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Photooxidation of nucleic acids on metal oxides: physico-chemical and astrobiological perspectives.


ABSTRACT: Photocatalytic oxidation of nucleic acid components on aqueous metal oxides (TiO(2), ?-FeOOH, and ?-Fe(2)O(3)) has been studied. The oxidation of purine nucleotides results in the formation of the purine radical cations and sugar-phosphate radicals, whereas the oxidation of pyrimidine nucleotides other than thymine results in the oxidation of only the sugar-phosphate. The oxidation of the thymine (and to a far less extent for the 5-methylcytosine) derivatives results in deprotonation from the methyl group of the base. Some single stranded (ss) oligoribonucleotides and wild-type ss RNA were oxidized at purine sites. In contrast, double stranded (ds) oligoribonucleotides and DNA were not oxidized. These results account for observations suggesting that cellular ds DNA is not damaged by exposure to photoirradiated TiO(2) nanoparticles inserted into the cell, whereas ss RNA is extensively damaged. The astrobiological import of our observations is that the rapid degradation of monomer nucleotides make them poor targets as biosignatures, whereas duplex DNA is a better target as it is resilient to oxidative diagenesis. Another import of our studies is that ds DNA (as opposed to ss RNA) appears to be optimized to withstand oxidative stress both due to the advantageous polymer morphology and the subtle details of its radical chemistry. This peculiarity may account for the preference for DNA over RNA as a "molecule of life" provided that metal oxides served as the template for synthesis of polynucleotides, as suggested by Orgel and others.

SUBMITTER: Shkrob IA 

PROVIDER: S-EPMC3049938 | biostudies-literature | 2011 Feb

REPOSITORIES: biostudies-literature

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Photooxidation of nucleic acids on metal oxides: physico-chemical and astrobiological perspectives.

Shkrob Ilya A IA   Marin Timothy M TM   Adhikary Amitava A   Sevilla Michael D MD  

The journal of physical chemistry. C, Nanomaterials and interfaces 20110201 8


Photocatalytic oxidation of nucleic acid components on aqueous metal oxides (TiO(2), α-FeOOH, and α-Fe(2)O(3)) has been studied. The oxidation of purine nucleotides results in the formation of the purine radical cations and sugar-phosphate radicals, whereas the oxidation of pyrimidine nucleotides other than thymine results in the oxidation of only the sugar-phosphate. The oxidation of the thymine (and to a far less extent for the 5-methylcytosine) derivatives results in deprotonation from the me  ...[more]

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2021-12-24 | GSE191337 | GEO