Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0384000
Transcript ID	LotjaGi1g1v0384000.2
Related isoforms 4	LotjaGi1g1v0384000.1 LotjaGi1g1v0384000.3 LotjaGi1g1v0384000.4 LotjaGi1g1v0384000.5
Lotus japonicus genome version	Gifu v1.2
Description	Phospholipase D; TAIR: AT3G15730.1 phospholipase D alpha 1; Swiss-Prot: sp\|P86387\|PLDA1_CARPA Phospholipase D alpha 1; TrEMBL-Plants: tr\|G7JB30\|G7JB30_MEDTR Phospholipase D; Found in the gene: LotjaGi1g1v0384000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:86737921..86752441) extracted from Lotus japonicus Gifu genome v1.2.

CGTTAACAACTTTGGTCCCTCCCCTCTTTTCCATCCAAAAACTAACGGTTCTAGGGACCAAAAGTGCAATTAAACTAATA AAAGAAATTTTAAAATAAAAATAAAATAAAAACCCAGAAATATTAGTATTGTTCTTCATCATCATCTTCTTCCTCTTCAA TTTCATCATCTTCAAACCCAAAACCCAGAAAAATCTATGAAACCCCAAATTAAGTAAAACCCAAAATACCCACACTTTTT CCCCTCTATCACCCTGTCTCTCATCATTGAATCACTCTCCATCACCTAACCTTTCGAGATCTGGTCATAGTGTGAGAACG ATCACGAAATCAAAAGTGCTTCCAGTGGATGAGGAATCCAAGAACCCAAAATAAGAGAATGAAGAAACCCCATGATTCCA GAATGTAAAATGATTCATATTTTTTCTAAGAAATTGAAGGGAGAAGAGGAAAAGGAGAAGGAGGTAAAACCCACGTCTTC CTTCATCACTTTCAGACTCGGATTTGCGAGAGGAAAATGAAAGGAGAAGAAGAGGTAAAACCCATGGCTTCAATTCGTCC CTTTCAACGACCCAGATATGTTTGATTCCAGATATGGTGGCGGTAGTTTGATTCCAGATATGTTTTCTTTCTTTGGAAAT TTTTTATCCTGTCATTTTTCCATCCAGATCTGTTATTATATCTCCTATCCTTCCAGATTTGTTTGATTTCATATTCCAAA TTGCATCTGTTGTTCTAGATATGCTGCAAAGAAATTACATGTTATGAGTTTTTAATTTGCAAGATTGAAATCTGCAACAA ATAAATTACATGAAATGTTCTGAAAAGATTCAAAGTTTTCCATGGAATGAAGATGATGAAATTGAAGAGGAAGAAGATAA AGAAAGATAAAGAACAATATTCATGTTTTATGAGTTTTAATTTTAATATTTAATTTTTAATTCTTTTTTAGGAGAGAGAA ACGTTTGAAAACTAACGGAATAGAGGGTCCGGACTAAAGTTGCTAACGGAGCATAACGTGGGGGACGCTCCATGCAATAA AATTTTGTTGGGGACCGGAATCGTGCCTTTTGTAATCGTGGGGGACCAAAAGTGCAATTAAGCCTTTTAAGAACTAAGGA GTCCATGTCAGCACCTCCAGTGGTAAAGTTTTTAGTTCTTAGTTCTTAACTCCAAAATAAGAACTAAGAACCTTGCATTG GAGATGCTCTTAGCGTGTTTAACATGTGGCCAGTTACTTCTCGACCAGTTGACCCTTAATAATATTTATGTTTAGTTTCA AAAAAAAATGTGACTAGTTACTTTCAAAAAAAAATACATGTGACTAGTTAATTTGAGAATACATTTAGATTATTTTAATA TTTTATAGGTTTTTTAATTTTTATTGAGCGGCAATATGCCGCTAGCATTTTAGCTCGTGGGCTAAGCGAGGTAGACCTCA TAAAACGTCGATCGATTTATAATGCGTGCTTTTACACCTCGATCCATTAAACCTCGGGCCTAGCTAAGTAAGGCTCAGAC TTAAGTGGATCGAACTAATTCAATACTCAACTCTTTTTTTTTTGATGGAAAATGCAACTTCATTAGATAATAACTGAAAA TACATCTGCTAAAAGCACAGTTTGGATTTGAGTAGGAAAGTTCTCCCACCAACAATGGTTTGGATACTCCGCCGCAAAGC GACGCTAAAATATGGGCTACTTTATTGGCATCCCGCTTAACATGTTGCAGTTTAAAAGTAGGGATATGAGCTGCAAGCAT CGGACAATCTTGAATAATTGGTTCCAGCGTAGGTCGTCCCTTTCCATTATTGAAAGAATTCACCACTGTTAGGGCATCAG ACTCAACAACTACTGTGTCTAGCTCCAAAGCCTGAATTCGTGCAAGTGCCCACCTTAGAGTTGTCGTTTCTGCCATAGCT GGTTCCAACCGGTGTTCTAGAATGGCTGTCTCTACTCAACTCTACTAACACACATAAGCGACAATTATGCGATTTTTCTG TTAAGTGATAATATTGTTCGTATTTAAAATATGAAAATAATAAATCTTATGTTTTCAAAATGACTTGAGGTTATCAAACT AGTCGAGGGAGTCAATTTGGGATGGCCAACAATGGACAAGCATATTTTCAAGCCGATTTGGCCCGAACTAAAATTGATGC AGGCTACTAATTTACAAGTCCAGCCAGCCCGTGCCCCACGAGCTAGCTCATGGGCCATTAATTTTTAAAACTTCACTTGA AAATATATTTTTTTTAAGTTTAAGGTAAAAAAGCATTTTTTTCTACGAAATATTTAAAAATAGGTATGAGGATGTATAGG