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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0377200 |
| Transcript ID | LotjaGi2g1v0377200.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Phospholipase D; TAIR: AT4G35790.2 phospholipase D delta; Swiss-Prot: sp|Q9C5Y0|PLDD1_ARATH Phospholipase D delta; TrEMBL-Plants: tr|A0A1J7HDZ2|A0A1J7HDZ2_LUPAN Uncharacterized protein; Found in the gene: LotjaGi2g1v0377200 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:87452615..87461514) extracted from Lotus japonicus Gifu genome v1.2.
AGTTATATGCTAGATAGACACACAAGGGAGATGCTACACCTCAACTCTAACTCACTAGGGAACAAAGTTGTCTTTTAGGA TTAAACATTCAATATATCTCACCTTTCATATTTTTACAGTTTTTTTAAGAAAATTATAAAAAAATAACTAACTAACCATA CATGTTATGTGTTTTGTTATAAAGTTGAAGAATATGTAGTAAATAATGAATTGAAAAAGTTTTCTTGACCAAAGATACAT ACCAATACCATAATACCATACCATATTACCATTGGCTTAGTTCCAAAGTCATTCAGCAAACTTTTTCCTTCCTTTCCCAA GTCATTGTAAGATCATGTGGCTCTTAGATTTCATTCCAAGTAACAGTATCTTTAATCTAGCCTTTAGCTTTTTTGATAAA AATAACTTTTCATTGACAGATGATTTTCTGAAAATAAGTCAATCCAATATGTGCATACTGATGTATACAAAAGTAACATT ACCCTAAAAAAAACGTAAAAAAAGTATATAACCGTGATCATTGATTACCAATTACTCAAACGAGTAATGATATATACACA CCTCATCTTTTAAACACTTCATTTCCACTTATTTTTGTTTCTATTTCTCTCCTCTTATCATCTATCACATCTAATACTTT CTCTTTTTTACTTTTTCTTTTCTTTCTATCTTTCTTCTCCTCCACCTCCTTCCACCTCACCTCAAAATGAGGTGTGAATA AAACATTTTCCTTACTCCAACCTTTATACCTTTATCTGTGTATGAATCTAGCCGTGAAAGTGACTAATCTGCAATGAATC TTCAAATTTTTTTTCCTTTCATTTCTGGTTTTGTAATGAATCATCATTTCAGAGGAAACTGTGGGCTCCTTTTCTAAGCC GTTGAGTGTTGACATGCCCCCACGACCCTTATCTACCAGCCACCAACAACGTGAATCAGGTCCCATTTTCTCATCCAAAA ACAACTACCCTACCTAATGCGTTATCAAATCAAATCACCACATCATGATGAATATTTGATTAAGAATAAAGAAAATCATC AATTGCATTCACAACAGCGAAGCAAAATATTCTAATAATTCATTGTTTGCCTCGCTGGGCATTGGCGATTCCATACGCTA GAATCCTATTCCCACCGTGTAAAATATCTTCATTCTCCACCACGTTGCATCTCCATACCAATTTTTAATTTCTTTCTTCC TATTAATTCATAATTCTCAGATTTGCTTCCATGTATACACAACAACACACAATCACCCTGAAGACCAGACAAAACTAGTC ATACTCTTTGCATTTCGGTTAAACATCCACGTTGAAGCCGATATGTCAAAACCATCTCGCTCCTTAGATTCAACGTGACA AATCTTAACTTGTGTATTGGCGGACCATCCCGTCGGTTATAACGCGAAACCAAACATACACTCCACGTGACACTGGTTCG GTGTCATAAACCCCACCTCTCTCTTTCTGTTTTCTCCGCACTCACTCAACTTGACACACCCACCCTTTCTGTTTCATTTC ATGGCGGAACCCGGTGCTGACGATAACGCCGACGGCGACGCCAACGGCGGCGTCATTTACCTCCACGGCGACCTCGCCTT