生物系统的网络热力学：键合图方法。

Network thermodynamics of biological systems: A bond graph approach.

机构信息

Systems Biology Laboratory, School of Mathematics and Statistics, and Department of Biomedical Engineering, University of Melbourne, Victoria 3010, Australia.

Systems Biology Laboratory, School of Mathematics and Statistics, and Department of Biomedical Engineering, University of Melbourne, Victoria 3010, Australia; School of Mathematics and Statistics, University of Melbourne, Victoria 3010, Australia.

出版信息

Math Biosci. 2022 Oct;352:108899. doi: 10.1016/j.mbs.2022.108899. Epub 2022 Aug 31.

DOI:10.1016/j.mbs.2022.108899

PMID:36057321

Abstract

Edmund Crampin (1973-2021) was at the forefront of Systems Biology research and his work will influence the field for years to come. This paper brings together and summarises the seminal work of his group in applying energy-based bond graph methods to biological systems. In particular, this paper: (a) motivates the need to consider energy in modelling biology; (b) introduces bond graphs as a methodology for achieving this; (c) describes extensions to modelling electrochemical transduction; (d) outlines how bond graph models can be constructed in a modular manner and (e) describes stoichiometric approaches to deriving fundamental properties of reaction networks. These concepts are illustrated using a new bond graph model of photosynthesis in chloroplasts.

摘要

埃德蒙·克拉平（1973-2021 年）一直处于系统生物学研究的前沿，他的工作将在未来几年影响该领域。本文汇集并总结了他的团队应用基于能量的键合图方法研究生物系统的开创性工作。本文特别：（a）阐述了在生物学建模中考虑能量的必要性；（b）介绍了键合图作为实现这一目标的方法；（c）描述了电化学转换建模的扩展；（d）概述了如何以模块化的方式构建键合图模型；（e）描述了利用化学计量学方法推导反应网络基本特性的方法。这些概念通过一个新的叶绿体光合作用键合图模型得到了说明。

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生物系统的网络热力学：键合图方法。

Network thermodynamics of biological systems: A bond graph approach.

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