 | 94 | 20 | - | – | |
TMHMM | 75 | 94 | 20 | - | – | |
Phobius | 95 | 100 | 6 | - | – | |
Phobius | 101 | 122 | 22 | - | – | |
TMHMM | 101 | 123 | 23 | - | – | |
Phobius | 123 | 127 | 5 | - | – | |
TMHMM | 127 | 149 | 23 | - | – | |
Phobius | 128 | 149 | 22 | - | – | |
Phobius | 150 | 160 | 11 | - | – | |
TMHMM | 161 | 183 | 23 | - | – | |
Phobius | 161 | 179 | 19 | - | – | |
Phobius | 180 | 190 | 11 | - | – | |
TMHMM | 187 | 209 | 23 | - | – | |
Phobius | 191 | 210 | 20 | - | – | |
Phobius | 211 | 277 | 67 | - | – | |
TMHMM | 278 | 300 | 23 | - | – | |
Phobius | 278 | 299 | 22 | - | – | |
Phobius | 300 | 314 | 15 | - | – | |
Phobius | 315 | 335 | 21 | - | – | |
TMHMM | 315 | 336 | 22 | - | – | |
Phobius | 336 | 346 | 11 | - | – | |
Phobius | 347 | 367 | 21 | - | – | |
TMHMM | 349 | 367 | 19 | - | – | |
Phobius | 368 | 372 | 5 | - | – | |
TMHMM | 372 | 394 | 23 | - | – | |
Phobius | 373 | 394 | 22 | - | – | |
Phobius | 395 | 440 | 46 | - | – | |
Phobius | 441 | 461 | 21 | - | – | |
TMHMM | 442 | 464 | 23 | - | – | |
Phobius | 462 | 497 | 36 | - | – | |
MobiDBLite | 474 | 497 | 24 | - | – |
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 | 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 LotjaGi2g1v0332100.1, 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…