CAREER: Molecular Dissection of Arabidopsis DNA Methylation Mechanism

职业：拟南芥 DNA 甲基化机制的分子解析

• 批准号: 2239639
• 负责人: Xuehua Zhong
• 金额: $ 119.08万
• 依托单位: Washington University
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-08-15 至 2023-11-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2239639&HistoricalAwards=false
• 关键词: CAREER; Molecular; Dissection; Arabidopsis; DNA

In complex genomes like those in plants and mammals, the DNA is selectively modified by chemical addition of methyl groups. The goal of this research is to understand how enzymes that methylate DNA locate the correct sites to modify. This is an important question, because accurate methylation deposition is critical for genome integrity and function, and alterations in methylation can result in abnormal developmental and pathological states, including cancers. The scientific outcome of this project could ultimately prove useful for developing novel technologies to correct methylation defects and thereby to improve agriculture and medicine. In addition, this project will provide many educational benefits, such as multi-disciplinary research training for undergraduate students, graduate students and postdocs, including those from underrepresented groups. The project will also engage high school students in research, with the aim of providing an enriching experience, particularly for women, minorities, and those who would be the first in their families to attend college. Another impact of the project will be the development of three learning modules centered on various aspects of genetics: tabletop science station for K-12 students, field trip module for middle school students, and summer science-camp for rural Wisconsin high school students and science teachers.DNA methylation is not only prevalent in plants, fungi, and some animals, but also plays critical roles in genome defense, differentiation, development, disease, and environmental responses in these organisms. Despite its importance, remarkably little is known about the actual cue and the molecular mechanism that establish cell type- and locus-specific DNA methylation. Understanding the diverse functions of DNA methylation requires mechanistic knowledge of how DNA methyltransferase, the enzyme at the heart of this modification, is targeted to specific genomic loci. This project focuses on understanding the molecular actions of several new chromatin factors in mediating the establishment and maintenance of genome-wide and locus-specific DNA methylation patterns, using Arabidopsis thaliana as a powerful model. The comprehensive genetic, biochemical, and genomic studies proposed in this project will generate significant mechanistic insights into the specificity of DNA methylation regulation at the whole genome levels as well as local DNA sequence levels. Deep mechanistic knowledge of DNA methylation is crucial to understanding the molecular processes that establish DNA methylation landscapes under physiological and pathological conditions. This research will also have substantial impacts on understanding how DNA methylation is coordinated with other critical developmental, physiological, and environmental processes to regulate genome function in other plant and animal species.

在植物和哺乳动物等复杂基因组中，DNA通过化学添加甲基基团进行选择性修饰。这项研究的目的是了解甲基化DNA的酶如何定位正确的位点进行修饰。这是一个重要的问题，因为准确的甲基化沉积对基因组的完整性和功能至关重要，甲基化的改变可能导致异常的发育和病理状态，包括癌症。该项目的科学成果最终可能被证明有助于开发新技术来纠正甲基化缺陷，从而改善农业和医学。此外，该项目还将提供许多教育方面的好处，如为本科生、研究生和博士后提供多学科研究培训，包括来自代表性不足群体的学生。该项目还将让高中生参与研究，目的是提供丰富的经验，特别是为妇女、少数民族和家庭中第一个上大学的人。该项目的另一个影响将是围绕遗传学的各个方面开发三个学习模块：为K-12学生提供桌面科学站，为中学生提供实地考察模块，为威斯康星州农村高中生和科学教师提供暑期科学夏令营。DNA甲基化不仅在植物、真菌和一些动物中普遍存在，而且在基因组防御、分化发展，疾病，以及这些生物体的环境反应。尽管它的重要性，显着很少知道的实际线索和分子机制，建立细胞类型和基因座特异性DNA甲基化。理解DNA甲基化的不同功能需要了解DNA甲基转移酶（这种修饰的核心酶）如何靶向特定的基因组位点的机理知识。该项目的重点是了解几个新的染色质因子在介导建立和维持全基因组和基因座特异性DNA甲基化模式的分子作用，使用拟南芥作为一个强大的模型。该项目中提出的全面的遗传学、生物化学和基因组研究将在整个基因组水平以及局部DNA序列水平上对DNA甲基化调控的特异性产生重要的机制见解。深入了解DNA甲基化的机理对于理解在生理和病理条件下建立DNA甲基化景观的分子过程至关重要。这项研究也将对理解DNA甲基化如何与其他关键的发育，生理和环境过程协调以调节其他植物和动物物种的基因组功能产生重大影响。