Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0226900
Transcript ID	LotjaGi5g1v0226900.1
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\|V7BGF2\|V7BGF2_PHAVU Uncharacterized protein; Found in the gene: LotjaGi5g1v0226900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:53411969..53428553) extracted from Lotus japonicus Gifu genome v1.2.

GCGTAGAAGAAAACTGAAGAACTTGACACACAGTGCCAAAACTATAAAAGCCGCAAACTCCTCTCGTCGTTATTTTCATT TTCTTAAAAGCAAGTAACGTGTACTGAAAACTCGCGTACCAGAGCGAGTTCTTCTGATCCTCCTCCACCATTCCGTACAC GTTTCTCCGTCGACATTGATCACTGATTACTGTATATTCCGATGTCGACTGAGCCGCTAATTCAACCGCCGGATGCGGTG GCGGCGTCCCGCCAATGCGGCGAACTGTGGCGGATTTTCGACGAGTTGCCCAAAGCCACCATCGTGTCAGTTTCTCGACC AGAGACTGGAGAAATTAGCCCAATTCTCCTTTCTTATACCATTGAATTGCAGTACAAACAGGTAAACACAGCAATTGTTT CCATTTTTCTTATCTTTGTGAATCAAATTTACCTGGTTATTGTTGGGTTCATCGAGTAAAAGTGAAGAAAATGTTAGAGT CTTGGAGGGTATTTTTTAATTTTATTTTTTAATTAAATTAGCTAGCTAAATGCTATTTGGTAAATTGGAGTGGGAAAAAT GAATGAACTTCTGTGGTTTTGTTTTTATCAAGTGTTCTTTGGTGGTGGTTTAATTTATGTGGATAAACAGAAGATTGAAG AAGATTATGTTTGCAAATTGTTAATTATTGATTATTTTGCCTATTCAAGTATGTTACACAATGCCTTTAGATATTATTTT AGTGTTAAATGCTAATACTAATTGAGGTTGCCATCAAAGAAAGGATGTGGATTTATTAATATCATTTTATAGCTTTCAAT TTGTTTACACATTACTGGTTCAGGGTCCTTTTTACAATATTTCATGACTCTTCTGAATGTGAATTGGTTAGACCACTTCA TTAGTTGTGTCCTTTTGGCTAGACTTTAAGCCTTTGATGATGTGAATTATGATGCCAGGCGGCGCAGTTCCTATCCAACT AATGTCTTGGTAATGATTACATTTGTATTTAACAGTTCAAGTGGCGGCTACGGAAGAAAGCATCACAAGTTCTTTATCTG CAGTTCGCTTTGCGGAAACGTGCCTTGATTGAAGATCTTCATGGCAAGCAAGGGCAGGTTTAAATCTCTTTTCATGTTGC TCTGTTGTTATAAAGTGAACATACGAGTTTCCGATAGTTTTAGTTTCCTTTGTTATGCTTTATATGATTCAGTCTAACTT CTTGTTTATAACTGTTTCCTAAAGGTAAAAGAATGGCTTCAAAGCATAGGAATAGTTGATCAAACTGTGATGGTGCAAGA TGATGAGGAACCTGATGATGGAGCTGTACCTTTACATCATAAAGACAGTGTTAACAGCAGGTATTTTTTTTGTCACAGTA AAATAGAATTTTTTTATCTGATGCATTTTTAAACTTTCAACCCGCTTAAAATGTGCAGTGCTTAGATCAGGAAATTCATG ATATACATGTGAGGGACTTCTTAGTTGTTGGCCCAAAGCTTCCATGATTAATTTGGGCACAGGGAATGGGATAGTTGATT CTTGAAAAGGTCATGAACCAAGGGCCAAAGGAATTGAATTCAGAATTGGAAAATGTTTTGGAGATGCCAAATCGGGTATC TACACCCAACATAGTACGAGAGAGAAAGAAAGAGAAGTGATAGATGCAATGTGATGGGAAGATAGAAATAGAGAGAAAAT AGGGGTATATGTGAGGTCTCAATACTATTGGGGTGTTTAAAAATCAGGATTTTTCATGTTCCATGTCTTCATTGAGTTGA ATACTACTACCCTTTCCTAAGCTTAAGTATTTCGAGAGTACATAGTTTATATTCTTTATTTTAATAAAAGATGCACTTAA TTATATTTCAAGCAGTAAGTTATACAGAATAAAGGCCCTTTTATATTTAGTAATATTTTAGGTCTTATACTCTTATTGCT GAACAGGCTTAAAGAAACGTAATAATTTGTTTTTTATACAGATATGTCCCATCTGTTGCTGCTCTGTCAATAATTCGTCC ATCATTAGGAGGTCAGCAGTCAATTGCTGAGAAAGCCAAAGTAGCAATGCAGAGTTATTTGGATCTGTTTTTGGGAAACA TGGATATTGTGAATTCTCAAGAGGTAAGGAATGAAGGGTTACAGTTGACAATTGATGGATTTGTTTAGATAATGGTTAGC AGACCTTCAAATCAGTGTAGAGGATGTTATAAAAAAAATTGGGTTATGAATCGCATTAGGTTCTGTATGATATCTAATAA GTGAAACCAAAATTGTGAACTGGTTTCCCTGATAAAACTGTTTGCATTCAAAATTATGATGTTGAATCCATTTGTCTATC TAAATACCTTTCCCTACATTTAAAGAATCCTTAGAACTTATGCATCATATATTACTACTATATGCAACTAAGGTGCTTTA TACTATTACTTTTTAAGATACAAATATGTATGTATATGATTCTCCATTATCATGCTTGTAATAAAACTTCTCCGAAGTTA ATATAACTTATCCTCATGTATGGCTATGGATTATAGGTCTGCAAGTTTTTGGAGGTCTCCAAGCTATCCTTTTTACAGGA GTATGGTCCAAAACTGAGAGAGGGATATGTAATGGTGAATCATTTGTCAAATATTTCGCAGGATTCAGATGTATCATGCT TTCCATGTAATTGGTTTCGTTGTTGTGATAACAACTGGAAGAAGGTTTGTTCTGAATTTTTTTTTTCTGTGGTAACAATA GGTAGCTTAGTTTGTTTAGCTTCACATTATTTTAATTTTTAAAGTTAAAACAGGCGTAGTTGTGAGCTCAAATCATCTAA CCACATGGGCCCTTGGATTCAGTGCTTCCTTTTAACATGAACTTCAAAATTTTAACATGCCCAATACTTTCTCAATGATC