Pea aphid winged and wingless males exhibit reproductive, gene expression, and lipid metabolism differences

IF 2.2 Q1 ENTOMOLOGY
Omid Saleh Ziabari , Qingyi Zhong , Swapna R. Purandare , Joel Reiter , Anthony J. Zera , Jennifer A. Brisson
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引用次数: 2

Abstract

Alternative, intraspecific phenotypes offer an opportunity to identify the mechanistic basis of differences associated with distinctive life history strategies. Wing dimorphic insects, in which both flight-capable and flight-incapable individuals occur in the same population, are particularly well-studied in terms of why and how the morphs trade off flight for reproduction. Yet despite a wealth of studies examining the differences between female morphs, little is known about male differences, which could arise from different causes than those acting on females. Here we examined reproductive, gene expression, and biochemical differences between pea aphid (Acyrthosiphon pisum) winged and wingless males. We find that winged males are competitively superior in one-on-one mating circumstances, but wingless males reach reproductive maturity faster and have larger testes. We suggest that males tradeoff increased local matings with concurrent possible inbreeding for outbreeding and increased ability to find mates. At the mechanistic level, differential gene expression between the morphs revealed a possible role for activin and insulin signaling in morph differences; it also highlighted genes not previously identified as being functionally important in wing polymorphism, such as genes likely involved in sperm production. Further, we find that winged males have higher lipid levels, consistent with their use as flight fuel, but we find no consistent patterns of different levels of activity among five enzymes associated with lipid biosynthesis. Overall, our analyses provide evidence that winged versus wingless males exhibit differences at the reproductive, gene expression, and biochemical levels, expanding the field's understanding of the functional aspects of morph differences.

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有翅和无翅雄性豌豆蚜虫表现出生殖、基因表达和脂质代谢的差异
另外,种内表型提供了一个机会来确定与不同生活史策略相关的差异的机制基础。有飞行能力和无飞行能力的双翅昆虫在同一种群中同时出现,这类昆虫在为何以及如何用飞行来换取繁殖方面得到了很好的研究。然而,尽管有大量的研究调查了雌性变异之间的差异,但对雄性变异的了解却很少,这种差异可能是由不同的原因引起的,而不是由作用于雌性的原因引起的。在这里,我们研究了豌豆蚜虫(Acyrthosiphon pisum)有翅和无翅雄性之间的生殖、基因表达和生化差异。我们发现,有翅膀的雄性在一对一的交配环境中具有竞争优势,但没有翅膀的雄性达到生殖成熟的速度更快,睾丸也更大。我们认为雄性在增加的本地交配和同时可能的近亲繁殖之间进行了权衡,以获得外交配和寻找配偶的能力。在机制水平上,不同形态之间的基因表达差异揭示了激活素和胰岛素信号在形态差异中的可能作用;它还强调了以前未被确定为在翅膀多态性中具有重要功能的基因,例如可能与精子产生有关的基因。此外,我们发现有翅膀的雄性有更高的脂质水平,这与它们作为飞行燃料的用途一致,但我们发现与脂质生物合成相关的五种酶的不同活性水平没有一致的模式。总的来说,我们的分析提供了证据,证明有翼和无翼的雄性在生殖、基因表达和生化水平上表现出差异,扩大了对形态差异功能方面的理解。
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来源期刊
Current Research in Insect Science
Current Research in Insect Science Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
3.20
自引率
0.00%
发文量
22
审稿时长
36 days
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