Study of charge distribution on the surface of biocolloids

Abstract

Potentiometric titration and zeta potential measurements are crucial techniques for the characterization of the surface properties of bacterial cells. In this study, we investigated the effects of two commonly used electrolytes, NaNO3 and NaClO4, on the viability and acid–base properties of Gram-positive bacteria Bacillus subtilis. B. subtilis are non-pathogenic bacteria which are often used to model the surface properties of pathogenic microorganisms of the same genus, including Bacillus anthracis and Bacillus cereus. The survival rates of bacterial cells treated with NaNO3 were significantly higher in comparison with microorganisms treated with NaClO4 (5.2–6.8 and 4.1–4.7log10cfu – colony-forming units, respectively). A decrease in the ionic strength (0.1M, 0.01M and 0.005M) of both electrolytes increased viable bacterial cell counts in NaNO3 treatments and decreased viable bacterial counts in NaClO4 treatments. Potentiometric titration revealed three dominant types of cell wall functional groups: the carboxyl group (pKa values of 4.58–4.89), the amino group (pKa values of 9.62–9.89) and the phosphate group (pKa values of 7.12–7.49). An increase in the ionic strength of electrolytes led to a decrease in total site concentrations and a drop in buffering capacity at the examined pH values. Based on zeta potential values, measured as a function of pH and ionic strength, the isoelectric point of B. subtilis was determined at pH 2.2 for 0.005M and 0.01M NaNO3. Zeta potential increased with a rise in pH, and it decreased with an increase in ionic strength.