AAAAATCATCGAGGCTCGCCAGTTACCCAACATGGACATCTTCTCAGAGCGTTTCCGCCGCTGCGTAACCGCCTGCGACA CCATCAATTGCACCTCCTCCGACCCCGCCGACGGGGGAAATCGCCGCGAACACCGCCACCGCCGGAAGATCATCACCAGC GACCCCTACGTTACGGTCTCAGTGCCGCAGGCCACCGTCGCCCGCACGCGCGTGCTCAAGAACGCCAGTAAGCCCATCTG GAACGAGAGTTTCAACATCCCGCTCGCTCACCCCGTCGTCGACCTGGAGTTTCGCATCAAGGACGATGACGTCTTCGGCG CTGAGACTATGGGCACCGTTAAGATCCCGGCGAAGCAGATCCTCTCCGGTGAGGAGATTTCCGGGTGGTTCCCTCTCATT GGATCATACGGGAAGCCGCCGAAGCCGGACACCGCGCTGCGCATCGAGATGAAGTTCACGCCGGTGGCGGAGAACCCGCT GTACCGGACTGGCATTGCGGCGGATCCAGAGCACAGGGGCGTGAGGGATACTTATTTTCCGGTGAGGAAGGGGAGCTCGG TGAGGTTGTACCAGGACGCACATTGCTCCGATGGGTTTCTGCCGGAGATTCAGCTCGACGGTGGGAAGGTTTACAGGCAC GAGAAGTGCTGGGAAGATATCTGCTATGCTATATCGGAGGCTCATCACTTGGTGTATTTGACGGGTTGGTCAATCTACCA CAAGGTGAAGATTGTGAGGGAACCTTCTAGGCCTTTACCCCGTGGTGGAGATTTGACTCTTGGCGAGTTGCTCAAGTACA AGTCTGAAGAAGGGGTTAGGGTTCTGTTGCTGGTTTGGGATGATAAGACTTCTCACGATAAGCTCTTCTTCAAGTCGGTG AGGGTCCTTTCCTAATTTGCATTCATTTTTTCTGTTAATTGCTTCTTGTTGTTGTTGTTTCTGTTGTTGTTGTTGTTGTT GTTGGCTAATTGGTGTTTTTGGTGCAGGCTGGAGTAATGCAGACTCATGATGAGGAAACTAGGAAGTTTTTCAAACATTC TTCTGTGATGTGTGTTTTGGCGCCTCGGTACGCCAGCAGCAAGCTGAGCTTCTTGAAGCAACAGGCAAGTATTGATATCA GCTGTCAACTGCCTCAGTAAACTAAATTTGGTTGTGTTTGATTACTTGATAGATGATGTCGCATAATTAATTGAAATATG GTCAATTCTTGTTGCCATTTTTATATAAAATGTGTATTCTTGTGCATTTGTATTTTGTTGTTTAGTAGACTTGATACATC CCTCCTGTATATTGTCAGGAGATAGGATTCTTTATGAGCTAATTTTCAATGGAGTCAAACGTGAAATGCCCTGTGTTTTG TGGCCTAAGCTCTAGACTGTGGGTATGTTTTTTTTCTGTAGATGTAAAATACAGCATGGGAAATATATCTTCTATGACTC TTTTTCTATTTAGGGTTGACCAATTTGTTTCCATTTACTATTTTCTTTTTCTTCTACCTCTATGCATGTAAAATGATTCA TCTTGTTTAAAATGTATCCTGTCTTTAGTGACAAACAAAGGAATAAAGTTGCTTATGATATGGTGTTATACAGGTTGTTG GAACCGTGTTCACGCACCACCAAAAATGTGTTATTGTGGACACACAGGCCGCTGGTAATAACCGAAAGTTAACTGCTTTT ATAGGAGGTCTTGATCTATGTGATGGACGCTATGACACTCCTGAGCATCGGCTTTTTCGTGACCTTGACACTGTATTTTC TGAAGATTTCCACAATCCTACATTTGCTGTAAGTTGTCAGCTCATCTGGACATTAATGTTAAGTGTTGCATTTATGTCTT CCATTTTGTCAGGACTCAGGACTGTCCTGTTTAAACTATTTCAGTAGAATCTTTTTTGGTTATATATCGTGTTATAAAGT GTCATATTCTTGGTTTAAATGTTGTTTAGAGTAACCTAATTGTGTTATGTACTTCAAATTGATGTTCTAGAACAACGTAG AATGCCATAATTGTTACCTCTAATCATTTGTAATTGTTACCTCCAAATATATAAAATTGAAAAGGGCTGAGTAATTTAGA