CCTAGATATAGAATTTTGCGAACTCTATCTTTGAAGTTTGAAGTACTCATCTTTTTTTCACTTGTCTGGGTGGAATATAA GTCATCATTTTCCTGTGACATAAAGTTAATCCCTAACTTCAGTACGAACATTTGCAGTCCCATCTTCCACGTAACTATGT TTCAAGGCTGAATACTCCAATGCCAGGCATACAATGGTAGATACTATTAGTTCTAAAAGAATACTTAGTTGGCATATCTC TAGGATTCTCTTGGTAAAACCTGCCATTATCCCAATGATATGCACTCTCCCTTCCAGGCATAGGAACTCAGAAATAGTAT GCATATCATTTTTCCATAGTGGAACCATAAACTGTTATGTAATATGGAAAGAAGGGACGTGATCAATAGAAGAATTAATT TTACTTGGTCATATCTTGGGTTCACATTTTATAGTAATTTCCTGGATTTTATAGGCTATAAATGTCAACTTTGTGTTATT TCAAGCAATATTGCTCTATGGAGCTGAACAAACAGTTTTATAAATGTTTTGACCAATATATGAGATACTCTGTCAGTTTG CATGGAATTAGTTGTGACCAATCAAGTTTAATTATAAAGATAGTACTTGTCATCTACCAACTATTATAAATGCTTGAACT ATAGGTGAAGACACGTGAATGGTTTTACATTATTTCTCTTAGTAATTTTTAAATGATTCAATAAAATGTTAAAAGTAATA TCAGGAAACAAATGTAAAACATATAACACCTCTATAGCATTTCCACTTTGTAGGTATATATAATCTCCTGAACTGGTATT TCTTTATTTCATGTAATCTTAGTTTTAATCTGCTCACAGGTATGGGCTGTATTGAAACCTGGGTTTTTGGCCTTGCTGGA TGACCCCTTCAACAACAAACTACTGGATATAATCATGTTTGATGTCCTCCCATCCTCAACTGGAAATGGAGGGACCAAAA TATATTTAGCTGAAACTAAAAAGGAACACAATCCTCTGCGTTACACATTTGAGGTGATCAGATTTGTCTCTTAGTGAGCC TTCTTGCACTTCAAAATTAAGAATGGTTAAATCCTGTATGAAGTATGAACTGTGTATATTTGTCGCAGTCAGTCAAAGCA ACTAGATTGACCTGATGTTACAAAATATAAAAATCATGATGTGTAACTAACTCTTTAAGATTTCCTGTTATCTCATTTAT TTATCACCTGGATTTAGTTCTGATTTTTTGTTGGATAGAAATCTGAAGTGAATATTTTAGGTTCAACATAAATAGTAACC CTTCAATGTCTAGAGTATAGACAATAAAATCCATGTATTTATGGTATGTTTGAGATGATAACCTCCAAGTTCATTAAAAA AATCAATTATTATTCTTCTTTAACTAATATGATAATGGTCAAAACGATCAAAGATTTACCTTCTTGAGATGTACAATGTT CCCAGCTTTCTTTTTTAGTTTCTCATTAACCATTAAAATCCATAGTCATCAAACTAATATAGCACAATTTATTGTCTATT GGTTTCAGAGAAGAGCAAATTATTAATGGTTGGAAATTGTTGATAGGTTACTAGTGGAAATAAGAGCATATGTTTGAGAA CAACAAGCAGTGATAAAGTTAAAGCTTGGGTTACTGCAATAAATGAAGCTGGTCTAAGACCTCTGGAGGGTTGGTGTTAT CCTCATCGCTTTGGTTCATTTTCTCCTGTAAGAGGTTTGGCTGAAGATGGAAGCCAAGCCCAGTGGTATGTAGATGGACA GGCAGCGTTTGAAGCAATTGCTTCTTCAATTCAAGATGCAAAGTCAGAGGTACTGTGTTCCATTAACAAAGAGTAAATTT AAGTTGTTCTTTTTGTCCTCGTCCAATATTTTAATGATTAGACAATGGAAACTTGTTGCAGATCTTCATTACAGGATGGT GGCTATGTCCAGAGCTATATCTGCGACGGCCTTTTGATAGTTTTTCTACCTTTAGGTTAGACTCATTACTAGAAGAAAAA GCTAAGCAAGGGGTTCAGGTACAAATACTATTCACATTGCTAAGTCAGAAGCTTTTAAGTTTTATGCTTTATTAGATTAA ATCACGTTGAAGACCATTATGCTTATATCATTAAATGAAAATACAGATTTATGTGCTGCTCTACAAGGAGGTTTCTTTAG CCTTGAAAATCAACAGCTCGTACAGTATGAGAAGACTGCTCAAAATTCATGAGAATGTGAGGGTATTGCGATATCCTGAC CATTTCGCTTCTCGTGTGTATTTATGGTATGAACTATTTATCAAAAAATCAAGTGAGCATTAACTGTAGTAAAGGCTCTG GTGGACCTTATGCAAACTTATATGATGGAAGCTGCCTTTGTTTTTTACAGGTCGCATCATGAAAAACTTGTAATAATTGA TTACAAAATTTGCTATATTGGAGGGTTAGATTTATGCTTTGGACGATATGACACACCTGAGCATAAAGTAGGTGATTGCC CCTCTGTAATATGGCCTGGAAAGGACTATTACAATCCAAGGTATTCCTTTTTTCCTACTTTGATAATTAAATATAAAGGA ACATTTTGCAAAACAGTCCACTGTATACTTTACAAAAAGAGAGGGAGAGAAAGAGAGAGGTGTATGCTCCTTAACATTTT ATGGTCCATTGTGTTTGTCATGCATTCAGCATGTCTTATATTGTAATACATTTAGCCATACCATCACTGTTGTTGATCAG TGATGGAGTCCAAGATTTGGTTAGCCACTTGGTCTTTTTTATGATTTAGTCTATATATATGATTTCTGGAATTTTTGTTA ATCGATAGAGAATCTGAACCAAATTCATGGGAAGACACCATGACAGATGAATTGGATCGCCAGAAATATCCTCGCATGCC ATGGCATGATGTCCATTGTGCTATTTGGGGACCTCCATGTCGTGACATTGCTCGGCACTTTATTCAACGGTGGAACCATG CTAAGGTATATACTAAAGAGAAGTGTTAGCAACATACTCTCTAACTTCCATCACACTATTTTTTATTGGTTGAAATTCAT GTGGGACGCACTAAATTATTTGGGTCTCACTCCAATTTGGTGGAACCCGCGGGAATTTCAACTAAGAAGAAAGTGTGTCT AAAAGAGTGTATTATTAAGTGTGGTGTTGCTATCACTTATCATAAACGAAATGATATTTTTTATCTTACATGCTTTTTTC