脂肪酸囊泡作为早期生命的紫外线- c屏障

Foundations Pub Date : 2023-02-23 DOI:10.3390/foundations3010010

Iván Lechuga, Karo Michaelian

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引用次数: 1

摘要

关于生命起源的理论普遍承认半透性囊泡(原始细胞)在促进自然发生中的化学反应-扩散过程中的优势。然而，越来越多的证据表明，生命的起源与基本分子在软UV-C光(245-275 nm)下的光化学耗散结构有关。本文分析了用长链脂肪酸制备的微泡的Mie UV散射特性。我们发现，囊泡可能为早期生命提供了一个屏障，使其免受微弱但具有破坏性的硬UV-C电离光(180-210 nm)的影响，这种光可能从生命起源之前，至少到12亿年之后，一直沐浴在地球表面，直到由于氧气光合作用的进化而形成保护臭氧层。

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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Fatty Acid Vesicles as Hard UV-C Shields for Early Life

Theories on life’s origin generally acknowledge the advantage of a semi-permeable vesicle (protocell) for enhancing the chemical reaction–diffusion processes involved in abiogenesis. However, more and more evidence indicates that the origin of life is concerned with the photo-chemical dissipative structuring of the fundamental molecules under soft UV-C light (245–275 nm). In this paper, we analyze the Mie UV scattering properties of such a vesicle created with long-chain fatty acids. We find that the vesicle could have provided early life with a shield from the faint but destructive hard UV-C ionizing light (180–210 nm) that probably bathed Earth’s surface from before the origin of life and at least until 1200 million years after, until the formation of a protective ozone layer as a result of the evolution of oxygenic photosynthesis.

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Foundations

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