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 | LotjaGi6g1v0252900 |
Transcript ID | LotjaGi6g1v0252900.3 |
Related isoforms 2 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Phospholipase D; TAIR: AT3G16785.1 phospholipase D P1; Swiss-Prot: sp|Q9LRZ5|PLDZ1_ARATH Phospholipase D zeta 1; TrEMBL-Plants: tr|A0A0B2QY87|A0A0B2QY87_GLYSO Phospholipase D p1; Found in the gene: LotjaGi6g1v0252900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:56522106..56531128) extracted from Lotus japonicus Gifu genome v1.2.
ATGGTGCAAGATGATGATGACGCTGATGAGGATTCGGTTCCTTTACATACAGATGAAAGTGCTAAAAACAGGTGATCCTC AACATGCAGCTTTGATGGGAGCACTATTATAATTGCAGTATGTTACTCTGGCCTTAATTGACTGTAAGTTGATTTTTTGT ACAGAGATGTTCCATCAAGTGCCGCTCTACCAATTATACGACCGGCTTTAGGACGGCAGCAGTCTATTGCAGACAGGGCA AAGAGTGCAATGCAAGGGTATCTAAATCACTTTTTGGGAAATATCAGTTTAGTTAACTCTCGAGAGGTATGCTTTATGCA CGAGCTTTTGAAAATAGACACCTATCATTTCATAGAAATTATTGCTTTTACACAGTTGTTATTCTCTGTTATGGTTCAAG TATCTCATACACATTGATGTACATAAATGTAAATGTTTGATATTAAGGGGTGGACAAAGTGTAATTTGATTAATTTAACA TATGAAATGAATAAAATGTGCATCGAGATGGGGTTGATCATGCTATTCAACAACAACAACAAAAGCCTTATCCACTTAGT GAGGTCGGCTATATGGATCTGACTATGCCATTGAGCTCAATAAAAAACTAAATTATGAGGGATATTATTGATAATAAGAT CATCTTTAACAATACTTTCCCATGTTCTTTTTTGTCTCCCTCTACCTCTCTTTGCCGGACTAAATTTTGAGACTGCGAGT CTTGCGCGTTGGGCTTCCTTTTGTGTCCTTTAGGCTTGAATTGTAACAAATCATTGTCACTTCTTTTGGCTAATACATGT AACAAATATTATATGATATGGACCTTGGAACTTGAACATACTTTGTTTTCAGTTGAAGTGCATGACCACTATTTATGTTT TGTTATTAGTTTTTTGTTGGATGTATGCTCCTCTCCAATTGACTTTTTGAGTTTGTGTGCTTTCAGTTGATCGCTATACA CTTGTTTTAACAATAAGCAATTTGATGCTCTAGGTTTGCAAGTTTTTGGAAGTATCCATGTTGTCTTTTTCACCTGAATA TGGCCCGAAGCTGAAGGAAGAATATGTAATGGTGAAGCATCTGCCTAAAATTCCAAAAGATGATGATTCCAGAAAGTGTT GTATGTCTAGCTGTTTTAGTTGTTGCAATGACAACTGGCAAAAGGTAAAGAATCCTGTTTTTGAAGCATCTTGGTTTCTC TTGATAAATGTATAAATTAAATATTTTAGTATGTTATATTTATGCACTACTAAGGAAGTCAGATGCAAATATATACTTAA CATATATGATCTCTCGGTGCCATGAGAAATCACTAATACAGTACCTATGGGCTATGGAAACCTATAGTATTGCCTAAAAA AATTCTGATGCATGCTCTCCCTTTCCATATTTTAGATCTGAATGAGAACTTTTAACTTTATTAATTTTAATATACTATCC