ACGCTACACATTAATCCTAGCAAGCAATGGTAACTTGGGTTATGGACAAGCCACATATCTTTGCAAAACAGGCTCCTAGT CCATTCCAAGTAAGCAAGTGCTCCCTTCAAGCCAAGGAGAAGGAGGGAATCAAATCTAGTTATTGTTCTCCCAAGACACT TCTCTTTCTTCAAACTAAATACTCCTAGATTCCCTCTCCATGTCTCTTTATACATAACTATCAGCTTGAATGTAACCTTT AATTGTTTCCATGCATTTACATTTCCAGAGAAGAAAAAATTCCCATTTTTATCAGCCATCTCCATTAGTCTTTTACATTT TGTGAAAATTGGAATATTATTTGTTATGATACTGATCATAGCATAGGATGCAGGGGAGAAGTATATATAAAATGCAACAC AACAAAATGCCTCAGCTGCTACATGGGAAGCTTAAGGTAACCATATTTGAAGTTGATAGGCTGCAAGCTGGATGTAATTT GGAATTCTTGCGGAAGGTATCTCCATTAAATCTCTCTCTTGTTCAATCAATCATTAAGGGAAAAAAGGAGCAAAAGAAAC TTTTAATGATGAAATGGAATGATGTGCTTGACACATTACTAAAGGAGTTAAAGATGATTTTCAAATTAGGATATATGTTT GAAAATGATGATTCTGTAATTATCTGAATATCAAATTTTAGTCCCCTTTAGTTTCTCAACTTTTTAATTATTGCACATCA AGTCACTCTATCATTACTATTACTATTCTATTCAAAATCATTACAATCTTGTTTTTTAAGAAAAATATTCTCACATTGAA TAAGAGGGTGACCGGTACCAGATGTTTATACGAAAAAATATAACCATTGTATACCTTATTCATATCAAAACTCACTAATC AAAACATTAATTAAAAAAAACCTCGATTTCACACCTCTTTAAATCATAATGCCATATACTAAAAAATCCTTCAAAATTTT AATAACATTTCACTAAATTTTAACTTTTAAATTTTAAAACTACATCATACATCATATCCATCATAACTCTAAATTATTTG GAAATAAAATGAGCACTTAATGATTTTATGCATGTGCAAATTGAGAGAGACCAAATTTGCTTAATTTTTTTCTTTCAAGT TTTTCTTTGCTTAATTTTAGAAAATAAAGAGAATTGATTAGCTCAAAAAAATGTACAAGACCAAATTCACACGGTCTAAA CTAAAAGGACCAAAAATTAAATTAAGCCATAAATATATAATGAAAGAATATACTCGTATTTGACTTTATAATTGCTTTAC CTATGGGTTAATTATTTGTGTGATTTCAAAGTTAGTCATTATATTACTTAGAAAAACCACTCTTCAAGTAAACTTATCCA AAAATATATACTTTCATAAAAATCCAACTTATTTCACATTATTTCTTTGCAACATTGCATGTGTGGATATTAGATACACA ATAGAAAAACACGGAGAGTCAAAATCATGGTAGATAGAAGCAACTTCTTTTAGCTTTTGTTGTTGTTTACCATAATTTTT AGTTTACCTTATTTTAGTTTTTCATTGTGTATCCAAATATGCACTCAAATGCTTTATTGCATCCCTTACGTTTTAATTTG AAGAGAAATTAACGCTCTTTTCAATCTGCCTTTTCATTTTCTTCTATTTTTTTTTTTTTGAGTAAAGGGCACAACACAAA AGGGGAAGAGACTTCTAGCCCAAGTTAAGGGTTGTCTGCTGTGCCGACCTGAGGTATGTTAACTAACTTTTCCACCTTTC TGCACTTCAATTTTTTTCACTTTTGCAGGAAACATGCTTCATTTTCTATACATAAACATATGTGAAAAAAAAATTCTTAT TAGTCATAACATGTACAAACTTCATGAAGATTGTTGGTACAAGACTATATGCAACAGTGGATTTAGACAAAGCAAGGGTT AGAAGGACCAGAATGATAGGAAACCAACCCTCCAACCCCAAGTGGAAGGAGAGCTTTGAAATATATTGTGCTCATCATAT CTCAAACATTATATTCACTGTAAAAGATGATAATCCAATTGGAGCAACTCTAATTGGAAGAGCTTACATCCCTGTTGAGC AAGTCATCAAGACCCCTATAATTAACAGATGGGTTGAGATACTAGATGAAGAAGATCATCGCCCTGTCCCTGGTGGCTCC AAAATTCGTGTCAGTGTGCAATTCTCTAGTGTCACCGAGGACAATGCATGTCTATGGTCCCAAGGAATACATGTGCCATT TTCAGGTGTTCCTCGTACATTTTTCAACCAAAGACAAGGTTGCAGTCTCACTTTGTACCAAGATGCCCATGTCCCTGATG GTTCCACCCCATGGATTCCTATATCAGGAACAAAATATTACGTGCCTGCAAGATGTTGGGAGGACATTTACAGTGCAATC ATGGATGCTAAGCACTTTATTTACATAGCAGGGTGGTCAGTTTACACTGAAATAAACTTGGTTAGAGACCCAAAGAATTT AGGTTCAGAAAGCGTCATCACCCTTGGGGAACTTCTCAAAATGAAAGCTGATGGTGGTGTTAATGTTCTCATGCTTGTTT GGGATGACAGAACCTCTGTTCCAGATTTCAAGAAAGATGGCTTGATGGCAACCCATGATCAGGAAACTGCACAGTACTTT AGGAACACAAAGGTTCATTGTGTGTTGTGCCCACGTAACCCAGATAATGGAAGAAGCATTGTTCAAGGTCTTCAAATCTC AACAATGTTCACTCATCACCAAAAGACTATAGTTCTTGACAGTCAAGTTACAGGATTAGAGAAGCGAAGTGTGACAAGTT TTATAGGTGGACTTGATCTTTGTGATGGGAGATATGATACCCGTGAACATCCTTTGTTCTCAACTCTGAACACAGTCCAT CATGCTGATTTCCATCAACCAAATTTCCCAGGAGCTTCCATTAAGAAAGGTGGTCCAAGAGAGCCATGGCATGACATTCA