Wall teichoic acids govern cationic gold nanoparticle interaction with Gram-positive bacterial cell walls
Emily R. Caudill, Rodrigo Tapia Hernandez, Kyle Johnson, James T. O'Rourke, Lingchao Zhu, Christy L. Haynes, Z. Vivian Feng, Joel A. Pedersen
Abstract
C-NMR spectroscopy. We find that wall teichoic acid structure and composition were important determinants for the extent of interaction with cationic gold nanoparticles. The nanoparticles interacted more with wall teichoic acids from the wild type and mutant lacking glucose in its wall teichoic acids than those from the mutant having wall teichoic acids lacking alanine and exhibiting more restricted molecular motion. Our experimental evidence supports the interpretation that electrostatic forces contributed to nanoparticle-cell interactions and that the accessibility of negatively charged moieties in teichoic acid chains influences the degree of interaction. The approaches employed in this study can be applied to engineered nanomaterials differing in core composition, shape, or surface functional groups as well as to other types of bacteria to elucidate the influence of nanoparticle and cell surface properties on interactions with Gram-positive bacteria.