TTGTTCTGGAAGTTTGTTAATTATATGAGATGTGAATGTGGAAGTGGGCCTATTTTATGAAGTTACAACGGTACTTTTCT CCTTGCTTTTCAATAATAAAAGAAAATAATAAATTGGGTACTTGGGGAAGGTATGAATGGAGACAGATAGGGGAGTTCAC CTTCTGTATTAGATTAGATATATGTTGGGGTCGTTTTTTGTTTTGGTTGGAAAACATTTAGGGAAGTTGGAGGCTATATC ATTCCAATGCTACATGCTGCAAACAGTAGCAGTGTTACTTACCAAATGCCTACTAAGGGGTCATTACTGGCATTGGAACC AAACCTAAGCCTTACTAGCTAATTACTGGATCCTTACTATCTGAAAGCAGCCCCCCATTGCCATTTTAATCATTTACCTG GGCTTTGAATTCTCCAACAATTTGGTATTTTAGGACCTGGAACTTTATTGGTATTATTTTAAGGGAAAATAGCATATACC TTGAACTTTGTGTCTTTTGCAAATAGACACCATGGACTTTTATTTTATCTCAAATAATCTTTAAACTTTTACAGTCTTAC TATTATTTTAATAGATCCTTCTATTAACTTTTTGGTAAGTTGCAAATAGACACCATGGACTTTTAATAGATCCTTCTAGG AAAATAAATTGACATTAAACTTGATACTTTTTGTAAATAAACATTTTAAAATCTCACATCTCACTGTAATTAATCCTTAA ATTCTTACTAATAATGAATAAAAGGATTAATTAGGACAAAATTAAAATTAATGGTGCCCGCAAAGAGTATGAAGTTTAGG GTGGTTGGATGCATTTTCCCCTTATTTTAATTACTTCACAATATCTTTTATTTTATATTCAGTTGAACTTTATAGCTAGC ACTTTCCTTTCTTTTTATGTACAGGTGTGGGCTGTACTAAAACCTGGATTCTTGGCATTGCTGGCAGATCCTTCTGATAC ACAGCCCTTGGACATTATTGTTTTTGATGTACTGCCTGCCTCAGATAGGAATGGGGATGGTCGTCTATCACTAGCAAGCG AAATGAAGGAGCGGAATCCTTTACGCCATTCATTCAAGGTGAAAGGGGTGTTCCTCTATCTATGTTGTTCCTTTACGCCA ATTCTTATTGTCTCTGCATTTTAAAAATCTTGAGTAAGCCTTCAATTCAGTCTTTGAAATTGATCATTGGATGATATCAT TTGATCCCTGTAAACAGTAATTTTTGGACTTCAACATAATAAAACTTCCATTTTGAGGACCAAACTGATGTAATAATCTT TCGAAGACCAAAGTGTTGTTTTCAAGCACCAAAATGAGGGTTATTCTAATATGATACTAGTTATTAGCGGATGTATGGTG ATAGACAAAGAATGATACTTTCTTAACACTTAACTGAATACTTTAGGTTACTTGTGGACTTCGGAGCATTAGAATTAGAG TGAGAAGTAGTAGTAAAGTTAAAGATTGGGTAGCTGCAATTAATGATGCTGGACTCAGGCCTCCTGAAGGCTGGTGTCAT CCTCACCGCTATGGTTCTTTTGCTCCTCCTAGAGGCTTAATTGAAGATGATAGTCAAGCCCAATGGTTTGTGGATGGGCA AGCAGCATTTGATGCGATTGCTTCTTCAATTGAGGATGCAAAATCAGAGGTTTGTCTTTTCAGTCCATAACATTCAAGCC TATTTTCATGATAATTATTTCTTGTCAAAATAAAAGATAATGATTGTTTTCAAGTTATGATAAATGATAGATAGATTCAT GCAGATATTTATCTGTGGATGGTGGCTGTGCCCAGAATTGTATCTACGGCGGCCTTTCCACGCTCACACTTCAGCAAGGC TTGATAATTTGTTGGAAGCAAAAGCCAAGCAAGGGGTTCAGGTAAATGATTGTTCCCTGTTGTTGCGCCTAAATTCGTTT