Toward predictive models of mammalian cells.

Avi Ma'ayan, Robert D Blitzer, Ravi Iyengar
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引用次数: 106

Abstract

Progress in experimental and theoretical biology is likely to provide us with the opportunity to assemble detailed predictive models of mammalian cells. Using a functional format to describe the organization of mammalian cells, we describe current approaches for developing qualitative and quantitative models using data from a variety of experimental sources. Recent developments and applications of graph theory to biological networks are reviewed. The use of these qualitative models to identify the topology of regulatory motifs and functional modules is discussed. Cellular homeostasis and plasticity are interpreted within the framework of balance between regulatory motifs and interactions between modules. From this analysis we identify the need for detailed quantitative models on the basis of the representation of the chemistry underlying the cellular process. The use of deterministic, stochastic, and hybrid models to represent cellular processes is reviewed, and an initial integrated approach for the development of large-scale predictive models of a mammalian cell is presented.

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哺乳动物细胞的预测模型。
实验生物学和理论生物学的进步很可能使我们有机会建立哺乳动物细胞的详细预测模型。使用功能格式来描述哺乳动物细胞的组织,我们描述了使用来自各种实验来源的数据开发定性和定量模型的当前方法。综述了图论在生物网络研究中的最新进展和应用。讨论了使用这些定性模型来确定调控基序和功能模块的拓扑结构。细胞稳态和可塑性是在调节基序和模块之间相互作用的平衡框架内解释的。从这一分析中,我们确定需要在细胞过程的化学基础上建立详细的定量模型。本文回顾了使用确定性、随机和混合模型来表示细胞过程,并提出了一种用于开发哺乳动物细胞大规模预测模型的初步综合方法。
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Visualizing flexibility at molecular resolution: analysis of heterogeneity in single-particle electron microscopy reconstructions. Phase boundaries and biological membranes. Calculation of protein-ligand binding affinities. Synthetic gene circuits: design with directed evolution. Bilayer thickness and membrane protein function: an energetic perspective.
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