Probing Bacterial Cell Division and Cell Envelope Biogenesis with Live-Cell Fluorescence Microscopy.

The development of advanced microscopy techniques has ushered in a new era of research as it helps understand biological processes on a deeper, mechanistic, and molecular level like never before. Live-cell fluorescence microscopy has importantly allowed us to visualize subcellular protein localization and incorporation of various fluorophores compatible with living cells in real time. As such, this technique offers valuable insights at the single-cell level and enables us to monitor phenotypic differences that were easily overlooked at a population level. One area of research that has benefited greatly from these advances is the study of the bacterial cell envelope biogenesis and cell division process. In this report, we provide detailed protocols, optimized in our lab, for imaging these processes in the Gram-positive organisms Bacillus subtilis and Staphylococcus aureus.