TTGCAAGCTGGAAGGGCCTATTGCATGGGATGTGTTGTTCAATTTTGAGCAAAGGTGGGAAAAGCAAGTGGGGAAGCAAT TCTTGATGTCAATTGATGAGCTTGATCGATTTCTGGTGCATCCATCTGATGCAATGGTATCAGAAGAGGATAAGGACACA TGGAGTGTTCAGTTGTTCAGATCCATTGATGGGGGTGCTGTTTCTAGCTTCCCCCAAGCCCCAGATGAAGTTGCTGAATT CGGCCTCATTAGTGGCAAGGATAATGTCATTGACAGAAGCATTCAGGATGCATACATAAATGCTATTCGACGAGCAAAGA AATTCATCTACATTGAAAATCAATATTTCCTAGGGAGTTCATATGGTTGGAAAAGTTCTGATATCAAAGTTGAGGATATC AATGCTTTGCATCTGATACCAAAGGAGTTGTCATTGAAGATTGTGAGCAAGATTGAAGCAGGGGAAAGGTTTGTTGTGTA TGTAGTGATCCCAATGTGGCCAGAAGGTATGCCTGAAAGTGCTTCAGTTCAGGCAATACTAGATTGGCAAAGGAGGACCA TGGAGATGATGTATTCTGACATTGCTGATGCCATCAAGAAGAAGAATATTGAAGCACACCCCAGAGATTATTTGACATTC TTTTGCCTTGGCAAGAGGGAGAGTAAGATAGAAGGAGAATACACTCCTCCAGAGGAACCAGAGCCTGACAGTGACTACCG AAGAGCACAAAATGCTAGGAGGTTCATGATCTATGTTCATTCCAAGATGATGATAGGTAAGAGATCATTACTTCTATAAA TCATATGTTCTTGCTCGTACAAATTAAGTGTATTTAATTTCATGCAAATTAGGGATATGTAGTTTCCTAGTTTTGATTAA ATATAAGCACACATGTGAGTCCAAAACCCATAAGTTAGTACACATTATTTATAAGCACACATGTGAGTCCAAAACCCATA AATTAGTATTTTCACTTTCTTGTTAAGGGAATGTAAGCAAGATTACTCAAAGAGATAATCAAACACACTCTTAGACATAA ATTTAGCTAAAAAAAGTTAGTCCTATGTTAATTATACACATGGCTAATGTAATTCTCATAAAAAGTATAAGAATCCTAAT ATTTAAACTAAATTTAGGGTAAATTTGTACCTGAATTCTAAAATAGTATCAAAGTTTATTCTAATCCTACCGAAGAGTGT CTTGAAGCTCTGCATTGACAAAAATAATAATTTAGAGGTAGACTAATTTATGAGTTCTAACATAAGTTAATCAAAATAAA CTCAAAATAATTTTCACTTATATCGCTAATGTCAAGTTGAGCATTAATTGAACCCTAACATTGGTGAATTGCTTTGTTGT TTCAGTGGATGATGAATACATCATCATCGGTTCCGCCAACATCAACCAAAGATCAATGGATGGTGGAAGAGATACAGAGA TAGCAATGGGAGCATTCCAACCGCATCATCTAGCATCAAACGGTCCACAAAGGCCACAAGGCCAGATTTACGGGTTTCGG CGAGCATTGTGGTACGAGCATATTGGGTATGCTCACGATGTGTTCGACGAGCCTGAGAGTGAGGAATGTGTGAAACTAGT GAATCGCATTGCTGAGACGAATTGGGAATTATACACGAAGGACACGGTTGATGAAAGTGTAGCATCGGTTCACATTTTAC GATATCCTGTAGAAATTGCTGAAGATGGAACCATAACGACACCGCCAGGACATGAATTTTTTCCTGACACCAAGGCTCGT ATTCTTGGTGCAAAATCTGATTACCTTCCTCCAATTCTTACAACTTAACTAACACATTGTGAATATAAACTCGAAATTAT GTGATGGCCAAAAATAAAAATAAAAATAAACTTGAAATTCTGCTCTATTCGTAATGAATACTCTTACTATATTTTCTCTT TCAAAAAGAAAACTCTTACTATATTTTGAAGACTAATTCTCTTGATATCGTTTTACTTGCTAAATATAAAGAATATAATA GTTTTAAATAGATTTGAGTTATTTGTATAAATATTTTTTGAAATAAAACATTGTATAAAAATTCAAAATTTGCTTGATAG AATAGTTTTCTTTCATGTTTAAGTGCATTGATATTCAACTATTATGTGTTTAGCAAAAAGAAAATGTGAACTATTATGTA TAAGTTTGGGCCAAATTTAGAGTAACATTGAATTTATATATATTTTTATTCGGCTGAAATGTATTTTTAACGAAATGGGC TTCTATGCCTGAGATTCTATTAATTATTGTGTTGGGCTATTCCAAATTTTTATGGCCCAGAAAGAATTTCGTTCGTAAAA AATAAAATAATAAAGTGGAGATGCGGGGTATCGATCCCCGTACCTCTCGCATGCTAAGCGAGCGCTCTACCATCTGAGCT ACATCCCCATTTGATGATATACCTTTGTTATTTGCATACTTATCTTAGTTTTTTTTTTATATTTTTGGTCTTTTTTGTTG GTCAGAGTATTGGGTTGTTCTGATAGTTTTTTTTTGTTTATTGGGCTTCAACTCATTGATGCCTAACAAAATTGTAATAC CGAGTGAAAAATAAAATACTAACAAATAACATTTTAAAGATTTGTAATGATATCCTACCACTAACAAAGTGTTGGTTTGT GGGAGGGAAATGAGTTTAGTGCGAGGGAAATTAAACTCTCGTAAAGATGAAAACATAATTTTGAAAGTATGGAAAAACAT ATGTTAGGAGGAACATGCAACTATTTTCCGAATGATGACGACATCCATTTTTAAATATTTAATTTTATAAGTGACTAATT CGTTATTAAAACTCAGATACAATAAAAATTGGCAGGAATTTTATTGAAACCAAACTTGAAATAGAAAATGTAATTAGAAT TAGAAATTTTGGGAAAGGAAGAATAACGGGGAGATTATAATTATAAGTTGATTTTTTAAGTAGTTCATGTCTGATCCATC