ATTTTATTCGCTGATATTTACAAAGATACAAGCTCCAATATTTATATCGTACATGAATCCTAATAAATGATAATCAAAGG AAACAATGAAATAGAACCTTCCTAATAGTCAGAGTATCATGATGATATGTACAAGGAAAAATGAGATATTCTATCCTAAA ATAAAGCTATTTAGTATTTACAAATAAGTTATTTTTGTTATTTTTTTCCCTTGCAATTTTGTTTGCATGGCCAATTTAAA GATTGGTATAAGTTTTTATTATCTTATATCATTGTTGTAAGATAGTGCTCTTCTCTTCATTGCAGTTTGATTAGGTATAG ATTATTGGGTGTGATTAGCTATCTTTATCTTGTAGGCATTATGGTTTTATTACAATGTAGAAATACTTTGGCTTTTCTTT TCCATTTCCTTTTAATTTTCAACCAAATAAAAAATCATGCATAAATGCATAATCTTATTTATTGTTGCCGACACTCACTG CTCTTATGTATGCTGTTTCTTACAGTCTGGAACAAAGGCTCCTAGACAACCGTGGCATGATTTGCACTGCAGAATAGATG GGGCTGCTGCTTATGATGTTCTTATTAATTTTGAGCAGCGATGGAGAAAAGCAACTAAGTGGAAAGAGTTTGCAATTCTT TTCAAACAAACCTCCCAGTGGAACGATGATGCGTTAATACGTTTGGAACGCATCTCGTGGATTTTAAGTCCTTCCCAACC TTCCTCAAAGAATAAATATACAATTGTTCCGGAGGATGACCCTGGAGTATGGGTTTCTAGTGAAGATGATCCTGAAAACT GGCATGTTCAGGTTGGACATTGCAAGCTCGGTTCTGAGTAAATATTACTTGCATGCTACGCTTTCTTGATTTTGGAGACA ACTCATCTCATTACATAGTTTTCTAACTCTTATTGGGCTATGTATGATTTTACAGATCTTCCGCTCCATTGACTCAGGAT CCCTGAAAGGATTTCCCAAACGTGTGGATGTTGCTCTAGCTCAGGTCTACTAATCAGTGTTTTACTTTGCAGTTCTTCCT ATTATATCTGACAAGAAAAAAATGTTGACTTGAATGACCTCGGTGAATCGAACCTATATATTGACTTTAAGATCTTAATA TCTTACATATATTGGATGTATTTGAATCATATTTCACCGTTTCTAATAACATTTTTCGATGCAGAATCTTATCTGTGCCA AAAATTTGGTTATAGACAAAAGCATTCAAACAGGATACATTCAAGCGATCAGATCTGCTCAGCATTTTATTTATATTGAA AACCAGTACTTTATTGGATCTTCATATGCATGGCCATCGTACAACAACGCAGGTCAGGCTTAAAGCAGTGTTTTAGAAAA AGCAAGATGGTTGTTTCTATTTTAGTGAGATGTTTTTCTTTTTGCTTCAAAAAAAGGCATTCTATAAAGTTTGAATACCT TAGGGGGGAAAAGTTGAATGTTATTTTTGAAAACTACATTGCTTTCAGAAGGTGATCTGGTAGGAAAGGATTGTTTTGGT GTGGGGTGAAATAGGTCCAAATCTGATTAAATGGTGATAATAATAGTAGTATTTTTATTTTATTTTGAAAAAAGGACGGC CTCTTATCCTCCCAACTCTTGTGATCTTCTCCTAGTCCTAATACATTCGTCTTTTATTGAAAAATAAATAAATTAATGAT ATGGTTTGATTCAGTAACTAATTGACTAGCTGCTACCTTTGTTCTTAAGATATACTTTCAAATTCTTTAATTTGTACATC TTTCATCTGATAAAGAAAAAGAGAAAAGGATTTTAAAGATGATATTCCACTTCCCTTCTTTTGTCATTACCAACTTACTA TTGTCTTCTTCCGTTTAGGGGCTGATAATCTTATCCCAATGGAATTAGCACTGAAAATTGTTAGTAAAATCAGGGCTAAG GAAAGATTTGCTGTATATATTGTTTTACCGATGTGGCCAGAAGGTGATCCTAAATCTGGGGCTATGCAAGAAATCCTTTT CTGGCAGGTATCTCATTTGAGTTTATAGATTGCAATTATGGAAATGGAAATTTACAATTATATTTATGAACTTCTTCAGC TTCTTTAAAGTGCATTATAAAGAGCATGTAAGTGTTTCTGATGAGGAAATCAAGGGATTGAGTTCTCACATATGCTGGTC