Fluorescent D-Amino Acids for Super-resolution Microscopy of the Bacterial Cell Wall

Fluorescent D-amino acids (FDAAs) have previ-ously been developed to enable in situ highlighting of locations of bacterial cell wall growth. Most bacterial cells lie at the edge of the diffraction limit of visible light; thus, resolving the precise details of peptidoglycan (PG) biosynthesis requires super-resolution micros-copy after probe incorporation. Single molecule localization microscopy (SMLM) has stringent requirements on the fluorophore photophysical properties and therefore has remained challenging in this context. Here, we report the synthesis and characterization of new FDAAs compatible with one-step labeling and SMLM imaging. We demonstrate the incorporation of our probes and their utility for visualizing PG at the nanoscale in Gram-negative, Gram-positive, and mycobacteria species. This improved FDAA toolkit will endow researchers with a nanoscale perspective on the spatial distribution of PG biosynthesis for a broad range of bacterial species.

Fluorescent D-Amino Acids for Super-resolution Microscopy of the Bacterial Cell Wall

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Resolving bacterial cell biology: from replisome dynamics to cell wall synthesis

Compact and effective photon-resolved image scanning microscope

Bactericidal effect of tetracycline in E. coli strain ED1a may be associated with ribosome dysfunction

Resolving bacterial cell biology: from replisome dynamics to cell wall synthesis

Compact and effective photon-resolved image scanning microscope

Bactericidal effect of tetracycline in E. coli strain ED1a may be associated with ribosome dysfunction