TGTTGTTACAAATCGTCTTGCATTTAATTTTGGTTTTTGGCCCAACATGTGATCTGACTTCAAGCCCATGTAGAAATTGC ATAGTATCATAAATAGCTATTCTGGGGATTACCCATCCTCCCAGAGAATTAATAAGTGTGGTTGAAGTGAATGGAGTTGC TCATATGGACCTGTAAATATGTTTGCGCGTGACCATGCGTCTGACATGAGGGTTTGAACTCTGAGTGACTTGCCCTTGTA ATCTTCATTCATCATAGTGTATGTTTTATGTTATGCCCTAGGAGATTGGCCTATAGTTTGCTGTAGAAACTAGATATAAC AAAGTTAATTTTGTTGTCTCTTTTTCTTCTCCTTATTTTCTATTTGCTCATTTTTTAATCAAACTTTTTAATTTTTAATT TAAAAGTTGAGTCATTGCTATGAATATGAAATGCTCACTTCAAAAATAGGAGTCGAGTTCATGTTATTAATGTATTATTG AAACTTGTTAAAAGAATCTGATGTTTCAATTCATAATGGGGCGCTTTAAAATGTAACTGTACACACATTTATAATGTGTT CCATATGCATGTCAATCTATGGGTTTAGGTTCTTAGAGAGGGTGTGATGGCTTGTTGGGATCTTTCAAATGCATGTTAGA AAAAGTGGCTCCAGAATATGTTTTACTGTCTGTTGAGCCACAACATTTATTGCCGGTACATAAAGCTATAGAATTTAGTA TTTTATAAATATTTCTAATGTCAGAATGGGGAGAACCCACAAGATAAATTAATTTAATTATTTTATTACAATAATTCACC AGTCCTGCAAGCTCTCATTTGTCTTGTATGCCTCCCGGATGATGCATGTTTCAACTTTGAATTGCTTTATTTCCATTGAA GTGTCATGAGTTTGATGAATGTTTTTTTTAATATAGATTTATATTCTGCTCTACAAAGAGGTGGCTCTTGCTTTGAAAAT CAACAGTGTTTATAGCAAGAAAAAGCTTCTTAGCATTCATGAGAATGTGAGGGTATTACGCTATCCTGACCACTTTTCTA CTGGTGTTTACCTGTGGTATGAAATTACCCAAAACATTCTTTTTGATCTTTGGTTTTATGAATAAATTATATATATACAT CTAATCATCTATCGAGGATGTATCTTATGAGAAAGGTGATTTTATGTGAGAACATGAGAATAAATCATGACTATTAGATC TATTCATGAACGGTCCAGATTAAAACATGAAGTCATGACTTTTTTAAGTGATCACACGACTATTAATTTGCTTTAATCTG GACCGTTCATGAATCTAAGGGTCATGATTTATTCTCATGTTCTCACATAAAATCTCCTTTCTCATGAGATACATCCCCTA CATCTATCTATCTATCTATATATAAATTATACTGCACTTCTGTGGTTTCTTACACAGGTCACACCATGAAAAACTTGTCA TTGTTGATCACCATATTTGCTTTATTGGAGGTCTGGATTTATGCTTTGGTCGTTATGACACACCTGAGCATAAAGTGGGG GATTTCCCTCCTGTAATGTGGCCTGGAAAGGACTATTATAACCCAAGGTAAGTTTTGTGAATAGAAAATAAAATCACAAT GAAGCTTTATGTATGGGACTATTTTGCTGTGCTCTGAAATCATTAAAATTGTCATTTTAGTTTTCGGAAAAAAAAATACT TGTTTTAATCTTTCGAAGTGTTTGGCGAAAGAATATAAATACTTTCATGGGACAGTTGATGGCTAGAAACACAAAATCTG CTGTTAAAGAAGCATTTTCTTAAAAAGTTGTTTCTTTCTGATCAATCATTTATCAGCAGTTACTTATAGAGTTGTCTATC AGTTAATTAAACCTATACAATACATTATGTCTTTATCAGTTACTTATAGAGTTGTCTATCAAACCCTTCTTAGAAATTAT