Involvement of the Bacillus SecYEG Pathway in Biosurfactant Production and Biofilm Formation.

IF 2.8 Q3 MICROBIOLOGY International Journal of Microbiology Pub Date : 2024-05-02 eCollection Date: 2024-01-01 DOI:10.1155/2024/6627190
Frédéric Yannick Okouakoua, Christian Aimé Kayath, Saturnin Nicaise Mokemiabeka, David Charles Roland Moukala, Moïse Doria Kaya-Ongoto, Etienne Nguimbi
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Abstract

With Bacillus species, about 30% of extracellular proteins are translocated through the cytoplasmic membrane, coordinated by the Sec translocase. This system mainly consists of the cytoplasmic ATPase SecA and the membrane-embedded SecYEG channel. The purpose of this work was to investigate the effects of the SecYEG export system on the production of industrial biomolecules, such as biosurfactants, proteases, amylases, and cellulases. Fifty-two isolates of Bacillus species were obtained from traditional fermented foods and then characterized using molecular microbiology methods. The isolates secreted exoenzymes that included cellulases, amylases, and proteases. We present evidence that a biosurfactant-like molecule requires the SecA ATPase and the SecYEG membrane channel for its secretion. In addition, we showed that biomolecules involved in biofilm formation required the SecYEG pathway. This work presents a novel seven-target fragment multiplex PCR assay capable of identification at the species level of Bacillus through a unique SecDF chromosomal gene. The bacterial membrane protein SecDF allowed the discrimination of Bacillus subtilis, B. licheniformis, B. amyloliquefaciens, and B. sonorensis. SecA was able to interact with AprE, AmyE, and TasA. The Rose Bengal inhibitor of SecA crucially affected the interaction of AprE, AmyE, TapA, and TasA with recombinant Gst-SecA. The Rose Bengal prevented Bacillus species from secreting and producing proteases, cellulases, amylases, and biosurfactant-like molecules. It also inhibited the formation of biofilm cell communities. The data support, for the first time, that the SecYEG translocon mediates the secretion of a biosurfactant-like molecule.

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芽孢杆菌 SecYEG 途径参与生物表面活性剂的生产和生物膜的形成
在芽孢杆菌中,约有 30% 的细胞外蛋白质在 Sec 转运酶的协调下通过细胞质膜转运。该系统主要由细胞质 ATP 酶 SecA 和嵌入膜的 SecYEG 通道组成。这项工作的目的是研究 SecYEG 输出系统对生物表面活性剂、蛋白酶、淀粉酶和纤维素酶等工业生物大分子生产的影响。研究人员从传统发酵食品中获得了 52 个芽孢杆菌分离物,然后利用分子微生物学方法对其进行了鉴定。分离物分泌的外酶包括纤维素酶、淀粉酶和蛋白酶。我们提出的证据表明,一种类似生物表面活性剂的分子需要 SecA ATPase 和 SecYEG 膜通道才能分泌。此外,我们还发现参与生物膜形成的生物分子需要 SecYEG 途径。这项研究提出了一种新型的七目标片段多重 PCR 检测方法,能够通过独特的 SecDF 染色体基因在物种水平上鉴定芽孢杆菌。细菌膜蛋白 SecDF 可用于鉴别枯草芽孢杆菌、地衣芽孢杆菌、淀粉芽孢杆菌和索诺氏芽孢杆菌。SecA 能够与 AprE、AmyE 和 TasA 相互作用。SecA 的玫瑰红抑制剂严重影响了 AprE、AmyE、TapA 和 TasA 与重组 Gst-SecA 的相互作用。玫瑰红水杨酸能阻止芽孢杆菌分泌和产生蛋白酶、纤维素酶、淀粉酶和类生物表面活性剂分子。它还能抑制生物膜细胞群落的形成。这些数据首次证明了 SecYEG 易位子介导了类生物表面活性剂分子的分泌。
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来源期刊
CiteScore
7.90
自引率
0.00%
发文量
57
审稿时长
13 weeks
期刊介绍: International Journal of Microbiology is a peer-reviewed, Open Access journal that publishes original research articles, review articles, and clinical studies on microorganisms and their interaction with hosts and the environment. The journal covers all microbes, including bacteria, fungi, viruses, archaea, and protozoa. Basic science will be considered, as well as medical and applied research.
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