Computational chemistry methods to investigate the effects caused by DNA variants linked with disease

IF 2.4 Q3 Computer Science
Mahesh Koirala, E. Alexov
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引用次数: 2

Abstract

Computational chemistry offers variety of tools to study properties of biological macromolecules. These tools vary in terms of levels of details from quantum mechanical treatment to numerous macroscopic approaches. Here, we provide a review of computational chemistry algorithms and tools for modeling the effects of genetic variations and their association with diseases. Particular emphasis is given on modeling the effects of missense mutations on stability, conformational dynamics, binding, hydrogen bond network, salt bridges, and pH-dependent properties of the corresponding macromolecules. It is outlined that the disease may be caused by alteration of one or several of above-mentioned biophysical characteristics, and a successful prediction of pathogenicity requires detailed analysis of how the alterations affect the function of involved macromolecules. The review provides a short list of most commonly used algorithms to predict the molecular effects of mutations as well.
计算化学方法研究与疾病相关的DNA变异所造成的影响
计算化学为研究生物大分子的性质提供了多种工具。这些工具在细节层面上各不相同,从量子力学处理到许多宏观方法。在这里,我们提供了一个回顾计算化学算法和工具来模拟遗传变异的影响及其与疾病的关联。特别强调了模拟错义突变对相应大分子的稳定性、构象动力学、结合、氢键网络、盐桥和ph依赖性质的影响。本文概述了该病可能是由上述一种或几种生物物理特性的改变引起的,要成功预测致病性,需要详细分析这些改变如何影响相关大分子的功能。这篇综述提供了一个简短的列表,最常用的算法来预测突变的分子效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
0
审稿时长
3 months
期刊介绍: The Journal of Theoretical and Computational Chemistry (JTCC) is an international interdisciplinary journal aimed at providing comprehensive coverage on the latest developments and applications of research in the ever-expanding field of theoretical and computational chemistry. JTCC publishes regular articles and reviews on new methodology, software, web server and database developments. The applications of existing theoretical and computational methods which produce significant new insights into important problems are also welcomed. Papers reporting joint computational and experimental investigations are encouraged. The journal will not consider manuscripts reporting straightforward calculations of the properties of molecules with existing software packages without addressing a significant scientific problem. Areas covered by the journal include molecular dynamics, computer-aided molecular design, modeling effects of mutation on stability and dynamics of macromolecules, quantum mechanics, statistical mechanics and other related topics.
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