牙周炎口腔微生物组生物合成基因簇的多位点分析。

Mohamad Koohi-Moghadam, Rory M Watt, W Keung Leung
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摘要

背景。细菌对人类健康和疾病有重大影响,细菌生物合成基因簇(BGCs)在微生物组-宿主和微生物-微生物相互作用中至关重要。尽管对人类肠道微生物群中的 BGCs 进行了广泛的研究,但对它们在口腔微生物群中的作用了解较少。这项试验性研究利用高通量枪式元基因组测序技术研究不同壁龛中的口腔微生物群,尤其关注 BGCs 与牙周炎的关系。我们分析了牙周炎患者(23 人)和对照组(16 人)的唾液、龈下菌斑和龈上菌斑样本。我们采用标准化方案从这些样本中提取 DNA。然后进行高通量枪式元基因组测序,以获得样本中微生物群落的全面遗传信息。我们的研究发现了 10 742 个 BGCs,其中某些群落具有特定的生态位。值得注意的是,芳基多烯烃和细菌素是最常见的 BGCs。我们发现了几种 "新型 "BGCs,它们在各细菌门中具有广泛的代表性,并鉴定出了在牙周炎患者和对照组中分布不同的BGCs。我们的系统方法揭示了以前未探索的生物合成途径,这些途径可能是牙周炎的关键因素。我们的研究拓展了目前关于健康和牙周疾病状态下口腔微生物群的元基因组知识。这些发现凸显了口腔中新型生物合成途径的存在,并表明宿主-微生物和微生物-微生物之间存在复杂的相互作用网络,可能对牙周疾病产生影响。本研究发现的BGCs为今后研究小分子介导的相互作用在人类口腔微生物群中的作用及其对牙周炎的影响铺平了道路。
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Multi-site analysis of biosynthetic gene clusters from the periodontitis oral microbiome.

Background. Bacteria significantly influence human health and disease, with bacterial biosynthetic gene clusters (BGCs) being crucial in the microbiome-host and microbe-microbe interactions.Gap statement. Despite extensive research into BGCs within the human gut microbiome, their roles in the oral microbiome are less understood.Aim. This pilot study utilizes high-throughput shotgun metagenomic sequencing to examine the oral microbiota in different niches, particularly focusing on the association of BGCs with periodontitis.Methodology. We analysed saliva, subgingival plaque and supragingival plaque samples from periodontitis patients (n=23) and controls (n=16). DNA was extracted from these samples using standardized protocols. The high-throughput shotgun metagenomic sequencing was then performed to obtain comprehensive genetic information from the microbial communities present in the samples.Results. Our study identified 10 742 BGCs, with certain clusters being niche-specific. Notably, aryl polyenes and bacteriocins were the most prevalent BGCs identified. We discovered several 'novel' BGCs that are widely represented across various bacterial phyla and identified BGCs that had different distributions between periodontitis and control subjects. Our systematic approach unveiled the previously unexplored biosynthetic pathways that may be key players in periodontitis.Conclusions. Our research expands the current metagenomic knowledge of the oral microbiota in both healthy and periodontally diseased states. These findings highlight the presence of novel biosynthetic pathways in the oral cavity and suggest a complex network of host-microbe and microbe-microbe interactions, potentially influencing periodontal disease. The BGCs identified in this study pave the way for future investigations into the role of small-molecule-mediated interactions within the human oral microbiota and their impact on periodontitis.

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