ATCATCCCCTCTTACTTGGTGAAGCATATCACAGAGAACTAAGGCTCCAAATGAACATGAAATTCCACTACTTATGCCTC ACCATCACATGGTCTTACCACATTACATGGGAAGAAGCAAAGAAATAGACATTGATGGAAAGGAAGATGAAGATAACAGG AAAGAAATTGAAAGGCAGGATTCATTTTCTTCAGAGTCTCCAACACAAGATATACCCCTCCTTTTACCTCAAGAAGCGGA CGGATTAGTTACTTCAAGTGGAGACCAAACAAATTTCAGTGAACATTCTCCATTATCATCCCAAAATGTGGAGCATGAAT CTTTAGTTCCAGATAACCAGAAGAAAGGGTTTCAAGATGAAGTTGTTACTTTAAACTTGGGGGCACAATCTCTAGTTGAT ACTCTAGATGATTGGTGGGATACACCTGAAGGTACCAATGATGCTTCTACTTTGGAATATGGAGAAGTTGGTCCCCGTAC TACTTGTCACTGTCAGGTTAGACATGCCTTCTGGGTCTTGTATGTTTAATGTGAAAATTTTCAAATTTGTTTTTGAATGA ATTAGTTTCTCTTGCTTAACACAGTCTACTAGGACTCTGGTAAAATATGAATCTTGTATGGGTAGAAAATATCAACATTA AAGATGATAAGTATCACATGATGCATACTAAGTTTACATTGTATTCTAAAACCCAGGTTAGTAATGTAAAGAGCTTCATT CAATGTGTCTATGAAACTTAGGGAGAAAAGGTTATAATGGTGTGCAAAGTAATTTTTTTGTGTGTGTGGATGATATGCCA TCATAAGCAAATTGAGAAAAAAACAATTAACTTATATCAAAACTTTCAAGTCTACAGATTTTATCAGAAACAAATGCTTT AAAAAGGATGTAGGACAATTTTGGAAAGAATCACTTTACTTTTATTTTTATATTTTTGCAATATGGTTATATTTACATGT ACCCAAAAAATAGTTATAATTACAGCGTGCCTTATCCTCAATAACCCTGATAAATTACCTAAATCTGTTAGCCATGTTCA TGCACAGAATCTAACACATCATCTTGTCTCTTACTTTTGGAGCAGTCCAAATTTATCTCAATATAATTTTACATAACTAT TCATCTGCGTCTTGGATGGATGTGAAATCCACAGGTGATCAGAAGTGTCAGCCAGTGGTCTGCTGGAACAAGTCAGACTG AAGAAAGTATTCACACCGCATATTGTTCTCTCATTGATAAAGCAAAACATTTTATCTACATTGAGGTAAATTAGTTACAG GGAACTGGGCTTCCCTTGATCGTGCCTCAATCTTGATAACTTGTAACAAGATGAAACATATATTTTTATAGTGATCTCAA GAGATAAATGTCCAACTTGATTTCTGACTCTGCATTATCTGATGCTTGACGAAACATTGTAAATATTATTATTAGAAGTA GGTAGGCCAAACTCAACCCAAAAGCTAGCTCAAGGGTTGAGGTTTGCACAACCCTTATAAAGGCTATCTATGCTCTATCT CTAGCCAATGTGAGACTTCTAACACACCCCCTCACGTCCAGGACTGAACAACCTGGAACGTGGGAACAACAACAACAACG GGTGCCCCAAATATGGGAAGTCTCCACAACAAACAACAAATGGATCTAGGATAGGCTCTGATACCATATTAGAAGTAGGT AGGCCTAACTCAACCCAAAAGCTAGCTCAAGGGTTGAGGTTTGCACAACCCTTATAAAGGCTATCTATGCTCTATCTCTA GCCAATGTGGGACTTCTAACAATTATTTTTCTTTTCTTGCACTTAACAAATAGGAATTCTTATATGATCGCATCGCACTG CTATTTTGGAAATCCTTTTTCCTGTGAGTATCGGATAATAGCCTTTAGTGTTATTATGTAATGAACACATATACATGAAA GTTAGTCAGATATCAAATTTTCAATCTCTGTATTGGTTTTTTAATGCTAGATAGACAAGTTCATGCTGTAAAATCATCAT CTCCAAGCCTTGCACTTGGGGATTGTTTTATGATCATTGTTTTTTTTTCGGGGGTGGGTGGGGATACGTGTGGAGAAGAA AAAAAATTGCATATATGAAAGGACGGCATGAAACATTTTAACTTCAATACCAGTTACATGTGACACCGAAAGGTTAGTTT GAAGTTCTGACAAGAAAATGTTAGTACAAGGATGAAGATGTTCCAAAGTGAATCACTTTAGAGGCTAGAAGAACAGTATT AAATTTAATAACCATTGATTAAAAATAGGGTTTTACAAAATACAAGAACGCGATAAAAGACCATAGTTCTTAATTTTTTT AGTGGGTGACCATGATTCCCACTGGTACTTTACCTCTTTGTGCAGTGTGCACTTTGAGGATGTTAGTATTGTGATTTGCT TAAATGACACATGTATGTAAAGAATTATAGTAAAGTTTTGGTAGATTTCATATTTGATTAAATAATAAACTCATTTCTTC TTTGTCTGTTTCATTTTGTTTTCCATTCAGAATCAATTTTTCATATCAGGTCTAGCAAAGGATGACACAATACAAAATCG TATTTTGGAAGCACTATATAGGCGTATTTTGCAAGCCCACAAAGAGGAAAAAGAATTTAGAGTTATAGTTGTGATGCCCC TCTTGCCTGGATTCCAGGTAAATGTTACTCACCTTCTTTTTATAATGTCAGTCCTATTTTCCATATACATAAATCTTTTA CGGTTATGAATGATAACAGGGCGGTCTAGATGATGGTGGTGCCGCAACTGTGAGGGCCTTAACACATTGGCAATATAGAA CAATTTCTAGAGGAAAGCACTCCATATTGCACAATCTTGAAGCTATACTTGGTCCTAAAGCACATGATTATATTTCTTTC TATGGACTAAGAACCCATGGTCGACTTTATGCGGATGGTCCTATGGCTACAAGTCAGGTATTTTATCATATTTTATAATG CTATTAAGAGATCCTGAAATAGTTATACAAATAAGAGTTTGGATCTCCTAGATCTAATGTGCACTGTTTAGTTTTTATAG TGACTTTAACAGCACAGAGGTTTTCCTTGGTTTGATGTATATTCCCATACTTTTATAGGTATATGTGCACAGCAAATTGA TGATAATTGATGATCGTGTAGCTTTTATTGGATCATCTAATATAAATGACCGGAGTTTGCTTGGATTAAGAGACTCTGAG