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Photobiochemical mechanisms of biomolecules relevant to germicidal ultraviolet irradiation at 222 and 254 nm

Keisuke Naito, Kazuyuki Sawadaishi, Masahiro Kawasaki

2022Scientific Reports29 citationsDOIOpen Access PDF

Abstract

To inactivate viruses and microorganisms, ultraviolet light in the short wavelength region is a promising candidate for mitigating the infection of disease. Germicidal mercury lamps emitting at 254 nm and KrCl excimer lamps emitting at 222 nm have sterilisation properties. In this work, wavelength dependence of the photobiochemical mechanisms was investigated with 222- and 254-nm irradiation to analyze the underlying damage mechanisms of DNA/RNA and proteins, using Escherichia coli, a protease, an oligopeptide, amino acids, plasmid DNA and nucleosides. The photorepair of damaged DNA and the "dark" reversion of the hydrates of uracil phosphoramidite coupling blocks were also investigated.

Topics & Concepts

BiomoleculeUltravioletUltraviolet irradiationIrradiationUltraviolet aChemistryBiophysicsComputational biologyMaterials scienceBiologyBiochemistryMedicineOptoelectronicsPhysicsNuclear physicsDermatologySkin Protection and AgingLight effects on plantsbioluminescence and chemiluminescence research
Photobiochemical mechanisms of biomolecules relevant to germicidal ultraviolet irradiation at 222 and 254 nm | Litcius