ACATAATGGATAATGAATCATCCTCGGGGCCTGGGAGGTGGGACTAGACTTGATAAGATTTTGAATTTGATGTGTAACAT GAGATTAAAACTTACCCATTAGAACCCTAAAAACAATCCTCTATATTAACAATAAATTGAGAATTCCAAACACATTTTGA ATTGGGATAAAATTGTCTCGATAGCCCATGCATTGTCTCTGAATTCTTTTGCGTGTATTAATGTCGATGAATCAATGTTT ACTGATATACAATCCTAAATTATTTCCTAAGATTGCTTGTTATTGATTCTGCCTTATATTCATTATATGTAATAATAAAT ATGTAAGATATTCTAAAGAAAACTATTAGTTGGATTTGCGCTTGGTATGTGTTAAGAATTAAGATATGTCATTCGTCATC ACTTGGTCATATACTCGCCCTATCTCGTTGGACATAATTCATATATTCATTTTCATTTTTGGCAGAGAATCTGAACCAAA TTCATGGGAAGATACTATGAAAGATGAATTGGAACGTGAAAAATATCCTCGTATGCCCTGGCATGATGTTCATTGTGCCC TTTGGGGACCACCTTGTCGTGACATTGCTAGGCACTTTGTTCAGCGATGGAATTATGCAAAGGTTAGACTCTTTCTTCAA TTGCATTGAAGGCTTGATGCATATTGGTCCTATTCCTATATTCATAACAAGAATTTATTTTATTTTTCATACCAGAGGAG CAAAGCCCCAAATGAGCAAGCAATACCATTACTTATGCCTCAGCATCATATGGTTATTCCACATTACTTGGGAAGAAGTA GCGAGATACAGATTGAAAGCAAGAACACTGACAACCAGAGAGTTATCAAGAGAGAAGATTCTTTTTCCTCATCTTCCCAA GATCAAGACATTCCTCTACTTTTGCCTCAAGAGTCTGATGGGTTGACTTCTCCTGAAGGAAACCCTAAACCTAATGGGCT GATCTCCTTTTTACATCACATTGACAAGCCAAGAAAGAATAGCAATGGTCTTCCTTTCTCATTTCGAAAGGACAAAGCTG CAGCAGTTGGTCTAGATACACCAATGAAGGGCTTTGTGGATGATCTTGGTTCTGTGCATTATCATGAAAAAAAGTCTGCG GATAGATTGGGTCATGTTGATTTACAAGATACAGATCGAGAATGGTGGGAAACACAAGAACGGGGTGATCAGGGAGGTTT TGCTGGTGACTCAGGACAAATTGGTCCTCGTGCTTCCTGCCGTTGTCAGGTACATAGTTCGTATTGCTTAACTGACCTAG TTATATAGTCGTGACCAGTCATATTTCACATCTTGTTGGAAAGTTGAATTTAATGAGGATGCATTATATATTTATAATAT CTAATTTATTATGTTCTTTTCTTTTCACTTTTATGCTGTTATTTTTTTTTTTTGAACTGGTCATTGTATTTTCCACCATT AAAATAGTCTTTAATTGATAGGTCATTAGGAGTGTCAGTCAATGGTCTGCTGGAACAAGCCAAAATGAGGAGAGCATCCA CAATGCTTATTGCTCTCTTATTGAGAAAGCTGAATACTTCATCTACATTGAGGTATTAAACAAACTTTATCCTTCAATTT GAATACAGTTTTCGAAAAGTATCTACACTGGAGTCTGGACCTTTCTCTGACTGTTATATTTCGTCCTTGGGAACATGTTC CAGAATCAGTTTTTTATCTCAGGTCTTTCTGGAGATGAGATGATACGCAATCGTGTTTTAGAAGCTTTACATCGACGGAT TATGCGAGCTTACAATGACAAAAAATCTTTCAGAGTTATAGTTGTCATACCTCTCCTGCCTGGCTTCCAGGTTCTAATTA GTCTTGTTTTTCCTATTTCAACCGAGTAAATATTTCTTTTGCTTGAATTTTGGACTTACTTCTCTGTTATATAGGGGGGC