对旱獭大肠埃希氏菌进行基因组剖析,有助于深入了解其多样性和致病潜力。

IF 5.1 Q1 ECOLOGY
ISME communications Pub Date : 2024-10-25 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae126
Ulrike Binsker, Carlus Deneke, Hafiz Muhammad Hamid, Ashish K Gadicherla, André Göhler, Annemarie Käsbohrer, Jens A Hammerl
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引用次数: 0

摘要

人类活动加强了人类、动物和环境栖息地之间的相互联系,并推动了细菌的进化和种间传播。因此,明确识别新出现的细菌并控制病原体是公共卫生的当务之急。2015 年,新型埃希氏菌物种 Escherichia marmotae 被指定,但由于缺乏适当的检测和分型技术,该物种对 "一个健康 "的影响仍有待揭开。在此,我们报告了通过下一代测序鉴定出的 25 个狨猴大肠埃希氏菌,这些狨猴大肠埃希氏菌之前在国家食用动物人畜共患病监测中被表型鉴定为大肠埃希氏菌。将 fastANI 应用于 153 738 个已发表的 Escherichia spp.所有 149 个分离物的系统进化组学显示,它们的种群结构与生态位无关。我们强调了 E. marmotae 的表型、基因组和质粒多样性,并提供了物种间基因流动的证据。后者体现在抗生素抗性质粒和致病性岛(如 III 型分泌系统)的获得。因此,我们对一种新出现的潜在机会性病原体进行了全面的基因组概述,强调了改进检测和特征描述的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genomic dissection of Escherichia marmotae provides insights into diversity and pathogenic potential.

Anthropogenic activities enhance the interconnection of human, animal, and environmental habitats and drive the evolution and inter-niche transmission of bacteria. Clear identification of emerging bacteria and pathogen control is therefore a public health priority. In 2015, the novel Escherichia species Escherichia marmotae was assigned, but due to the lack of appropriate detection and typing technologies, the One Health impact of this species is still being unraveled. E. marmotae represents a missing link in the impact of Escherichia spp. Here, we report 25 E. marmotae identified by next-generation sequencing that were previously phenotypically characterized as Escherichia coli during national zoonosis monitoring of food-producing animals. Applying fastANI to 153 738 published Escherichia spp. genome assemblies, we identified further 124 E. marmotae, originally classified as E. coli. Phylogenomics of all 149 isolates reveals an undefined population structure that is independent of the ecological niche. We highlight the phenotypic, genomic, and plasmid diversity of E. marmotae and provide evidence for gene flow across the species. The latter is illustrated by the acquisition of antibiotic resistance plasmids and pathogenicity islands, such as the type III secretion system. Thus, our comprehensive genomic overview of an emerging potential opportunistic pathogen underlines the importance of improved detection and characterization.

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