ATCCATTGTTTTTTCTCGATATAATTATTTTTTAACTGATGATCTTGAATCAACGGTTAGTGTAGTAGTCTGAAAAATTG CTCCCCCCTATAACTTCTATCGGAATAATAACCGTGTCCTCCAATTTTTATAAAAAAACAACAACCATGTTACGTGAATC ACCCACATCCATTTTTCGTAATGGTAAAAAACTGTTGTAAAAGTGAGTATTGATGGATGTCACTACTATTTGGCGGTTCA CCCATATTTTCCTAATTAACAACCATATGTGCTTGTGGAAAGCTACACTAAATTCTTCCTATATGGATGCAGTAATTCAT GACTATCTCAAGGATTATGCCTATTTTGAGTCATTTCTGTTGAAGTTTGTTCCTATAGTAGGTAATTATGTAGCTAATTA TTTGCCAAAGCTAGCTAATAAAAAGCTCATTTTGATGGGCTTATAGATATTGGAACTTATGGACATTGGGCCTTATGCAA TTTATCTTTTTATTGTTTATAGTTTTATGAATCTAGCTTTAGTTTTCATACTCTTATTAAGTGTCAAGCTGGTAGAGAGA AACTCTATCAAGTAAAATTAAAGGAAGAAAATCAAAAGAAAACTAAGAAAAGAAGATAAAATAAAACTTTGTCAATTTTC TTATTATCCATTTCAACAGCAAAAGATACAATTTATAGCTAAAGCTTAATTTTCTAGATGACCAACAAGTGACATCATCC TAATAAAGGGAATATACTAGAAGTTTGACATCTAATAAGAGTATGAAAACTAAAACTAGATTAATAAAACTATAAACACT AAAAAGACAAACTTCATGAGACCCAATGTCCATAAGGTCCAATATCTATAAGCTCATCGGTATGAGCCATCTACTACAAG CTTATAGTATATACCCTCTGTTAGGATGATGTCACTTATTGGTCATCTGGAGAATTAACCTTTACCTATAAATTGTATCT TTTGTTGTTGAAATGGATAACAAGAAAATTGATCAAGTCTTTCTTTTCTATCTTGTTCTTATCTTTTCTTAGTTTAGATT TTAGATTTCTTAATGTTTATCTTTAATATGAATTAGCTTCCAATCACTAGCCTTTAGTACCCAAGTGGAGTTTGCATTGA GGATTATCCTCCAGAGATATTAGCTCTCTTTTGGTTTCTGATGTATCTCGTTCTATTGATTAATCTATGAATTGGATTCC CGTTGAAAAAAAACCATGTGTTGCCTATGTCTGTTAAAGTAGCAGTTAAAAATTATAATTAACCACTGAGAATTATTGCC AATACCAAGTGTAATGGAGAAATTAGGCCAGCATGCCTTGTCAAAACAGTGTGCTAAAGCATTCCTTCAAATGATTTTAA CAATTAATAATGATTCTAGTTCTAATTAATATTCTCCATACAAATATCTCTTCCTTCATAGTTGTCATCCTTATAAAGCA GAAACATAGTAAGACTTTTTAGGCATGAACAAAACTGAAATAGAAACTTAGGCTTCTCTAGCTTAATAACATCTCTTGCT TGCAAGTTAGGGGGGGAACTGATTCAAACTTGGGAAGAGCACAAAAGAATCTCTCTTTGAAATTTATGTTTATACATCTC TTGCTTGAGATTCAAGACAAAATATGGATCAGATTCTCCCTCTTCTTCCCCCATCTACAGTTATAAATGTTCCATTTCAA ATCAAGGCCTTCATCATAATTCATAAGGACGCTACCGTCATCAGCATTTTCCCTTCGAACCTTTATGCATTTCCATGTAA GAGCACTTAATTACTACATGAAGTTTCCCATTTTCATGCCATTGATTCTAGTTAATATTCCATAAAATCTGCTGCATAAA ATGGATGTGTTGTATAAACTTAAACCTATATATAACACTTCTTTTCACAGCACATATAGGGAGAAAGATAGAATAACATA ATGTCACATTTGCTTCATGGGAGGCTCGATGTTATTATATATGAGGTCGATACATTACAAACTCTTAATCGGTGCATGTT CAATATCTGCAACAAGGTGCCTTAACTTAATTGAAAATCTTTGTCTCTTCAATTTGAACTCTACTTGGTATCTGAACTCT TATTATGTTTTTGTTCATTCATATCTTCAATTTTTGTAAACAAGGGTCCAAGTTCCGGCACGGGGAAGAAATTTTTATCC CAACTGAAAAGTTGTTTGCTATGCCAATACCAATGCCAACCTGAGGTATCTTTAATTCTTGACATGAGTTTGTAGCTATT TCACATTTTATTTTATTTTCTTATTGACAAGTTTATTGCATGTTTGAAAACGCGGTAGAAAACTATAATGAATTATATGG TGGATAGAAGCAATTTCATTTACTTCATATTTGGAAGTCAAAATGATAGTGGATAGAAGCAATTTTACTCGGTTCATGTT TGAAAACTCATTCGAAAGACATGGTGCAATCAAAATAATTGTGGATAGAGGCAAAAACCGAGGGAAATTGCTTCTATCAA CTATCATTTTGACGACATGACTTTTTGAATGAGTTTCCACACCTGCATAAGATGTGTTTGGAAAGATAACCTAATTAAGG GCTAATGACCATAAGCACTTATCGCATGACGCATAAACGCTTATTGATAAACAAATCTTAGAAATTTGTTAAAATAAGTT GAAAATATGCTAAATAAGCATAAACTTCTATTCATAAGCTACTATGAACAACTTATGAAAATAAAACTTATAGGTACACT TGCATGAACATTTATGTTATAAAATAAACTCAAATAAACTCTTTCAACCGAAACCTTAGCTTAAGTGAGCTGTTCACCCT AATTTTGACTTCTTTTTCCACCAATCATGCACTAATTCCATGTAATATGTAATGTAAGCAACATGTACATGTGAAATTTC TTTTAAAGTACTAATTCTCAACCATTAAAAACATTTCACAGATTACTGGAATAGGTCTCTATGCAACAGTTGATTTGGAT