CTTGATGATAGTGGTGCAGCATCTGTGAGAGCCATAATGCATTGGCAGTATCGAACTATTTGCAGAGGGCAGAATTCTAT CTTACACAATCTTTACGAACTTCTTGGTTCAAGAATACATGATTATATCTCATTTTACGGCCTGAGGTCTTATGGTAGAC TCTCTGACGGTGGTCCTGTGGCAACCAGCCAGGTATTCTTTTAATCTATGGTCTTTCATAGTTGTTATACTTAAGTAACT GTAGGCAGCTTAATGATATACACTTTTTTGCAGGTGTATGTTCACAGTAAAATCATGATTATTGATGATTGTGTAAGTTT GATTGGATCGGCTAATATTAATGATAGGAGCTTACTTGGTTCCAGAGATTCTGAGGTAAAGTTCTATGCGTTTTCCCTTC TCATGCTGTAAAAGTTTGATTGGAGGTTTGAATGTACGATCCACTCTCGCACACTGTTTCTGATTTGATGATAATTCTCA TTAATGGTAATCTACAATATAGGAGTGGGTTACTTGATAGTTGATATCTAGTTAGCTTTTTGTGTATTTATACATTTTAT TGGAAACTTTGGGGGGAAGACTGCAAAATTTAGATTGGTGTTCGTATTCATATATAACTTCAAATTTCTTTCTCATTATT ATCAGCTGACATTTCTGTGATGTTAACAAATTATATGGAGCTCCTCAAAATAAAATTTGTAATTTTCAACTAACTTGGAT TTCTTATTGCCAACATCCTATTTCTTTCCTTCCAATTTGTGTCTCCTACTTGTTGATTAATCTTTAGGTTATTATTTGCA TACAATAAAAACCCTAGTCCTTTCCCGCTAGGTGGTGTCAATTATTATTTGCAATTTTTAATCATTTTAGAATTTCTATT TAACCTTTTAAGCTATATATTAATGCATATAATTGATTGCATCACCTTCTGTCAATTGTCCCACATATGGTTTTCAGATT GGTGTAGTTATAGAAGACAGAGAGTTAATTGATTCTTATATGGACGGGAAGCCTTGGAAAGCAGGAAAGTTTTCTTTGAC TCTCAGATTATCATTATGGTCTGAGCACCTGGGTCTCCCGGCAGGAGAGGTTGGTTATTTTCCATTCCTTGGAGTGTAGT TGTGCTGTGTGCCTGATATGTAATGACTATTTTAATACCTTCTCTTCAGGTCAATCAAATAATGGACCCAGTTATTGAGT CTACTTACAAGGATATTTGGATGACAGTCGCAAAGGTAATAAGAAAGATAAAATGTTAATATTTAATTGTAATTTAACCT GTAATGATTTTTATATGAATCCTGGTGCTTTAAGTGACATCCTTATAATTTGACTTTTAGATGAATATCTCATTGCATGG AACTTAGTCTTTTGAAAGTAATTATTGCAAGAGTACTGATAATTGTCCTTGTTTACGTTTTACAGACAAATACTGCAATT TATCAGGATGTCTTTTCTTGCGTGCCTAATGATCTGATTCACACCAGGTAAGCTGGTGATAATATTTGTCCGTCTTTAAT GGGTGAATTTTTTGCATTGTTTTGTCCTGACATTTGAAACCTTGCATTTGTTGCAGACTTGCTTTCAGACAAAGCGTGGC TTTTTGGAAAGAAAAAGTTGGTCACACAACCATTGATTTAGGAATAGCCCCAAAAAACTTAGAATCCTACGATGATGGAA ATATCAAGAACACGGATCCCTTGGAGAGATTAACATCAGTTAGGGGTCATCTTGTTTCTTTTCCTTTGGAGTTCATGTGT CAAGAAAGTCTAAGACCTGCTTTTAATGAAAGTGAATACTACGCTACTCAAGTTTTCCACTGA
