通过长期培养获得的枯草芽孢杆菌稳定 L 型的遗传分析。

IF 0.8 4区 生物学 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Kazuki Ohta, Tenma Shimizu, Taku Oshima, Norikazu Ichihashi
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引用次数: 0

摘要

在抑制细胞壁合成的抗生素作用下,各种细菌会转变为缺乏细胞壁的球形状态,即 L 型。L 型分为两种:不稳定型和稳定型。不稳定的 L 型在没有抗生素的情况下会恢复到正常的细胞壁状态,而稳定的 L 型则保持缺壁状态。在长期培养过程中,经常可以观察到不稳定 L 型向稳定 L 型的转化。然而,这种转化的基因原因尚未完全清楚。在此,我们通过三次独立的长期培养实验,从不稳定性 L 型菌株中获得了稳定的枯草芽孢杆菌 L 型菌株。对长期培养菌株的全基因组测序发现了许多突变,有些突变在三个长期培养菌株中都普遍存在。祖先菌株中一个常见突变基因(tagF)的敲除菌株失去了恢复到贴壁状态(棒状)的能力,这证明消除tagF基因的功能是将不稳定的L型菌株转化为稳定状态的可能方法之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic analysis of Bacillus subtilis stable L-forms obtained via long-term cultivation.

Various bacteria can change to a spherical cell-wall-deficient state, called L-from, in the presence of antibiotics that inhibit cell wall synthesis. L-forms are classified into two types: unstable and stable L-forms. Unstable L-forms revert to a normal walled state in the absence of antibiotics, while stable L-forms remain in their wall-deficient state. The conversion from unstable to stable L-forms has been often observed during long-term cultivation. However, the genetic cause for this conversion is not yet fully understood. Here, we obtained stable Bacillus subtilis L-form strains from unstable L-form strains via three independent long-term culturing experiments. The whole genome sequencing of the long-cultured strains identified many mutations, and some mutations were commonly found in all three long-cultured strains. The knockout strain of one of the commonly mutated genes, tagF, in the ancestral strain lost the ability to revert to walled state (rod shape), supporting that eliminating the function of tagF gene is one of the possible methods to convert unstable L forms to a stable state.

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来源期刊
Journal of General and Applied Microbiology
Journal of General and Applied Microbiology 生物-生物工程与应用微生物
CiteScore
2.40
自引率
0.00%
发文量
42
审稿时长
6-12 weeks
期刊介绍: JGAM is going to publish scientific reports containing novel and significant microbiological findings, which are mainly devoted to the following categories: Antibiotics and Secondary Metabolites; Biotechnology and Metabolic Engineering; Developmental Microbiology; Environmental Microbiology and Bioremediation; Enzymology; Eukaryotic Microbiology; Evolution and Phylogenetics; Genome Integrity and Plasticity; Microalgae and Photosynthesis; Microbiology for Food; Molecular Genetics; Physiology and Cell Surface; Synthetic and Systems Microbiology.
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