分级自催化复制域（GARD）：相互催化集自复制的动力学分析

Graded Autocatalysis Replication Domain (GARD): kinetic analysis of self-replication in mutually catalytic sets.

作者信息

Segre D, Lancet D, Kedem O, Pilpel Y

机构信息

Department of Membrane Research Biophysics, The Weizmann Institute of Science, Rehovot, Israel.

出版信息

Orig Life Evol Biosph. 1998 Oct;28(4-6):501-14.

PMID:11536890

Abstract

A Graded Autocatalysis Replication Domain (GARD) model is proposed, which provides a rigorous kinetic analysis of simple chemical sets that manifest mutual catalysis. It is shown that catalytic closure can sustain self replication up to a critical dilution rate, lambda c, related to the graded extent of mutual catalysis. We explore the behavior of vesicles containing GARD species whose mutual catalysis is governed by a previously published statistical distribution. In the population thus generated, some GARD vesicles display a significantly higher replication efficiency than most others. GARD thus represents a simple model for primordial chemical selection of mutually catalytic sets.

摘要

提出了一种分级自催化复制域（GARD）模型，该模型对表现出相互催化作用的简单化学体系进行了严格的动力学分析。结果表明，催化封闭能够维持自我复制，直至达到与相互催化的分级程度相关的临界稀释率λc。我们研究了含有GARD物种的囊泡的行为，其相互催化作用由先前发表的统计分布控制。在由此产生的群体中，一些GARD囊泡显示出比大多数其他囊泡显著更高的复制效率。因此，GARD代表了相互催化体系原始化学选择的一个简单模型。

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分级自催化复制域（GARD）：相互催化集自复制的动力学分析

Graded Autocatalysis Replication Domain (GARD): kinetic analysis of self-replication in mutually catalytic sets.

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