GTACACTTGATATCTGCTCTGTGTAACTATTATCTGCTATTTCTAAGAGCTTTTGGAATTATGATATAATTTTAATCTGA TTGTTGCAGTGTATCTAGTAATTTTTTTATCTGGGATTTTTGTTGTTTTAGAAATTCATCACATATTTTTAAATTTACGG TATCCTATTATCATACAAAAATTGATCTAGTCAGGGTATTCAGCTTATTTGTCCCCTTAAGTTTGTGGTAGTAGTGGCTT GCGTGCCTATAGAAGTACATTATTACGGAATTGAATTTCAGTTATGATCAGGGATTGAATAACACCATTGTTTATGTTTT CCCTAATATTATCATCCATTTACTGCATGTTGATGACAATGTTCTTTTTTTGTCTGGAGGATTAGCCATTTACTTTTTGG GTAAGAACTTCAATTTTTTTCTTGCTATCAACCAGATCGGAGTGCTTATAGAAGACAAAGAATATGTTGGATCATTGATG AACGGAAAGCCTTGGAAGGCTGGAAAATTTTCCCATAGCCTCCGCTGCTCGCTATGGTCTGAGCATCTTGGTCTTTCTTC TGGAGATGTGAGTCAAAATGATCAAATTTGGGTTTTTGTATGCTACGTCATTGCAGCAAGTTGATTTTTTTTATTAATGG GAAGAATGAACAACTAAAAATAAGACACCTTGCTTTTCATGATTGGTTTGATGAGCAAGTGCAACTGCGCTCTGTGCATG AACTACAATCCAACCTCTCATACAGTTCCATTATTGAGTCAGCTATTTGCAGTTGACCAATTAGAACCAGGAATTGGAAA ATTGCTCCACTTTATTTGTCTTTGTAAAGCTTATGTTTTCCTAATTACTTCTCTAGTTAGCTCAACCATGAGTAATTATG CTGAAACTATAACTATATTTTCCTGCTTGTCTGTAATCACCATGGATATGTTCATCTGTTTTAGCTCCTCACAATATTCT CTTTCTCTTACAGATCAGTAAAATCAGTGATCCAGTGGCAGATTCAACCTACAAGGACTTGTGGTCAGCAACTGCAAAGG TTAGATTTCGCCATGTCTAGAACATTGTGTCTTGCGGATTTGTGCATTTCATCTTTGGTGATTCATGGTACTACTTGAAT TTGATGAAAAATATTTATGTGTATTTTTTTCATAATACTTGACTAGACTACAATATATATAGACTAACAAAGAGATTAAA ACAAACTAAATCTATCTAAACCTATCTCTATTTAAATAGATATCATCTCTATTTAAATAGATACTAATCTAAAATAGATA AACAAATCTTAACTATATCTCCATGAGATAAGACTCATAATAAACTAAATCTTAACAGATATTCAACACTCCCCCTCAAG CTAAAACTTACTTAGCTTTAAGCTTGTAACAAAATCTAACCCAAGAAGAAAATTATCTTAATAGATATCCCTTAATAATG ACAGTCTTGGCGAATCTCTGAATTGAATAACCTTTCAAACTTCTAGTAAATCCATGGCGGCAAAAGACAACTTCTTATAC TTGAAATTGAATAACCTTTCGAACTTCTAGTAAATCCATGGCGGCAAAAGACAACTTCTTATACTTGAAATTGAATAACC TTTCGAACTTCTGCTAAATCCATGGGCAGGCAAAAGACAACTTCTCATACTTGATCTGGCTGAAATTGATGCAAGACAAA AACCAATTCTTCTGGAGTGTCGTAGGGTAGCTGAGCCAGCAAACAAGGGCGAAAAACCAGCAACAATACGCCCGAAACAA AACAAGGCTGAAGCAACAACTCACCAACAACAACCACACAGAAATAAAACATACTTGAGGTCGATCGATTGATGGCTTCT AAGACAAACAATGGTGTCAACTTTGACACAGACAACTCTCAAACATTAGAGAGTGGGCCAGCGCAACTCGCAGCTGAAGC CCTAAAACCAAAACCAATAACTCTCAACTAGAGAGTGGGTCAGCGCAACTCGCAGCTGAAGCCCTAAAACCAGAAAACCA AACAATCGAGACAAAACAAACGAAGGTGACACTGCCACCTTCAAAACCAAATTGCATAAAGTCAGCCAAGATCAATATAA TAAGAGCATCTCGAGCAATGAGACGCAAACAACAACTCAAGTCTCAAAAACCAATGTGGAACCTGAGCGTCAAAACAGAG TTAAAACTCTAAACCAAACCAAACTTGGCCAACAATGAGAGATGGCACAACACACGTTAAAACAGAGGATCCTTAAAACC AAACCTGGCTGATACACAAAGAGGACCAGCGAAAACAAAGCAGCGAAGATAGCGGCACCAGTGAGAACAAAGCAGCGGAG AGAGCGGCGCAACCTGGCTGATACACAAAGAGGACCAGCGAAAACAAAGCAGCGGAGATAGCGGCGCGTGGACTTCACAC GCAGAGAGATGGGAGGCGCGTGGCTTGGAATCCGGCGGCGGTGGCTGACTGTAGTCTCTAAGATATTTAACAATATCTAA CACTTCCCCTCAAGCTAGATCATATATATCATATGCATAGCTTGTAACAAATAGTATTAACTCGAGAAGCCGCTGCTGCC GGAGAGAGAAATTCACACAACACTTCCCCTCAAGCTAGAGCATATATATCATATGCATAGCTTGTAACAAATATAATTAA CTCGAGAAATCGCTGCTGCCAGAGAGAGAAATTCACACACAAACGGAGCACACAATGCAATGAGGTAATCAGAAATTGTA GAGACTTGAAATCGCCCTTCACCGCTTACTCTGTGTGAATACTTCACATGAATTATGAAAAACTGATTTTGAGAAATCAC CACAGATGTAAGGATCTTTTTGTGGTTTCCACACCGAAAATTCAGCATCTGAAATCACACATTCCAACCCAACAAACAAG GACAACAACCAGAGGCTCAAATAAGAGCAGAAAAATACCACCAAGCAAGACGAACAAACGTACAAGAGCAAGAGGCTCCA AGAACATAAATCCATATAATCTCTGATTGCAGTAATCAGAGTGCAGAAACAGAAATCTGAGACGCAGCTTCTTTCAATTC CAAAGCCACACATGCTTTAAATATATCTTCAATGGCTTTACTCATGTAGGGCCGGAGGAAATTTGATTCTTCTAGATCTT GAAAAAACGTTAGTAACCTTAACTCCATACATGGTGCTGCATATCATTGCGGCAACTTCATCAAGGGAATAACTAGAATA TTTTCCTTCTCCAACTTTTTCTTCAATTTTATTTGAAGAAGTAACAAAAGAGATAACCTGAAATCACACAATAAAGAGCA