Microbial colonization is an outcome of appropriate sensing and regulation of its gene expression. Bacillus anthracis adapts and thrives in its environment through complex regulatory mechanisms, among them, the two component systems (TCS). Many bacteria respond to the oxygen fluctuations via TCS. In the present work, a previously uncharacterized TCS, Bas1213-1214, of B. anthracis with a probable role in oxygen sensing has been characterized as a functional TCS. A substantial increase in the expression of Bas1213 was observed during the stationary growth phase, in presence of bicarbonate ions, and under oxidative stress thereby speculating the role of Bas1213 in toxin production and adaptive responses. Electrophoretic mobility shift assay (EMSA) and ANS assay highlighted autoregulation of the system. Identification of Bas1213 regulon further suggested its regulatory function in metabolism and adaptive responses. A marked reduction in sporulation was observed on overexpression of Bas1213 in B. anthracis which can be correlated with the augmented expression of sporulation kinase D. Additionally, Bas1213 was shown to regulate catalase, and ABC transporter (mntH) further implicating its essential role during oxidative stress. Finally, crucial residues involved in the DNA binding activity of Bas1213 were also identified. This study reports that the role of Bas1213-1214 in the regulation of metabolism and adaptive responses during oxidative stress. Both sporulation and response to environmental oxygen are important for the maintenance of B. anthracis lifecycle, therefore, characterization of Bas1213-1214 provides a step closer toward understanding the regulatory network governing in B. anthracis.
Keywords: Bacillus anthracis; ResDE; oxidative stress; sporulation; two component system.
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