细菌芽孢的矿化作用及其对热和氧化因子的反应。

Mineralization and responses of bacterial spores to heat and oxidative agents.

作者信息

Marquis R E, Shin S Y

机构信息

Department of Microbiology and Immunology, University of Rochester Medical Center, NY 14642-8672.

出版信息

FEMS Microbiol Rev. 1994 Aug;14(4):375-9. doi: 10.1111/j.1574-6976.1994.tb00111.x.

DOI:10.1111/j.1574-6976.1994.tb00111.x

PMID:7917424

Abstract

Mineralization of bacterial spores with Ca2+ and a variety of other mineral cations enhances resistance to heat damage. Part of the enhancement is associated with increased dehydration of the mineralized protoplast or spore core, while part is independent of dehydration and effective for resistance even to dry heat. Spore mineralization was found also to enhance resistance to oxidative damage caused by agents such as tertiary butyl hydroperoxide or H2O2. In contrast, mineral cations in the environment increased oxidative damage, presumably by catalyzing radical formation. Metal ion chelators such as o-phenanthroline protected spores against such damage.

摘要

用Ca2+和多种其他矿物阳离子使细菌孢子矿化可增强其对热损伤的抗性。这种增强部分与矿化原生质体或孢子核心脱水增加有关，而部分与脱水无关，甚至对干热抗性也有效。还发现孢子矿化可增强对叔丁基过氧化氢或H2O2等试剂引起的氧化损伤的抗性。相比之下，环境中的矿物阳离子会增加氧化损伤，大概是通过催化自由基形成。邻菲罗啉等金属离子螯合剂可保护孢子免受此类损伤。

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细菌芽孢的矿化作用及其对热和氧化因子的反应。

Mineralization and responses of bacterial spores to heat and oxidative agents.

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