Nutrient availability influences E. coli biofilm properties and the structure of purified curli amyloid fibers.

IF 7.8 1区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

npj Biofilms and Microbiomes Pub Date : 2024-12-04 DOI:10.1038/s41522-024-00619-0

Macarena Siri, Mónica Vázquez-Dávila, Carolina Sotelo Guzman, Cécile M Bidan

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引用次数: 0

Abstract

Bacterial biofilms are highly adaptable and resilient to challenges. Nutrient availability can induce changes in biofilm growth, architecture and mechanical properties. Their extracellular matrix plays an important role in achieving biofilm stability under different environmental conditions. Curli amyloid fibers are critical for the architecture and stiffness of E. coli biofilms, but how this major matrix component adapts to different environmental cues remains unclear. We investigated, for the first time, the effect of nutrient availability both on biofilm material properties and on the structure and properties of curli amyloid fibers extracted from similar biofilms. Our results show that biofilms grown on low nutrient substrates are stiffer, contain more curli fibers, and these fibers present higher β-sheet content and chemical stability. Our multiscale study sheds new light on the relationship between bacterial matrix molecular structure and biofilm macroscopic properties. This knowledge will benefit the development of both anti-biofilm strategies and biofilm-based materials.

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营养物质的有效性影响大肠杆菌生物膜的特性和纯化的卷曲淀粉样纤维的结构。

细菌生物膜具有很强的适应性和抗挑战能力。营养物质的有效性可以引起生物膜生长、结构和力学性能的变化。它们的细胞外基质在不同环境条件下实现生物膜的稳定性起着重要的作用。卷曲淀粉样纤维对大肠杆菌生物膜的结构和硬度至关重要，但这种主要基质成分如何适应不同的环境线索尚不清楚。我们首次研究了营养物质有效性对生物膜材料性能的影响，以及对从类似生物膜中提取的卷曲淀粉样纤维的结构和性能的影响。我们的研究结果表明，在低营养基质上生长的生物膜更硬，含有更多的卷曲纤维，这些纤维具有更高的β-片含量和化学稳定性。我们的多尺度研究揭示了细菌基质分子结构与生物膜宏观特性之间的关系。这些知识将有利于抗生物膜策略和生物膜基材料的发展。

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来源期刊

npj Biofilms and Microbiomes Immunology and Microbiology-Microbiology

CiteScore

12.10

自引率

3.30%

发文量

审稿时长

9 weeks

期刊介绍： npj Biofilms and Microbiomes is a comprehensive platform that promotes research on biofilms and microbiomes across various scientific disciplines. The journal facilitates cross-disciplinary discussions to enhance our understanding of the biology, ecology, and communal functions of biofilms, populations, and communities. It also focuses on applications in the medical, environmental, and engineering domains. The scope of the journal encompasses all aspects of the field, ranging from cell-cell communication and single cell interactions to the microbiomes of humans, animals, plants, and natural and built environments. The journal also welcomes research on the virome, phageome, mycome, and fungome. It publishes both applied science and theoretical work. As an open access and interdisciplinary journal, its primary goal is to publish significant scientific advancements in microbial biofilms and microbiomes. The journal enables discussions that span multiple disciplines and contributes to our understanding of the social behavior of microbial biofilm populations and communities, and their impact on life, human health, and the environment.