网络动力学模型的计算机评价及其在出芽酵母细胞周期控制中的应用。

N A Allen, K C Chen, C A Shaffer, J J Tyson, L T Watson
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引用次数: 16

摘要

细胞过程是由相互作用的基因和蛋白质的复杂网络控制的。理论分子生物学家试图通过写生化反应方程的数学模型来描述这些过程。建模者正在建立越来越大和复杂的数学模型来描述这些细胞过程,使模型评估成为一项耗时且困难的任务。作者描述了模型评估的自动化过程和实现该过程的软件系统。该软件适用于许多类型的模型,并与所有需要的数据文件一起免费提供。芽殖酵母的细胞周期控制系统是已知的细节和限制在突变株超过100表型观察。作为一个例子,作者将他们的过程应用于芽殖酵母的细胞周期控制模型,该模型包含数十个调节方程,并解释了几乎所有已知的突变表型。
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Computer evaluation of network dynamics models with application to cell cycle control in budding yeast.

Cellular processes are governed by complex networks of interacting genes and proteins. Theoretical molecular biologists attempt to describe these processes via mathematical models by writing biochemical reaction equations. Modellers are building increasingly larger and complex mathematical models to describe these cellular processes, making model evaluation a time consuming and difficult task. The authors describe an automatable process for model evaluation and a software system that implements this process. The software is adaptable to many types of models and is freely available along with all needed data files. The cell cycle control system for budding yeast is known in fine detail and constrained by more than 100 phenotypic observations in mutant strains. As an example, the authors apply their process to a model of cell cycle control in budding yeast containing dozens of regulatory equations and explaining nearly all of the known mutant phenotypes.

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