Different biocides elicit differential responses in bacteria

G. Kakani, P. Jesudhasan, S. Pillai
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Abstract

Planetary and sample return missions require surface cleaning procedures using biocides. However, a deep understanding of how microorganisms respond to biocides is needed. The response of different Salmonella serovars to defined concentrations of chlorine, chlorine dioxide, and cetylpyridinium chloride (CPC) was studied. Microbial responses in terms of culturability, and virulence gene expression were also evaluated. Inactivation when exposed to chlorine and CPC was extremely rapid. Inactivation due to chlorine dioxide was, however, gradual. Exposure to these biocides caused a number of physiological states in Salmonella cells including dormancy, injury, and a viable but non-culturable state. Based on real-time PCR assays, all virulence-related genes were down-regulated in the presence of chlorine, chlorine dioxide and CPC. These studies highlight the importance of understanding the possible responses of organisms to biocides before they are used in mission critical applications such as pre-flight cleaning and laboratory protocols involved in sample return missions.
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不同的杀菌剂在细菌中引起不同的反应
行星和样本返回任务需要使用杀菌剂进行表面清洁。然而,需要深入了解微生物对杀菌剂的反应。研究了不同沙门氏菌血清型对氯、二氧化氯和氯化十六烷基吡啶(CPC)的反应。微生物反应在培养能力和毒力基因表达方面也进行了评估。当暴露于氯和CPC时,失活非常迅速。然而,二氧化氯的失活是逐渐的。暴露于这些杀菌剂会引起沙门氏菌细胞的一些生理状态,包括休眠、损伤和存活但不可培养的状态。实时PCR检测结果显示,在氯、二氧化氯和CPC的作用下,所有毒力相关基因均下调。这些研究强调了在将杀菌剂用于关键任务应用(如飞行前清洁和样本返回任务中涉及的实验室协议)之前了解生物对杀菌剂可能反应的重要性。
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