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Structural mechanisms of Mcm10 in DNA replication

Mcm10在DNA复制中的结构机制

基本信息

批准号：
7797437
负责人：
Brandt F Eichman
金额：
$ 27.18万
依托单位：
VANDERBILT UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2007
资助国家：
美国
起止时间：
2007-04-15 至 2013-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7797437
关键词：
Address Architecture Binding Biochemical Biochemistry Biological Assay Catalytic Domain Cell Cycle Chromatin Chromosomal Instability Complex Coupled Coupling DNA DNA Binding DNA biosynthesis DNA-Binding Proteins DNA-Directed DNA Polymerase Development Eukaryota Eukaryotic Cell Failure Foundations Genome Goals Health Human In Vitro Knowledge Laboratories Lead Malignant Neoplasms Maps Molecular Multiprotein Complexes Mutagenesis Mutation NMR Spectroscopy Peptide Initiation Factors Phase Process Protein Binding Proteins Replication Initiation Replication Origin Research Research Personnel Resolution Role Signal Transduction Site Staging Structure Surface Testing Therapeutic Agents Time Work X-Ray Crystallography Xenopus laevis base design helicase human disease insight intermolecular interaction mutant programs structural biology tool

项目摘要

DESCRIPTION (provided by applicant): Initiation of DNA replication in eukaryotic cells is a highly regulated process that is essential for genome integrity. Failure to copy the genome only once and at the proper time during the cell cycle can lead to elevated mutation rates, chromosome instability, and the development of cancer. It is therefore of paramount importance for human health to understand the mechanism of replication initiation. Replication initiation involves a choreographed assembly of several dynamic multiprotein complexes, which must recognize and unwind DNA at origins of replication, interpret checkpoint signals, and ultimately establish the replication fork. Although the order of recruitment of many initiation factors has been defined, the mechanisms by which they assemble the DNA unwinding/synthesis machinery, or replisome, are unknown. The long-range goals of this research program are to understand the molecular mechanism of Mcm10, a central replication factor responsible for activation of pre-replicative complexes and early steps of DNA synthesis. Mcm10 is the first protein to load chromatin at the onset of S-phase, is required for origin unwinding, loading essential replication factors (e.g., Cdc45, RPA) onto chromatin, and stabilizing the catalytic subunit of DNA polymerase a (pol a). Preliminary results from our laboratory have defined the overall domain architecture of Mcm10 from Xenopus laevis, and have identified the regions that interact with DNA and pol a. In the current proposal, we will use the tools of structural biology and biochemistry to determine the physical basis for Mcm10 interaction with DNA (Aim 1) and pol a (Aim 2). X-ray crystallography and NMR spectroscopy will be used jointly to characterize the structures of Mcm10 domains and their protein/DNA complexes. This information will then be placed into a broader functional context using a structure-based mutagenesis approach, taking advantage of interactions with strategically chosen collaborators. This powerful structure-function analysis of Mcm10 is an essential first step toward a mechanistic understanding of how origin unwinding is coupled to replisome assembly and function. A higher resolution description of key replication factors and their intermolecular interactions will lay the foundation for the possible development of therapeutic agents against cancer and other human disease.

描述（由申请人提供）：真核细胞中DNA复制的起始是一个高度调控的过程，对基因组完整性至关重要。如果不能在细胞周期的适当时间复制基因组一次，会导致突变率升高、染色体不稳定和癌症的发生。因此，了解复制启动的机制对人类健康至关重要。复制起始涉及几种动态多蛋白复合物的编排组装，这些复合物必须在复制起点识别和解开DNA，解释检查点信号，并最终建立复制叉。尽管许多起始因子的募集顺序已经确定，但它们组装DNA解旋/合成机制或复制体的机制尚不清楚。该研究计划的长期目标是了解Mcm 10的分子机制，Mcm 10是一种负责激活复制前复合物和DNA合成早期步骤的中心复制因子。Mcm 10是在S期开始时装载染色质的第一个蛋白质，是起始解旋、装载必需的复制因子（例如，Cdc 45，RPA）固定到染色质上，并稳定DNA聚合酶a（pol a）的催化亚基。我们实验室的初步结果已经确定了非洲爪蟾Mcm 10的整体结构域结构，并确定了与DNA和pol a相互作用的区域。在目前的建议中，我们将使用结构生物学和生物化学的工具来确定Mcm 10与DNA（Aim 1）和pol a（Aim 2）相互作用的物理基础。X射线晶体学和NMR光谱将共同用于表征Mcm 10结构域及其蛋白质/DNA复合物的结构。然后，这些信息将被放置到一个更广泛的功能背景下使用基于结构的诱变方法，利用与战略选择的合作者的相互作用。Mcm 10的这种强大的结构-功能分析是理解起源解旋如何与复制体组装和功能相结合的机制的重要第一步。对关键复制因子及其分子间相互作用的更高分辨率描述将为可能开发针对癌症和其他人类疾病的治疗剂奠定基础。