AAAGCAAGAGTTGCAAGGACTAGAGTAATAACAAATCAAACCTCCAGCCCCAAATGGAATGAGACCTTTCACATATACTC TGCCCATTCAATTTCCAACATCATATTCACTGTCAAACAAGCCAACCCTGTGAGTGCAACTCTAATTGGCAGAGCCTATG TCCCTGTTGATCAACTTCTGCAGGGGAACATAGTGGATAAATGGGTTAAGATTCTAGATGTGAATCATAATCCCCTCCAA GGTGGCCCTGAAATCCATGTCAGAATACAGTTTTTTGATGTAAAAAATGATGCAAACTGGTCTCAAGGACTAAGAACACC ACAATTTCAAGGAGTTCCCCACACTTTCTTCAATCAAAAACAGGGTTGCAGAGTTACCCTGTACCATGATGCCCATGTTC TTCATGGCTCTGTGCCGTGGATTCCATTGTACAAATCGAAATACTATGTTGCTGGGAAATGCTGGGAGGATATTTACAAT GCAATTGTTGATGCTAAGTACTTTATCTACATAACTGGTTGGTCTGTGTACACTGAAATCACCTTGATCAGAGACTCAGA AAATAGAGACTCAGAAAAAAGCATCACACTTGGGAAGCTGCTAAAGAAGAAAGCTGATGAAGGTGTCACTGTTCTCATGC TTGTTTGGGATGACAGAACCTCTGTTCCTGATTTCAAGAAAGATGGTTTGATGGCAACCCATGATCAGGAAACTGCAGTG TATTTCCGAAACACAAAGGTGCATTGTGTTCTGTGCCCGCGTGATCCTGGTAATGGAAGAAGCATAGTTCAAGGGTTTGA AATCTCAACCATGTTCACTCATCACCAGAAGAGTGTAATTCTTGACAGCCATTTTCAAGGATCAGAGAAGCGAACCGTTA CTAGTTTTGTTGGTGGGATTGATCTCTGTGATGGGAGATATGACACACAAGAACATCCTCTATTTTCATCTCTGAAAACT GAGCATCATGATGATTTCCACCAGCCAAATTTCCCAGGGGCTTCCATTAACAAAGGAGGTCCAAGAGAGCCATGGCATGA TATTCACTGCAAATTGGAAGGACCAATTGCATTTGATGTGTTGTGTAATTTTGAGCAAAGGTGGGATAAGCAAGTTGGAA GGAAGCAATTTTTACTCTCTTCAAGCTTTTTTGATAAGTATCTTGTAGATAAATCCACTGCAGTAGAGAGAGATGAAAAT GAGAAATGGAATGTTCAGTTGTTCAGGTCAATTGATGGTGGTGCTGCTTCTGGTTTCCCACAAGAACCAGAGGAAGCTTC TGAAAAGGGTCTTGTCAGTGGCAAAGATAACATCATTGATAGAAGCATTCAAGACGCATACATAAATGCTATAAGAAGAG CAAAGAACTTCATCTACATTGAAAATCAGTATTTCCTAGGGAGTTCATATGGTTGGAAATCATCTGATATCAAAGTTGAG GATATCAATGCTTTGCATCTTATACCAAAGGAGCTTTCACTGAAGATTGTGAGTAAGATTGAAGCTGGAGAGAGGTTTGC TGTTTACATTGTGATACCAATGTGGCCAGAAGGTGTGCCTGAGAGTGGTTCAGTTCAAGCAATATTGGATTGGCAGAGGA GGACAATGGAGATGATGTATTCTGATATAGCTGAAGCCATTAGGAGAAAGGGAATTAGAGCTAATCCAAGAGATTACTTG ACATTTTTCTGCCTTGGAAACCGTGAGGGTAAGAAAGATGATGAGCTTACTCCTACAGAGGCACCAGAGCCAGGCAGTGA TTATAGTAGAGCACAAAAGTCCAGAAGATTCATGATCTATGTTCATTCCAAGATGATGATAGGTAAGAGTTTCAAAATAC TTATTTCTTCAAACACTTAAATGTTCCGAAACACATTAGAAAATCATTTCACTGTGATTTTATACCATGAATCTAAATAT GCACTTAAAGAAGTTTTTAGTGTCAATTAAATGGTCTGATTTATTTTGGTCCTTATTATCTAGTCTTTACAGGTTTGATT ATTACTTTGACATATAGTTTTGGTTTCGATATGCGCCTTTTAATATCTCAATATTAATTGGTGATATGACTAACACAGTG ATCACCAATGTCATGTGTCTAGAGTAATCATTCGTGACATATTTCGCTTGCAAATGAGATGAATGGCTAGTTTTTTTTTA TAGAAAAGAAATTATACTCTATGAAAATATATCATTTCTTGATCTCTAAGAAATTTGTTGTTAAAAGTGCTAGCTATTAT ATTTGATTTGGCAACAACATAAGTCATATAACCAGTTAATTGTGGAATATTTATAAACCAGGAGCGAAGTTATTTGTAAA AGTAAGAGAACAAACCCTACTAGTTAGTCGGTATGGACCAAAACCCCAAGTTTGAGTATAAGATGAGAGACTAAAAATTT ATTTAAGCATTTTTATGATATTAAAATGTCTATGATCTTCTATAATTACATTTGTGTGGCACTTTTGAATCATTTGTATT ATGTTCTTTTCACATTTGGTAAAGAGCTAACAAATTGTGGTAACTTTTGCTTCCATTTCAGTGGATGATGAGTACATAAT CATTGGTTCTGCCAACATAAACCAGAGATCAATGGATGGTGGAAGAGATACAGAGATTGCAATGGGTGCATTCCAACCAC GCCATGCCACATACAATGGTCCCCCAAGAGGACAAATCTATGGATTCAGGCGTGCACTATGGTTTGAGCACCTTGGTGAT CTTGGTGACACAAGCATCTTTAACAATCCAGAAAGCTTGAACTGCATCAATCTTGTGAATCGCCTTGCTGAGAACAACTG GGACATTTACTCAAAGGAAACATTTGATGAATTCAGAGCATTTCACCACCTCATGCGTTACCCCATAGAAGTGACCAACA ATGGAGCCATAAAAACATTTCCAGGGCTTGAATATTTTCCAGATACAAAGGCTCGGATTCTGGGTTCCAAATCAGAGTAC