期刊
CHEMICAL SENSES
卷 34, 期 5, 页码 383-394出版社
OXFORD UNIV PRESS
DOI: 10.1093/chemse/bjp010
关键词
citral; dose-response; Epiphyas postvittana; methyl salicylate; odorant receptor; plant volatile
资金
- The Foundation for Research, Science, and Technology of New Zealand [CO6X0701, CO6X0207, C06X030]
- Pipfruit New Zealand
- The Ministry of Research, Science, and Technology of New Zealand
- Agricultural and Marketing Research and Development Trust of New Zealand
Moths recognize a wide range of volatile compounds, which they use to locate mates, food sources, and oviposition sites. These compounds are recognized by odorant receptors (OR) located within the dendritic membrane of sensory neurons that extend into the lymph of sensilla, covering the surface of insect antennae. We have identified 3 genes encoding ORs from the tortricid moth, Epiphyas postvittana, a pest of horticulture. Like Drosophila melanogaster ORs, they contain 7 transmembrane helices with an intracellular N-terminus, an orientation in the plasma membrane opposite to that of classical GPCRs. EpOR2 is orthologous to the coreceptor Or83b from D. melanogaster. EpOR1 and EpOR3 both recognize a range of terpenoids and benzoates produced by plants. Of the compounds tested, EpOR1 shows the best sensitivity to methyl salicylate [EC50 = 1.8 x 10(-12) M], a common constituent of floral scents and an important signaling compound produced by plants when under attack from insects and pathogens. EpOR3 best recognizes the monoterpene citral to low concentrations [EC50 = 1.1 x 10(-13) M]. Citral produces the largest amplitude electrophysiological responses in E. postvittana antennae and elicits repellent activity against ovipositing female moths. Orthologues of EpOR3 were found across 6 families within the Lepidoptera, suggesting that the ability to recognize citral may underpin an important behavior.
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