The structure of a chaos of strange attractors within a mathematical model of the metabolism of a cell

arXiv: Chaotic Dynamics Pub Date : 2013-07-01 DOI:10.15407/ujpe58.07.0677

V. Grytsay, I. V. Musatenko

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引用次数: 14

Abstract

This work continues the study of the earlier constructed mathematical model of the metabolic process running in a cell. We will consider auto-oscillations arising on the level of enzyme-substrate interactions in the nutrient and respiratory chains, which leads to the self-organization in autocatalysis of the integral metabolic process in cells. The auto-oscillations organize themselves in the total metabolic process of cells at autocatalysis. The behavior of the phase-parametric characteristic under the high dissipation of a kinetic membrane potentialis analyzed. All possible oscillatory modes of the system and the scenario of formation and destruction of regular and strange attractors are studied. The bifurcations of the transitions "order-chaos", "chaos-order", "chaos-chaos" and "order-order" are calculated. The total spectra of Lyapunov indices and the divergences for all types of attractors on a part of the phase-parametric characteristic under consideration are determined. For various types of strange attractors, their Lyapunov dimensions, KS-entropies, and "predictability horizons" are calculated. Some conclusions about the structure of the chaos of strange attractors and its influence on the stability of the metabolic process in a cell are drawn.

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在细胞代谢的数学模型中由奇怪的吸引子组成的混沌结构

这项工作继续研究早期构建的细胞代谢过程的数学模型。我们将考虑在营养链和呼吸链中酶-底物相互作用水平上产生的自振荡，这导致细胞中整体代谢过程的自催化的自组织。自振荡是在细胞的总代谢过程中以自催化的方式组织起来的。分析了动态膜电位在高耗散下的相参数特性。研究了系统所有可能的振荡模式以及规则吸引子和奇异吸引子形成和破坏的情形。计算了“有序-混沌”、“混沌-有序”、“混沌-混沌”和“有序-有序”过渡的分岔。确定了Lyapunov指数的总谱和各类型吸引子在某一部分相参特征上的散度。对于各种类型的奇异吸引子，计算它们的李雅普诺夫维数、ks熵和“可预测性视界”。本文就奇异吸引子混沌的结构及其对细胞代谢过程稳定性的影响得出了一些结论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Chaotic Dynamics

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