CTGTCACTCCTGTGTGATTTTTCTTATCAACATATATTTGTTTTAACGTTTTCATCAGTTTGCATGAGTTCCAATGCAGA AAAACACAGTTTTCGACTCACAAAATGTTCTTTTACTTAATCAAACTTGGCTCTTCGATTAATTAAATGTGATTTTACTT TCATTTCTACTGTAACCTAAACCGCCATTTATTGTTATCATCAATGGTTAGCTAACTTGTATTTACTCCCTGAAGTATAC CCTCCTCTTGAGGGGATCTTTCTGAATTTTAGTGCTTCAGACAATCAGAAAAGGCTGAAAAGCAATGAAAAAAATATTCT CAATTCTGTGTTTCCTGTATACAGGGCCAGACAATGCAAATGATGTATGATGTTGTTGCTGGAGCATTGAAATCAATGCA GCTTAATGATGTGAACCCACAAGATTACCTCAACTTCTATTGCCTCGGTAATCGAGAGCAATTTAATGAAGAAAGCACAA GCTCAAATGGTGCACCGGTAATTTTTTTAGTTATCTATTAATGTTGATGAAGAATTCTTCTTTGTATTGACAACAATGAA TAGTAGCCACGGTAATATCACAAATGAAAAGATGTATTCACTATTCAGAAAGATGATTTTGTTATGCTCTAAGTTTTGAA TTATCTACTGCCAAATACATTGGATGTTTAATTTCATACATTTGGACACATATTGTGGCATCTTCGTATTGAATTTCATT TGTCAATCAGAATATAACAATTTCGGTAAAAAGCCTTGACCATATTATGAGCAAACAAACCTATCTTCTGGTTATCTCTT TAACATGTCTTTAACATGTTCCTTGGGCTTTAGATTAAAATAGCAAGAGATGCAAGTTATGTGGATGTTCACCTGCTCTC ATCTTCAGCTCTTCACTTAAATTTGTTCATACAAAAAAGCTGTTTAGCTTTTGCTTTTACTGTGTTTATGATGGGGTATC CTTGACATATATGCATATTTGCATCCTTCATCTTCAGTTCTTATCTTAAAGCTGCTCATACATAAATGCTGTTTAGCTTT TGCTTTCACTGTTTACGATGTGGTATCCTTGACATTATTTGCATCGTTGAATGGGCTTGGCTACTATACTCGTATAGTGA TCAAGCAATAAAAAATATTTGTTGCTGGATTCATGTTTTGCCAAATGTACACTGTTCTGATTACTGAAAGGAAGATGCTT TTAGTTGATAAATATCATTTTACATTTTTACTACATTTTATATATGTATTTTTCTTTGTTATTCAGATTGTAGAAGATAT TTTCCAAATCTTGAATGCTTATCTTACATGGTAGACACTGATCAATAATAGGCTGTAAATATATTTTATCATGTCAGGTC TCTAGTGCATATAGATGTCGCAGATTTATGATTTATGTGCATGCCAAGGGGATGATCGTTGATGATGAGTATGTTATAGT GGGATCTGCTAATATAAATCAAAGATCTCTGGCTGGTACTAAAGATACTGAGATAGCTATGGGTTCCTATCAACCCCATC ACACATGGTCTGCCAGGAAAAGACATCCACATGGCCAGGTTTTTATTTCTCCATAAGCTTTAATTCTTGCATCAAATTTT CTAATTGAATCTCTCTTTTTGTCCAGCTGCAATTGAGAATGTAACATTGCTACCAGAGCACTAAGGACCTAGAAATTGTA TAATATCCAAAATGACTAAATTTTATAGATTTATCAAATTACTAAATGATTCTGTGCTAAAGCTAACCTGGAAATAACCC TTAACTCATTCTGATTTCTGACTGTGAATGACTTCCTCCCAATTGATTAAATTACTACTAAATGATGTCATAGATAAGTC TGTTTGGAGAAAATTTATTACTGATTATTTGATGCCTTAATGGTAAACTTCTTATCTCTTGTACATACCGTGTGATATTC TTTTATTACATTCAGTTGTTTTTTATTCCTGCAGATTTATGGTTACAGAATGTCACTTTGGAGCGAGCATCTTGGCATGT TAGATGAAACTTTTGAGGAACCAGAGAGATTGGACTGTGTGCGTAAGGTGAATGCAATTGCAGAAGATAATTGGAGAAAG