Genotypic and phenotypic variation during adaptation in fungal microbes

真菌微生物适应过程中的基因型和表型变异

• 批准号: RGPIN-2019-05867
• 负责人: Gerstein, Aleeza
• 金额: $ 2.77万
• 依托单位: University of Manitoba
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=687124
• 关键词: Genotypic; phenotypic; variation; during; adaptation

The appearance of beneficial variation in a population is required for an organism to adapt. The long-term goal of my research program is to understand how different factors influence the appearance and spread of beneficial variation. We apply evolutionary principles to understand the predictability of adaptation in fungal microbes. Fungi are critically understudied relative to other taxa, and our experiments will clarify the specific patterns that underlie adaptation in fungal microbes, and more generally provide insight into the genotypic and phenotypic basis of adaptation. We primarily use the model eukaryote Saccharomyces cerevisiae to take advantage of the unparalleled genetic resources available for this species. In the short-term we have two major goals:***I: Precisely quantify karyotypic mutations during adaptation***Many fungal microbes are able to reproduce asexually, and compared to species that habitually undergo sexual reproduction, karyotypic mutations (changes in ploidy, the base number of chromosome sets), and aneuploidy (copy number change in one or several chromosomes) are prevalent. We will develop a new statistical analysis program to quantify karyotypic variation in populations that contain individuals of mixed ploidy. This program will be the first available method to comprehensively analyze these populations and will enable new avenues of research on the prevalence and influence of karyotypic variation and subpopulations during adaptation. Students in my lab will then use the program we develop in tandem with whole genome sequencing techniques to precisely quantify karyotypic variation throughout a long term evolution experiment. ***II: Characterize evolutionary responses to inhibitory environmental stresses***We will investigate the evolutionary implications of inhibitory (static) environments compared to lethal (cidal) environments. We will conduct the first quantification of diverse environmental challenges (e.g., high and low pH, heavy metals, nitrosative and oxidative stress) to determine the conditions that are cidal versus static to fungal microbes. We will then use two complementary experimental approaches, genome wide association studies (GWAS) and short-term experimental evolution, to pinpoint specific genotypes that are beneficial in fungistatic environments. We will characterize the diversity and nature of mutations that improve growth under static environments, and evaluate how the predictability of evolution is influenced by this important and fundamental feature of environmental stress.******I expect to train 4 graduate and at least 6 undergraduate students in the next five years. As I am cross-appointed between the Microbiology and Statistics departments, these students will gain a mix of empirical and analytical experience from both fields. This will enable students to acquire a diverse and marketable skillset that will serve them well regardless of their career goals. **

生物体需要在种群中出现有益的变异才能适应。我的研究计划的长期目标是了解不同因素如何影响有益变异的出现和传播。我们应用进化论原理来理解真菌微生物适应的可预测性。相对于其他分类群，真菌的研究严重不足，我们的实验将澄清真菌微生物适应的特定模式，并更广泛地提供对适应的基因和表型基础的洞察。我们主要使用模式真核生物酿酒酵母来利用该物种可用的无与伦比的遗传资源。在短期内，我们有两个主要目标：*i：在适应过程中精确量化核型突变*许多真菌微生物能够无性繁殖，与习惯性进行有性繁殖的物种相比，核型突变(倍性变化，染色体组的基数)和非整倍体(一个或几个染色体上的拷贝数变化)普遍存在。我们将开发一种新的统计分析程序来量化包含混合倍性个体的群体的核型变异。这一计划将是第一个全面分析这些群体的可用方法，并将为研究核型变异和适应期间亚群体的流行和影响提供新的途径。然后，我实验室的学生将使用我们开发的与全基因组测序技术相结合的程序，在长期的进化实验中精确量化核型变异。*II：表征对抑制性环境压力的进化反应*我们将调查抑制性(静态)环境与致命性(致死)环境的进化含义。我们将首先对各种环境挑战(例如，高和低pH值、重金属、亚硝酸盐和氧化应激)进行量化，以确定对真菌微生物是致命还是静态的条件。然后，我们将使用两种互补的实验方法，全基因组关联研究(GWAS)和短期实验进化，以确定在抑菌环境中有益的特定基因类型。我们将描述在静态环境下促进生长的突变的多样性和性质，并评估环境压力这一重要而基本的特征如何影响进化的可预测性。*我预计在未来五年内培养4名研究生和至少6名本科生。由于我是微生物学系和统计系的交叉任命，这些学生将从这两个领域获得经验和分析的混合经验。这将使学生获得多样化和适销对路的技能，无论他们的职业目标如何，这些技能都将很好地服务于他们。**