Mechanism of inactivation of bacteriophages by metals

Nobuto Yamamoto , C.W. Hiatt , Wolfgang Haller
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引用次数: 38

Abstract

The sensitive RNA bacteriophages MS2 and f2 and, to a lesser extent, the single-stranded DNA phage S13 are inactivated when their dilute suspensions come into contact with an aluminum alloy surface or when diluted with fluids which have been in contact with aluminum, zinc, or magnesium. The inactivation is believed to result from the simultaneous action of traces of Cu2+ and electrolytically formed H2O2 and may be stimulated by addition of both of these agents, although neither alone is fully active when present in trace amounts. The phages are protected by adding either catalase or EDTA, which is further support for the suggested mechanism.

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金属使噬菌体失活的机制
敏感的RNA噬菌体MS2和f2,以及单链DNA噬菌体S13(在较小程度上),当它们的稀释悬浮液接触铝合金表面或用接触过铝、锌或镁的液体稀释时,就会失活。这种失活被认为是由于微量Cu2+和电解形成的H2O2同时作用的结果,并且可以通过添加这两种物质来刺激,尽管当微量存在时,这两种物质都不能完全激活。通过添加过氧化氢酶或EDTA来保护噬菌体,这进一步支持了所建议的机制。
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Author index Erratum Subject index Changes in sedimentation properties of ribosomal ribonucleic acids during the course of ribosome formation in Escherichia coli The inhibition of deoxyribonucleotidyl transferase, DNAase and RNAase by sodium poly ethenesulfonic acid. Effect of the molecular weight of the inhibitor
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