| Structural Analysis of Bordetella pertussis Biofilms by Confocal Laser Scanning Microscopy
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Author:
Date:
2018-08-05
[Abstract] Biofilms are sessile communities of microbial cells embedded in a self-produced or host-derived exopolymeric matrix. Biofilms can both be beneficial or detrimental depending on the surface. Compared to their planktonic counterparts, biofilm cells display enhanced resistance to killing by environmental threats, chemicals, antimicrobials and host immune defenses. When in biofilms, the microbial cells interact with each other and with the surface to develop architecturally complex multi-dimensional structures. Numerous imaging techniques and tools are currently available for architectural ...
[摘要] 生物膜是嵌入自生或宿主衍生的外聚合物基质中的微生物细胞的固着群落。根据表面,生物膜可以是有益的或有害的。与浮游生物相比,生物膜细胞表现出更强的抗环境威胁,化学物质,抗菌药物和宿主免疫防御能力。当处于生物膜中时,微生物细胞彼此相互作用并与表面相互作用以形成结构复杂的多维结构。目前,许多成像技术和工具可用于生物膜群落的建筑分析。这允许通过获取可以呈现无柄群落的结构特征的三维图像来检查生物膜的发展。经常使用的工具是共聚焦激光扫描显微镜。我们提出了一个详细的协议,以生长,观察和分析呼吸道人类病原体,百日咳博德特氏菌的生物膜在空间和时间。
【背景】百日咳博德特氏菌(Bordetella pertussis)是上呼吸道的专性人类病原体,引起百日咳或百日咳(Mooi,2010; Dorji et al。,2018)。 B的生物膜。百日咳在各种人造表面上以及静态,摇动和流体流动条件下形成(Mishra et al。,2005; Sloan et al。,2007 ; Serra et al。,2011)。对这些生物膜的显微评估表明,这种细菌产生不规则形状的微集落,由流体通道分隔,嵌入由细胞外DNA(eDNA),蛋白质和多糖组成的外聚合物基质中(Parise et al。,2007; Sloan et al。,2007; Serra et al。,2008; ...
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| Establishing a Biofilm Co-culture of Pseudomonas and Aspergillus for Metabolite Extraction
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Author:
Date:
2015-12-05
[Abstract] Filamentous fungi and bacteria form mixed-species biofilms in nature and diverse clinical contexts (Frey-Klett et al., 2011; Peleg et al., 2010). The interactions between fungi and bacteria, often mediated by secreted metabolites, have important ramifications for the biology of the interacting partners (Frey-Klett et al., 2011). This is particularly true for the bacterium Pseudomonas aeruginosa (P. aeruginosa) and the fungus Aspergillus fumigatus (A. fumigatus) which often reside in the same niche such as lungs of cystic fibrosis ...
[摘要] 丝状真菌和细菌在自然界和不同的临床背景中形成混合物种生物膜(Frey-Klett等人,2011; Peleg等人,2010)。真菌和细菌之间的相互作用,通常由分泌的代谢物介导,对相互作用的伴侣的生物学具有重要的影响(Frey-Klett等人,2011)。对于绿脓假单胞菌(铜绿假单胞菌)和真菌烟曲霉( A。fumigatus >),其常常位于相同的位置,例如囊性纤维化(CF)患者的肺。一些研究报道了与p的共感染。铜绿和 烟曲霉可能导致相对于它们各自的单一物种感染的肺功能降低(Amin等人,2010; Peleg等人,2010)。代谢物提取和分析允许表征多微生物生物膜中的特定微生物代谢物。该方案描述了如何在固体培养基上制备假单胞菌属 - 曲霉菌共培养生物膜以准备代谢物提取。
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