Dose dependent enhanced antibacterial effects and reduced biofilm activity against Bacillus subtilis in presence of ZnO nanoparticles.

Bacterial biofilms are self-produced matrix of sticky extracellular polymeric substances. They result in fouling in the food industry, water treatment plants, and possess significant environmental and industrial impacts. Nanoparticles have shown immense potential and have been effective in combating bacterial biofilm, which is the common cause of drug resistance development, biofouling in water treatment plants and the food industry. Hence, in order to explore the same, Zinc oxide nanoparticles have been synthesized by chemical synthesis method and their action against Bacillus subtilis biofilm formation was evaluated in this study by crystal violet and ROS assay. The dose-dependent reduction in biofilm biomass and density was observed as a result of nanoparticle exposure. There was considerable reduction in biofilm formation after treatment with ZnO nanoparticles. Change in surface morphology of the Bacillus subtilis cells was observed which could be due to oxidative stress induced by ZnO nanoparticles. The oxidative stress was estimated by measurement of catalase activity that also showed dose-dependent decrease.