嘧啶碱基形成新蝶呤和鸟嘌呤核苷的共前体。

A Shared Prebiotic Formation of Neopterins and Guanine Nucleosides from Pyrimidine Bases.

机构信息

NSF-NASA Center for Chemical Evolution, Georgia Institute of Technology, Atlanta, 30302 GA, USA.

Dept. de Biología de Sistemas/IQAR, Universidad de Alcalá, 28806, Madrid, Spain.

出版信息

Chemistry. 2022 Jul 11;28(39):e202200714. doi: 10.1002/chem.202200714. Epub 2022 May 25.

DOI:10.1002/chem.202200714

PMID:35537135

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9401002/

Abstract

The prebiotic origins of biopolymers and metabolic co-factors are key questions in Origins of Life studies. In a simple warm-little-pond model, using a drying phase to produce a urea-enriched solution, we present a prebiotic synthetic path for the simultaneous formation of neopterins and tetrahydroneopterins, along with purine nucleosides. We show that, in the presence of ribose and in a formylating environment consisting of urea, ammonium formate, and water (UAFW), the formation of neopterins from pyrimidine precursors is robust, while the simultaneous formation of guanosine requires a significantly higher ribose concentration. Furthermore, these reactions provide a tetrahydropterin-pterin redox pair. This model suggests a prebiotic link in the origin of purine nucleosides and pterin cofactors that provides a possible deep prebiotic temporal connection for the emergence of nucleic acids and metabolic cofactors.

摘要

生物聚合物和代谢辅助因子的前体起源是生命起源研究中的关键问题。在一个简单的温暖小池塘模型中，利用干燥阶段产生富含尿素的溶液，我们提出了一种前生物合成途径，用于同时形成新蝶呤和四氢新蝶呤以及嘌呤核苷。我们表明，在核糖的存在下，并且在由尿素、甲酰胺和水（UAFW）组成的甲酰化环境中，嘧啶前体形成新蝶呤是稳健的，而鸟苷的同时形成需要更高浓度的核糖。此外，这些反应提供了一个四氢蝶呤-蝶呤氧化还原对。该模型表明嘌呤核苷和蝶呤辅助因子起源中的前体联系为核酸和代谢辅助因子的出现提供了可能的深层前体时间连接。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6459/9401002/6b4a6a48da6b/CHEM-28-0-g013.jpg

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