Center for NanoScience, Ludwig-Maximilians-University, Fakultät für Physik, Munich, Germany.
PLoS One. 2013;8(1):e53457. doi: 10.1371/journal.pone.0053457. Epub 2013 Jan 11.
Two-component signal transduction systems are one means of bacteria to respond to external stimuli. The LiaFSR two-component system of Bacillus subtilis consists of a regular two-component system LiaRS comprising the core Histidine Kinase (HK) LiaS and the Response Regulator (RR) LiaR and additionally the accessory protein LiaF, which acts as a negative regulator of LiaRS-dependent signal transduction. The complete LiaFSR system was shown to respond to various peptide antibiotics interfering with cell wall biosynthesis, including bacitracin.
Here we study the response of the LiaFSR system to various concentrations of the peptide antibiotic bacitracin. Using quantitative fluorescence microscopy, we performed a whole population study analyzed on the single cell level. We investigated switching from the non-induced 'OFF' state into the bacitracin-induced 'ON' state by monitoring gene expression of a fluorescent reporter from the RR-regulated liaI promoter. We found that switching into the 'ON' state occurred within less than 20 min in a well-defined switching window, independent of the bacitracin concentration. The switching rate and the basal expression rate decreased at low bacitracin concentrations, establishing clear heterogeneity 60 min after bacitracin induction. Finally, we performed time-lapse microscopy of single cells confirming the quantitative response as obtained in the whole population analysis for high bacitracin concentrations.
The LiaFSR system exhibits an immediate, heterogeneous and graded response to the inducer bacitracin in the exponential growth phase.
双组分信号转导系统是细菌对外界刺激做出反应的一种方式。枯草芽孢杆菌的 LiaFSR 双组分系统由一个常规的双组分系统 LiaRS 组成,该系统包括核心组氨酸激酶(HK)LiaS 和应答调节蛋白(RR)LiaR,以及作为 LiaRS 依赖性信号转导负调节剂的辅助蛋白 LiaF。完整的 LiaFSR 系统被证明对各种干扰细胞壁生物合成的肽类抗生素(包括杆菌肽)有反应。
在这里,我们研究了 LiaFSR 系统对各种浓度肽类抗生素杆菌肽的反应。使用定量荧光显微镜,我们在单细胞水平上进行了全群体研究分析。我们通过监测 RR 调节的 liaI 启动子的荧光报告基因的表达,研究了从非诱导的“OFF”状态切换到杆菌肽诱导的“ON”状态的情况。我们发现,在明确的切换窗口内,切换到“ON”状态发生在不到 20 分钟的时间内,与杆菌肽浓度无关。在低杆菌肽浓度下,切换速率和基础表达速率降低,在杆菌肽诱导 60 分钟后建立了明显的异质性。最后,我们对单个细胞进行了延时显微镜观察,证实了高杆菌肽浓度下全群体分析中获得的定量反应。
在指数生长阶段,LiaFSR 系统对诱导剂杆菌肽表现出立即、异质和分级的反应。