CDS sequence (LotjaGi6g1v0252900.3) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTGCAAGATGATGATGACGCTGATGAGGATTCGGTTCCTTTACATACAGATGAAAGTGCTAAAAACAGAGATGTTCC ATCAAGTGCCGCTCTACCAATTATACGACCGGCTTTAGGACGGCAGCAGTCTATTGCAGACAGGGCAAAGAGTGCAATGC AAGGGTATCTAAATCACTTTTTGGGAAATATCAGTTTAGTTAACTCTCGAGAGGTTTGCAAGTTTTTGGAAGTATCCATG TTGTCTTTTTCACCTGAATATGGCCCGAAGCTGAAGGAAGAATATGTAATGGTGAAGCATCTGCCTAAAATTCCAAAAGA TGATGATTCCAGAAAGTGTTGTATGTCTAGCTGTTTTAGTTGTTGCAATGACAACTGGCAAAAGGTGTGGGCTGTACTAA AACCTGGATTCTTGGCATTGCTGGCAGATCCTTCTGATACACAGCCCTTGGACATTATTGTTTTTGATGTACTGCCTGCC TCAGATAGGAATGGGGATGGTCGTCTATCACTAGCAAGCGAAATGAAGGAGCGGAATCCTTTACGCCATTCATTCAAGGT TACTTGTGGACTTCGGAGCATTAGAATTAGAGTGAGAAGTAGTAGTAAAGTTAAAGATTGGGTAGCTGCAATTAATGATG CTGGACTCAGGCCTCCTGAAGGCTGGTGTCATCCTCACCGCTATGGTTCTTTTGCTCCTCCTAGAGGCTTAATTGAAGAT GATAGTCAAGCCCAATGGTTTGTGGATGGGCAAGCAGCATTTGATGCGATTGCTTCTTCAATTGAGGATGCAAAATCAGA GATATTTATCTGTGGATGGTGGCTGTGCCCAGAATTGTATCTACGGCGGCCTTTCCACGCTCACACTTCAGCAAGGCTTG ATAATTTGTTGGAAGCAAAAGCCAAGCAAGGGGTTCAGATTTATATTCTGCTCTACAAAGAGGTGGCTCTTGCTTTGAAA ATCAACAGTGTTTATAGCAAGAAAAAGCTTCTTAGCATTCATGAGAATGTGAGGGTATTACGCTATCCTGACCACTTTTC TACTGGTGTTTACCTGTGGTCACACCATGAAAAACTTGTCATTGTTGATCACCATATTTGCTTTATTGGAGGTCTGGATT TATGCTTTGGTCGTTATGACACACCTGAGCATAAAGTGGGGGATTTCCCTCCTGTAATGTGGCCTGGAAAGGACTATTAT AACCCAAGAGAATCTGAACCAAATTCATGGGAAGATACTATGAAAGATGAATTGGAACGTGAAAAATATCCTCGTATGCC CTGGCATGATGTTCATTGTGCCCTTTGGGGACCACCTTGTCGTGACATTGCTAGGCACTTTGTTCAGCGATGGAATTATG CAAAGAGGAGCAAAGCCCCAAATGAGCAAGCAATACCATTACTTATGCCTCAGCATCATATGGTTATTCCACATTACTTG GGAAGAAGTAGCGAGATACAGATTGAAAGCAAGAACACTGACAACCAGAGAGTTATCAAGAGAGAAGATTCTTTTTCCTC ATCTTCCCAAGATCAAGACATTCCTCTACTTTTGCCTCAAGAGTCTGATGGGTTGACTTCTCCTGAAGGAAACCCTAAAC CTAATGGGCTGATCTCCTTTTTACATCACATTGACAAGCCAAGAAAGAATAGCAATGGTCTTCCTTTCTCATTTCGAAAG GACAAAGCTGCAGCAGTTGGTCTAGATACACCAATGAAGGGCTTTGTGGATGATCTTGGTTCTGTGCATTATCATGAAAA AAAGTCTGCGGATAGATTGGGTCATGTTGATTTACAAGATACAGATCGAGAATGGTGGGAAACACAAGAACGGGGTGATC AGGGAGGTTTTGCTGGTGACTCAGGACAAATTGGTCCTCGTGCTTCCTGCCGTTGTCAGGTCATTAGGAGTGTCAGTCAA