Weak effects of prebiotically plausible peptides on self-triphosphorylation ribozyme function†

IF 4.2 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Joshua T. Arriola, Shayan Poordian, Estefanía Martínez Valdivia, Tommy Le, Luke J. Leman, Joan G. Schellinger and Ulrich F. Müller
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Abstract

Catalytic RNAs (ribozymes) were central to early stages of life on earth. The first ribozymes probably emerged in the presence of prebiotically generated peptides because amino acids can be generated under abiotic conditions, and amino acids can oligomerize into peptides under prebiotically plausible conditions. Here we tested whether the presence of prebiotically plausible peptides could have aided the emergence of ribozymes, by an in vitro selection of self-triphosphorylation ribozymes from random sequence in the presence of ten different octapeptides. These peptides were composed of ten different, prebiotically plausible amino acids, each as mixture of D- and L-stereoisomers. After five rounds of selection and high throughput sequencing analysis, ten ribozymes that appeared most promising for peptide benefits were tested biochemically for possible benefits from each of the ten peptides. The strongest peptide benefit enhanced ribozyme activity by 2.6-fold, similar to the effect from an increase in the pH by one-half unit. Four arbitrarily chosen ribozymes from a previous selection without peptides showed no significant change in their activity in the presence of the ten peptides. Therefore, the used prebiotically plausible peptides – peptides without evolutionarily optimized sequence, without cationic or aromatic side chains – did not provide a strong benefit for the emergence of ribozyme activity. This finding stands in contrast to previously identified polycationic peptides, conjugates between peptides and polyaromatic hydrocarbons, and modern mRNA encoded proteins, all of which can strongly increase ribozyme function. The results are discussed in the context of origins of life.

Abstract Image

Abstract Image

前生物肽对自三磷酸化核糖酶功能的微弱影响
催化核糖核酸(核酶)是地球生命早期阶段的核心。第一批核糖酶很可能是在存在生物前生成的肽的情况下出现的,因为氨基酸可以在非生物条件下生成,而氨基酸可以在生物前合理条件下寡聚成肽。在这里,我们通过体外从随机序列中选择自三磷酸化核糖酶,在十种不同八肽的存在下,测试了前生物合理肽的存在是否有助于核糖酶的出现。这些肽由十种不同的、生物学上可信的氨基酸组成,每种氨基酸都是 D 型和 L 型立体异构体的混合物。经过五轮筛选和高通量测序分析,十种核糖酶最有希望从十种肽中的每一种中获益,并对这十种核糖酶进行了生化测试。肽效益最强的核糖酶活性提高了 2.6 倍,类似于 pH 值增加半个单位的效果。在十种肽存在的情况下,从之前不含肽的核糖酶中任意选择的四种核糖酶的活性没有明显变化。因此,所使用的前生物合理肽--没有进化优化序列、没有阳离子或芳香侧链的肽--并没有为核糖酶活性的出现带来很大益处。这一发现与之前发现的多阳离子肽、肽与多芳香烃之间的共轭物以及现代 mRNA 编码蛋白质形成了鲜明对比,所有这些物质都能大大提高核糖酶的功能。本研究从生命起源的角度对这些结果进行了讨论。
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
CiteScore
6.10
自引率
0.00%
发文量
128
审稿时长
10 weeks
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