尿蛋白质组的一项提议。

A Proposal of the Ur-proteome.

作者信息

Palacios-Pérez Miryam, Andrade-Díaz Fernando, José Marco V

机构信息

Theoretical Biology Group, Instituto de Investigaciones Biomédicas, Universidad Nacional Autónoma de México, C.P. 04510, Ciudad de México CDMX, Mexico.

出版信息

Orig Life Evol Biosph. 2018 Jun;48(2):245-258. doi: 10.1007/s11084-017-9553-2. Epub 2017 Nov 10.

DOI:10.1007/s11084-017-9553-2

PMID:29127550

Abstract

Herein we outline a plausible proteome, encoded by assuming a primeval RNY genetic code. We unveil the primeval phenotype by using only the RNA genotype; it means that we recovered the most ancestral proteome, mostly made of the 8 amino acids encoded by RNY triplets. By looking at those fragments, it is noticeable that they are positioned, not at catalytic sites, but in the cofactor binding sites. It implies that the stabilization of a molecule appeared long before its catalytic activity, and therefore the Ur-proteome comprised a set of proteins modules that corresponded to Cofactor Stabilizing Binding Sites (CSBSs), which we call the primitive bindome. With our method, we reconstructed the structures of the "first protein modules" that Sobolevsky and Trifonov (2006) found by using only RMSD. We also examine the probable cofactors that bound to them. We discuss the notion of CSBSs as the first proteins modules in progenotes in the context of several proposals about the primitive forms of life.

摘要

在此，我们概述了一个假定由原始RNY遗传密码编码的合理蛋白质组。我们仅通过RNA基因型揭示原始表型；这意味着我们恢复了最原始的蛋白质组，其主要由RNY三联体编码的8种氨基酸组成。通过观察这些片段，值得注意的是它们所处的位置并非催化位点，而是辅因子结合位点。这意味着分子的稳定早在其催化活性之前就已出现，因此原始蛋白质组包含一组对应于辅因子稳定结合位点（CSBSs）的蛋白质模块，我们将其称为原始结合体。通过我们的方法，我们重建了Sobolevsky和Trifonov（2006年）仅使用均方根偏差（RMSD）所发现的“首个蛋白质模块”的结构。我们还研究了与它们结合的可能辅因子。我们在关于生命原始形式的若干提议的背景下，讨论了CSBSs作为原细胞中首个蛋白质模块的概念。

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尿蛋白质组的一项提议。

A Proposal of the Ur-proteome.

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