三种2-氨基唑在早期地球生命起源前化学中起关键作用的紫外线光稳定性。

UV photostability of three 2-aminoazoles with key roles in prebiotic chemistry on the early earth.

作者信息

Todd Zoe R, Szabla Rafał, Szostak Jack W, Sasselov Dimitar D

机构信息

Department of Astronomy, Harvard-Smithsonian Center for Astrophysics, 60 Garden Street, Cambridge, MA 02138, USA.

出版信息

Chem Commun (Camb). 2019 Aug 27;55(70):10388-10391. doi: 10.1039/c9cc05265h.

DOI:10.1039/c9cc05265h

PMID:31380533

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9631353/

Abstract

Three related molecules in the 2-aminoazole family are potentially important for prebiotic chemistry: 2-aminooxazole, 2-aminoimidazole, and 2-aminothiazole, which can provide critical functions as an intermediate in nucleotide synthesis, a nucleotide activating agent, and a selective agent, respectively. Here, we examine the wavelength-dependent photodegradation of these three molecules under mid-range UV light (210-290 nm). We then assess the implications of the observed degradation rates for the proposed prebiotic roles of these compounds. We find that all three 2-aminoazoles degrade under UV light, with half lives ranging from ≈7-100 hours under a solar-like spectrum. 2-Aminooxazole is the least photostable, while 2-aminoimidazole is the most photostable. The relative photostabilities are consistent with the order in which these molecules would be used prebiotically: AO is used first to build nucleotides and AI is used last to activate them.

摘要

2-氨基唑家族中的三种相关分子对生命起源前的化学过程可能具有重要意义：2-氨基恶唑、2-氨基咪唑和2-氨基噻唑，它们分别可作为核苷酸合成的中间体、核苷酸活化剂和选择剂发挥关键作用。在此，我们研究了这三种分子在中程紫外光（210 - 290纳米）下的波长依赖性光降解情况。然后，我们评估了观察到的降解速率对这些化合物所提出的生命起源前作用的影响。我们发现，所有三种2-氨基唑在紫外光下都会降解，在类太阳光谱下半衰期约为7 - 100小时。2-氨基恶唑的光稳定性最差，而2-氨基咪唑的光稳定性最好。相对光稳定性与这些分子在生命起源前使用的顺序一致：AO首先用于构建核苷酸，AI最后用于激活它们。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87e2/9631353/d06af2e3394b/c9cc05265h-f1.jpg

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三种2-氨基唑在早期地球生命起源前化学中起关键作用的紫外线光稳定性。

UV photostability of three 2-aminoazoles with key roles in prebiotic chemistry on the early earth.

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