Erschienen in:
01.12.2023 | Review Article
Could violet-blue lights increase the bacteria resistance against ultraviolet radiation mediated by photolyases?
verfasst von:
Rickson Souza Ribeiro, Andre Luiz Mencalha, Adenilson de Souza da Fonseca
Erschienen in:
Lasers in Medical Science
|
Ausgabe 1/2023
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Abstract
Studies have demonstrated bacterial inactivation by radiations at wavelengths between 400 and 500 nm emitted by low-power light sources. The phototoxic activity of these radiations could occur by oxidative damage in DNA and membrane proteins/lipids. However, some cellular mechanisms can reverse these damages in DNA, allowing the maintenance of genetic stability. Photoreactivation is among such mechanisms able to repair DNA damages induced by ultraviolet radiation, ranging from ultraviolet A to blue radiations. In this review, studies on the effects of violet and blue lights emitted by low-power LEDs on bacteria were accessed by PubMed, and discussed the repair of ultraviolet-induced DNA damage by photoreactivation mechanisms. Data from such studies suggested bacterial inactivation after exposure to violet (405 nm) and blue (425–460 nm) radiations emitted from LEDs. However, other studies showed bacterial photoreactivation induced by radiations at 348–440 nm. This process occurs by photolyase enzymes, which absorb photons at wavelengths and repair DNA damage. Although authors have reported bacterial inactivation after exposure to violet and blue radiations emitted from LEDs, pre-exposure to such radiations at low fluences could activate the photolyases, increasing resistance to DNA damage induced by ultraviolet radiation.