CTTCCTCCAATTCTCACCACCTAGCCACTATCCTAAGTACTCCAGCTTATCATGAGACAGAGTTTAGAAAGTTGAACCAT GTAATTGAATTGCTTAATTATTTGGAGGAGAGTAGATGCAATAACTTGATTATATATTGATGTAAATCATTACTATTACC ATTTGTTATATAAGGCCATGTTTTAAATTGAATAATTAAGGGTGTACATATAGAATTTGCCCAGACCCTTCCAACACATT ACACACACATTAAGACAGATGTTTGGGAAGGTTAAAAACCATCATTAATGTATATGTCATTAGGAGGCTTTGAGTAAAAG TATAAAAATAAGAAAATAGCATATTTTGCAACACTTTTTTT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0384000.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCAGGGGAGAAGTATATATAAAATGCAACACAACAAAATGCCTCAGCTGCTACATGGGAAGCTTAAGGTAACCATATT TGAAGTTGATAGGCTGCAAGCTGGATGTAATTTGGAATTCTTGCGGAAGGGCACAACACAAAAGGGGAAGAGACTTCTAG CCCAAGTTAAGGGTTGTCTGCTGTGCCGACCTGAGATTGTTGGTACAAGACTATATGCAACAGTGGATTTAGACAAAGCA AGGGTTAGAAGGACCAGAATGATAGGAAACCAACCCTCCAACCCCAAGTGGAAGGAGAGCTTTGAAATATATTGTGCTCA TCATATCTCAAACATTATATTCACTGTAAAAGATGATAATCCAATTGGAGCAACTCTAATTGGAAGAGCTTACATCCCTG TTGAGCAAGTCATCAAGACCCCTATAATTAACAGATGGGTTGAGATACTAGATGAAGAAGATCATCGCCCTGTCCCTGGT GGCTCCAAAATTCGTGTCAGTGTGCAATTCTCTAGTGTCACCGAGGACAATGCATGTCTATGGTCCCAAGGAATACATGT GCCATTTTCAGGTGTTCCTCGTACATTTTTCAACCAAAGACAAGGTTGCAGTCTCACTTTGTACCAAGATGCCCATGTCC CTGATGGTTCCACCCCATGGATTCCTATATCAGGAACAAAATATTACGTGCCTGCAAGATGTTGGGAGGACATTTACAGT GCAATCATGGATGCTAAGCACTTTATTTACATAGCAGGGTGGTCAGTTTACACTGAAATAAACTTGGTTAGAGACCCAAA GAATTTAGGTTCAGAAAGCGTCATCACCCTTGGGGAACTTCTCAAAATGAAAGCTGATGGTGGTGTTAATGTTCTCATGC TTGTTTGGGATGACAGAACCTCTGTTCCAGATTTCAAGAAAGATGGCTTGATGGCAACCCATGATCAGGAAACTGCACAG TACTTTAGGAACACAAAGGTTCATTGTGTGTTGTGCCCACGTAACCCAGATAATGGAAGAAGCATTGTTCAAGGTCTTCA AATCTCAACAATGTTCACTCATCACCAAAAGACTATAGTTCTTGACAGTCAAGTTACAGGATTAGAGAAGCGAAGTGTGA CAAGTTTTATAGGTGGACTTGATCTTTGTGATGGGAGATATGATACCCGTGAACATCCTTTGTTCTCAACTCTGAACACA GTCCATCATGCTGATTTCCATCAACCAAATTTCCCAGGAGCTTCCATTAAGAAAGGTGGTCCAAGAGAGCCATGGCATGA CATTCATTGCAAGCTGGAAGGGCCTATTGCATGGGATGTGTTGTTCAATTTTGAGCAAAGGTGGGAAAAGCAAGTGGGGA AGCAATTCTTGATGTCAATTGATGAGCTTGATCGATTTCTGGTGCATCCATCTGATGCAATGGTATCAGAAGAGGATAAG GACACATGGAGTGTTCAGTTGTTCAGATCCATTGATGGGGGTGCTGTTTCTAGCTTCCCCCAAGCCCCAGATGAAGTTGC TGAATTCGGCCTCATTAGTGGCAAGGATAATGTCATTGACAGAAGCATTCAGGATGCATACATAAATGCTATTCGACGAG CAAAGAAATTCATCTACATTGAAAATCAATATTTCCTAGGGAGTTCATATGGTTGGAAAAGTTCTGATATCAAAGTTGAG GATATCAATGCTTTGCATCTGATACCAAAGGAGTTGTCATTGAAGATTGTGAGCAAGATTGAAGCAGGGGAAAGGTTTGT TGTGTATGTAGTGATCCCAATGTGGCCAGAAGGTATGCCTGAAAGTGCTTCAGTTCAGGCAATACTAGATTGGCAAAGGA GGACCATGGAGATGATGTATTCTGACATTGCTGATGCCATCAAGAAGAAGAATATTGAAGCACACCCCAGAGATTATTTG ACATTCTTTTGCCTTGGCAAGAGGGAGAGTAAGATAGAAGGAGAATACACTCCTCCAGAGGAACCAGAGCCTGACAGTGA CTACCGAAGAGCACAAAATGCTAGGAGGTTCATGATCTATGTTCATTCCAAGATGATGATAGTGGATGATGAGTACATAA TCATTGGTTCTGCCAACATAAACCAGAGATCAATGGATGGTGGAAGAGATACAGAGATTGCAATGGGTGCATTCCAACCA CGCCATGCCACATACAATGGTCCCCCAAGAGGACAAATCTATGGATTCAGGCGTGCACTATGGTTTGAGCACCTTGGTGA TCTTGGTGACACAAGCATCTTTAACAATCCAGAAAGCTTGAACTGCATCAATCTTGTGAATCGCCTTGCTGAGAACAACT GGGACATTTACTCAAAGGAAACATTTGATGAATTCAGAGCATTTCACCACCTCATGCGTTACCCCATAGAAGTGACCAAC AATGGAGCCATAAAAACATTTCCAGGGCTTGAATATTTTCCAGATACAAAGGCTCGGATTCTGGGTTCCAAATCAGAGTA CCTTCCTCCAATTCTCACCACCTAG

