University of Lleida, Centre UdL-IRTA, Lleida, Spain.
Pest Manag Sci. 2013 Nov;69(11):1280-90. doi: 10.1002/ps.3500. Epub 2013 Apr 3.
Pheromone antagonists are good disruptants of the pheromone communication in insects and, as such, have been used in mating disruption experiments. In this study, new non-fluorinated electrophilic keto derivatives structurally related to the pheromone of Cydia pomonella (codlemone) have been synthesised and tested as putative pheromone antagonists.
Codlemone (1) was prepared in excellent stereoselectivity in a new, iterative approach involving two Horner-Wadsworth-Emmons reactions. Methyl ketone (2), keto ester (3) and diketone (4) were obtained from codlemone in straightforward approaches in good overall yields and excellent stereochemical purity (≥98% E,E). In electrophysiology, only compound 2 displayed inhibition of the antennal response to the pheromone after presaturation of the antennal receptors. Compounds 2 to 4 did not inhibit the pheromone-degrading enzyme responsible for codlemone metabolism, but mixtures of ketone 2 and diketone 4 with codlemone elicited erratic flights on males in a wind tunnel. In the field, blends of either compound (2 or 4) with the pheromone caught significantly fewer males than codlemone alone.
Codlemone and the potential antagonists 2 to 4 have been synthesised in good yields and excellent stereoselectivity. These chemicals behave as pheromone antagonists of the codling moth both in the laboratory and in the field.
信息素拮抗剂是昆虫信息素通讯的良好干扰剂,因此已被用于交配干扰实验。在这项研究中,我们合成了与西洋梨卷叶蛾信息素(codlemone)结构相关的新型非氟化亲电酮衍生物,并将其作为潜在的信息素拮抗剂进行了测试。
codlemone(1)以一种新颖的迭代方法,通过两次 Horner-Wadsworth-Emmons 反应,以极好的立体选择性制备。通过直接方法,以良好的总收率和极好的立体化学纯度(≥98% E,E)从 codlemone 获得了甲基酮(2)、酮酯(3)和二酮(4)。在电生理学中,只有化合物 2 在预饱和触角受体后显示出对信息素的触角反应抑制。化合物 2 至 4 不抑制负责 codlemone 代谢的信息素降解酶,但酮 2 和二酮 4 的混合物与 codlemone 在风洞中引起雄蛾不稳定的飞行。在野外,与信息素混合的任一种化合物(2 或 4)比单独使用 codlemone 捕获的雄性数量显著减少。
以良好的产率和极好的立体选择性合成了 codlemone 和潜在的拮抗剂 2 至 4。这些化学物质在实验室和野外都表现为西洋梨卷叶蛾的信息素拮抗剂。
