复杂分子功能的简单出现

S. Manrubia
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引用次数: 2

摘要

传统的分子进化观点是在功能序列之间寻找一种随修饰而下降的关系,与此不同的是,新的功能可以相对容易地从头出现。在分子进化的早期,随机的聚合物可能足以出现早期的化学活动,而细胞环境则容纳了无数的原始功能分子。功能的出现是由分子组织内在的几个机制促进的,例如序列到结构的冗余映射,表型可塑性,基因组序列之间的模块化或合作关联。正是分子生态学中生态位的可用性过滤了新的潜在功能建议。通过对现有分子变异的组合探索,可以获得新的表型和随后的分子复杂性水平。剩下的就交给自然选择了。本文是主题“复杂物理和社会技术系统中的涌现现象:从细胞到社会”的一部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The simple emergence of complex molecular function
At odds with a traditional view of molecular evolution that seeks a descent-with-modification relationship between functional sequences, new functions can emerge de novo with relative ease. At early times of molecular evolution, random polymers could have sufficed for the appearance of incipient chemical activity, while the cellular environment harbours a myriad of proto-functional molecules. The emergence of function is facilitated by several mechanisms intrinsic to molecular organization, such as redundant mapping of sequences into structures, phenotypic plasticity, modularity or cooperative associations between genomic sequences. It is the availability of niches in the molecular ecology that filters new potentially functional proposals. New phenotypes and subsequent levels of molecular complexity could be attained through combinatorial explorations of currently available molecular variants. Natural selection does the rest. This article is part of the theme issue ‘Emergent phenomena in complex physical and socio-technical systems: from cells to societies’.
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