Is it possible that cells have had more than one origin?

IF 1.2 Q3 Computer Science

Bio-Algorithms and Med-Systems Pub Date : 2020-12-25 DOI:10.20944/preprints202012.0657.v1

S. Farias, M. José, F. Prosdocimi

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引用次数: 14

Abstract

Cells occupy a prominent place in the history of life in Earth. The central role of cellular organization can be understood by the fact that "cellular life" is often used as a synonym for life itself. Thus, most characteristics used to define cell overlap with those ones used to define life. However, innovative scenarios for the origin of life are bringing alternative views to describe how cells may have evolved from the open biological systems named progenotes. Here, using a logical and conceptual analysis, we re-evaluate the characteristics used to infer a single origin for cells. We argue that some evidences used to support cell monophyly, such as the presence of elements from the translation mechanism together with the universality of the genetic code, actually indicate a unique origin for all "biological systems", a term used to define not only cells, but also viruses and progenotes. Besides, we present evidence that at least two biochemical pathways as important as (i) DNA replication and (ii) lipid biosynthesis are not homologous between Bacteria and Archaea. The identities observed between the proteins involved in those pathways along representatives of these two ancestral domains of life are too low to indicate common genic ancestry. Altogether these facts can be seen as an indication that cellular organization has possibly evolved two or more times and that LUCA (the Last Universal Common Ancestor) may not have existed as a cellular entity. Thus, we aim to consider the possibility that different strategies acquired by biological systems to exist, such as viral, bacterial and archaeal were most likely originated independently from the evolution of different progenote populations.

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细胞有可能有不止一个起源吗?

细胞在地球生命史上占有重要地位。细胞组织的核心作用可以通过“细胞生命”经常被用作生命本身的同义词这一事实来理解。因此，用于定义细胞的大多数特征与用于定义生命的特征重叠。然而，关于生命起源的创新设想带来了不同的观点来描述细胞是如何从被称为祖细胞的开放生物系统进化而来的。在这里，使用逻辑和概念分析，我们重新评估用于推断细胞单一起源的特征。我们认为，一些用于支持细胞单一性的证据，如翻译机制中元素的存在以及遗传密码的普遍性，实际上表明所有“生物系统”都有一个独特的起源，这个术语不仅用于定义细胞，还用于定义病毒和祖细胞。此外，我们提出的证据表明，至少有两个重要的生化途径(1)DNA复制和(2)脂质生物合成在细菌和古菌之间是不同源的。沿着这两个生命祖先域的代表，在这些途径中所涉及的蛋白质之间观察到的身份太低，无法表明共同的基因祖先。综上所述，这些事实可以被视为细胞组织可能已经进化了两次或两次以上，卢卡(最后的普遍共同祖先)可能不是作为一个细胞实体存在的。因此，我们的目标是考虑这样一种可能性，即病毒、细菌和古细菌等生物系统所获得的不同生存策略很可能独立于不同祖先群体的进化。

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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来源期刊

Bio-Algorithms and Med-Systems MATHEMATICAL & COMPUTATIONAL BIOLOGY-

CiteScore

3.80

自引率

0.00%

发文量

期刊介绍： The journal Bio-Algorithms and Med-Systems (BAMS), edited by the Jagiellonian University Medical College, provides a forum for the exchange of information in the interdisciplinary fields of computational methods applied in medicine, presenting new algorithms and databases that allows the progress in collaborations between medicine, informatics, physics, and biochemistry. Projects linking specialists representing these disciplines are welcome to be published in this Journal. Articles in BAMS are published in English. Topics Bioinformatics Systems biology Telemedicine E-Learning in Medicine Patient''s electronic record Image processing Medical databases.