Motility related gene expression of Campylobacter jejuni NCTC 11168 derived from high viscous media.

Yulan Su, Thomas Alter, Greta Gölz
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Abstract

Flagellation is one of the major virulence factors of Campylobacter jejuni (C. jejuni), enabling bacterial cells to swarm in rather high viscous fluids. The aim of this study was to determine the impact of the surrounding viscosity on the expression of motility related genes of C. jejuni. Therefore, bacterial RNA was extracted from liquid cultures as well as from bacterial cells recovered from the edge and the center of a swarming halo from high viscous media. The expression pattern of selected flagellar and chemotaxis related genes was investigated by RT-PCR. Higher mRNA levels of class 1 and lower levels of class 2 and 3 flagellar assembly genes were detected in cells derived from the edge of a swarming halo than in cells from the center. This indicates different growth states at both locations within the swarming halo. Furthermore, higher mRNA levels for energy taxis and motor complex monomer genes were detected in high viscous media compared to liquid culture, indicating higher demand of energy if C. jejuni cells were cultivated in high viscous media. The impact of the surrounding viscosity should be considered in future studies regarding motility related questions.

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来自高粘性培养基的空肠弯曲菌NCTC 11168运动相关基因的表达。
鞭笞是空肠弯曲杆菌(C. jejuni)的主要毒力因素之一,使细菌细胞在相当高粘性的液体中聚集。本研究的目的是确定周围黏度对空肠梭菌运动相关基因表达的影响。因此,从液体培养物中提取细菌RNA,以及从高粘性培养基中从群晕边缘和中心回收的细菌细胞中提取细菌RNA。采用RT-PCR方法研究了部分鞭毛和趋化相关基因的表达谱。从群晕边缘提取的细胞中,鞭毛组装基因1类mRNA水平高于群晕中心提取的细胞,2类和3类mRNA水平较低。这表明在群集光晕内两个位置的生长状态不同。此外,与液体培养相比,在高粘性培养基中检测到更高的能量导向和运动复合物单体基因mRNA水平,表明在高粘性培养基中培养空肠梭菌细胞对能量的需求更高。在未来的运动相关研究中,应考虑周围粘度的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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