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十二胺对细菌芽孢的杀灭作用及其对芽孢内膜性质的影响。

Killing of bacterial spores by dodecylamine and its effects on spore inner membrane properties.

机构信息

Department of Molecular Biology and Biophysics, UConn Health, Farmington, CT, USA.

Advanced Light and Electron Microscopy (ZBS 4), Robert Koch Institute, Berlin, Germany.

出版信息

J Appl Microbiol. 2020 Dec;129(6):1511-1522. doi: 10.1111/jam.14732. Epub 2020 Jun 25.

DOI:10.1111/jam.14732
PMID:32492264
Abstract

AIMS

The objective of this study was to determine the effects of Ca-dipicolinic acid (CaDPA), cortex-lytic enzymes (CLEs), the inner membrane (IM) CaDPA channel and coat on spore killing by dodecylamine.

METHODS AND RESULTS

Bacillus subtilis spores, wild-type, CaDPA-less due to the absence of DPA synthase or the IM CaDPA channel, or lacking CLEs, were dodecylamine-treated and spore viability and vital staining were all determined. Dodecylamine killed intact wild-type and CaDPA-less B. subtilis spores similarly, and also killed intact Clostridiodes difficile spores ± CaDPA, with up to 99% killing with 1 mol l dodecylamine in 4 h at 45°C with spores at ~10  ml . Dodecylamine killing of decoated wild type and CLE-less B. subtilis spores was similar, but ~twofold faster than for intact spores, and much faster for decoated CaDPA-less spores, with ≥99% killing in 5 min. Propidium iodide stained intact spores ± CaDPA minimally, decoated CaDPA-replete spores or dodecylamine-killed CLE-less spores peripherally, and cores of decoated CaDPA-less spores and dodecylamine-killed intact spores with CLEs. The IM of some decoated CaDPA-less spores was greatly reorganized.

CONCLUSIONS

Dodecylamine spore killing does not require CaDPA channels, CaDPA or CLEs. The lack of CaDPA in decoated spores allowed strong PI staining of the spore core, indicating loss of these spores IM permeability barrier.

SIGNIFICANCE AND IMPACT OF THE STUDY

This work gives new information on killing bacterial spores by dodecylamine, and how spore IM's relative impermeability is maintained.

摘要

目的

本研究旨在确定钙二吡咯酸(CaDPA)、皮质裂解酶(CLE)、内膜(IM)CaDPA 通道和外壳对十二胺杀孢子的影响。

方法和结果

用十二胺处理枯草芽孢杆菌野生型、因缺乏 DPA 合酶或 IM CaDPA 通道而缺乏 CaDPA 的芽孢和缺乏 CLE 的芽孢,并测定芽孢活力和活菌染色。十二胺对完整的野生型和 CaDPA 缺乏的枯草芽孢杆菌芽孢的杀灭作用相似,也能杀灭带有或不带 CaDPA 的艰难梭菌芽孢,在 45°C 下,10 微升浓度约为 10 微升的芽孢用 1 摩尔/升十二胺处理 4 小时,杀灭率高达 99%。脱壳的野生型和无 CLE 的枯草芽孢杆菌芽孢的十二胺杀灭作用相似,但比完整的芽孢快约两倍,脱壳的 CaDPA 缺乏的芽孢则快得多,用 5 分钟即可达到 99%以上的杀灭率。碘化丙啶对带有或不带 CaDPA 的完整芽孢染色最少,对脱壳的 CaDPA 充足的芽孢或十二胺杀死的无 CLE 的芽孢染色仅限于周边,对脱壳的 CaDPA 缺乏的芽孢和带有 CLE 的十二胺杀死的完整芽孢的核心染色。一些脱壳的 CaDPA 缺乏的芽孢的内膜严重重组。

结论

十二胺杀孢子不需要 CaDPA 通道、CaDPA 或 CLE。脱壳的芽孢缺乏 CaDPA,使芽孢核心的 PI 染色强烈,表明这些芽孢内膜通透性屏障丧失。

研究的意义和影响

本研究提供了关于十二胺杀灭细菌芽孢的新信息,以及如何维持芽孢内膜的相对不渗透性。

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