Collaborative Research: RoL: Rapid Evolution of Reproductive Isolation via Hybrid Seed Lethality in Mimulus

合作研究：RoL：通过混合种子致死率实现生殖隔离的快速进化

• 批准号: 1856157
• 负责人: John Willis
• 金额: $ 72.46万
• 依托单位: Duke University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2019
• 资助国家: 美国
• 起止时间: 2019-06-01 至 2024-05-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1856157&HistoricalAwards=false
• 关键词: Collaborative; Research; RoL; Rapid; Evolution

The divergence of living forms into nine million different species depends on lineages becoming reproductively isolated. This reproductive isolation prevents interbreeding, allowing for the emergence of distinct species. This research project makes use of the tremendous species diversity present in the monkey flowers (Mimulus). Comparison of many pairs of species in this group will uncover the genetic changes responsible for and the evolutionary forces at work that generated reproductive isolation. Understanding the interactions between genetic mechanisms and evolutionary processes that lead to species diversification will also contribute to agricultural breeding programs. The project includes efforts to educate grade school and high school students about evolution and the value of species diversity, and train undergraduate and graduate students in evolutionary biology and the molecular genetics of development.This research project focuses on the evolution of F1 hybrid seed inviability, a relatively unstudied but potentially common reproductive barrier in flowering plants. This project integrates phylogenetic, population genetic, developmental, transcriptomic, and genome mapping approaches to systematically address whether hybrid seed failure is a key isolating mechanism driving population and species diversification across the genus Mimulus. The project will test the hypothesis that this form of reproductive isolation evolves rapidly via natural selection generated by parent-offspring conflict in all outbreeding flowering plant species. Such conflict-driven selection is expected to cause divergent evolution of the genetic control of endosperm development in seeds in different lineages via differential genomic imprinting, quickly leading to strong postzygotic isolation regardless of the ecological environments that the species experience. The main goals of this project are to determine the rate of evolution, strength, and importance of hybrid seed inviability in the speciation process across the genus Mimulus; to assess the developmental mechanisms and transcriptomic signatures of hybrid seed inviability, and finally to determine the genetic basis of hybrid seed inviability and the degree of parallelism in the genetic basis of speciation in this genus.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

生命形式分化成900万种不同的物种取决于血统在生殖上的隔离。这种生殖隔离防止了杂交，允许不同物种的出现。该研究项目利用了猴子花（Mimulus）中存在的巨大物种多样性。对这一群体中的许多物种进行比较，将揭示导致生殖隔离的遗传变化和进化力量。了解导致物种多样化的遗传机制和进化过程之间的相互作用也将有助于农业育种计划。该项目包括努力教育小学和高中学生关于进化和物种多样性的价值，并培训本科生和研究生进化生物学和发育的分子遗传学。该研究项目的重点是F1杂交种子无活力的进化，这是一种相对未研究但可能是显花植物中常见的生殖障碍。该项目整合了系统发育，种群遗传，发育，转录组学和基因组作图方法，系统地解决杂交种子失败是否是一个关键的隔离机制，推动整个属Mimulus种群和物种多样化。该项目将测试这样一种假设，即这种形式的生殖隔离通过所有远系繁殖开花植物物种中亲子冲突产生的自然选择迅速进化。这种冲突驱动的选择，预计会导致不同谱系的种子胚乳发育的遗传控制，通过差异基因组印记，迅速导致强烈的合子后隔离，无论生态环境的物种的经验。这个项目的主要目标是确定进化的速度，强度，以及杂交种子在整个属Mimulus物种形成过程中的重要性;为了评估杂种种子无活力的发育机制和转录组学特征，最后确定杂交种子无活力的遗传基础和该属物种形成遗传基础的平行程度。该奖项反映了NSF的法定基金会的使命是履行其使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评价，被认为值得支持。