AGGGGCTCCAAAAACATCTAACAATACTCTGAATCTAGGCAAAATCGAAAACGGCGGTGAAACAGACCAAATCACCGTGA CTGTGGCTGACAAGAACGCAAGAACCAAGAGAACATGGCGAACCTTTCTGTGGAAGCAGCGTCACGAACGACGGCTGGGA AGGCAGCACGTGGAAGGACGTTGATTTGATAGTGGTTGAACATTACTAGGGTTCCAAGACAAAGGGGACCATAATTAGAA AGAAACGAGGCCGTAAGAAAACGGCTAGAACTAACAAGCGGAAGCAAAGTACGAAAAATAAATCCAAGAGATTTGGAAAG TCACCATGAGGGGGCTCACGGGGGAGGAGCCCCTCACAGCGGTAGGATCGAATTTGCTCTGATACCAACTTGAATTTGAT GAAAAATATTTATGTGTATTTTTTTCATAATACTTGACTAGACTACAATATATATAGACTAACAAAGAGATTAAAACAAA CTAAATCTATCTAAACCTATCTCTATTTAAATAGATATCATCTCTATTTAAATAGATACTAATCTAAAATAGATAAACAA ATCTTAACTATATCTCCATGAGATAAGACTCATAATAAACTAAATCTTAACAGATATTCAACAGTACTTATAGAGCATTG TTTAACAAAGTCATAGCTGTTCAGCACGTTCACTATCAGAAGTCATATCTTCCCTTCCCTATTGTTTTAATAACTTAGCT CAACAATTTTCTTGACAACTGCGGTGAGCATTTGTTAAAAGTGGTTTTGAATGAACTTTTTTTTTGTAAATTTTGTTTGG TTAAACGTGGTTTGAGGTTAAAGTGATTCATCTTGGGATTTTATCCACTTAACAAAAAATAGAGTTTGTTCTACCAAACC CACTTTTCAACCACAAACCATATACAGAAATTTGGACGAATGACTTTCCAAACATATTAAAAAATTACTAAACTTTGAAG AATGGAAACGTGAACTGGATGGTGCAAGTGCACTCTACCTGACATGCAAGTAACATAGTAGGACTTTTTTTGTGAATACA CGCTGTTTTTCTTTGTACATCTATGGTGTATGAACGGCTGTAAGTGTGACAGGAAAATACTAGGATATACCATGAGGTCT TCGCTTGCATTCCCAATGACTTGATACACTCGAGGTGTGGATTTTTCCCAGTTTTCTTTTGTCTTCTCTTAACTCCTACT TCCAATCTTTCTTTTGTTATAATGCACTATACTTTATAATAATACGCAGAGCTGCACTTCGGCAAAGCATGGTTTACTGG AAGGAAAAACTTGGTCATACCACCATAGACTTGGGAATAGCCCCTGATAAGTTAGTCTGTCGTGAAAATGGAGAAACCAA AGCAATAGACCCGGTAGATAGATTGAAGCATGTAAAAGGACACCTTGTTTCTTTCCCTTTGGAGTTCATGCGTGATGAAG ATCTCAGACCAGCTGTTATCGAGAGTGAGTTTTATGTATCTCCTCAAGTATATCATTAGTTAACAAAACTGATAGACAAT CTAAAGGAAGTGCGAAAGATAGGGTGGGAGAGAAAGGACTTGTGACGATTAAACACATGGGAAAAAAATCTGAAACAAGA GGATACTCTGTATAGTTATTAGTTTATTATGACTATTAAAAGTTTTAGAAAGGGGAGTAATTATCCAGAATCCAAGCTGT GTGAAAAACTTGAAGTGCAGTAACTGTGGGAAGTGTGAAAATTGGTGTAAATAACAGTTCCGAAATAGTGTGTTTGGATA TCATAGTGAACAGACTTTCATCTCAATCCATAGAAGAATTTTGTTCACTTTTTTAATCTCGATGTAAGTACTAATGTCCG TTAGTGTCAACGGATATCGACAATACCTGGCCGTAATTGATGGCCATTTTGCCATACAAACTTTCACATTGTACAGGACT GCTTCGTTTGTTGTAATGTAATTTGTACATATATTTCTTCTTCGATTGACATTGGAATCGTTCATGTATAATTATTTGGA AGTTTTAATAATTTCCGCTAGTTAAGGTTGATAATTTGATTTCATTTCCTATGTGTTTATCCAGACACTTGTGTGATTTT AGTTGTGTCCAACAAGTTTATTTAAAATGTTCTTAACATAGACATTGCTTTGTTTCTTAATCATGTGCTCTGATTCTGCG GGGATTTTCTCTACAAGATTTCCTAGGTTTGTGTTATCCATGAGATCTAGGTAGGGGTATGCTTACATGTCCATTTACAT AAGGATGAGATACAAAACTCTGGGAGGAGTGATTTGGAGGGGTGGTATAGATACCCATGAGCAAAAGCTGCCTGAGCATT GTGAAAGAGATGATGAGTGGAAATGTAAAAGAGCAAAAAAGTAGGGATAGTTAAATCAGGTCTAGACATCTTAACGTCGA TGGTGGCGATGTCATCTGGGAGCCGGAGGTTGGCATAGACTGTTGTGGCAGTGTGTTGTTCGCTGAGGAAGCTAACTGAT GATGAAGGGAGAGGACAACAAGGGTAAAGGGTCTCAAGGGAAGGGAAAAAATATAATCCTATACGGTTGTTTTCTATCCT GAAAAAAAAATTAACTAAGCAGATACAATAGGATAAGACAAAAGGATAAGTTATCCTATCATTTTGAGCTAACAAACACT GGGATTAAATGTGTACCAAAGTTATAGTTCCATGTTTCTCTAATCTCTCTCATGTGGAGAAAACAAAACAGAGTTTAGTA CAACAAAAGAAAAAAGCACGTGCCTTTCATATACAAATTGGTTTGGTTATGGAAGTTGCTATTTATATGCTCTAACCAGC CATATTAATATTCTCATGTTACCGACACTATGAAGAGAAGATGATGTGAGAATTATTGGCTTTAATGCATGGAAAACGAG AGCAAGGGGGAGGACAAATTGTAGTAGCTATGGCATGATGAGTCATGAGATCCAAATGTAGAACAGGACAAATTGGAAAC TGTTTGAAATGGAAAAGAAACCATCCATCAAACCGAAAAGTTAAAGTTGTATCCATCTTTGGATTCTTACTATTACATAG TTGCATAAAGATGCTCAACAGAAATATATAGCCAACCAACCATTCCATGCCACACCTAACCATTGAGAAAAGGATGCTGC AGTGCCACCGCATGCATTTCCAATCCATTGAATCTAGCTATCACCGCCTGCTCGTCTCGATGAATCATGATTGATGAAGG