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Restriction Endonuclease Structure and Function

限制性内切酶的结构和功能

基本信息

批准号：
6615542
负责人：
CYNTHIA M. DUPUREUR
金额：
$ 21.85万
依托单位：
UNIVERSITY OF MISSOURI-ST. LOUIS
依托单位国家：
美国
项目类别：
财政年份：
2002
资助国家：
美国
起止时间：
2002-06-01 至 2006-05-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/6615542
关键词：
DNA binding protein atomic absorption spectrometry conformation divalent cations divalent metal enzyme activity enzyme structure fluorescence spectrometry hydrolysis nuclear magnetic resonance spectroscopy protein structure function relaxation spectrometry restriction endonucleases stop flow technique

项目摘要

DESCRIPTION (provided by applicant): Combining elements of sequence-specificity and catalytic chemistry is the central problem in developing chemotherapeutics which target specific nucleic acid sequences and structures. Restriction enzymes, for which PvuII endonuclease serves as a model, are the simplest biological agents of site-specific nucleic acid chemistry, yet many mechanistic aspects of this hydrolytic activity remain undefined. This project employs a unique combination of techniques to: i) Dissect the roles of metal ions in DNA binding and hydrolysis. These goals will be accomplished with filter and fluorescence assays of DNA binding and kinetic assays using fluorescence stopped-flow techniques. ii) Test theories of nucleophile activation using spectroscopic methods and kinetic isotope effects and use this data to revise proposed mechanisms. iii) Probe the roles of conformation and motion in PvuII substrate specificity and star activity utilizing multidimensional NMR spectroscopic techniques applicable to larger proteins. Information obtained from these experiments will identify the relationships between the enzyme structure, the required metal ions, and the substrate as well as clarify working models of restriction enzyme activity. Understanding the structural and functional aspects of this natural form of specific, hydrolytic catalysis is a viable strategy to the eventual design of sequence-specific scissors which can target specific genes linked to cancer and AIDS.

描述（由申请人提供）：组合序列特异性元件催化化学是发展化学治疗的中心问题其靶向特定的核酸序列和结构。限制以PvuII内切核酸酶为模型的酶是最简单的位点特异性核酸化学的生物制剂，但许多机制这种水解活性的方面仍然不确定。该项目采用了独特的技术组合，以：i）剖析金属离子在DNA中的作用结合和水解。这些目标将通过过滤器和 DNA结合的荧光测定和使用荧光的动力学测定停流技术ii）亲核试剂活化的测试理论，光谱方法和动力学同位素效应，并利用这些数据来修正提出的机制。iii）探索PvuII中构象和运动的作用利用多维NMR底物特异性和星星活性光谱技术适用于较大的蛋白质。获得的信息从这些实验中将确定酶之间的关系结构，所需的金属离子，和基板以及澄清限制性内切酶活性的工作模型了解结构和这种天然形式的功能方面的具体，水解催化是一个最终设计序列特异性剪刀的可行策略，针对与癌症和艾滋病相关的特定基因。