TGGTCTGCTGGAACAAGCCAAAATGAGGAGAGCATCCACAATGCTTATTGCTCTCTTATTGAGAAAGCTGAATACTTCAT CTACATTGAGAATCAGTTTTTTATCTCAGGTCTTTCTGGAGATGAGATGATACGCAATCGTGTTTTAGAAGCTTTACATC GACGGATTATGCGAGCTTACAATGACAAAAAATCTTTCAGAGTTATAGTTGTCATACCTCTCCTGCCTGGCTTCCAGGGG GGCCTTGATGATAGTGGTGCAGCATCTGTGAGAGCCATAATGCATTGGCAGTATCGAACTATTTGCAGAGGGCAGAATTC TATCTTACACAATCTTTACGAACTTCTTGGTTCAAGAATACATGATTATATCTCATTTTACGGCCTGAGGTCTTATGGTA GACTCTCTGACGGTGGTCCTGTGGCAACCAGCCAGGTGTATGTTCACAGTAAAATCATGATTATTGATGATTGTGTAAGT TTGATTGGATCGGCTAATATTAATGATAGGAGCTTACTTGGTTCCAGAGATTCTGAGATTGGTGTAGTTATAGAAGACAG AGAGTTAATTGATTCTTATATGGACGGGAAGCCTTGGAAAGCAGGAAAGTTTTCTTTGACTCTCAGATTATCATTATGGT CTGAGCACCTGGGTCTCCCGGCAGGAGAGGTCAATCAAATAATGGACCCAGTTATTGAGTCTACTTACAAGGATATTTGG ATGACAGTCGCAAAGACAAATACTGCAATTTATCAGGATGTCTTTTCTTGCGTGCCTAATGATCTGATTCACACCAGACT TGCTTTCAGACAAAGCGTGGCTTTTTGGAAAGAAAAAGTTGGTCACACAACCATTGATTTAGGAATAGCCCCAAAAAACT TAGAATCCTACGATGATGGAAATATCAAGAACACGGATCCCTTGGAGAGATTAACATCAGTTAGGGGTCATCTTGTTTCT TTTCCTTTGGAGTTCATGTGTCAAGAAAGTCTAAGACCTGCTTTTAATGAAAGTGAATACTACGCTACTCAAGTTTTCCA CTGA
Protein sequence (LotjaGi6g1v0252900.3) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVQDDDDADEDSVPLHTDESAKNRDVPSSAALPIIRPALGRQQSIADRAKSAMQGYLNHFLGNISLVNSREVCKFLEVSM LSFSPEYGPKLKEEYVMVKHLPKIPKDDDSRKCCMSSCFSCCNDNWQKVWAVLKPGFLALLADPSDTQPLDIIVFDVLPA SDRNGDGRLSLASEMKERNPLRHSFKVTCGLRSIRIRVRSSSKVKDWVAAINDAGLRPPEGWCHPHRYGSFAPPRGLIED DSQAQWFVDGQAAFDAIASSIEDAKSEIFICGWWLCPELYLRRPFHAHTSARLDNLLEAKAKQGVQIYILLYKEVALALK INSVYSKKKLLSIHENVRVLRYPDHFSTGVYLWSHHEKLVIVDHHICFIGGLDLCFGRYDTPEHKVGDFPPVMWPGKDYY NPRESEPNSWEDTMKDELEREKYPRMPWHDVHCALWGPPCRDIARHFVQRWNYAKRSKAPNEQAIPLLMPQHHMVIPHYL GRSSEIQIESKNTDNQRVIKREDSFSSSSQDQDIPLLLPQESDGLTSPEGNPKPNGLISFLHHIDKPRKNSNGLPFSFRK DKAAAVGLDTPMKGFVDDLGSVHYHEKKSADRLGHVDLQDTDREWWETQERGDQGGFAGDSGQIGPRASCRCQVIRSVSQ WSAGTSQNEESIHNAYCSLIEKAEYFIYIENQFFISGLSGDEMIRNRVLEALHRRIMRAYNDKKSFRVIVVIPLLPGFQG GLDDSGAASVRAIMHWQYRTICRGQNSILHNLYELLGSRIHDYISFYGLRSYGRLSDGGPVATSQVYVHSKIMIIDDCVS LIGSANINDRSLLGSRDSEIGVVIEDRELIDSYMDGKPWKAGKFSLTLRLSLWSEHLGLPAGEVNQIMDPVIESTYKDIW MTVAKTNTAIYQDVFSCVPNDLIHTRLAFRQSVAFWKEKVGHTTIDLGIAPKNLESYDDGNIKNTDPLERLTSVRGHLVS FPLEFMCQESLRPAFNESEYYATQVFH
