From covalent transition states in chemistry to noncovalent in biology: from β- to Φ-value analysis of protein folding

IF 7.2 2区 生物学 Q1 BIOPHYSICS Quarterly Reviews of Biophysics Pub Date : 2024-03-20 DOI:10.1017/s0033583523000045
Alan R. Fersht
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Abstract

Solving the mechanism of a chemical reaction requires determining the structures of all the ground states on the pathway and the elusive transition states linking them. 2024 is the centenary of Brønsted’s landmark paper that introduced the β-value and structure-activity studies as the only experimental means to infer the structures of transition states. It involves making systematic small changes in the covalent structure of the reactants and analysing changes in activation and equilibrium-free energies. Protein engineering was introduced for an analogous procedure, Φ-value analysis, to analyse the noncovalent interactions in proteins central to biological chemistry. The methodology was developed first by analysing noncovalent interactions in transition states in enzyme catalysis. The mature procedure was then applied to study transition states in the pathway of protein folding – ‘part (b) of the protein folding problem’. This review describes the development of Abstract Image$ {\varPhi } $-value analysis of transition states and compares and contrasts the interpretation of β- and Φ-values and their limitations. Φ-analysis afforded the first description of transition states in protein folding at the level of individual residues. It revealed the nucleation-condensation folding mechanism of protein domains with the transition state as an expanded, distorted native structure, containing little fully formed secondary structure but many weak tertiary interactions. A spectrum of transition states with various degrees of structural polarisation was then uncovered that spanned from nucleation-condensation to the framework mechanism of fully formed secondary structure. Φ-analysis revealed how movement of the expanded transition state on an energy landscape accommodates the transition from framework to nucleation-condensation mechanisms with a malleability of structure as a unifying feature of folding mechanisms. Such movement follows the rubric of analysis of classical covalent chemical mechanisms that began with Brønsted. Φ-values are used to benchmark computer simulation, and Abstract Image$ {\varPhi } $ and simulation combine to describe folding pathways at atomic resolution.

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从化学中的共价过渡态到生物学中的非共价过渡态:从蛋白质折叠的β值分析到Φ值分析
要解决化学反应的机理问题,就必须确定化学反应路径上所有基态的结构,以及连接这些基态的难以捉摸的过渡态的结构。2024 年是布伦斯泰德发表这篇具有里程碑意义的论文一百周年,该论文将 β 值和结构-活性研究作为推断过渡态结构的唯一实验手段。它包括对反应物的共价结构进行系统的微小改变,并分析活化能和无平衡能的变化。蛋白质工程学引入了一种类似的程序,即Φ值分析,用于分析生物化学核心蛋白质中的非共价相互作用。该方法首先是通过分析酶催化过渡状态中的非共价相互作用而发展起来的。成熟的程序随后被应用于研究蛋白质折叠路径中的过渡状态--"蛋白质折叠问题的(b)部分"。这篇综述介绍了$ {\varPhi } 的发展情况。值分析的发展,并比较和对比了β值和Φ值的解释及其局限性。Φ分析首次在单个残基水平上描述了蛋白质折叠中的过渡状态。它揭示了蛋白质结构域的成核-缩合折叠机制,过渡态是一种扩展、扭曲的原生结构,几乎不包含完全形成的二级结构,但包含许多微弱的三级相互作用。随后还发现了具有不同结构极化程度的过渡状态谱,其范围从成核-缩合到完全形成二级结构的框架机制。Φ分析揭示了扩大的过渡态在能量图谱上的移动如何适应从框架机制到成核-缩合机制的过渡,而结构的延展性是折叠机制的统一特征。这种运动沿袭了从布伦斯泰德开始的经典共价化学机制分析方法。Φ 值被用来作为计算机模拟的基准,而 $ {\varPhi } $ 与模拟相结合,描述了折叠机制。和模拟相结合,以原子分辨率描述折叠路径。
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来源期刊
Quarterly Reviews of Biophysics
Quarterly Reviews of Biophysics 生物-生物物理
CiteScore
12.90
自引率
1.60%
发文量
16
期刊介绍: Quarterly Reviews of Biophysics covers the field of experimental and computational biophysics. Experimental biophysics span across different physics-based measurements such as optical microscopy, super-resolution imaging, electron microscopy, X-ray and neutron diffraction, spectroscopy, calorimetry, thermodynamics and their integrated uses. Computational biophysics includes theory, simulations, bioinformatics and system analysis. These biophysical methodologies are used to discover the structure, function and physiology of biological systems in varying complexities from cells, organelles, membranes, protein-nucleic acid complexes, molecular machines to molecules. The majority of reviews published are invited from authors who have made significant contributions to the field, who give critical, readable and sometimes controversial accounts of recent progress and problems in their specialty. The journal has long-standing, worldwide reputation, demonstrated by its high ranking in the ISI Science Citation Index, as a forum for general and specialized communication between biophysicists working in different areas. Thematic issues are occasionally published.
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