Sumethasorn Matt, Turner Thomas L
Ecological Biology, 9620 UC Santa Barbara, Santa Barbara, CA 93106-00
Ecological Biology, 9620 UC Santa Barbara, Santa Barbara, CA 93106-00.
Biol Open. 2016 Nov 15;5(11):1642-1647. doi: 10.1242/bio.019380.
Recent work on the model fly Drosophila melanogaster has reported inconsistencies in their preference for laying eggs on intermediate concentrations of ethanol. In this study, we resolve this discrepancy by showing that this species strongly prefers ovipositing on ethanol when it is close to a non-ethanol substrate, but strongly avoids ethanol when options are farther apart. We also show fluidity of these behaviors among other Drosophila species: D. melanogaster is more responsive to ethanol than close relatives in that it prefers ethanol more than other species in the close-proximity case, but avoids ethanol more than other species in the distant case. In the close-proximity scenario, the more ethanol-tolerant species generally prefer ethanol more, with the exception of the island endemic D. santomea This species has the lowest tolerance in the clade, but behaves like D. melanogaster We speculate that this could be an adaptation to protect eggs from parasites or predators such as parasitoid wasps, as larvae migrate to non-toxic substrates after hatching. These natural differences among species are an excellent opportunity to study how genes and brains evolve to alter ethanol preferences, and provide an interesting model for genetic variation in preferences in other organisms, including humans.
最近关于模式生物果蝇的研究报告称,它们在中等浓度乙醇上产卵的偏好存在不一致性。在本研究中,我们通过表明该物种在靠近非乙醇底物时强烈倾向于在乙醇上产卵,但在选择距离较远时则强烈避开乙醇,解决了这一差异。我们还展示了这些行为在其他果蝇物种中的灵活性:黑腹果蝇比其近亲对乙醇更敏感,因为在近距离情况下它比其他物种更喜欢乙醇,但在远距离情况下比其他物种更避开乙醇。在近距离场景中,除了岛屿特有物种圣多美果蝇外,耐受性更强的物种通常更喜欢乙醇。该物种在进化枝中耐受性最低,但行为与黑腹果蝇相似。我们推测,这可能是一种适应机制,用于保护卵免受寄生虫或捕食者(如寄生蜂)的侵害,因为幼虫孵化后会迁移到无毒底物上。物种之间的这些自然差异是研究基因和大脑如何进化以改变乙醇偏好的绝佳机会,并为包括人类在内的其他生物体偏好的遗传变异提供了一个有趣的模型。