Estimating the capacity for production of formamide by radioactive minerals on the prebiotic Earth

Estimating the capacity for production of formamide by radioactive minerals on the prebiotic Earth

Water creates special problems for prebiotic chemistry, as it is thermodynamically favorable for amide and phosphodiester bonds to hydrolyze. The availability of alternative solvents with more favorable properties for the formation of prebiotic molecules on the early Earth may have helped bypass thi...

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Bibliographic Details
Published in:Scientific reports Vol. 8; no. 1; p. 265
Main Authors: Adam, Zachary R., Hongo, Yayoi, Cleaves, H. James, Yi, Ruiqin, Fahrenbach, Albert C., Yoda, Isao, Aono, Masashi
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 10-01-2018
Nature Publishing Group
Subjects:
140/131
639/638/904
704/445/209
704/445/3929
Acetonitrile
Humanities and Social Sciences
Hydrogen cyanide
Irradiation
Mimicry
Minerals
multidisciplinary
Phosphodiester bonds
Prebiotics
Radiation
Science
Science (multidisciplinary)
Solvents
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Summary:Water creates special problems for prebiotic chemistry, as it is thermodynamically favorable for amide and phosphodiester bonds to hydrolyze. The availability of alternative solvents with more favorable properties for the formation of prebiotic molecules on the early Earth may have helped bypass this so-called “water paradox”. Formamide (FA) is one such solvent, and can serve as a nucleobase precursor, but it is difficult to envision how FA could have been generated in large quantities or accumulated in terrestrial surface environments. We report here the conversion of aqueous acetonitrile (ACN) via hydrogen cyanide (HCN) as an intermediate into FA by γ-irradiation under conditions mimicking exposure to radioactive minerals. We estimate that a radioactive placer deposit could produce 0.1‒0.8 mol FA km −2 year −1 . A uraninite fission zone comparable to the Oklo reactors in Gabon can produce 0.1‒1 mol m −2 year −1 , orders of magnitude greater than other scenarios of FA production or delivery for which reaching sizeable concentrations of FA are problematic. Radioactive mineral deposits may be favorable settings for prebiotic compound formation through emergent geologic processes and FA-mediated organic chemistry.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-18483-8