SulA对细胞分裂蛋白FtsZ的失活使得Lon对于大肠杆菌ppGpp0菌株的生存力不可或缺。
Inactivation of Cell Division Protein FtsZ by SulA Makes Lon Indispensable for the Viability of a ppGpp0 Strain of Escherichia coli.
作者信息
Nazir Aanisa, Harinarayanan Rajendran
机构信息
Laboratory of Bacterial Genetics, Center for DNA Fingerprinting and Diagnostics, Hyderabad, India Graduate Studies, Manipal University, Manipal, India.
Laboratory of Bacterial Genetics, Center for DNA Fingerprinting and Diagnostics, Hyderabad, India
出版信息
J Bacteriol. 2015 Dec 7;198(4):688-700. doi: 10.1128/JB.00693-15.
UNLABELLED
The modified nucleotides (p)ppGpp play an important role in bacterial physiology. While the accumulation of the nucleotides is vital for adaptation to various kinds of stress, changes in the basal level modulates growth rate and vice versa. Studying the phenotypes unique to the strain lacking (p)ppGpp (ppGpp(0)) under overtly unstressed growth conditions may be useful to understand functions regulated by basal levels of (p)ppGpp and its physiological significance. In this study, we show that the ppGpp(0) strain, unlike the wild type, requires the Lon protease for cell division and viability in LB. Our results indicate the decrease in FtsZ concentration in the ppGpp(0) strain makes cell division vulnerable to SulA inhibition. We did not find evidence for SOS induction contributing to the cell division defect in the ppGpp(0) Δlon strain. Based on the results, we propose that basal levels of (p)ppGpp are required to sustain normal cell division in Escherichia coli during growth in rich medium and that the basal SulA level set by Lon protease is important for insulating cell division against a decrease in FtsZ concentration and conditions that can increase the susceptibility of FtsZ to SulA.
IMPORTANCE
The physiology of the stringent response has been the subject of investigation for more than 4 decades, with the majority of the work carried out using the bacterial model organism Escherichia coli. These studies have revealed that the accumulation of (p)ppGpp, the effector of the stringent response, is associated with growth retardation and changes in gene expression that vary with the intracellular concentration of (p)ppGpp. By studying a synthetic lethal phenotype, we have uncovered a function modulated by the basal levels of (p)ppGpp and studied its physiological significance. Our results show that (p)ppGpp and Lon protease contribute to the robustness of the cell division machinery in E. coli during growth in rich medium.
未标记
修饰核苷酸(p)ppGpp在细菌生理学中起着重要作用。虽然这些核苷酸的积累对于适应各种应激至关重要,但基础水平的变化会调节生长速率,反之亦然。在明显无应激的生长条件下研究缺乏(p)ppGpp(ppGpp(0))的菌株所特有的表型,可能有助于理解由(p)ppGpp基础水平调节的功能及其生理意义。在本研究中,我们表明,与野生型不同,ppGpp(0)菌株在LB培养基中进行细胞分裂和维持生存能力需要Lon蛋白酶。我们的结果表明,ppGpp(0)菌株中FtsZ浓度的降低使细胞分裂容易受到SulA抑制。我们没有发现SOS诱导导致ppGpp(0)Δlon菌株细胞分裂缺陷的证据。基于这些结果,我们提出,在丰富培养基中生长期间,大肠杆菌维持正常细胞分裂需要(p)ppGpp的基础水平,并且由Lon蛋白酶设定的基础SulA水平对于使细胞分裂免受FtsZ浓度降低以及可增加FtsZ对SulA敏感性的条件的影响很重要。
重要性
严谨反应的生理学四十多年来一直是研究的主题,大部分工作是使用细菌模式生物大肠杆菌进行的。这些研究表明,严谨反应的效应物(p)ppGpp的积累与生长迟缓以及随(p)ppGpp细胞内浓度变化的基因表达变化有关。通过研究一种合成致死表型,我们发现了由(p)ppGpp基础水平调节的一种功能,并研究了其生理意义。我们的结果表明,(p)ppGpp和Lon蛋白酶在丰富培养基中生长期间有助于大肠杆菌细胞分裂机制的稳健性。
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