Resistance mechanism of Escherichia coli strains with different ampicillin resistance levels.

IF 3.9 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Applied Microbiology and Biotechnology Pub Date : 2024-12-01 Epub Date: 2024-01-02 DOI:10.1007/s00253-023-12929-y
Osman Türkyılmaz, Cihan Darcan
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引用次数: 0

Abstract

Antibiotic resistance is an important problem that threatens medical treatment. Differences in the resistance levels of microorganisms cause great difficulties in understanding the mechanisms of antibiotic resistance. Therefore, the molecular reasons underlying the differences in the level of antibiotic resistance need to be clarified. For this purpose, genomic and transcriptomic analyses were performed on three Escherichia coli strains with varying degrees of adaptive resistance to ampicillin. Whole-genome sequencing of strains with different levels of resistance detected five mutations in strains with 10-fold resistance and two additional mutations in strains with 95-fold resistance. Overall, three of the seven mutations occurred as a single base change, while the other four occurred as insertions or deletions. While it was thought that 10-fold resistance was achieved by the effect of mutations in the ftsI, marAR, and rpoC genes, it was found that 95-fold resistance was achieved by the synergistic effect of five mutations and the ampC mutation. In addition, when the general transcriptomic profiles were examined, it was found that similar transcriptomic responses were elicited in strains with different levels of resistance. This study will improve our view of resistance mechanisms in bacteria with different levels of resistance and provide the basis for our understanding of the molecular mechanism of antibiotic resistance in ampicillin-resistant E. coli strains. KEY POINTS: •The mutation of the ampC promoter may act synergistically with other mutations and lead to higher resistance. •Similar transcriptomic responses to ampicillin are induced in strains with different levels of resistance. •Low antibiotic concentrations are the steps that allow rapid achievement of high antibiotic resistance.

Abstract Image

具有不同氨苄西林抗药性的大肠埃希菌菌株的抗药性机制。
抗生素耐药性是威胁医疗的一个重要问题。微生物耐药性水平的差异给了解抗生素耐药性的机制带来了很大困难。因此,需要阐明抗生素耐药性水平差异的分子原因。为此,我们对三株对氨苄西林具有不同程度适应性耐药性的大肠杆菌进行了基因组和转录组分析。对具有不同耐药性的菌株进行全基因组测序,在耐药性为 10 倍的菌株中发现了五个突变,在耐药性为 95 倍的菌株中又发现了两个突变。总体而言,7 个突变中有 3 个发生了单碱基变化,另外 4 个则发生了插入或缺失。原以为 10 倍抗性是由 ftsI、marAR 和 rpoC 基因突变的影响实现的,但结果发现 95 倍抗性是由五个突变和 ampC 突变的协同效应实现的。此外,在研究一般转录组特征时发现,不同抗性水平的菌株会产生类似的转录组反应。这项研究将提高我们对不同耐药水平细菌的耐药机制的认识,并为我们了解耐氨苄西林大肠杆菌菌株的抗生素耐药分子机制提供依据。要点-ampC 启动子的突变可能与其他突变协同作用,导致更高的耐药性。-不同耐药性水平的菌株对氨苄西林的转录组反应相似。-低抗生素浓度是快速产生高抗生素耐药性的步骤。
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来源期刊
Applied Microbiology and Biotechnology
Applied Microbiology and Biotechnology 工程技术-生物工程与应用微生物
CiteScore
10.00
自引率
4.00%
发文量
535
审稿时长
2 months
期刊介绍: Applied Microbiology and Biotechnology focusses on prokaryotic or eukaryotic cells, relevant enzymes and proteins; applied genetics and molecular biotechnology; genomics and proteomics; applied microbial and cell physiology; environmental biotechnology; process and products and more. The journal welcomes full-length papers and mini-reviews of new and emerging products, processes and technologies.
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