AGAACCACTTTTTGTGCGGGACGGTAGCAGCCTACCTAACTAGGAATATAGTTGAGAAACTTGGTCATGGTCCAGTCCTT TTATGGACCCAAAGGTCACGGTCGGTCTCTAGGGTGTGATGCACATACTTTTGCAATTAGAGAAATAGTAATATAGTTGA GAAAAAAATCTTGATTCACACTTTTTAAAACACATCCACCTAGTGAAAAAGAAGAAAAGAGTGAAGAACGAAAGATAAGT GATGTAATAGAAAAAGAACAGATATATTTAGAAAGATAAAAAAATGGAAATGAGATGGAAAAGAAAGTGAGGTGTAAATA AATCAAAACTCTATGTTCTATTAGCGTCGACCGGCGGTAATGAGTTCTATTAGTATCGATCGACGTTAATGAGGCAAAAG TCGACACAAAACTTAATTAAGCATCAACTTAGCGTCGGTATCATGACTAGCACTAACCTTTGCATCTACTTAGAATGTGT GGTGGCTTACGTTAACATGCACAACACAAACTTAGTAGTGTTTGTCAAACTTAGTAGTGTTTGTATTGATGTCAATGCTA ATTTAACGATAATGTGACACTAATCATTATAGCCATGAAGGTTAGTGTTGTCCAAAGTAACTTTAGCGTTAGTCATGCTG ATGCGATCAACAACTAATTTAACAATTAGATGACGAGTCTTTGGTCATTGTTTGAAGGTCTTTACGTTGGTGGGTATGAC CATGGAGTATGTATAGTACCTCCTACACGCGTTGTTATACAATTTATGATGGATCAAAACATTTCGATATGATTTCTCCT TGTAACAATGATCCTTAGAATTGAC

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0226900.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTCGACTGAGCCGCTAATTCAACCGCCGGATGCGGTGGCGGCGTCCCGCCAATGCGGCGAACTGTGGCGGATTTTCGA CGAGTTGCCCAAAGCCACCATCGTGTCAGTTTCTCGACCAGAGACTGGAGAAATTAGCCCAATTCTCCTTTCTTATACCA TTGAATTGCAGTACAAACAGTTCAAGTGGCGGCTACGGAAGAAAGCATCACAAGTTCTTTATCTGCAGTTCGCTTTGCGG AAACGTGCCTTGATTGAAGATCTTCATGGCAAGCAAGGGCAGGTAAAAGAATGGCTTCAAAGCATAGGAATAGTTGATCA AACTGTGATGGTGCAAGATGATGAGGAACCTGATGATGGAGCTGTACCTTTACATCATAAAGACAGTGTTAACAGCAGAT ATGTCCCATCTGTTGCTGCTCTGTCAATAATTCGTCCATCATTAGGAGGTCAGCAGTCAATTGCTGAGAAAGCCAAAGTA GCAATGCAGAGTTATTTGGATCTGTTTTTGGGAAACATGGATATTGTGAATTCTCAAGAGGTCTGCAAGTTTTTGGAGGT CTCCAAGCTATCCTTTTTACAGGAGTATGGTCCAAAACTGAGAGAGGGATATGTAATGGTGAATCATTTGTCAAATATTT CGCAGGATTCAGATGTATCATGCTTTCCATGTAATTGGTTTCGTTGTTGTGATAACAACTGGAAGAAGGTATGGGCTGTA TTGAAACCTGGGTTTTTGGCCTTGCTGGATGACCCCTTCAACAACAAACTACTGGATATAATCATGTTTGATGTCCTCCC ATCCTCAACTGGAAATGGAGGGACCAAAATATATTTAGCTGAAACTAAAAAGGAACACAATCCTCTGCGTTACACATTTG AGGTTACTAGTGGAAATAAGAGCATATGTTTGAGAACAACAAGCAGTGATAAAGTTAAAGCTTGGGTTACTGCAATAAAT GAAGCTGGTCTAAGACCTCTGGAGGGTTGGTGTTATCCTCATCGCTTTGGTTCATTTTCTCCTGTAAGAGGTTTGGCTGA AGATGGAAGCCAAGCCCAGTGGTATGTAGATGGACAGGCAGCGTTTGAAGCAATTGCTTCTTCAATTCAAGATGCAAAGT CAGAGATCTTCATTACAGGATGGTGGCTATGTCCAGAGCTATATCTGCGACGGCCTTTTGATAGTTTTTCTACCTTTAGG TTAGACTCATTACTAGAAGAAAAAGCTAAGCAAGGGGTTCAGATTTATGTGCTGCTCTACAAGGAGGTTTCTTTAGCCTT GAAAATCAACAGCTCGTACAGTATGAGAAGACTGCTCAAAATTCATGAGAATGTGAGGGTATTGCGATATCCTGACCATT TCGCTTCTCGTGTGTATTTATGGTCGCATCATGAAAAACTTGTAATAATTGATTACAAAATTTGCTATATTGGAGGGTTA GATTTATGCTTTGGACGATATGACACACCTGAGCATAAAGTAGGTGATTGCCCCTCTGTAATATGGCCTGGAAAGGACTA TTACAATCCAAGAGAATCTGAACCAAATTCATGGGAAGACACCATGACAGATGAATTGGATCGCCAGAAATATCCTCGCA TGCCATGGCATGATGTCCATTGTGCTATTTGGGGACCTCCATGTCGTGACATTGCTCGGCACTTTATTCAACGGTGGAAC CATGCTAAGAGAACTAAGGCTCCAAATGAACATGAAATTCCACTACTTATGCCTCACCATCACATGGTCTTACCACATTA CATGGGAAGAAGCAAAGAAATAGACATTGATGGAAAGGAAGATGAAGATAACAGGAAAGAAATTGAAAGGCAGGATTCAT TTTCTTCAGAGTCTCCAACACAAGATATACCCCTCCTTTTACCTCAAGAAGCGGACGGATTAGTTACTTCAAGTGGAGAC CAAACAAATTTCAGTGAACATTCTCCATTATCATCCCAAAATGTGGAGCATGAATCTTTAGTTCCAGATAACCAGAAGAA AGGGTTTCAAGATGAAGTTGTTACTTTAAACTTGGGGGCACAATCTCTAGTTGATACTCTAGATGATTGGTGGGATACAC CTGAAGGTACCAATGATGCTTCTACTTTGGAATATGGAGAAGTTGGTCCCCGTACTACTTGTCACTGTCAGGTGATCAGA AGTGTCAGCCAGTGGTCTGCTGGAACAAGTCAGACTGAAGAAAGTATTCACACCGCATATTGTTCTCTCATTGATAAAGC