In bacteria, mutations affecting the major catalytic subunits of RNA polymerase (encoded by rpoB and rpoC) emerge in response to a variety of selective pressures. Here we isolated a Bacillus subtilis strain with high-level resistance to cefuroxime (CEF). Whole-genome resequencing revealed only one missense mutation affecting an invariant residue in close proximity to the C-terminal DNA-binding domain of RpoC (G1122D). Genetic reconstruction experiments demonstrate that this substitution is sufficient to confer CEF resistance. The G1122D mutation leads to elevated expression of stress-responsive regulons, including those of extracytoplasmic function (ECF) σ factors (σM, σW, and σX) and the general stress σ factor (σB). The increased CEF resistance of the rpoCG1122D strain is lost in the sigM rpoCG1122D double mutant, consistent with a major role for σM in CEF resistance. However, a sigM mutant is very sensitive to CEF, and this sensitivity is still reduced by the G1122D mutation, suggesting that other regulatory effects are also important. Indeed, the ability of the G1122D mutation to increase CEF resistance is further reduced in a triple mutant strain lacking three ECF σ factors (σM, σW, and σX), which are known from prior studies to control overlapping sets of genes. Collectively, our findings highlight the ability of mutations in RNA polymerase to confer antibiotic resistance by affecting the activity of alternative σ factors that control cell envelope stress-responsive regulons.
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机译:在细菌中,响应多种选择压力,会出现影响RNA聚合酶主要催化亚基(由rpoB和rpoC编码)的突变。在这里,我们分离出了对头孢呋辛(CEF)具有高水平抗性的枯草芽孢杆菌菌株。全基因组重测序显示仅一个错义突变会影响紧邻RpoC(G1122D)C端DNA结合结构域的不变残基。遗传重建实验表明,这种取代足以赋予CEF抗性。 G1122D突变导致应激反应性调节子的表达升高,包括胞浆外功能(ECF)σ因子(σ M ,σ W 和σ X )和总应力σ因子(σ B )。 sigM rpoC G1122D 双重突变体失去了rpoC G1122D 菌株增加的CEF抵抗力,这与CEF中σ M 的主要作用一致抵抗性。但是,sigM突变体对CEF非常敏感,并且G1122D突变仍会降低这种敏感性,这表明其他调节作用也很重要。实际上,在缺少三个ECFσ因子(σ M ,σ W 和σ X ),这是先前研究已知的控制重叠基因集的方法。总的来说,我们的发现强调了RNA聚合酶突变通过影响控制细胞膜应激反应调节因子的其他σ因子的活性而赋予抗生素抗性的能力。
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