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从医院土壤中分离到的多金属耐药但对多种药物敏感的博德特氏菌 petrii 的基因组、形态和生化分析。

Genomic, morphological, and biochemical analyses of a multi-metal resistant but multi-drug susceptible strain of Bordetella petrii from hospital soil.

机构信息

Microbiology Section, Department of Botany, The University of Burdwan, Burdwan, West Bengal, 713104, India.

Department of Microbial Infection and Immunity, The Ohio State University, Columbus, OH, 43210, USA.

出版信息

Sci Rep. 2022 May 19;12(1):8439. doi: 10.1038/s41598-022-12435-7.

DOI:10.1038/s41598-022-12435-7
PMID:35589928
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9120033/
Abstract

Contamination of soil by antibiotics and heavy metals originating from hospital facilities has emerged as a major cause for the development of resistant microbes. We collected soil samples surrounding a hospital effluent and measured the resistance of bacterial isolates against multiple antibiotics and heavy metals. One strain BMCSI 3 was found to be sensitive to all tested antibiotics. However, it was resistant to many heavy metals and metalloids like cadmium, chromium, copper, mercury, arsenic, and others. This strain was motile and potentially spore-forming. Whole-genome shotgun assembly of BMCSI 3 produced 4.95 Mb genome with 4,638 protein-coding genes. The taxonomic and phylogenetic analysis revealed it, to be a Bordetella petrii strain. Multiple genomic islands carrying mobile genetic elements; coding for heavy metal resistant genes, response regulators or transcription factors, transporters, and multi-drug efflux pumps were identified from the genome. A comparative genomic analysis of BMCSI 3 with annotated genomes of other free-living B. petrii revealed the presence of multiple transposable elements and several genes involved in stress response and metabolism. This study provides insights into how genomic reorganization and plasticity results in evolution of heavy metals resistance by acquiring genes from its natural environment.

摘要

抗生素和重金属等污染物从医院设施中迁移到土壤中,导致耐药微生物的大量出现。我们收集了医院废水周围的土壤样本,并测量了细菌分离物对多种抗生素和重金属的耐药性。结果发现,菌株 BMCSI 3 对所有测试的抗生素均敏感,但对许多重金属和类金属如镉、铬、铜、汞、砷等具有抗性。该菌株具有运动性和潜在的孢子形成能力。对 BMCSI 3 的全基因组鸟枪法测序得到了 4.95Mb 的基因组,其中包含 4638 个编码蛋白的基因。系统发育和分类分析表明,它是一株鲍特氏菌属的 Petrii 菌株。从基因组中鉴定出多个携带移动遗传元件的基因组岛,这些元件编码重金属抗性基因、响应调节因子或转录因子、转运蛋白和多药外排泵。与其他自由生活的鲍特氏菌属 Petrii 的注释基因组进行比较基因组分析表明,存在多种转座元件和几个参与应激反应和代谢的基因。本研究深入了解了基因组重组和可塑性如何通过从自然环境中获取基因来导致重金属抗性的进化。

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