TACGCTTCTGAAGATTTCTCACTACTGCAGGGACATCTTCTTAAGTATCCTGTCCAAGTAGATTCTGATGGGAAGATCAG CTCCCTACCTGACTGCGAGAATTTCCCAGATGCTGGAGGTAGGATATTGGGGGCTCACTCCACAACAATTCCAGATATCC TAACAACATAAGCTCCTGAATTCATGTTGATTGAAGATTGATGAAGGTTGTCATGTGATGTGTTGTTTGCTTCTTCCTGG GGAAGTGCAGTTCGAGTGAAGTGTTTAGTTTTCTGTTCTTAAAATTGATTGTTGAAATCTCTTGTAAATGTTTCAGGCAG TAATGATTCATATTTTTATAGGATCTATCCACTTCAATAGATTGTTTATTGTCCACAGCCCAGCCCTTTACTAGTAGGCC ATAGTTCTCTGCCACTTAATCTTCACTCTTACCTCCAAAAATACAGTAAAATTGTTTAAACCATTTCCCTGGTTTTGTGG AATATTTTGATTCTTTTGCATAGCGAGATTTTACATTTTGAAGTATTATCATTGGTTTTGAGGGAGGTTTTGAACATTCT TAATCTAATGATCTATCCTAACATTGGAGAATTAAAGTTTCTCGAAAATCTTAATATGGGGAATTCCTTTATTTGATATA ATTTTGTTGAATAATATTCACATGAAAGTGACATTTTAGGAATGTTTCTAAAATTTCCTGCTAAAACTTTCCATGAGAAT AGCATCTGAGACAATGATTTTGCATATCTGCGCAACTACAACTGAGCTCAACAACTTCCAAGCAAGACAAAGTTTAAAGC ATGTCGTAACCTATCTTCCACCGGAAGAAAACATAGAGACACAACGTCATCATGGTCTCAGAGAACACCACCTCCCCCCA TTCTATGAATATTCGAAATCCAACTTCCATCCCATTCAGTTTCACTGTACCAAGACCTGGGCTCGTCTAAACTATTGGAA CATTTGAAGCGCAACCCCAT
CDS sequence (LotjaGi2g1v0377200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGGAACCCGGTGCTGACGATAACGCCGACGGCGACGCCAACGGCGGCGTCATTTACCTCCACGGCGACCTCGCCTT AAAAATCATCGAGGCTCGCCAGTTACCCAACATGGACATCTTCTCAGAGCGTTTCCGCCGCTGCGTAACCGCCTGCGACA CCATCAATTGCACCTCCTCCGACCCCGCCGACGGGGGAAATCGCCGCGAACACCGCCACCGCCGGAAGATCATCACCAGC GACCCCTACGTTACGGTCTCAGTGCCGCAGGCCACCGTCGCCCGCACGCGCGTGCTCAAGAACGCCAGTAAGCCCATCTG GAACGAGAGTTTCAACATCCCGCTCGCTCACCCCGTCGTCGACCTGGAGTTTCGCATCAAGGACGATGACGTCTTCGGCG CTGAGACTATGGGCACCGTTAAGATCCCGGCGAAGCAGATCCTCTCCGGTGAGGAGATTTCCGGGTGGTTCCCTCTCATT GGATCATACGGGAAGCCGCCGAAGCCGGACACCGCGCTGCGCATCGAGATGAAGTTCACGCCGGTGGCGGAGAACCCGCT GTACCGGACTGGCATTGCGGCGGATCCAGAGCACAGGGGCGTGAGGGATACTTATTTTCCGGTGAGGAAGGGGAGCTCGG TGAGGTTGTACCAGGACGCACATTGCTCCGATGGGTTTCTGCCGGAGATTCAGCTCGACGGTGGGAAGGTTTACAGGCAC GAGAAGTGCTGGGAAGATATCTGCTATGCTATATCGGAGGCTCATCACTTGGTGTATTTGACGGGTTGGTCAATCTACCA CAAGGTGAAGATTGTGAGGGAACCTTCTAGGCCTTTACCCCGTGGTGGAGATTTGACTCTTGGCGAGTTGCTCAAGTACA AGTCTGAAGAAGGGGTTAGGGTTCTGTTGCTGGTTTGGGATGATAAGACTTCTCACGATAAGCTCTTCTTCAAGTCGGCT GGAGTAATGCAGACTCATGATGAGGAAACTAGGAAGTTTTTCAAACATTCTTCTGTGATGTGTGTTTTGGCGCCTCGGTA CGCCAGCAGCAAGCTGAGCTTCTTGAAGCAACAGGTTGTTGGAACCGTGTTCACGCACCACCAAAAATGTGTTATTGTGG