AAAACATTTTATCTACATTGAGAATCAATTTTTCATATCAGGTCTAGCAAAGGATGACACAATACAAAATCGTATTTTGG AAGCACTATATAGGCGTATTTTGCAAGCCCACAAAGAGGAAAAAGAATTTAGAGTTATAGTTGTGATGCCCCTCTTGCCT GGATTCCAGGGCGGTCTAGATGATGGTGGTGCCGCAACTGTGAGGGCCTTAACACATTGGCAATATAGAACAATTTCTAG AGGAAAGCACTCCATATTGCACAATCTTGAAGCTATACTTGGTCCTAAAGCACATGATTATATTTCTTTCTATGGACTAA GAACCCATGGTCGACTTTATGCGGATGGTCCTATGGCTACAAGTCAGGTATATGTGCACAGCAAATTGATGATAATTGAT GATCGTGTAGCTTTTATTGGATCATCTAATATAAATGACCGGAGTTTGCTTGGATTAAGAGACTCTGAGATCGGAGTGCT TATAGAAGACAAAGAATATGTTGGATCATTGATGAACGGAAAGCCTTGGAAGGCTGGAAAATTTTCCCATAGCCTCCGCT GCTCGCTATGGTCTGAGCATCTTGGTCTTTCTTCTGGAGATATCAGTAAAATCAGTGATCCAGTGGCAGATTCAACCTAC AAGGACTTGTGGTCAGCAACTGCAAAGGAAAATACTAGGATATACCATGAGGTCTTCGCTTGCATTCCCAATGACTTGAT ACACTCGAGAGCTGCACTTCGGCAAAGCATGGTTTACTGGAAGGAAAAACTTGGTCATACCACCATAGACTTGGGAATAG CCCCTGATAAGTTAGTCTGTCGTGAAAATGGAGAAACCAAAGCAATAGACCCGGTAGATAGATTGAAGCATGTAAAAGGA CACCTTGTTTCTTTCCCTTTGGAGTTCATGCGTGATGAAGATCTCAGACCAGCTGTTATCGAGAGTGAGTTTTATGTATC TCCTCAAGTATATCATTAG

Download CDS Sequence

Protein sequence (LotjaGi5g1v0226900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSTEPLIQPPDAVAASRQCGELWRIFDELPKATIVSVSRPETGEISPILLSYTIELQYKQFKWRLRKKASQVLYLQFALR KRALIEDLHGKQGQVKEWLQSIGIVDQTVMVQDDEEPDDGAVPLHHKDSVNSRYVPSVAALSIIRPSLGGQQSIAEKAKV AMQSYLDLFLGNMDIVNSQEVCKFLEVSKLSFLQEYGPKLREGYVMVNHLSNISQDSDVSCFPCNWFRCCDNNWKKVWAV LKPGFLALLDDPFNNKLLDIIMFDVLPSSTGNGGTKIYLAETKKEHNPLRYTFEVTSGNKSICLRTTSSDKVKAWVTAIN EAGLRPLEGWCYPHRFGSFSPVRGLAEDGSQAQWYVDGQAAFEAIASSIQDAKSEIFITGWWLCPELYLRRPFDSFSTFR LDSLLEEKAKQGVQIYVLLYKEVSLALKINSSYSMRRLLKIHENVRVLRYPDHFASRVYLWSHHEKLVIIDYKICYIGGL DLCFGRYDTPEHKVGDCPSVIWPGKDYYNPRESEPNSWEDTMTDELDRQKYPRMPWHDVHCAIWGPPCRDIARHFIQRWN HAKRTKAPNEHEIPLLMPHHHMVLPHYMGRSKEIDIDGKEDEDNRKEIERQDSFSSESPTQDIPLLLPQEADGLVTSSGD QTNFSEHSPLSSQNVEHESLVPDNQKKGFQDEVVTLNLGAQSLVDTLDDWWDTPEGTNDASTLEYGEVGPRTTCHCQVIR SVSQWSAGTSQTEESIHTAYCSLIDKAKHFIYIENQFFISGLAKDDTIQNRILEALYRRILQAHKEEKEFRVIVVMPLLP GFQGGLDDGGAATVRALTHWQYRTISRGKHSILHNLEAILGPKAHDYISFYGLRTHGRLYADGPMATSQVYVHSKLMIID DRVAFIGSSNINDRSLLGLRDSEIGVLIEDKEYVGSLMNGKPWKAGKFSHSLRCSLWSEHLGLSSGDISKISDPVADSTY KDLWSATAKENTRIYHEVFACIPNDLIHSRAALRQSMVYWKEKLGHTTIDLGIAPDKLVCRENGETKAIDPVDRLKHVKG HLVSFPLEFMRDEDLRPAVIESEFYVSPQVYH

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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
PANTHER	PTHR18896 View details on PTHR18896 Search for proteins/transripts with this domain View external data on PTHR18896	10	1071	1062	0.0	IPR015679 Show description in modal box View details on IPR015679 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR18896:SF133 View details on PTHR18896:SF133 Search for proteins/transripts with this domain View external data on PTHR18896:SF133	10	1071	1062	0.0	–
PIRSF	PIRSF009376 View details on PIRSF009376 Search for proteins/transripts with this domain View external data on PIRSF009376	29	594	566	2.8E-170	IPR016555 Show description in modal box View details on IPR016555 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd01254 View details on cd01254 Search for proteins/transripts with this domain View external data on cd01254	176	322	147	6.39364E-33	–
