Features of modifying properties of chemicals under the action of radiation of different quality: UV light, gamma-radiation and alfa-particles

P. Kuptsova, G. Zhurakovskaya, S. Belkina
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Abstract

Modification of the action of ionizing radiation by chemicals, used both to enhance its action and to weaken it’s known and is widely used in medical radiology. The article presents a comparative analysis of the modifying properties of three chemical radioprotectors (cysteamine, cysteine and cysteamine) when they are simultaneously act with to gama-rays, alpha-particles and ultraviolet radiation on yeast cells. The aim of the study was to compare the features of the manifestation of the properties of chemicals in relation to the protection of cells from UV-like damage when exposed to ionizing radiation or from damage caused by ultraviolet radiation. It was demonstrated that the cysteamine protects cells both from the damaging effects of gama-rays and from ultraviolet radiation, unlike cysteamine and cysteine, which protect cells exclusively from the effects of ionizing radiation. Moreover, cystamine does not change the effect of alpha-particles, which have a high ionization density of the substance, but practically do not cause excitation processes in biological objects. The obtained data indicate that cystamine realizes its protective properties against damage caused by ultraviolet radiation and UV-like damage resulting from the action of gama-rays due to the excitation of molecules or, more precisely, the ultraviolet component of Vavilov-Cherenkov luminescence accompanying the action of ionizing radiation.
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化学物质在不同质量的辐射作用下:紫外线、伽玛辐射和α粒子的特性变化
化学物质对电离辐射作用的修饰,用来增强和减弱它的作用,这是已知的,并广泛应用于医学放射学。本文比较分析了三种化学放射保护剂(半胱胺、半胱氨酸和半胱胺)在与γ射线、α粒子和紫外线同时作用于酵母细胞时的修饰性能。这项研究的目的是比较化学物质在保护细胞免受电离辐射或紫外线辐射造成的损伤方面的表现特征。研究表明,半胱胺可以保护细胞免受伽马射线和紫外线辐射的损害,而半胱胺和半胱氨酸只能保护细胞免受电离辐射的影响。此外,半胱胺不会改变α粒子的作用,α粒子具有较高的物质电离密度,但实际上不会引起生物物体的激发过程。所获得的数据表明,胱胺实现了对紫外线辐射和由分子激发的伽马射线作用引起的类紫外线损伤的保护性能,或者更准确地说,是对伴随电离辐射作用的瓦维洛夫-切伦科夫发光的紫外线成分的保护。
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