DNA复制错配修复中的ATP依赖性错配识别

Q2 Physics and Astronomy
Nianshu Zhang, Yongjun Zhang
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引用次数: 0

摘要

错配修复是DNA复制的关键步骤,发生在碱基选择和校对之后,显著提高了保真度。然而,对于任何修复酶,错配识别的机制尚未建立。这方面的推测主要集中在利用热力学平衡和自由能。然而,非平衡过程可能通过利用三磷酸腺苷(ATP)在提高错配识别准确性方面发挥更重要的作用。本研究旨在调查这种可能性。考虑到我们对实际错配修复酶的了解有限,我们提出了一种假设的酶,它作为一个具有三个离散能级的量子系统运行。当酶被提升到最高能级时,就会发生量子跃迁,导致代表潜在识别结果的两个低能级之一:正确匹配或失配。这两种结果的概率呈指数级不同,由两个低能级之间的能量差距决定。通过翻转能量间隙,可以实现不匹配和正确匹配之间的区分。在量子力学与热力学相结合的框架内,我们建立了能量成本与识别误差之间的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ATP-Dependent Mismatch Recognition in DNA Replication Mismatch Repair
Mismatch repair is a critical step in DNA replication that occurs after base selection and proofreading, significantly increasing fidelity. However, the mechanism of mismatch recognition has not been established for any repair enzyme. Speculations in this area mainly focus on exploiting thermodynamic equilibrium and free energy. Nevertheless, non-equilibrium processes may play a more significant role in enhancing mismatch recognition accuracy by utilizing adenosine triphosphate (ATP). This study aimed to investigate this possibility. Considering our limited knowledge of actual mismatch repair enzymes, we proposed a hypothetical enzyme that operates as a quantum system with three discrete energy levels. When the enzyme is raised to its highest energy level, a quantum transition occurs, leading to one of two low-energy levels representing potential recognition outcomes: a correct match or a mismatch. The probabilities of the two outcomes are exponentially different, determined by the energy gap between the two low energy levels. By flipping the energy gap, discrimination between mismatches and correct matches can be achieved. Within a framework that combines quantum mechanics with thermodynamics, we established a relationship between energy cost and the recognition error.
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来源期刊
Quantum Reports
Quantum Reports Physics and Astronomy-Physics and Astronomy (miscellaneous)
CiteScore
3.30
自引率
0.00%
发文量
33
审稿时长
10 weeks
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