ProSiteProfiles	PS50003 View details on PS50003 Search for proteins/transripts with this domain View external data on PS50003	198	324	127	8.557	IPR001849 Show description in modal box View details on IPR001849 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00233 View details on SM00233 Search for proteins/transripts with this domain View external data on SM00233	199	326	128	1.1E-5	IPR001849 Show description in modal box View details on IPR001849 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.30.29.30 View details on G3DSA:2.30.29.30 Search for proteins/transripts with this domain View external data on G3DSA:2.30.29.30	201	323	123	3.3E-9	IPR011993 Show description in modal box View details on IPR011993 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF50729 View details on SSF50729 Search for proteins/transripts with this domain View external data on SSF50729	231	322	92	7.4E-10	–
SUPERFAMILY	SSF56024 View details on SSF56024 Search for proteins/transripts with this domain View external data on SSF56024	315	579	265	2.36E-42	–
CDD	cd09138 View details on cd09138 Search for proteins/transripts with this domain View external data on cd09138	352	497	146	1.5137E-79	–
ProSiteProfiles	PS50035 View details on PS50035 Search for proteins/transripts with this domain View external data on PS50035	459	486	28	11.816	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	459	486	28	2.2E-5	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	459	486	28	6.8E-9	IPR001736 Show description in modal box View details on IPR001736 Search for proteins/transripts with this domain View on EBI InterPro Service
PIRSF	PIRSF009376 View details on PIRSF009376 Search for proteins/transripts with this domain View external data on PIRSF009376	581	1072	492	1.4E-167	IPR016555 Show description in modal box View details on IPR016555 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	598	660	63	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	598	613	16	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	634	659	26	-	–
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	698	935	238	4.8E-41	–
SUPERFAMILY	SSF56024 View details on SSF56024 Search for proteins/transripts with this domain View external data on SSF56024	707	918	212	1.2E-29	–
CDD	cd09141 View details on cd09141 Search for proteins/transripts with this domain View external data on cd09141	728	912	185	8.73348E-101	–
Pfam	PF13091 View details on PF13091 Search for proteins/transripts with this domain View external data on PF13091	741	914	174	9.8E-11	IPR025202 Show description in modal box View details on IPR025202 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	868	895	28	5.8E-8	IPR001736 Show description in modal box View details on IPR001736 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50035 View details on PS50035 Search for proteins/transripts with this domain View external data on PS50035	868	895	28	15.829	IPR001736 Show description in modal box View details on IPR001736 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:0006654 View details of GO:0006654 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0046473 View details of GO:0046474
GO:0048017 View details of GO:0048017 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0035556

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Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0226900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi5g1v0226900.1