Mapping the oral resistome: a systematic review.

Smitha Sukumar, Zalmay Rahmanyar, Hagaar Q El Jurf, William S Akil, Jafar Hussain, F Elizabeth Martin, Kanchana Ekanayake, Elena Martinez
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Abstract

Studying individual ecological niches within the oral cavity is a logical first step to understanding the distribution of antimicrobial resistance genes (ARGs); however, it is not representative of the whole oral resistome. The aim of our systematic review was to provide a map of the oral resistome by reviewing the composition of individual niches. A total of 580 papers were retrieved from a search of all English language publications investigating the presence of oral ARGs in five electronic databases between January 2015 and August 2023. Fifteen studies [10 PCR and 5 next-generation sequencing (NGS)] were included in this review. The heterogeneity of methods precluded meta-analysis. ARGs are present throughout the oral cavity with 158 unique ARGs identified across 6 locations - supra and sub-gingival biofilm, mucosa, oropharynx, root canal system (RCS) and saliva. The supragingival biofilm had the highest resistome richness, while the RCS had the least. Tetracycline was the dominant antimicrobial resistance (AMR) class found. Three core genes were identified - tet(M), tet(O) and ermB.This review highlights the necessity of NGS studies to comprehensively characterize the oral resistome in its entirety. This is the logical foundation for future 'omics studies to truly understand the scope of the resistome and its contribution to AMR.

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绘制口腔抗药性基因组图谱:系统综述。
研究口腔内的单个生态位是了解抗菌药耐药性基因(ARGs)分布的第一步,但这并不能代表整个口腔耐药性基因组。我们的系统性综述旨在通过审查各个生态位的组成来提供口腔耐药基因组图谱。在 2015 年 1 月至 2023 年 8 月期间,我们在五个电子数据库中检索了所有研究口腔 ARGs 的英文出版物,共检索到 580 篇论文。本综述纳入了 15 项研究 [10 项 PCR 和 5 项新一代测序 (NGS)]。由于研究方法的异质性,因此无法进行荟萃分析。ARGs存在于整个口腔,在龈上、龈下生物膜、粘膜、口咽、根管系统(RCS)和唾液这6个部位发现了158种独特的ARGs。龈上生物膜的抗性基因组丰富度最高,而根管系统的抗性基因组丰富度最低。四环素是发现的主要抗菌素耐药性(AMR)类别。本综述强调了 NGS 研究全面描述口腔耐药性组整体特征的必要性。这是未来 "omics "研究的逻辑基础,有助于真正了解耐药性基因组的范围及其对 AMR 的贡献。
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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