Methods to Inhibit Bacterial Pyomelanin Production and Determine the Corresponding Increase in Sensitivity to Oxidative Stress

Autor:	Sonia L. Bardy, Laura M. Ketelboeter
Rok vydání:	2015
Předmět:	Serial dilution General Chemical Engineering Immunology Microbial Sensitivity Tests Bacterial growth medicine.disease_cause General Biochemistry Genetics and Molecular Biology Agar plate Minimum inhibitory concentration Microtiter plate medicine Melanins biology General Immunology and Microbiology Pseudomonas aeruginosa Cyclohexanones General Neuroscience Reproducibility of Results Hydrogen Peroxide biology.organism_classification Anti-Bacterial Agents Oxidative Stress Biochemistry Nitrobenzoates Bacteria Oxidative stress
Zdroj:	Journal of Visualized Experiments.
ISSN:	1940-087X
DOI:	10.3791/53105-v
Popis:	Pyomelanin is an extracellular red-brown pigment produced by several bacterial and fungal species. This pigment is derived from the tyrosine catabolism pathway and contributes to increased oxidative stress resistance. Pyomelanin production in Pseudomonas aeruginosa is reduced in a dose dependent manner through treatment with 2-[2-nitro-4-(trifluoromethyl)benzoyl]-1,3-cyclohexanedione (NTBC). We describe a titration method using multiple concentrations of NTBC to determine the concentration of drug that will reduce or abolish pyomelanin production in bacteria. The titration method has an easily quantifiable outcome, a visible reduction in pigment production with increasing drug concentrations. We also describe a microtiter plate method to assay antibiotic minimum inhibitory concentration (MIC) in bacteria. This method uses a minimum of resources and can easily be scaled up to test multiple antibiotics in one microtiter plate for one strain of bacteria. The MIC assay can be adapted to test the affects of non-antibiotic compounds on bacterial growth at specific concentrations. Finally, we describe a method for testing bacterial sensitivity to oxidative stress by incorporating H2O2 into agar plates and spotting multiple dilutions of bacteria onto the plates. Sensitivity to oxidative stress is indicated by reductions in colony number and size for the different dilutions on plates containing H2O2 compared to a no H2O2 control. The oxidative stress spot plate assay uses a minimum of resources and low concentrations of H2O2. Importantly, it also has good reproducibility. This spot plate assay could be adapted to test bacterial sensitivity to various compounds by incorporating the compounds in agar plates and characterizing the resulting bacterial growth.
Databáze:	OpenAIRE
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