ACACACAGGCCGCTGGTAATAACCGAAAGTTAACTGCTTTTATAGGAGGTCTTGATCTATGTGATGGACGCTATGACACT CCTGAGCATCGGCTTTTTCGTGACCTTGACACTGTATTTTCTGAAGATTTCCACAATCCTACATTTGCTTCTGGAACAAA GGCTCCTAGACAACCGTGGCATGATTTGCACTGCAGAATAGATGGGGCTGCTGCTTATGATGTTCTTATTAATTTTGAGC AGCGATGGAGAAAAGCAACTAAGTGGAAAGAGTTTGCAATTCTTTTCAAACAAACCTCCCAGTGGAACGATGATGCGTTA ATACGTTTGGAACGCATCTCGTGGATTTTAAGTCCTTCCCAACCTTCCTCAAAGAATAAATATACAATTGTTCCGGAGGA TGACCCTGGAGTATGGGTTTCTAGTGAAGATGATCCTGAAAACTGGCATGTTCAGATCTTCCGCTCCATTGACTCAGGAT CCCTGAAAGGATTTCCCAAACGTGTGGATGTTGCTCTAGCTCAGAATCTTATCTGTGCCAAAAATTTGGTTATAGACAAA AGCATTCAAACAGGATACATTCAAGCGATCAGATCTGCTCAGCATTTTATTTATATTGAAAACCAGTACTTTATTGGATC TTCATATGCATGGCCATCGTACAACAACGCAGGGGCTGATAATCTTATCCCAATGGAATTAGCACTGAAAATTGTTAGTA AAATCAGGGCTAAGGAAAGATTTGCTGTATATATTGTTTTACCGATGTGGCCAGAAGGTGATCCTAAATCTGGGGCTATG CAAGAAATCCTTTTCTGGCAGGGCCAGACAATGCAAATGATGTATGATGTTGTTGCTGGAGCATTGAAATCAATGCAGCT TAATGATGTGAACCCACAAGATTACCTCAACTTCTATTGCCTCGGTAATCGAGAGCAATTTAATGAAGAAAGCACAAGCT CAAATGGTGCACCGGTCTCTAGTGCATATAGATGTCGCAGATTTATGATTTATGTGCATGCCAAGGGGATGATCGTTGAT GATGAGTATGTTATAGTGGGATCTGCTAATATAAATCAAAGATCTCTGGCTGGTACTAAAGATACTGAGATAGCTATGGG TTCCTATCAACCCCATCACACATGGTCTGCCAGGAAAAGACATCCACATGGCCAGATTTATGGTTACAGAATGTCACTTT GGAGCGAGCATCTTGGCATGTTAGATGAAACTTTTGAGGAACCAGAGAGATTGGACTGTGTGCGTAAGGTGAATGCAATT GCAGAAGATAATTGGAGAAAGTACGCTTCTGAAGATTTCTCACTACTGCAGGGACATCTTCTTAAGTATCCTGTCCAAGT AGATTCTGATGGGAAGATCAGCTCCCTACCTGACTGCGAGAATTTCCCAGATGCTGGAGGTAGGATATTGGGGGCTCACT CCACAACAATTCCAGATATCCTAACAACATAA
Protein sequence (LotjaGi2g1v0377200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAEPGADDNADGDANGGVIYLHGDLALKIIEARQLPNMDIFSERFRRCVTACDTINCTSSDPADGGNRREHRHRRKIITS DPYVTVSVPQATVARTRVLKNASKPIWNESFNIPLAHPVVDLEFRIKDDDVFGAETMGTVKIPAKQILSGEEISGWFPLI GSYGKPPKPDTALRIEMKFTPVAENPLYRTGIAADPEHRGVRDTYFPVRKGSSVRLYQDAHCSDGFLPEIQLDGGKVYRH EKCWEDICYAISEAHHLVYLTGWSIYHKVKIVREPSRPLPRGGDLTLGELLKYKSEEGVRVLLLVWDDKTSHDKLFFKSA GVMQTHDEETRKFFKHSSVMCVLAPRYASSKLSFLKQQVVGTVFTHHQKCVIVDTQAAGNNRKLTAFIGGLDLCDGRYDT PEHRLFRDLDTVFSEDFHNPTFASGTKAPRQPWHDLHCRIDGAAAYDVLINFEQRWRKATKWKEFAILFKQTSQWNDDAL IRLERISWILSPSQPSSKNKYTIVPEDDPGVWVSSEDDPENWHVQIFRSIDSGSLKGFPKRVDVALAQNLICAKNLVIDK