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Molecular Design of a Signaling System Influences Noise in Protein Abundance under Acid Stress in Different Gammaproteobacteria

Sophie Brameyer, Elisabeth Hoyer, Sebastian Bibinger, Korinna Burdack, Jürgen Lassak, Kirsten Jung

2020Journal of Bacteriology26 citationsDOIOpen Access PDF

Abstract

Acid resistance is an important property for bacteria, such as Escherichia coli , to survive acidic environments like the human gastrointestinal tract. E. coli possesses both passive and inducible acid resistance systems to counteract acidic environments. Thus, E. coli evolved sophisticated signaling systems to sense and appropriately respond to environmental acidic stress by regulating the activity of its three inducible acid resistance systems. One of these systems is the Cad system, which is induced only under moderate acidic stress in a lysine-rich environment by the pH-responsive transcriptional regulator CadC. The significance of our research lies in identifying the molecular design of the Cad systems in different proteobacteria and their target expression noise at the single-cell level during acid stress conditions.

Topics & Concepts

BiologyEscherichia coliGammaproteobacteriaBacteriaBiochemistryEnzymeRegulatorCell biologyGeneticsGene16S ribosomal RNABacterial Genetics and BiotechnologyMicrobial Metabolic Engineering and BioproductionGene Regulatory Network Analysis
Molecular Design of a Signaling System Influences Noise in Protein Abundance under Acid Stress in Different Gammaproteobacteria | Litcius