Department of Evolutionary Neuroethology, Max Planck Institute for Chemical Ecology, Jena, Germany.
Max Planck Center Next Generation Insect Chemical Ecology, Jena, Germany.
J Chem Ecol. 2024 Nov;50(11):610-619. doi: 10.1007/s10886-024-01545-3. Epub 2024 Sep 18.
Sex pheromones play a crucial role in species recognition and reproductive isolation. Despite being largely species-specific in drosophilids, the mechanisms underlying pheromone detection, production, and their influence on mating behavior remain poorly understood. Here, we compare the chemical profiles of Drosophila bipectinata and D. melanogaster, the mating behaviors in both species, as well as the tuning properties of Or67d receptors, which are expressed by neurons in antennal trichoid sensilla at1. Through single sensillum recordings, we demonstrate that the D. bipectinata Or67d-ortholog exhibits similar sensitivity to cis-vaccenyl acetate (cVA) as compared to D. melanogaster but in addition also responds uniquely to (Z)-11-eicosen-1-yl-acetate (Z11-20:Ac), a compound exclusively produced by D. bipectinata males. Through courtship behavior assays we found that, surprisingly, perfuming the flies with Z11-20:Ac did not reveal any aphrodisiacal or anti-aphrodisiacal effects in mating assays. The behavioral relevance of at1 neuron channels in D. bipectinata compared to D. melanogaster seems to be restricted to its formerly shown function as an aggregation pheromone. Moreover, the non-specific compound cVA affected copulation negatively in D. bipectinata and could potentially act as a premating isolation barrier. As both ligands of Or67d seem to govern different behaviors in D. bipectinata, additional neurons detecting at least one of those compounds might be involved. These results underscore the complexity of chemical signaling in species recognition and raise intriguing questions about the evolutionary implications of pheromone detection pathways in Drosophila species.
性信息素在物种识别和生殖隔离中起着至关重要的作用。尽管在果蝇中它们在很大程度上具有物种特异性,但性信息素的检测、产生及其对交配行为的影响的机制仍知之甚少。在这里,我们比较了双斑按蚊和黑腹果蝇的化学特征,比较了这两个物种的交配行为,以及表达于触角毛形感觉器 at1 神经元的 Or67d 受体的调谐特性。通过单感觉器记录,我们证明与黑腹果蝇相比,双斑按蚊的 Or67d 同源物对顺式-戊烯基乙酸酯(cVA)具有相似的敏感性,但此外还对(Z)-11-二十碳烯-1-基乙酸酯(Z11-20:Ac)独特地作出反应,这是一种仅由双斑按蚊雄性产生的化合物。通过求爱行为测定,我们发现令人惊讶的是,用 Z11-20:Ac 给双斑按蚊香水并不会在交配试验中显示出任何催情或抗催情作用。与黑腹果蝇相比,at1 神经元通道在双斑按蚊中的行为相关性似乎仅限于其以前表现出的聚集信息素功能。此外,非特异性化合物 cVA 在双斑按蚊中对交配有负面影响,并且可能作为交配前隔离的障碍。由于 Or67d 的两种配体似乎在双斑按蚊中控制着不同的行为,可能涉及检测至少一种这些化合物的其他神经元。这些结果强调了化学信号在物种识别中的复杂性,并提出了关于性信息素检测途径在果蝇物种中的进化意义的有趣问题。