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 |
---|---|---|---|---|---|---|
MobiDBLite | 1 | 27 | 27 | - | – | |
PIRSF | 4 | 488 | 485 | 7.6E-169 | ||
PANTHER | 27 | 983 | 957 | 0.0 | – | |
PANTHER | 27 | 983 | 957 | 0.0 | ||
CDD | 67 | 214 | 148 | 9.06437E-37 | – | |
SMART | 90 | 218 | 129 | 9.9E-4 | ||
Gene3D | 107 | 215 | 109 | 2.5E-8 | ||
SUPERFAMILY | 122 | 214 | 93 | 2.8E-9 | – | |
SUPERFAMILY | 203 | 470 | 268 | 8.63E-41 | – | |
CDD | 244 | 388 | 145 | 3.80065E-81 | – | |
Pfam | 351 | 378 | 28 | 2.2E-10 | ||
SMART | 351 | 378 | 28 | 2.0E-5 | ||
ProSiteProfiles | 351 | 378 | 28 | 11.879 | ||
PIRSF | 477 | 987 | 511 | 1.7E-168 | ||
MobiDBLite | 502 | 536 | 35 | - | – | |
Gene3D | 625 | 845 | 221 | 3.0E-37 | – | |
SUPERFAMILY | 626 | 835 | 210 | 6.28E-27 | – | |
CDD | 644 | 828 | 185 | 8.11231E-101 | – | |
Pfam | 658 | 833 | 176 | 5.4E-9 | ||
SMART | 784 | 811 | 28 | 4.0E-6 | ||
ProSiteProfiles | 784 | 811 | 28 | 14.534 |
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. | ||
Biological process | Phosphatidic acid biosynthetic process | The chemical reactions and pathways resulting in the formation of phosphatidic acid, any derivative of glycerol phosphate in which both the remaining hydroxyl groups of the glycerol moiety are esterified with fatty acids. | ||
Biological process | Inositol lipid-mediated signaling | A series of molecular signals in which a cell uses an inositol-containing lipid to convert a signal into a response. Inositol lipids include the phosphoinositides (phosphatidylinositol and its phosphorylated derivatives), ceramides containing inositol, and inositol glycolipids. |
Expression pattern of LotjaGi6g1v0252900.3, 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…