Spatially resolved analysis of Pseudomonas aeruginosa biofilm proteomes measured by laser ablation sample transfer

Abstract

AbstractHeterogeneity in the distribution of nutrients and O2 gradients during biofilm growth gives rise to changes in phenotype. There has been long term interest in identifying spatial differences during biofilm development including clues that identify chemical heterogeneity. Laser ablation sample transfer (LAST) allows site-specific sampling combined with label free proteomics to distinguish radially and axially resolved proteomes for Pseudomonas aeruginosa biofilms. Specifically, differential protein abundances on oxic vs. anoxic regions of a biofilm was observed by combining LAST with bottom up proteomics. This study reveals active metabolism in the anoxic region of the biofilm with respect to the oxic region in P. aeruginosa, an aerobe by nature. Protein abundance data related to cellular acclimations to chemical gradients include identification of glucose catabolizing proteins, high abundance of proteins from arginine and polyamine metabolism, and proteins that could also support virulence and environmental stress mediation on the anoxic region. Finally, this methodology requires only a few mm2 of biofilm area to identify hundreds of proteins.