亚磷酸酯的益生元化学：通向形成缩合磷能量货币分子直至有机磷化合物形成的温和热途径。

Prebiotic Chemistry of Phosphite: Mild Thermal Routes to Form Condensed-P Energy Currency Molecules Leading Up to the Formation of Organophosphorus Compounds.

作者信息

Gull Maheen, Feng Tian, Cruz Harold A, Krishnamurthy Ramanarayanan, Pasek Matthew A

机构信息

School of Geosciences, University of South Florida, Tampa, FL 33584, USA.

Department of Chemistry, The Scripps Research Institute, La Jolla, CA 92037, USA.

出版信息

Life (Basel). 2023 Mar 31;13(4):920. doi: 10.3390/life13040920.

DOI:10.3390/life13040920

PMID:37109449

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10144983/

Abstract

The in-fall of meteorites and interstellar dust particles during the Hadean-Archean heavy bombardment may have provided the early Earth with various reduced oxidation state phosphorus compounds and minerals, including phosphite (HPO)([Pi(III)]). The ion phosphite ([Pi(III)])has been postulated to be ubiquitous on the early Earth and consequently could have played a role in the emergence of organophosphorus compounds and other prebiotically relevant P species such as condensed P compounds, e.g., pyrophosphite ([PPi(III)]) and isohypophosphate ([PPi(III-V)]). In the present study, we show that phosphite ([Pi(III)]) oxidizes under mild heating conditions (e.g., wet-dry cycles and a prebiotic scenario mimicking a mildly hot-evaporating/drying pool on the early Earth at 78-83 °C) in the presence of urea and other additives, resulting in changes to orthophosphate ([Pi(V)]) alongside the formation of reactive condensed P compounds (e.g., pyrophosphite ([PPi(III)]) and isohypophosphate ([PPi(III-V)])) through a one-pot mechanism. Additionally, we also show that phosphite ([Pi(III)]) and the condensed P compounds readily react with organics (nucleosides and organic alcohol) to form organophosphorus compounds.

摘要

在冥古宙-太古宙的重轰炸期，陨石和星际尘埃颗粒的陨落可能为早期地球提供了各种还原态的磷化合物和矿物质，包括亚磷酸（HPO，即[Pi(III)]）。亚磷酸根离子（[Pi(III)]）被推测在早期地球上广泛存在，因此可能在有机磷化合物以及其他与生命起源前相关的含磷物种（如缩合磷化合物，例如焦亚磷酸（[PPi(III)]）和异亚磷酸（[PPi(III-V)]））的出现过程中发挥了作用。在本研究中，我们表明，在尿素和其他添加剂存在的情况下，亚磷酸（[Pi(III)]）在温和加热条件下（例如干湿循环以及模拟早期地球78-83°C的温和热蒸发/干燥池的生命起源前场景）会发生氧化，生成正磷酸盐（[Pi(V)]），同时通过一锅法机制形成活性缩合磷化合物（例如焦亚磷酸（[PPi(III)]）和异亚磷酸（[PPi(III-V)]））。此外，我们还表明，亚磷酸（[Pi(III)]）和缩合磷化合物很容易与有机物（核苷和有机醇）反应形成有机磷化合物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5345/10144983/61ee933bba42/life-13-00920-g001.jpg

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亚磷酸酯的益生元化学：通向形成缩合磷能量货币分子直至有机磷化合物形成的温和热途径。

Prebiotic Chemistry of Phosphite: Mild Thermal Routes to Form Condensed-P Energy Currency Molecules Leading Up to the Formation of Organophosphorus Compounds.

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