臭氧和臭氧化环己烯对气溶胶中噬菌体φX174及其DNA的灭活机制

Mechanisms of inactivation of bacteriophage phiX174 and its DNA in aerosols by ozone and ozonized cyclohexene.

作者信息

de Mik G, de Groot I

出版信息

J Hyg (Lond). 1977 Apr;78(2):199-211. doi: 10.1017/s0022172400056096.

DOI:10.1017/s0022172400056096

PMID:265342

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2129843/

Abstract

The mechanisms of inactivation of aerosolized bacteriophage phiX174 in atmospheres containing ozone, cyclohexene, or ozonized cyclohexene were studied by using 32P-labelled phage. The inactivation of the aerosolized phage in clear air or in air containing cyclohexene is due to damage of the protein coat since the deoxyribonucleic acid (DNA) extracted from the inactivated phage retains its biological activity. Inactivation of the phage in air containing ozonized cyclohexene is due both to protein and DNA damage. Sucrose gradient analysis shows that aerosolized inactivated phiX174 releases unbroken DNA. In contrast, the DNA from phage phiX174 inactivated by ozonized cyclohexene is broken. The inactivation of aerosolized phage phiX174-DNA was studied in the same atmospheres using 32P-labelled DNA. phiX174-DNA aerosolized in clear air or air containing cyclohexene at 75% r.h. is inactivated by a factor of 2 in 30 min. The inactivated DNA is broken. Ozone as well as ozonized cyclohexene inactivates KNA very fast causing breaks in the molecule. This is in contrast with the intact bacteriophage in which ozone does not produce breaks in the DNA.

摘要

利用32P标记的噬菌体，研究了雾化噬菌体φX174在含有臭氧、环己烯或臭氧化环己烯的大气中的失活机制。雾化噬菌体在清洁空气或含有环己烯的空气中失活是由于蛋白质外壳受损，因为从失活噬菌体中提取的脱氧核糖核酸（DNA）仍保留其生物活性。噬菌体在含有臭氧化环己烯的空气中失活是由于蛋白质和DNA均受损。蔗糖梯度分析表明，雾化失活的φX174释放出未断裂的DNA。相比之下，被臭氧化环己烯失活的噬菌体φX174的DNA是断裂的。在相同的大气环境中，使用32P标记的DNA研究了雾化噬菌体φX174-DNA的失活情况。在相对湿度75%的清洁空气或含有环己烯的空气中雾化的φX174-DNA在30分钟内失活系数为2。失活的DNA发生了断裂。臭氧以及臭氧化环己烯能非常迅速地使DNA失活，导致分子断裂。这与完整的噬菌体形成对比，在完整噬菌体中臭氧不会使DNA产生断裂。

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