The evolution and genetics of sexual dimorphism

性二态性的进化和遗传学

• 批准号: 2462965
• 金额: --
• 依托单位: University of Sheffield
• 依托单位国家: 英国
• 项目类别: Studentship
• 财政年份: 2020
• 资助国家: 英国
• 起止时间: 2020 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=studentship-2462965
• 关键词: evolution; genetics; sexual; dimorphism

BackgroundMales and females of the same species are often subject to different and even contradictory selection pressures. However, with the exception of the Y chromosome, the sexes share the vast majority of their genome. This intersexual genetic correlation creates the potential for sexual conflict, which in turn selects for conflict resolution and the evolution of sexual dimorphism. Conflict is typically thought to impede sex-specific responses to natural selection and act as an evolutionary brake, yet growing evidence indicates it can shape genetic diversity in populations and act as an important force in adaptation.Identifying if, how, and when sexual conflict can be resolved has key implications for its role in ecological adaptation. It is widely assumed that gene regulation differences between females and males can resolve sexual conflict. However, this relationship has been the subject of considerable recent debate and the potential roles of different gene regulatory mechanisms have not been tested. Furthermore, genomic studies of sexual conflict focus primarily on adults yet many sexual dimorphisms are established during embryogenesis. As a result, we lack a detailed understanding of the developmental context of sexual conflict, and its persistence and manifestation through development. Recent studies have shown that sex-biased genes are a key component of sex-specific fitness, but how these sex differences are established and change through development is unclear. Epigenetic modifications, such as methylation, are known to play important roles in regulating gene expression by influencing the structure of the genome without changing the DNA sequence. However, the relationship between epigenetic processes, the expression of sexually antagonistic genes, and conflict resolution has not yet been rigorously tested.Finally, our understanding of the potential for conflict to be resolved is limited. In particular, one mechanism of gene regulation that has received little attention is alternative splicing. Splicing increases proteomic complexity by generating multiple transcripts from one locus, and varies substantially across species, sexes, and tissues, as well as playing a key role in sex determination pathways. However, the evolution of sex-specific splicing, its functional importance, and role in resolving conflict has yet to be tested.ObjectivesThis project will combine state-of-the-art genomic tools and high-resolution sequencing data (RNA-seq, PacBio, WGBS) across the avian phylogeny to ask: 1. How does DNA methylation contribute to sex differences in expression?2. What is the role of alternative splicing in sexual conflict resolution?3. How is sexual conflict manifest during development?Specifically, these questions will be addressed using somatic and gonadal tissues sampled from males and females at multiple developmental stages across four avian species; chicken, pheasant, guineafowl and mallard duck. We have already developed population genomic pipelines to identify signatures of sexual conflict (Wright et al 2018 Evol Letters) and study alternative splicing (Rogers et al in prep) and gene expression evolution (Wright et al 2017 Nat Commun).Novelty and TimelinessDespite considerable recent interest in the manifestation and persistence of sexual conflict, many questions remain unanswered, particularly the role of conflict in evolutionary change. There is mixed evidence whether conflict aids or impedes adaptation, and it is not clear whether unresolved conflict hinders adaptation more than it helps. This PhD will generate an integrated understanding of the relative roles of gene regulation in resolving sexual conflict, and how these are manifest during development. In doing so, this work has broad implications for multiple fields of evolutionary biology, including phenotypic diversity, adaptation and speciation.

研究背景同一物种的雄性和雌性往往受到不同甚至矛盾的选择压力。然而，除了Y染色体之外，两性共享绝大多数的基因组。这种两性间的遗传相关性创造了性冲突的可能性，这反过来又选择了解决冲突和性二型性的进化。冲突通常被认为是阻碍性别特异性的自然选择的反应，并作为一个进化的刹车，但越来越多的证据表明，它可以塑造种群的遗传多样性，并作为一个重要的力量在adaptation.Identifying如果，如何，以及何时可以解决性冲突有其在生态适应中的作用的关键影响。人们普遍认为，女性和男性之间的基因调控差异可以解决性冲突。然而，这种关系一直是最近相当多的辩论的主题，不同的基因调控机制的潜在作用还没有得到测试。此外，性冲突的基因组研究主要集中在成年人，但许多性二型是在胚胎发育过程中建立的。因此，我们对性冲突的发展背景及其在发展过程中的持续性和表现形式缺乏详细的了解。最近的研究表明，性别偏见基因是性别特异性适应性的关键组成部分，但这些性别差异是如何建立和通过发展变化的尚不清楚。已知表观遗传修饰（如甲基化）通过影响基因组的结构而不改变DNA序列，在调节基因表达中发挥重要作用。然而，表观遗传过程、性拮抗基因的表达和冲突解决之间的关系尚未得到严格的检验。最后，我们对冲突解决潜力的理解是有限的。特别是，一种很少受到关注的基因调控机制是选择性剪接。剪接通过从一个基因座产生多个转录本来增加蛋白质组的复杂性，并且在物种、性别和组织之间存在很大差异，并且在性别决定途径中发挥关键作用。然而，进化的性别特异性剪接，其功能的重要性，并在解决conflict.ObjectivesThis项目将结合联合收割机国家的最先进的基因组工具和高分辨率测序数据（RNA-seq，PacBio，WGBS）在整个鸟类生殖系统问：1。DNA甲基化是如何影响基因表达的性别差异的？2.选择性剪接在解决性冲突中的作用是什么？3.性冲突在发育过程中是如何表现的？具体而言，这些问题将解决使用体细胞和性腺组织采样的男性和女性在多个发展阶段在四个鸟类物种;鸡，野鸡，珍珠鸡和野鸭。我们已经开发了人口基因组管道来识别性冲突的特征（Wright et al 2018 Evol Letters）并研究选择性剪接（Rogers et al in prep）和基因表达进化（Wright et al 2017 Nat Commun）.新奇和及时性尽管最近对性冲突的表现和持续性有相当大的兴趣，但许多问题仍然没有答案，尤其是冲突在进化过程中的作用。冲突是否有助于或阻碍适应的证据不一，也不清楚未解决的冲突对适应的阻碍是否大于帮助。这个博士学位将产生基因调控在解决性冲突的相对作用的综合理解，以及这些是如何在发展过程中表现出来。在这样做的过程中，这项工作对进化生物学的多个领域产生了广泛的影响，包括表型多样性，适应和物种形成。