Transition to diversification by competition for multiple resources in catalytic reaction networks.

Journal of systems chemistry Pub Date : 2015-01-01 Epub Date: 2015-04-02 DOI:10.1186/s13322-015-0010-1

Atsushi Kamimura, Kunihiko Kaneko

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引用次数: 2

Abstract

Background: All life, including cells and artificial protocells, must integrate diverse molecules into a single unit in order to reproduce. Despite expected pressure to evolve a simple system with the fastest replication speed, the mechanism by which the use of a great variety of components, and the coexistence of diverse cell-types with different compositions are achieved is as yet unknown.

Results: Here we show that coexistence of such diverse compositions and cell-types is the result of competitions for a variety of limited resources. We find that a transition to diversity occurs both in chemical compositions and in protocell types, as the resource supply is decreased, when the maximum inflow and consumption of resources are balanced.

Conclusions: Our results indicate that a simple physical principle of competition for a variety of limiting resources can be a strong driving force to diversify intracellular dynamics of a catalytic reaction network and to develop diverse protocell types in a primitive stage of life.

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通过竞争催化反应网络中的多种资源向多样化过渡。

背景:所有的生命，包括细胞和人造原细胞，必须将不同的分子整合成一个单一的单位才能繁殖。尽管预期有压力进化出一个复制速度最快的简单系统，但使用多种成分的机制以及实现不同成分的多种细胞类型共存的机制尚不清楚。结果:在这里，我们表明这种不同成分和细胞类型的共存是对各种有限资源的竞争的结果。我们发现，当资源的最大流入和最大消耗达到平衡时，随着资源供应的减少，化学成分和原始细胞类型都发生了向多样性的过渡。结论:我们的研究结果表明，在生命的原始阶段，对各种有限资源的竞争这一简单的物理原理可能是一种强大的驱动力，使催化反应网络的细胞内动力学多样化，并发展出多种原型细胞类型。

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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Journal of systems chemistry

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