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长读测序揭示了 中多种谱系和质粒介导的利奈唑胺耐药性的存在。

Presence of mediated linezolid resistance in multiple lineages and plasmids of revealed by long read sequencing.

机构信息

School of Medicine, University of St Andrews, St Andrews, UK.

NHS Lothian Infection Service, Royal Infirmary of Edinburgh, Edinburgh, UK.

出版信息

Microbiology (Reading). 2022 Feb;168(2). doi: 10.1099/mic.0.001137.

DOI:10.1099/mic.0.001137
PMID:35130141
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8941993/
Abstract

Transferable linezolid resistance due to , , and -like genes is increasingly detected in enterococci associated with animals and humans globally. We aimed to characterize the genetic environment of in linezolid-resistant isolates from Scotland. Six linezolid-resistant isolated from urogenital samples were confirmed to carry the gene by PCR. Short read (Illumina) sequencing showed the isolates were genetically distinct (>13900 core SNPs) and belonged to different MLST sequence types. Plasmid contents were examined using hybrid assembly of short and long read (Oxford Nanopore MinION) sequencing technologies. The gene was located on distinct plasmids in each isolate, suggesting that transfer of a single plasmid did not contribute to dissemination in this collection. pTM6294-2, BX5936-1 and pWE0438-1 were similar to -positive plasmids from China and Japan, while the remaining three plasmids had limited similarity to other published examples. We identified the novel Tn transposon in pWE0254-1 carrying linezolid (), macrolide () and spectinomycin [ANT(9)-Ia] resistance genes. OptrA amino acid sequences differed by 0-20 residues. We report multiple variants of on distinct plasmids in diverse strains of . It is important to identify the selection pressures driving the emergence and maintenance of resistance against linezolid to retain the clinical utility of this antibiotic.

摘要

在全球范围内,与动物和人类相关的肠球菌中越来越多地发现可转移的利奈唑胺耐药基因,如、、和 -like 基因。我们旨在描述苏格兰分离的耐利奈唑胺肠球菌中基因的遗传环境。通过 PCR 证实从泌尿生殖道样本中分离的 6 株耐利奈唑胺肠球菌携带基因。短读(Illumina)测序表明,这些分离株在遗传上是不同的(>13900 个核心 SNP),并属于不同的 MLST 序列型。使用短读和长读(Oxford Nanopore MinION)测序技术的混合组装来检查质粒含量。基因位于每个分离株的不同质粒上,表明单个质粒的转移并未导致该集合中传播。pTM6294-2、BX5936-1 和 pWE0438-1 与来自中国和日本的阳性质粒相似,而其余三个质粒与其他已发表的例子相似性有限。我们在携带利奈唑胺()、大环内酯()和壮观霉素[ANT(9)-Ia]耐药基因的 pWE0254-1 中发现了新型 Tn 转座子。OptrA 氨基酸序列差异 0-20 个残基。我们报告了在不同菌株的不同质粒上携带的多种 变体。重要的是要确定推动对利奈唑胺耐药性出现和维持的选择压力,以保持该抗生素的临床效用。

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