Oxidative Stress Transcriptional Responses of Escherichia coli at GaN Interfaces.

Microorganisms regulate their interactions with surfaces by altering the transcription of specific target genes in response to physicochemical surface cues. To assess the influence of surface charge and surface chemistry on the transcriptional oxidative stress response, we evaluated the expression of three genes, oxyS , katE , and sodB from the Gram-negative bacterium, Escherichia coli, after a short exposure to GaN interfaces. We observed that both surface charge and surface chemistry were the factors regulating the transcriptional response of the target genes, which indicates that reactive oxygen species (ROS) generation and the ROS response at the GaN interfaces were affected by changing surface properties. The changes in transcription did not correlate to the surface charge in all cases, indicating that there was an influence from multiple interfacial properties on the interactions. Alteration of the bacterial morphology also was a critical factor in these transcriptional responses to the surface cues. When compared to wild-type E. coli bacteria, bacteria missing either flagella or curli exhibited altered transcriptional profiles of the three oxidative stress genes when exposed to GaN materials. These results indicate that the bacterial flagella and curli modulated the oxidative stress response in different ways. The results of this work add to our understanding of the interactions of microbes at interfaces and will be useful for guiding the development of electronic biointerfaces.