小分子自催化网络是普遍存在的代谢化石

Joana C. Xavier, S. Kauffman
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引用次数: 12

摘要

生命和遗传密码是自我参照的,由更简单的小分子组成的自催化网络也是如此。一些生命起源理论假设在原始遗传密码之前存在自催化化学网络,但缺乏生物化学系统的证明。本研究中,小分子反射性自催化食物生成网络(RAFs)在搜索到的6683个原核代谢网络中被发现,大小从3到619个反应不等。富有机培养基的平均最大RAF大小为275个反应,而含单一有机辅因子NAD的培养基的平均最大RAF大小为93个反应。在富培养基中,除甘油-1-p(古菌脂质前体)、苯丙氨酸、组氨酸和精氨酸外,所有普遍必需的代谢物都产生。在至少2732个raf中存在300个最常见的反应,主要涉及氨基酸的生物合成以及碳、2-氧羧酸和嘌呤的代谢。ATP和NAD是产生网络复杂性的核心,由于ATP也是RNA的单体之一,产生氧化还原和能量货币的自催化网络是原始信息处理系统起源的一个强有力的候选生态位。小分子自催化网络的广泛分布表明,分子繁殖在宇宙中可能比迄今预测的要普遍得多。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。
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Small-molecule autocatalytic networks are universal metabolic fossils
Life and the genetic code are self-referential and so are autocatalytic networks made of simpler, small molecules. Several origins of life theories postulate autocatalytic chemical networks preceding the primordial genetic code, yet demonstration with biochemical systems is lacking. Here, small-molecule reflexively autocatalytic food-generated networks (RAFs) ranging in size from 3 to 619 reactions were found in all of 6683 prokaryotic metabolic networks searched. The average maximum RAF size is 275 reactions for a rich organic medium and 93 for a medium with a single organic cofactor, NAD. In the rich medium, all universally essential metabolites are produced with the exception of glycerol-1-p (archaeal lipid precursor), phenylalanine, histidine and arginine. The 300 most common reactions, present in at least 2732 RAFs, are mostly involved in amino acid biosynthesis and the metabolism of carbon, 2-oxocarboxylic acid and purines. ATP and NAD are central in generating network complexity, and because ATP is also one of the monomers of RNA, autocatalytic networks producing redox and energy currencies are a strong candidate niche of the origin of a primordial information-processing system. The wide distribution of small-molecule autocatalytic networks indicates that molecular reproduction may be much more prevalent in the Universe than hitherto predicted. 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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