Download CDS Sequence

Protein sequence (LotjaGi1g1v0384000.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MQGRSIYKMQHNKMPQLLHGKLKVTIFEVDRLQAGCNLEFLRKGTTQKGKRLLAQVKGCLLCRPEIVGTRLYATVDLDKA RVRRTRMIGNQPSNPKWKESFEIYCAHHISNIIFTVKDDNPIGATLIGRAYIPVEQVIKTPIINRWVEILDEEDHRPVPG GSKIRVSVQFSSVTEDNACLWSQGIHVPFSGVPRTFFNQRQGCSLTLYQDAHVPDGSTPWIPISGTKYYVPARCWEDIYS AIMDAKHFIYIAGWSVYTEINLVRDPKNLGSESVITLGELLKMKADGGVNVLMLVWDDRTSVPDFKKDGLMATHDQETAQ YFRNTKVHCVLCPRNPDNGRSIVQGLQISTMFTHHQKTIVLDSQVTGLEKRSVTSFIGGLDLCDGRYDTREHPLFSTLNT VHHADFHQPNFPGASIKKGGPREPWHDIHCKLEGPIAWDVLFNFEQRWEKQVGKQFLMSIDELDRFLVHPSDAMVSEEDK DTWSVQLFRSIDGGAVSSFPQAPDEVAEFGLISGKDNVIDRSIQDAYINAIRRAKKFIYIENQYFLGSSYGWKSSDIKVE DINALHLIPKELSLKIVSKIEAGERFVVYVVIPMWPEGMPESASVQAILDWQRRTMEMMYSDIADAIKKKNIEAHPRDYL TFFCLGKRESKIEGEYTPPEEPEPDSDYRRAQNARRFMIYVHSKMMIVDDEYIIIGSANINQRSMDGGRDTEIAMGAFQP RHATYNGPPRGQIYGFRRALWFEHLGDLGDTSIFNNPESLNCINLVNRLAENNWDIYSKETFDEFRAFHHLMRYPIEVTN NGAIKTFPGLEYFPDTKARILGSKSEYLPPILTT

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Domain prediction

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	PIRSF036470 View details on PIRSF036470 Search for proteins/transripts with this domain View external data on PIRSF036470	7	834	828	0.0	IPR011402 Show description in modal box View details on IPR011402 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR18896 View details on PTHR18896 Search for proteins/transripts with this domain View external data on PTHR18896	14	834	821	0.0	IPR015679 Show description in modal box View details on IPR015679 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd04015 View details on cd04015 Search for proteins/transripts with this domain View external data on cd04015	14	170	157	2.85168E-56	–
PANTHER	PTHR18896:SF144 View details on PTHR18896:SF144 Search for proteins/transripts with this domain View external data on PTHR18896:SF144	14	834	821	0.0	–
SUPERFAMILY	SSF49562 View details on SSF49562 Search for proteins/transripts with this domain View external data on SSF49562	16	172	157	4.99E-17	–
SMART	SM00239 View details on SM00239 Search for proteins/transripts with this domain View external data on SM00239	21	146	126	9.6E-12	IPR000008 Show description in modal box View details on IPR000008 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00168 View details on PF00168 Search for proteins/transripts with this domain View external data on PF00168	21	148	128	9.0E-14	IPR000008 Show description in modal box View details on IPR000008 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.60.40.150 View details on G3DSA:2.60.40.150 Search for proteins/transripts with this domain View external data on G3DSA:2.60.40.150	62	182	121	3.9E-12	IPR035892 Show description in modal box View details on IPR035892 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF56024 View details on SSF56024 Search for proteins/transripts with this domain View external data on SSF56024	189	458	270	1.41E-29	–
