水热和蛇形环境中的有机生物信号降解:对结冰月球和火星生命探测的启示。

IF 3.5 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Astrobiology Pub Date : 2023-10-01 Epub Date: 2023-07-28 DOI:10.1089/ast.2022.0144
Jonathan S W Tan, Tara L Salter, Jonathan S Watson, J Hunter Waite, Mark A Sephton
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引用次数: 0

摘要

液态水的证据是我们外太阳系结冰卫星以及火星等类地行星宜居性的主要指标。如果含有液态水的环境是生命的宿主,那么它的一些有机遗迹可以被石化并作为有机生物特征保存下来。然而,无机材料也可能存在,水辅助的有机-无机反应可以改变生物遗迹的有机结构。我们对这些有机残留物命运的理解可以通过实验模拟来帮助,这些模拟可以监测由于水和矿物的存在而在微生物有机物中发生的化学变化。我们在100°C至300°C的温度下进行了热液实验,涉及超镁铁质岩石水下热液蚀变产生的富含脂质的微生物和天然蛇纹岩矿物混合物。这些产物揭示了当受到水-有机-无机反应时,生命的信号可能是什么样子的。未经改变的样品中的直链和支链脂质通过水热改变样品中的环化和芳构化产物连接。水热反应产生起始材料中不存在的不同产物,包括小的单环、杂原子和芳香化合物,如吲哚和酚。蛇纹石矿物存在下的水热反应导致这些有机结构的显著还原,并被二酮哌嗪(DKPs)和二氢吡嗪(DHPs)取代,这可能是不同于有机-无机反应的化合物。鉴于DKPs和DHPs的前体通常在早期成岩作用中丢失,这些化合物的存在可能是在矿物存在的情况下共存的近期生命和热液处理的指标。然而,实验室实验表明,这些化合物的形成和保存只能在不同的温度窗口内发生。我们的发现与生命探测任务有关,这些任务旨在进入结冰卫星和火星下表面的热液和蛇形环境。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Organic Biosignature Degradation in Hydrothermal and Serpentinizing Environments: Implications for Life Detection on Icy Moons and Mars.

Evidence of liquid water is a primary indicator of habitability on the icy moons in our outer solar system as well as on terrestrial planets such as Mars. If liquid water-containing environments host life, some of its organic remains can be fossilized and preserved as organic biosignatures. However, inorganic materials may also be present and water-assisted organic-inorganic reactions can transform the organic architecture of biological remains. Our understanding of the fate of these organic remains can be assisted by experimental simulations that monitor the chemical changes that occur in microbial organic matter due to the presence of water and minerals. We performed hydrothermal experiments at temperatures between 100°C and 300°C involving lipid-rich microbes and natural serpentinite mineral mixtures generated by the subaqueous hydrothermal alteration of ultramafic rock. The products reveal what the signals of life may look like when subjected to water-organic-inorganic reactions. Straight- and branched-chain lipids in unaltered samples are joined by cyclization and aromatization products in hydrothermally altered samples. Hydrothermal reactions produce distinct products that are not present in the starting materials, including small, single-ring, heteroatomic, and aromatic compounds such as indoles and phenols. Hydrothermal reactions in the presence of serpentinite minerals lead to significant reduction of these organic structures and their replacement by diketopiperazines (DKPs) and dihydropyrazines (DHPs), which may be compounds that are distinct to organic-inorganic reactions. Given that the precursors of DKPs and DHPs are normally lost during early diagenesis, the presence of these compounds can be an indicator of coexisting recent life and hydrothermal processing in the presence of minerals. However, laboratory experiments reveal that the formation and preservation of these compounds can only occur within a distinct temperature window. Our findings are relevant to life detection missions that aim to access hydrothermal and serpentinizing environments in the subsurfaces of icy moons and Mars.

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来源期刊
Astrobiology
Astrobiology 生物-地球科学综合
CiteScore
7.70
自引率
11.90%
发文量
100
审稿时长
3 months
期刊介绍: Astrobiology is the most-cited peer-reviewed journal dedicated to the understanding of life''s origin, evolution, and distribution in the universe, with a focus on new findings and discoveries from interplanetary exploration and laboratory research. Astrobiology coverage includes: Astrophysics; Astropaleontology; Astroplanets; Bioastronomy; Cosmochemistry; Ecogenomics; Exobiology; Extremophiles; Geomicrobiology; Gravitational biology; Life detection technology; Meteoritics; Planetary geoscience; Planetary protection; Prebiotic chemistry; Space exploration technology; Terraforming
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