摘要
综述了各种不同化学结构类型的蛾类雌性信息素生物合成途径。此外还叙述了特定比例的性信息素成分在雌蛾体内产生的机理以及某些蛾类中信息素生物合成酶类与物种进化间的关系。
This review describes various biosynthetic pathways of female produced moth pheromones based on their chemical structural types. Most of moths produce a variety of unsaturated acetate, aldehyde and alcohol pheromones by a species specific combination of Δ 11 or other desaturations, chain shortening reactions, reductions and acetylations or oxidations from endogenous fatty acids. Δ 11 desaturase, that plays a predominant role in introduction of a double bond in many pheromones, oxidase and acetyltransferase have been respectively characterized in several moth species, while chain shortening enzyme and reductase have not been characterized. In contrast to above biosynthetic type, other moths biosynthesize their hydrocarbon or it's monoepoxy derivative pheromones by a species specific combination of chain elongations, reductive decarboxylations and epoxydations from exogenous fatty acids. Many moths use a specific ratio of geometric or positional isomers in their pheromones. It has been demonstrated that it is the substrate specificities of one or more key biosynthetic enzymes responsible for the production of specific ratio of pheromone components in several species. Furthermore, the similarities and differences of some key biosynthetic enzymes in different species or genetic strains are compared in order to elucidate the important role of these enzymes in moth evolution.
出处
《昆虫学报》
CAS
CSCD
北大核心
2000年第4期429-439,共11页
Acta Entomologica Sinica
基金
国家自然科学基金资助项目!(386 0 145
390 70 15 8)
关键词
蛾类性信息素
生物合成
酶类
特定比例
进化
moth sex pheromone
biosynthesis
enzymes
specific isomeric ratio
evolution
