空间作为生物系统随机模拟中的最终前沿领域。

Space as the final frontier in stochastic simulations of biological systems.

作者信息

Lemerle Caroline, Di Ventura Barbara, Serrano Luis

机构信息

European Molecular Biology Lab, Meyerhofstrasse 1, 69117 Heidelberg, Germany.

出版信息

FEBS Lett. 2005 Mar 21;579(8):1789-94. doi: 10.1016/j.febslet.2005.02.009.

DOI:10.1016/j.febslet.2005.02.009

PMID:15763553

Abstract

Recent technological and theoretical advances are only now allowing the simulation of detailed kinetic models of biological systems that reflect the stochastic movement and reactivity of individual molecules within cellular compartments. The behavior of many systems could not be properly understood without this level of resolution, opening up new perspectives of using computer simulations to accelerate biological research. We review the modeling methodology applied to stochastic spatial models, also to the attention of non-expert potential users. Modeling choices, current limitations and perspectives of improvement of current general-purpose modeling/simulation platforms for biological systems are discussed.

摘要

近期的技术和理论进展直到现在才使得对生物系统详细动力学模型的模拟成为可能，这些模型反映了细胞区室内单个分子的随机运动和反应性。如果没有这种分辨率水平，许多系统的行为就无法得到恰当理解，这为利用计算机模拟加速生物学研究开辟了新的视角。我们回顾了应用于随机空间模型的建模方法，也引起非专业潜在用户的关注。讨论了生物系统当前通用建模/模拟平台的建模选择、当前局限性及改进前景。

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空间作为生物系统随机模拟中的最终前沿领域。

Space as the final frontier in stochastic simulations of biological systems.

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