计算方法在生物膜中的应用:从结构到功能

IF 16.8 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Jingjing Guo, Yiqiong Bao, Mengrong Li, Shu Li, Lili Xi, Pengyang Xin, Lei Wu, Huanxiang Liu, Yuguang Mu
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引用次数: 0

摘要

生物膜(生物膜)是允许生命存在的最复杂的结构之一。研究它们的结构、动力学和功能对于提高我们对细胞机制的认识和开发新的治疗策略至关重要。然而,由于其组成和结构的复杂性,以及固有的多标量特征,对许多生物膜现象的实验研究具有挑战性。计算方法,特别是分子动力学(MD)模拟,已成为解决生物膜系统原子细节的强大工具,推动我们对生物膜及其在细胞功能中的作用的理解取得突破。这篇综述概述了相关计算方法的最新进展,从力场和模型构建到MD模拟和轨迹分析。我们还讨论了当前的热门研究课题和挑战。最后,我们概述了未来的方向,强调力场开发、增强采样技术和数据驱动方法的集成,以在未来几年加速该领域的发展。我们的目标是让读者了解生物膜系统中新兴计算技术的前景和局限性,并为未来的研究工作提供有价值的建议。本文分类如下:
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Application of computational approaches in biomembranes: From structure to function

Application of computational approaches in biomembranes: From structure to function

Biological membranes (biomembranes) are one of the most complicated structures that allow life to exist. Investigating their structure, dynamics, and function is crucial for advancing our knowledge of cellular mechanisms and developing novel therapeutic strategies. However, experimental investigation of many biomembrane phenomena is challenging due to their compositional and structural complexity, as well as the inherently multi-scalar features. Computational approaches, particularly molecular dynamics (MD) simulations, have emerged as powerful tools for addressing the atomic details of biomembrane systems, driving breakthroughs in our understanding of biomembranes and their roles in cellular function. This review presents an overview of the latest advancements in related computational approaches, from force fields and model construction to MD simulations and trajectory analysis. We also discussed current hot research topics and challenges. Finally, we outline future directions, emphasizing the integration of force field development, enhanced sampling techniques, and data-driven approaches to accelerate the growth of this field in the years to come. We aim to equip readers with an understanding of the promise and limitations of emerging computational technologies in biomembrane systems and offer valuable recommendations for future research endeavors.

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来源期刊
Wiley Interdisciplinary Reviews: Computational Molecular Science
Wiley Interdisciplinary Reviews: Computational Molecular Science CHEMISTRY, MULTIDISCIPLINARY-MATHEMATICAL & COMPUTATIONAL BIOLOGY
CiteScore
28.90
自引率
1.80%
发文量
52
审稿时长
6-12 weeks
期刊介绍: Computational molecular sciences harness the power of rigorous chemical and physical theories, employing computer-based modeling, specialized hardware, software development, algorithm design, and database management to explore and illuminate every facet of molecular sciences. These interdisciplinary approaches form a bridge between chemistry, biology, and materials sciences, establishing connections with adjacent application-driven fields in both chemistry and biology. WIREs Computational Molecular Science stands as a platform to comprehensively review and spotlight research from these dynamic and interconnected fields.
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