The Photophysics of Nucleic Acids: Consequences for the Emergence of Life

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY ChemSystemsChem Pub Date : 2022-10-05 DOI:10.1002/syst.202200019
Dr. Corinna L. Kufner, Dr. Dominik B. Bucher, Dr. Dimitar D. Sasselov
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引用次数: 2

Abstract

Absorption of ultraviolet (UV) radiation can trigger a variety of photophysical and photochemical reactions in nucleic acids. In the prebiotic era, on the surface of the early Earth, UV light could have played a major role in the selection of the building blocks of life via a balance between synthetic and destructive pathways. As nucleic acid monomers assembled into polymers, their survival and facility for non-enzymatic replication hinged on their photostability and the ability for self-repair of lesions, e. g., by UV-induced charge transfer. Such photoprocesses are known to be sequence-dependent and could have led to an additional prebiotic selection of the genetic sequence pools available to the earliest life forms. This review summarizes the photophysical processes in nucleic acids upon the absorption of a UV photon and their implications for chemical and genetic selection at the emergence of life and the origin of translation.

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核酸的光物理:生命出现的后果
对紫外辐射的吸收可以触发核酸中的各种光物理和光化学反应。在生命起源前的时代,在早期的地球表面,紫外线可能通过合成和破坏途径之间的平衡,在选择生命的基石方面发挥了重要作用。当核酸单体组装成聚合物时,它们的生存和非酶复制的能力取决于它们的光稳定性和损伤的自我修复能力。,通过紫外光诱导的电荷转移。众所周知,这种光过程是序列依赖的,并且可能导致对最早生命形式可用的基因序列池的额外的益生元选择。本文综述了核酸吸收紫外光子的光物理过程及其在生命出现和翻译起源时的化学和遗传选择的意义。
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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