Alternative suppression of transcription from two desaturase genes is the key for species-specific sex pheromone biosynthesis in two Ostrinia moths

Crossing of two Ostrinia moths that use different positional isomers as sex pheromone components revealed that species-specific pheromone is produced through alternative suppression of two pheromone gland-specific desaturases at the gene transcription level. The sex pheromone of Ostrinia scapulalis...

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Veröffentlicht in:Insect biochemistry and molecular biology 2009, Vol.39 (1), p.62-67
Hauptverfasser: Sakai, Ryota, Fukuzawa, Mai, Nakano, Ryo, Tatsuki, Sadahiro, Ishikawa, Yukio
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container_title Insect biochemistry and molecular biology
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creator Sakai, Ryota
Fukuzawa, Mai
Nakano, Ryo
Tatsuki, Sadahiro
Ishikawa, Yukio
description Crossing of two Ostrinia moths that use different positional isomers as sex pheromone components revealed that species-specific pheromone is produced through alternative suppression of two pheromone gland-specific desaturases at the gene transcription level. The sex pheromone of Ostrinia scapulalis (the adzuki bean borer) is a blend of ( Z)-11- and ( E)-11-tetradecenyl acetates ( Z/ E11-14:OAc), whereas that of Ostrinia furnacalis (the Asian corn borer) is a blend of ( Z)-12- and ( E)-12-tetradecenyl acetates ( Z/ E12-14:OAc). Δ11-Desaturase is known to be involved in the biosynthesis of Z/ E11-14:OAc, and Δ14-desaturase, in that of Z/ E12-14:OAc. The F1 hybrid between O. scapulalis and O. furnacalis produced both parents' sex pheromone components ( Z/ E11-14:OAc and Z/ E12-14:OAc). Although the two species have both Δ11- and Δ14-desaturase genes, transcription from the Δ14-desaturase gene was strongly suppressed in O. scapulalis, as was transcription from the Δ11-desaturase gene in O. furnacalis. Meanwhile, both genes were transcribed into mRNA in F1. The production/non-production of Z/ E11-14:OAc and Z/ E12-14:OAc in F1, F2, and backcross progenies could be explained by an autosomal locus that suppresses transcription from either the Δ11-desaturase or Δ14-desaturase gene. Based on the findings, the evolution of sex pheromone biosynthesis in O. scapulalis and O. furnacalis is discussed.
doi_str_mv 10.1016/j.ibmb.2008.10.001
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The sex pheromone of Ostrinia scapulalis (the adzuki bean borer) is a blend of ( Z)-11- and ( E)-11-tetradecenyl acetates ( Z/ E11-14:OAc), whereas that of Ostrinia furnacalis (the Asian corn borer) is a blend of ( Z)-12- and ( E)-12-tetradecenyl acetates ( Z/ E12-14:OAc). Δ11-Desaturase is known to be involved in the biosynthesis of Z/ E11-14:OAc, and Δ14-desaturase, in that of Z/ E12-14:OAc. The F1 hybrid between O. scapulalis and O. furnacalis produced both parents' sex pheromone components ( Z/ E11-14:OAc and Z/ E12-14:OAc). Although the two species have both Δ11- and Δ14-desaturase genes, transcription from the Δ14-desaturase gene was strongly suppressed in O. scapulalis, as was transcription from the Δ11-desaturase gene in O. furnacalis. Meanwhile, both genes were transcribed into mRNA in F1. 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The production/non-production of Z/ E11-14:OAc and Z/ E12-14:OAc in F1, F2, and backcross progenies could be explained by an autosomal locus that suppresses transcription from either the Δ11-desaturase or Δ14-desaturase gene. 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The sex pheromone of Ostrinia scapulalis (the adzuki bean borer) is a blend of ( Z)-11- and ( E)-11-tetradecenyl acetates ( Z/ E11-14:OAc), whereas that of Ostrinia furnacalis (the Asian corn borer) is a blend of ( Z)-12- and ( E)-12-tetradecenyl acetates ( Z/ E12-14:OAc). Δ11-Desaturase is known to be involved in the biosynthesis of Z/ E11-14:OAc, and Δ14-desaturase, in that of Z/ E12-14:OAc. The F1 hybrid between O. scapulalis and O. furnacalis produced both parents' sex pheromone components ( Z/ E11-14:OAc and Z/ E12-14:OAc). Although the two species have both Δ11- and Δ14-desaturase genes, transcription from the Δ14-desaturase gene was strongly suppressed in O. scapulalis, as was transcription from the Δ11-desaturase gene in O. furnacalis. Meanwhile, both genes were transcribed into mRNA in F1. The production/non-production of Z/ E11-14:OAc and Z/ E12-14:OAc in F1, F2, and backcross progenies could be explained by an autosomal locus that suppresses transcription from either the Δ11-desaturase or Δ14-desaturase gene. Based on the findings, the evolution of sex pheromone biosynthesis in O. scapulalis and O. furnacalis is discussed.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>18992816</pmid><doi>10.1016/j.ibmb.2008.10.001</doi><tpages>6</tpages></addata></record>
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subjects Animals
Biosynthesis
chemical composition
crossing
Desaturase
Down-Regulation
Fatty Acid Desaturases - genetics
Fatty Acid Desaturases - metabolism
Female
gene expression regulation
Genetics
Insect Proteins - genetics
Insect Proteins - metabolism
isomers
Male
messenger RNA
Moths - enzymology
Moths - genetics
Moths - metabolism
Ostrinia
Ostrinia furnacalis
Ostrinia scapulalis
oxygenases
pheromone blends
pheromone glands
Sex Attractants - biosynthesis
Sex Attractants - genetics
Sex pheromone
sex pheromones
species differences
Species Specificity
transcription (genetics)
Transcription, Genetic
Δ10-desaturase gene
Δ14-desaturase gene
title Alternative suppression of transcription from two desaturase genes is the key for species-specific sex pheromone biosynthesis in two Ostrinia moths
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