Protracted Exposure to a Sub-background Radiation Environment Negatively Impacts the Anhydrobiotic Recovery of Desiccated Yeast Sentinels.

IF 1 4区 医学 Q4 ENVIRONMENTAL SCIENCES
Michel R Lapointe, Taylor Laframboise, Jake Pirkkanen, T C Tai, Simon J Lees, Sergio R Santa Maria, Sujeenthar Tharmalingam, Douglas R Boreham, Christopher Thome
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引用次数: 0

Abstract

Experiments that examine the impacts of subnatural background radiation exposure provide a unique approach to studying the biological effects of low-dose radiation. These experiments often need to be conducted in deep underground laboratories in order to filter surface-level cosmic radiation. This presents some logistical challenges in experimental design and necessitates a model organism with minimal maintenance. As such, desiccated yeast (Saccharomyces cerevisiae) is an ideal model system for these investigations. This study aimed to determine the impact of prolonged sub-background radiation exposure in anhydrobiotic (desiccated) yeast at SNOLAB in Sudbury, Ontario, Canada. Two yeast strains were used: a normal wild type and an isogenic recombinational repair-deficient rad51 knockout strain (rad51Δ). Desiccated yeast samples were stored in the normal background surface control laboratory (68.0 nGy h-1) and in the sub-background environment within SNOLAB (10.1 nGy h-1) for up to 48 wk. Post-rehydration survival, growth rate, and metabolic activity were assessed at multiple time points. Survival in the sub-background environment was significantly reduced by a factor of 1.39 and 2.67 in the wild type and rad51∆ strains, respectively. Post-rehydration metabolic activity measured via alamarBlue reduction remained unchanged in the wild type strain but was 26% lower in the sub-background rad51∆ strain. These results demonstrate that removing natural background radiation negatively impacts the survival and metabolism of desiccated yeast, highlighting the potential importance of natural radiation exposure in maintaining homeostasis of living organisms.
长期暴露于亚背景辐射环境会对脱水酵母哨兵的无水生物恢复产生负面影响
研究亚天然本底辐射照射影响的实验为研究低剂量辐射的生物效应提供了一种独特的方法。这些实验通常需要在地下深处的实验室进行,以过滤地表水平的宇宙辐射。这给实验设计带来了一些后勤方面的挑战,而且需要一种维护成本最低的模式生物。因此,干燥酵母(Saccharomyces cerevisiae)是这些研究的理想模型系统。本研究旨在确定加拿大安大略省萨德伯里 SNOLAB 的无水生物(干燥)酵母受到长期次背景辐射照射的影响。研究使用了两种酵母菌株:正常野生型和同源重组修复缺陷rad51基因敲除菌株(rad51Δ)。干燥的酵母样品在正常背景表面控制实验室(68.0 nGy h-1)和 SNOLAB 内的次背景环境(10.1 nGy h-1)中保存长达 48 周。在多个时间点评估了补水后的存活率、生长率和代谢活动。野生型和 rad51∆ 菌株在亚背景环境中的存活率分别显著降低了 1.39 倍和 2.67 倍。通过茜草蓝还原法测量的补水后代谢活性在野生型菌株中保持不变,但在亚背景辐射 51∆ 菌株中则降低了 26%。这些结果表明,去除天然本底辐射会对干燥酵母的存活和新陈代谢产生负面影响,突出了天然辐射照射在维持生物体平衡方面的潜在重要性。
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来源期刊
Health physics
Health physics 医学-公共卫生、环境卫生与职业卫生
CiteScore
4.20
自引率
0.00%
发文量
324
审稿时长
3-8 weeks
期刊介绍: Health Physics, first published in 1958, provides the latest research to a wide variety of radiation safety professionals including health physicists, nuclear chemists, medical physicists, and radiation safety officers with interests in nuclear and radiation science. The Journal allows professionals in these and other disciplines in science and engineering to stay on the cutting edge of scientific and technological advances in the field of radiation safety. The Journal publishes original papers, technical notes, articles on advances in practical applications, editorials, and correspondence. Journal articles report on the latest findings in theoretical, practical, and applied disciplines of epidemiology and radiation effects, radiation biology and radiation science, radiation ecology, and related fields.
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