ProSiteProfiles	PS50035 View details on PS50035 Search for proteins/transripts with this domain View external data on PS50035	350	386	37	10.457	IPR001736 Show description in modal box View details on IPR001736 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00614 View details on PF00614 Search for proteins/transripts with this domain View external data on PF00614	350	386	37	5.5E-8	IPR001736 Show description in modal box View details on IPR001736 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00155 View details on SM00155 Search for proteins/transripts with this domain View external data on SM00155	350	386	37	0.26	IPR001736 Show description in modal box View details on IPR001736 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.870.10 View details on G3DSA:3.30.870.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.870.10	488	720	233	4.3E-22	–
SUPERFAMILY	SSF56024 View details on SSF56024 Search for proteins/transripts with this domain View external data on SSF56024	523	746	224	6.11E-28	–
ProSiteProfiles	PS50035 View details on PS50035 Search for proteins/transripts with this domain View external data on PS50035	677	704	28	15.45	IPR001736 Show description in modal box View details on IPR001736 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00155 View details on SM00155 Search for proteins/transripts with this domain View external data on SM00155	677	704	28	1.9E-8	IPR001736 Show description in modal box View details on IPR001736 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00614 View details on PF00614 Search for proteins/transripts with this domain View external data on PF00614	678	704	27	1.8E-7	IPR001736 Show description in modal box View details on IPR001736 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF12357 View details on PF12357 Search for proteins/transripts with this domain View external data on PF12357	753	824	72	1.8E-25	IPR024632 Show description in modal box View details on IPR024632 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0003674
GO:0004630 View details of GO:0004630 AmiGO InterPro QuickGO	Molecular function	Phospholipase D activity	Catalysis of the reaction: a phosphatidylcholine + H2O = choline + a phosphatidate.	Subterm of View details of GO:0004620 View details of GO:0008081
GO:0005509 View details of GO:0005509 AmiGO InterPro QuickGO	Molecular function	Calcium ion binding	Interacting selectively and non-covalently with calcium ions (Ca2+).	Subterm of View details of GO:0046872
GO:0016020 View details of GO:0016020 AmiGO InterPro QuickGO	Cellular component	Membrane	A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it.	Subterm of View details of GO:0005575
GO:0046470 View details of GO:0046470 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0006650 View details of GO:0097164 View details of GO:1901564

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0384000.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0384000.2