Matrix stability and bifurcation analysis by a network-based approach.

IF 1.3 4区 生物学 Q3 BIOLOGY Theory in Biosciences Pub Date : 2023-11-01 Epub Date: 2023-09-27 DOI:10.1007/s12064-023-00405-0
Zhenzhen Zhao, Ruoyu Tang, Ruiqi Wang
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引用次数: 1

Abstract

In this paper, we develop a network-based methodology to investigate the problems related to matrix stability and bifurcations in nonlinear dynamical systems. By matching a matrix with a network, i.e., interaction graph, we propose a new network-based matrix analysis method by proving a theorem about matrix determinant under which matrix stability can be considered in terms of feedback loops. Especially, the approach can tell us how a node, a path, or a feedback loop in the interaction graph affects matrix stability. In addition, the roles played by a node, a path, or a feedback loop in determining bifurcations in nonlinear dynamical systems can also be revealed. Therefore, the approach can help us to screen optimal node or node combinations. By perturbing them, unstable matrices can be stabilized more efficiently or bifurcations can be induced more easily to realize desired state transitions. To illustrate feasibility and efficiency of the approach, some simple matrices are used to show how single or combinatorial perturbations affect matrix stability and induce bifurcations. In addition, the main idea is also illustrated through a biological problem related to T cell development with three nodes: TCF-1, GATA3, and PU.1, which can be considered to be a three-variable nonlinear dynamical system. The approach is especially helpful in understanding crucial roles of single or molecule combinations in biomolecular networks. The approach presented here can be expected to analyze other biological networks related to cell fate transitions and systematic perturbation strategy selection.

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基于网络方法的矩阵稳定性和分岔分析。
在本文中,我们开发了一种基于网络的方法来研究非线性动力系统中与矩阵稳定性和分岔有关的问题。通过将矩阵与网络(即交互图)相匹配,我们通过证明矩阵行列式的一个定理,提出了一种新的基于网络的矩阵分析方法,在该定理下,矩阵稳定性可以用反馈环来考虑。特别是,该方法可以告诉我们交互图中的节点、路径或反馈回路如何影响矩阵稳定性。此外,还可以揭示节点、路径或反馈回路在确定非线性动力系统分叉中所起的作用。因此,该方法可以帮助我们筛选最佳节点或节点组合。通过扰动它们,可以更有效地稳定不稳定矩阵,或者可以更容易地诱导分叉,以实现所需的状态转换。为了说明该方法的可行性和有效性,使用一些简单的矩阵来展示单个或组合扰动如何影响矩阵稳定性并导致分叉。此外,还通过TCF-1、GATA3和PU.1三个节点的T细胞发育的生物学问题说明了这一主要思想,这三个节点可以被认为是一个三变量非线性动力学系统。该方法特别有助于理解单个或分子组合在生物分子网络中的关键作用。本文提出的方法可用于分析与细胞命运转换和系统扰动策略选择相关的其他生物网络。
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来源期刊
Theory in Biosciences
Theory in Biosciences 生物-生物学
CiteScore
2.70
自引率
9.10%
发文量
21
审稿时长
3 months
期刊介绍: Theory in Biosciences focuses on new concepts in theoretical biology. It also includes analytical and modelling approaches as well as philosophical and historical issues. Central topics are: Artificial Life; Bioinformatics with a focus on novel methods, phenomena, and interpretations; Bioinspired Modeling; Complexity, Robustness, and Resilience; Embodied Cognition; Evolutionary Biology; Evo-Devo; Game Theoretic Modeling; Genetics; History of Biology; Language Evolution; Mathematical Biology; Origin of Life; Philosophy of Biology; Population Biology; Systems Biology; Theoretical Ecology; Theoretical Molecular Biology; Theoretical Neuroscience & Cognition.
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