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Chemical, Thermal, and Radiation Resistance of an Iron Porphyrin: A Model Study of Biosignature Stability

Pleyer, Hannes Lukas and Moeller, Ralf and Fujimori, Akira and Fox, Stefan and Strasdeit, Henry (2022) Chemical, Thermal, and Radiation Resistance of an Iron Porphyrin: A Model Study of Biosignature Stability. Astrobiology, 22 (7), pp. 776-799. Mary Ann Liebert Inc.. doi: 10.1089/ast.2021.0144. ISSN 1531-1074.

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Official URL: https://dx.doi.org/10.1089/ast.2021.0144

Abstract

Metal complexes of porphyrins and porphyrin-type compounds are ubiquitous in all three domains of life, with hemes and chlorophylls being the best-known examples. Their diagenetic transformation products are found as geoporphyrins, in which the characteristic porphyrin core structure is retained and which can be up to 1.1 billion years old. Because of this, and their relative ease of detection, metalloporphyrins appear attractive as chemical biosignatures in the search for extraterrestrial life. In this study, we investigated the stability of solid chlorido(2,3,7,8,12,13,17,18-octaethylporphyrinato)iron(III) [FeCl(oep)], which served as a model for heme-like molecules and iron geoporphyrins. [FeCl(oep)] was exposed to a variety of astrobiologically relevant extreme conditions, namely: aqueous acids and bases, oxidants, heat, and radiation. Key results are: (1) the [Fe(oep)]⁺ core is stable over the pH range 0.0–13.5 even at 80°C; (2) the oxidizing power follows the order ClO⁻ > H₂O₂ > ClO₃⁻ > HNO₃ > ClO₄⁻; (3) in an inert atmosphere, the iron porphyrin is thermally stable to near 250°C; (4) at high temperatures, carbon dioxide gas is not inert but acts as an oxidant, forming carbon monoxide; (5) a decomposition layer is formed on ultraviolet irradiation and protects the [FeCl(oep)] underneath; (6) an NaCl/NaHCO₃ salt mixture has a protective effect against X-rays; and (7) no such effect is observed when [FeCl(oep)] is exposed to iron ion particle radiation. The relevance to potential iron porphyrin biosignatures on Mars, Europa, and Enceladus is discussed.

Item URL in elib:https://elib.dlr.de/188419/
Document Type:Article
Title:Chemical, Thermal, and Radiation Resistance of an Iron Porphyrin: A Model Study of Biosignature Stability
Authors:
AuthorsInstitution or Email of AuthorsAuthor's ORCID iDORCID Put Code
Pleyer, Hannes LukasDepartment of Bioinorganic Chemistry and Chemical Evolution, Institute of Chemistry, University of Hohenheim, Stuttgart, Germany.UNSPECIFIEDUNSPECIFIED
Moeller, RalfUNSPECIFIEDhttps://orcid.org/0000-0002-2371-0676UNSPECIFIED
Fujimori, AkiraMolecular and Cellular Radiation Biology Group, Department of Charged Particle Therapy Research, Institute for Quantum Medical Science, Chiba, Japan.UNSPECIFIEDUNSPECIFIED
Fox, StefanDepartment of Bioinorganic Chemistry and Chemical Evolution, Institute of Chemistry, University of Hohenheim, Stuttgart, Germany.UNSPECIFIEDUNSPECIFIED
Strasdeit, HenryDepartment of Bioinorganic Chemistry and Chemical Evolution, Institute of Chemistry, University of Hohenheim, Stuttgart, Germany.https://orcid.org/0000-0002-2864-8234UNSPECIFIED
Date:11 July 2022
Journal or Publication Title:Astrobiology
Refereed publication:Yes
Open Access:Yes
Gold Open Access:No
In SCOPUS:Yes
In ISI Web of Science:Yes
Volume:22
DOI:10.1089/ast.2021.0144
Page Range:pp. 776-799
Publisher:Mary Ann Liebert Inc.
ISSN:1531-1074
Status:Published
Keywords:Chemical biosignatures, Iron porphyrins, Mars, Enceladus, Europa
HGF - Research field:Aeronautics, Space and Transport
HGF - Program:Space
HGF - Program Themes:Research under Space Conditions
DLR - Research area:Raumfahrt
DLR - Program:R FR - Research under Space Conditions
DLR - Research theme (Project):R - Project ISS LIFE 2.0
Location: Köln-Porz
Institutes and Institutions:Institute of Aerospace Medicine > Radiation Biology
Deposited By: Kopp, Kerstin
Deposited On:06 Oct 2022 13:37
Last Modified:28 Jun 2023 13:50

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