Zhejiang Provincial Key Laboratory of Biometrology and Inspection & Quarantine, College of Life Sciences , China Jiliang University , Hangzhou 310018 , China.
Hangzhou Tea Research Institute, China Coop. , Hangzhou 310016 , China.
J Agric Food Chem. 2018 Dec 19;66(50):13084-13095. doi: 10.1021/acs.jafc.8b04510. Epub 2018 Dec 6.
Lepidopteran geometrid moth can produce complex Type II sex pheromone components to attract males and trigger mating behavior. Although several sex pheromone components have been identified, it remains unclear whether their physicochemical roles in sex pheromone sensing are the same. Therefore, we utilized tea geometrid ( Ectropis obliqua) as an example model to investigate and compare the physicochemical basis of two key Type II sex pheromone components, cis-6,7-epoxy-(3Z,9Z)-3,9-octadecadiene ( Z3 Z9-6,7-epo-18:Hy) and ( Z, Z, Z)-3,6,9-octadecatriene (Z3Z6Z9-18:Hy), interacting with pheromone-binding protein 2 ( EoblPBP2) from E. obliqua. Multispectral, thermodynamic, docking, and site-directed mutagenesis indicated that the major sex pheromone component Z3Z9-6,7-epo-18:Hy is more susceptible to pH-tuned than the minor component Z3Z6Z9-18:Hy, whereas Z3Z6Z9-18:Hy seems to be more susceptible to temperature and amino acid mutations than Z3Z9-6,7-epo-18:Hy. Our study suggests that different components of Type II sex pheromone play different binding characters under specific conditions in the physicochemical behavior. This deeply supplements the theoretical knowledge of Type II pheromones involved in the recognition and discrimination in the Lepidopteran sex pheromones family.
鳞翅目尺蛾科的夜蛾能产生复杂的 II 型性信息素成分来吸引雄性并触发交配行为。尽管已经鉴定出几种性信息素成分,但它们在性信息素感应中的物理化学作用是否相同尚不清楚。因此,我们以茶尺蠖(Ectropis obliqua)为例模型,研究和比较了两种关键的 II 型性信息素成分 cis-6,7-环氧-(3Z,9Z)-3,9-十八碳二烯(Z3Z9-6,7-epo-18:Hy)和 (Z, Z, Z)-3,6,9-十八碳三烯(Z3Z6Z9-18:Hy)与来自 E. obliqua 的性信息素结合蛋白 2(EoblPBP2)相互作用的物理化学基础。多光谱、热力学、对接和定点突变表明,主要性信息素成分 Z3Z9-6,7-epo-18:Hy 比次要成分 Z3Z6Z9-18:Hy 更容易受到 pH 调节,而 Z3Z6Z9-18:Hy 似乎比 Z3Z9-6,7-epo-18:Hy 更容易受到温度和氨基酸突变的影响。我们的研究表明,在特定条件下,II 型性信息素的不同成分在物理化学行为中发挥不同的结合特征。这在理论上补充了参与鳞翅目性信息素家族识别和区分的 II 型信息素的理论知识。
