丙氨酸和谷氨酸分解代谢共同确保枯草杆菌孢子繁殖的成功

IF 6.1 1区 生物学 Q1 MICROBIOLOGY
Fengzhi Lyu , Dong Yang , Lei Rao , Xiaojun Liao
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引用次数: 0

摘要

孢子分化作为一种典型的细菌分化过程,已经被研究了几十年。然而,对孢子分化的两个关键方面,即(i)支持该过程的能量来源和(ii)在整个孢子分化过程中孢子休眠的维持,却鲜有探索。在这里,我们报道了 RocG 介导的谷氨酸代谢在调节母细胞裂解(枯草芽孢杆菌完成孢子形成的关键步骤)中的关键作用,这可能是通过提供能量代谢物 ATP 来实现的。值得注意的是,rocG 过表达会导致 ATP 在孢子细胞中过度积累,从而对未来孢子的特性产生不利影响,如萌发效率提高、DPA 含量降低和耐热性降低。此外,我们还发现,醛介导的丙氨酸代谢与抑制孢子过早萌发和在孢子形成过程中维持孢子休眠密切相关,这可能是通过降低孢子环境中典型的发芽L-丙氨酸浓度实现的。我们的数据推断,枯草杆菌的孢子化是一个高度协调的生物过程,需要多种代谢途径的微妙平衡,从而确保孢子化的完成和高质量孢子的产生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Alanine and glutamate catabolism collaborate to ensure the success of Bacillus subtilis sporulation

Sporulation as a typical bacterial differentiation process has been studied for decades. However, two crucial aspects of sporulation, (i) the energy sources supporting the process, and (ii) the maintenance of spore dormancy throughout sporulation, are scarcely explored. Here, we reported the crucial role of RocG-mediated glutamate catabolism in regulating mother cell lysis, a critical step for sporulation completion of Bacillus subtilis, likely by providing energy metabolite ATP. Notably, rocG overexpression resulted in an excessive ATP accumulation in sporulating cells, leading to adverse effects on future spore properties, e.g. increased germination efficiency, reduced DPA content, and lowered heat resistance. Additionally, we revealed that Ald-mediated alanine metabolism was highly related to the inhibition of premature germination and the maintenance of spore dormancy during sporulation, which might be achieved by decreasing the typical germinant L-alanine concentration in sporulating environment. Our data inferred that sporulation of B. subtilis was a highly orchestrated biological process requiring a delicate balance in diverse metabolic pathways, hence ensuring both the completion of sporulation and production of high-quality spores.

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来源期刊
Microbiological research
Microbiological research 生物-微生物学
CiteScore
10.90
自引率
6.00%
发文量
249
审稿时长
29 days
期刊介绍: Microbiological Research is devoted to publishing reports on prokaryotic and eukaryotic microorganisms such as yeasts, fungi, bacteria, archaea, and protozoa. Research on interactions between pathogenic microorganisms and their environment or hosts are also covered.
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