蛋白质动力学模拟的出现:计算统计力学如何与生物化学相遇

IF 0.8 4区物理与天体物理 Q2 HISTORY & PHILOSOPHY OF SCIENCE

The European Physical Journal H Pub Date : 2022-10-14 DOI:10.1140/epjh/s13129-022-00043-y

Daniele Macuglia, Benoît Roux, Giovanni Ciccotti

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引用次数: 1

摘要

在这篇文章中，我们旨在说明Martin Karplus和他的研究小组如何有效地启动生物分子的分子动力学(MD)模拟引擎。这一过程在1969年至20世纪70年代初出现了先兆，Karplus在生物学领域的着陆，随着11-顺式视网膜光异构化的治疗和解释血红蛋白协同作用机制的变弹性模型的发展，这一转变取得了成果。1977年，J. Andrew McCammon、Bruce Gelin和Martin Karplus在《自然》杂志上发表了一篇文章，报道了牛胰蛋白酶抑制剂(BPTI)的MD模拟。这篇文章帮助启动了计算统计力学和生物化学的合并，这一过程是Karplus在后来的阶段进行的，我们打算在这篇文章中通过未发表的参与这一努力的关键人物的描述来重建它的开始。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

The emergence of protein dynamics simulations: how computational statistical mechanics met biochemistry

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The emergence of protein dynamics simulations: how computational statistical mechanics met biochemistry

In this essay, we aim to illustrate how Martin Karplus and his research group effectively set in motion the engine of molecular dynamics (MD) simulations of biomolecules. This process saw its prodromes between 1969 and the early 1970s with Karplus’ landing in biology, a transition that came to fruition with the treatment of 11-cis-retinal photoisomerization and the development of an allosteric model to account for the mechanism of cooperativity in hemoglobin. In 1977, J. Andrew McCammon, Bruce Gelin, and Martin Karplus published an article in Nature reporting the MD simulation of bovine pancreatic trypsin inhibitor (BPTI). This publication helped initiate the merger of computational statistical mechanics and biochemistry, a process that Karplus undertook at a later stage and whose beginnings we propose to reconstruct in this article through unpublished accounts of the key people who participated in this endeavor.

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来源期刊

The European Physical Journal H HISTORY & PHILOSOPHY OF SCIENCE-PHYSICS, MULTIDISCIPLINARY

CiteScore

1.60

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： The purpose of this journal is to catalyse, foster, and disseminate an awareness and understanding of the historical development of ideas in contemporary physics, and more generally, ideas about how Nature works. The scope explicitly includes: - Contributions addressing the history of physics and of physical ideas and concepts, the interplay of physics and mathematics as well as the natural sciences, and the history and philosophy of sciences, together with discussions of experimental ideas and designs - inasmuch as they clearly relate, and preferably add, to the understanding of modern physics. - Annotated and/or contextual translations of relevant foreign-language texts. - Careful characterisations of old and/or abandoned ideas including past mistakes and false leads, thereby helping working physicists to assess how compelling contemporary ideas may turn out to be in future, i.e. with hindsight.