SIQTGYIQAIRSAQHFIYIENQYFIGSSYAWPSYNNAGADNLIPMELALKIVSKIRAKERFAVYIVLPMWPEGDPKSGAM QEILFWQGQTMQMMYDVVAGALKSMQLNDVNPQDYLNFYCLGNREQFNEESTSSNGAPVSSAYRCRRFMIYVHAKGMIVD DEYVIVGSANINQRSLAGTKDTEIAMGSYQPHHTWSARKRHPHGQIYGYRMSLWSEHLGMLDETFEEPERLDCVRKVNAI AEDNWRKYASEDFSLLQGHLLKYPVQVDSDGKISSLPDCENFPDAGGRILGAHSTTIPDILTT
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 |
|---|---|---|---|---|---|---|
| PIRSF | 11 | 863 | 853 | 0.0 | ||
| PANTHER | 16 | 863 | 848 | 0.0 | ||
| PANTHER | 16 | 863 | 848 | 0.0 | – | |
| CDD | 17 | 180 | 164 | 3.7513E-71 | – | |
| SUPERFAMILY | 21 | 182 | 162 | 8.26E-24 | – | |
| Pfam | 23 | 159 | 137 | 1.0E-24 | ||
| SMART | 24 | 156 | 133 | 5.1E-17 | ||
| ProSiteProfiles | 25 | 141 | 117 | 11.788 | ||
| SUPERFAMILY | 204 | 467 | 264 | 8.16E-28 | – | |
| Gene3D | 232 | 479 | 248 | 6.2E-20 | – | |
| Pfam | 362 | 397 | 36 | 4.2E-7 | ||
| ProSiteProfiles | 362 | 397 | 36 | 10.394 | ||
| SMART | 362 | 397 | 36 | 0.15 | ||
| Gene3D | 531 | 754 | 224 | 1.1E-22 | – | |
| SUPERFAMILY | 560 | 789 | 230 | 5.34E-28 | – | |
| Pfam | 567 | 744 | 178 | 1.4E-8 | ||
| ProSiteProfiles | 708 | 735 | 28 | 14.565 | ||
| SMART | 708 | 735 | 28 | 1.2E-8 | ||
| Pfam | 782 | 852 | 71 | 4.7E-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 |
|---|---|---|---|---|
| Molecular function | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
| Molecular function | Phospholipase D activity | Catalysis of the reaction: a phosphatidylcholine + H2O = choline + a phosphatidate. | ||
| Molecular function | Calcium ion binding | Interacting selectively and non-covalently with calcium ions (Ca2+). | ||
| Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. | ||
| Biological process | Phosphatidylcholine metabolic process | The chemical reactions and pathways involving phosphatidylcholines, any of a class of glycerophospholipids in which the phosphatidyl group is esterified to the hydroxyl group of choline. They are important constituents of cell membranes. |
Expression pattern of LotjaGi2g1v0377200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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