Effect of γ-radiation on adenine dissolved in distilled water, saline solutions and artificial seawater resembling that of 4.0 billion years ago

In this work, the effect of γ-radiation on the decomposition of adenine dissolved in distilled water, saline solutions and artificial seawater was studied. As the composition of the major cations and anions of artificial seawater probably better resembles the composition of seawater on the Earth 4.0...

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Bibliographic Details
Published in:International journal of astrobiology 2020-06, Vol.19 (3), p.224-236
Main Authors: Baú, João Paulo T., Villafañe-Barajas, Sául A., Negrón-Mendoza, Alicia, Colín-García, María, Zaia, Dimas A. M.
Format: Article
Language:English
Subjects:
Adenine
Anions
Artificial seawater
Atomic properties
Cations
Chemical analysis
Chemical evolution
Chemistry
Chromatography
Composition
Cosmic rays
Data points
Decomposition
Distilled water
Experiments
Fourier transforms
High performance liquid chromatography
HPLC
Infrared spectra
Infrared spectroscopy
Liquid chromatography
Meteors & meteorites
Prebiotics
Radiation
Radiation effects
Saline solutions
Seawater
Spectra
Statistical analysis
Vibrational spectra
Water analysis
γ Radiation
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Summary:In this work, the effect of γ-radiation on the decomposition of adenine dissolved in distilled water, saline solutions and artificial seawater was studied. As the composition of the major cations and anions of artificial seawater probably better resembles the composition of seawater on the Earth 4.0 billion years ago, this seawater was named artificial seawater 4.0 Ga. The main finding in this work is that artificial seawater 4.0 Ga demonstrated a better protective effect of adenine against γ-radiation. In addition, artificial seawater 4.0 Ga showed that adenine had no changes in pH after radiation exposure and the minor radiation-chemical yield G . The radiolysis of adenine promoted modifications in Fourier-transform infrared spectra. The deconvolution of some bands demonstrated the formation of a new frequency at 1713 cm −1 . High performance liquid chromatography-mass detected a product of decomposition with 151 atomic units. Using the geometry optimization and simulated vibrational spectra it was possible to show that the main species formed are hydroxyl and oxide modified adenine. The data point to the formation of hydroxyl-adenine and adenine N x -oxide. These products have biological relevance and could be available for chemical evolution.
ISSN:1473-5504
1475-3006
DOI:10.1017/S1473550419000272