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本文引用的文献

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Selection of an improved RNA polymerase ribozyme with superior extension and fidelity.筛选具有卓越延伸能力和保真度的改良型RNA聚合酶核酶。
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Modular evolution and increase of functional complexity in replicating RNA molecules.复制RNA分子中的模块化进化与功能复杂性增加
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Monte Carlo simulation of early molecular evolution in the RNA World.RNA世界中早期分子进化的蒙特卡洛模拟。
Biosystems. 2007 Jul-Aug;90(1):28-39. doi: 10.1016/j.biosystems.2006.06.005. Epub 2006 Jun 23.
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Intramolecular RNA replicase: possibly the first self-replicating molecule in the RNA world.分子内RNA复制酶:可能是RNA世界中首个自我复制的分子。
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New catalytic structures from an existing ribozyme.源自现有核酶的新型催化结构。
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Enzymatic behavior by intercalating molecules in a template-directed ligation reaction.在模板导向的连接反应中通过嵌入分子实现的酶促行为。
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核苷酸合成酶核酶可能最早出现在RNA世界中。

Nucleotide synthetase ribozymes may have emerged first in the RNA world.

作者信息

Ma Wentao, Yu Chunwu, Zhang Wentao, Hu Jiming

机构信息

College of Life Sciences, Wuhan University, Wuhan, PR China.

出版信息

RNA. 2007 Nov;13(11):2012-9. doi: 10.1261/rna.658507. Epub 2007 Sep 18.

DOI:10.1261/rna.658507
PMID:17878321
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2040096/
Abstract

Though the "RNA world" hypothesis has gained a central role in ideas concerning the origin of life, the scenario concerning its emergence remains uncertain. It has been speculated that the first scene may have been the emergence of a template-dependent RNA synthetase ribozyme, which catalyzed its own replication: thus, "RNA replicase." However, the speculation remains uncertain, primarily because of the large sequence length requirement of such a replicase and the lack of a convincing mechanism to ensure its self-favoring features. Instead, we propose a nucleotide synthetase ribozyme as an alternative candidate, especially considering recent experimental evidence suggesting the possibility of effective nonenzymatic template-directed synthesis of RNA. A computer simulation was conducted to support our proposal. The conditions for the emergence of the nucleotide synthetase ribozyme are discussed, based on dynamic analysis on a computer. We suggest the template-dependent RNA synthetase ribozyme emerged later, perhaps after the emergence of protocells.

摘要

尽管“RNA世界”假说在有关生命起源的观点中占据了核心地位,但其出现的具体情形仍不明确。据推测,最初的场景可能是一种依赖模板的RNA合成酶核酶的出现,它催化自身复制,即“RNA复制酶”。然而,这一推测仍不确定,主要是因为这种复制酶对序列长度要求很高,且缺乏令人信服的机制来确保其自我偏好特性。相反,我们提出核苷酸合成酶核酶作为另一种候选,特别是考虑到最近的实验证据表明存在有效的非酶促模板导向RNA合成的可能性。我们进行了计算机模拟来支持我们的提议。基于计算机动态分析,讨论了核苷酸合成酶核酶出现的条件。我们认为依赖模板的RNA合成酶核酶出现得较晚,可能是在原始细胞出现之后。