通过丁香酚-葡萄糖基转移酶相互作用抑制鼠伤寒沙门菌生物膜和多糖生产。

IF 2.6 3区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biofouling Pub Date : 2025-01-02 DOI:10.1080/08927014.2024.2446928

Julian Javier Palomares-Navarro, Ariadna Thalia Bernal-Mercado, Cristóbal Joel González-Pérez, Miguel Angel Martínez-Tellez, Gustavo Adolfo Gonzalez-Aguilar, Luis Alberto Ortega-Ramirez, Jesus Fernando Ayala-Zavala

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引用次数: 0

摘要

本研究假设丁香酚由于其结构特性，可以抑制糖基转移酶活性，从而减少鼠伤寒沙门菌生物膜中多糖的合成。结果表明，丁香酚对浮游鼠伤寒沙门氏菌的抑制和杀菌作用最低浓度分别为0.6 mg mL-1和0.8 mg mL-1。最低生物膜根除和抑制浓度分别为1.8 mg mL-1和0.7 mg mL-1。在0.3 mg mL-1浓度下，丁香酚减少了生物膜的形成并影响了多糖的产生。此外，丁香酚还能降低葡萄糖基转移酶的活性。计算分析表明丁香酚与酶活性位点残基之间的相互作用较强，亲合力为-8.5 kcal mol-1。实时荧光定量PCR结果显示丁香酚的存在显著增加了bcsA基因的表达。这些结果表明丁香酚抑制葡萄糖基转移酶活性的能力有效地减少了生物膜的形成和多糖的含量。

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Inhibition of Salmonella Typhimurium biofilm and polysaccharide production via eugenol-glucosyltransferase interactions.

This study hypothesizes that eugenol, due to its structural properties, can inhibit glucosyltransferase activity, thereby reducing polysaccharide synthesis in Salmonella Typhimurium biofilms. It was found that eugenol exhibited minimum inhibitory and bactericidal concentrations of 0.6 mg mL^-1 and 0.8 mg mL^-1, respectively, against planktonic S. Typhimurium growth. It also demonstrated minimum biofilm eradication and inhibition concentrations of 1.8 mg mL^-1 and 0.7 mg mL^-1, respectively. At 0.3 mg mL^-1, eugenol reduced biofilm formation and affected polysaccharide production. Moreover, eugenol reduced glucosyltransferase activity. Computational analysis indicated strong interactions between eugenol and the enzyme's active site residues with affinity energy -8.5 kcal mol^-1. Real-time PCR revealed a significant increase in bcsA gene expression in the presence of eugenol. These findings suggest that eugenol's ability to inhibit glucosyltransferase activity effectively reduces biofilm formation and polysaccharide content.

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来源期刊

Biofouling 生物-海洋与淡水生物学

CiteScore

5.00

自引率

7.40%

发文量

审稿时长

1.7 months

期刊介绍： Biofouling is an international, peer-reviewed, multi-discliplinary journal which publishes original articles and mini-reviews and provides a forum for publication of pure and applied work on protein, microbial, fungal, plant and animal fouling and its control, as well as studies of all kinds on biofilms and bioadhesion. Papers may be based on studies relating to characterisation, attachment, growth and control on any natural (living) or man-made surface in the freshwater, marine or aerial environments, including fouling, biofilms and bioadhesion in the medical, dental, and industrial context. Specific areas of interest include antifouling technologies and coatings including transmission of invasive species, antimicrobial agents, biological interfaces, biomaterials, microbiologically influenced corrosion, membrane biofouling, food industry biofilms, biofilm based diseases and indwelling biomedical devices as substrata for fouling and biofilm growth, including papers based on clinically-relevant work using models that mimic the realistic environment in which they are intended to be used.