DGIMI, Univ Montpellier, INRA, Montpellier, France.
INRA, UMR Institut de Génétique, Environnement et Protection des Plantes (IGEPP), BioInformatics Platform for Agroecosystems Arthropods (BIPAA), Campus Beaulieu, Rennes, France.
BMC Genomics. 2018 Nov 6;19(1):804. doi: 10.1186/s12864-018-5119-6.
A change in the environment may impair development or survival of living organisms leading them to adapt to the change. The resulting adaptation trait may reverse, or become fixed in the population leading to evolution of species. Deciphering the molecular basis of adaptive traits can thus give evolutionary clues. In phytophagous insects, a change in host-plant range can lead to emergence of new species. Among them, Spodoptera frugiperda is a major agricultural lepidopteran pest consisting of two host-plant strains having diverged 3 MA, based on mitochondrial markers. In this paper, we address the role of microRNAs, important gene expression regulators, in response to host-plant change and in adaptive evolution.
Using small RNA sequencing, we characterized miRNA repertoires of the corn (C) and rice (R) strains of S. frugiperda, expressed during larval development on two different host-plants, corn and rice, in the frame of reciprocal transplant experiments. We provide evidence for 76 and 68 known miRNAs in C and R strains and 139 and 171 novel miRNAs. Based on read counts analysis, 34 of the microRNAs were differentially expressed in the C strain larvae fed on rice as compared to the C strain larvae fed on corn. Twenty one were differentially expressed on rice compared to corn in R strain. Nine were differentially expressed in the R strain compared to C strain when reared on corn. A similar ratio of microRNAs was differentially expressed between strains on rice. We could validate experimentally by QPCR, variation in expression of the most differentially expressed candidates. We used bioinformatics methods to determine the target mRNAs of known microRNAs. Comparison with the mRNA expression profile during similar reciprocal transplant experiment revealed potential mRNA targets of these host-plant regulated miRNAs.
In the current study, we performed the first systematic analysis of miRNAs in Lepidopteran pests feeding on host-plants. We identified a set of the differentially expressed miRNAs that respond to the plant diet, or differ constitutively between the two host plant strains. Among the latter, the ones that are also deregulated in response to host-plant are molecular candidates underlying a complex adaptive trait.
环境的变化可能会损害生物的发育或生存,使它们适应变化。由此产生的适应特征可能会逆转,或者在种群中固定下来,导致物种的进化。因此,破译适应特征的分子基础可以提供进化线索。在植食性昆虫中,寄主范围的改变可能导致新物种的出现。其中,夜蛾(Spodoptera frugiperda)是一种主要的农业鳞翅目害虫,由两个基于线粒体标记物分化了 3 百万年的寄主植物品系组成。在本文中,我们研究了 microRNA (miRNA),一种重要的基因表达调控因子,在应对寄主植物变化和适应性进化中的作用。
利用小 RNA 测序,我们对 S. frugiperda 的玉米(C)和水稻(R)品系在幼虫发育过程中,在两种不同的寄主植物玉米和水稻上的 miRNA 谱进行了特征描述,这是在相互移植实验的框架内进行的。我们提供了 76 个和 68 个已知 miRNA 在 C 和 R 品系中的证据,以及 139 个和 171 个新的 miRNA。基于读数计数分析,在 C 品系幼虫以水稻为食时,34 个 microRNAs 在 C 品系幼虫以玉米为食时表现出差异表达。在 R 品系中,有 21 个在以水稻为食时与以玉米为食时表现出差异表达。当在玉米上饲养时,在 R 品系中与 C 品系相比有 9 个表现出差异表达。在 R 品系中,在以水稻为食时与以玉米为食时,也有类似比例的 microRNAs 表现出差异表达。我们可以通过 QPCR 实验验证最具差异表达候选 microRNAs 的表达变化。我们使用生物信息学方法确定了已知 microRNAs 的靶 mRNAs。与类似的相互移植实验中的 mRNA 表达谱进行比较,揭示了这些受寄主植物调控的 miRNA 的潜在 mRNA 靶标。
在本研究中,我们首次对以寄主植物为食的鳞翅目害虫中的 miRNA 进行了系统分析。我们鉴定了一组对植物饮食有反应的差异表达 miRNA,或者在两个寄主植物品系之间存在组成型差异。在后者中,那些对寄主植物反应也失调的 microRNAs 是复杂适应性特征的潜在分子候选者。
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