gdpS 基因突变诱导表皮葡萄球菌进入可生存但不可培养状态，并改变其全局转录谱。

Mutation of gdpS gene induces a viable but non-culturable state in Staphylococcus epidermidis and changes in the global transcriptional profile.

机构信息

Department of Medical Microbiology and Immunology, Wannan Medical College, Wuhu, 241002, People's Republic of China.

Department of Pharmacy, Wannan Medical College, Wuhu, 241002, People's Republic of China.

出版信息

BMC Microbiol. 2022 Dec 1;22(1):288. doi: 10.1186/s12866-022-02708-6.

DOI:10.1186/s12866-022-02708-6

PMID:36457079

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9714401/

Abstract

BACKGROUND

In the genome of staphylococci, only the gdpS gene encodes the conserved GGDEF domain, which is the characteristic of diguanylate cyclases. In our previous study, we have demonstrated that the gdpS gene can modulate biofilm formation by positively regulating the expression of ica operon in Staphylococcus epidermidis. Moreover, this regulation seems to be independent of the c-di-GMP signaling pathway and the protein-coding function of this gene. Therefore, the biological function of the gdpS gene remains to be further investigated.

RESULTS

In the present study, it was observed that mutation of the gdpS gene induced S. epidermidis to enter into a presumed viable but nonculturable state (VBNC) after cryopreservation with glycerol. Similarly, when moved from liquid to solid culture medium, the gdpS mutant strain also exhibited a VBNC state. Compared with the wild-type strain, the gdpS mutant strain autolyzed more quickly during storage at 4℃, indicating its increased susceptibility to low temperature. Transcriptional profiling analysis showed that the gdpS mutation affected the transcription of 188 genes (92 genes were upregulated and 96 genes were downregulated). Specifically, genes responsible for glycerol metabolism were most markedly upregulated and most of the altered genes in the mutant strain are those involved in nitrogen metabolism. In addition, the most significantly downregulated genes included the betB gene, whose product catalyzes the synthesis of glycine betaine and confers tolerance to cold.

CONCLUSION

The preliminary results suggest that the gdpS gene may participate in VBNC formation of S. epidermidis in face of adverse environmental factors, which is probably achieved by regulating expression of energy metabolism genes. Besides, the gdpS gene is critical for S. epidermidis to survive low temperature, and the underlying mechanism may be partly explained by its influence on expression of betB gene.

摘要

背景

葡萄球菌基因组中只有 gdpS 基因编码保守的 GGDEF 结构域，这是双鸟苷酸环化酶的特征。在我们之前的研究中，已经证明 gdpS 基因可以通过正调控表皮葡萄球菌的 ica 操纵子的表达来调节生物膜的形成。此外，这种调控似乎独立于 c-di-GMP 信号通路和该基因的蛋白质编码功能。因此，gdpS 基因的生物学功能仍有待进一步研究。

结果

在本研究中，观察到 gdpS 基因突变诱导表皮葡萄球菌在甘油冷冻保存后进入假定的存活但非可培养状态（VBNC）。同样，当从液体转移到固体培养基时，gdpS 突变株也表现出 VBNC 状态。与野生型菌株相比，gdpS 突变菌株在 4℃下储存时更快地自溶，表明其对低温的敏感性增加。转录谱分析显示，gdpS 突变影响了 188 个基因的转录（92 个基因上调，96 个基因下调）。具体来说，甘油代谢相关基因表达上调最为显著，而突变菌株中大多数改变的基因与氮代谢有关。此外，下调最显著的基因包括 betB 基因，其产物催化甘氨酸甜菜碱的合成，并赋予对低温的耐受性。

结论

初步结果表明，gdpS 基因可能参与表皮葡萄球菌在面对不利环境因素时形成 VBNC，这可能是通过调节能量代谢基因的表达来实现的。此外，gdpS 基因对表皮葡萄球菌在低温下的生存至关重要，其潜在机制可能部分解释为其对 betB 基因表达的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e993/9716728/09b4978a0ee4/12866_2022_2708_Fig1_HTML.jpg

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gdpS 基因突变诱导表皮葡萄球菌进入可生存但不可培养状态，并改变其全局转录谱。

Mutation of gdpS gene induces a viable but non-culturable state in Staphylococcus epidermidis and changes in the global transcriptional profile.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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