Abstract
The essential peptidoglycan (PG) layer surrounds the cytoplasmic membrane in nearly all bacteria. It is needed to maintain the shape of the cell and protect it from lysis due to high turgor. Growth of the PG layer is a complex process that involves the activities of PG synthases and hydrolases during elongation and cell division. PG growth sites can be labeled by the recently developed fluorescent D-amino acid (FDAA) probes in a range of different bacteria. FDAAs are incorporated into PG by dd-transpeptidases (Penicillin-binding proteins, PBPs) or, if present, ld-transpeptidase (LDTs). Long-pulse in situ labeling of E. coli cells with the FDAA 7-hydroxycoumarincarbonylamino-D-alanine (HADA) is expected to result in a uniform label at the side wall of cells and enhanced label at cell division sites due to the intense PG synthesis. However, we observed reduced label at mid-cell when labeling E. coli cells with HADA. We reasoned that probe incorporated at cell division sites may be removed by PG hydrolases and modified the labeling protocol to better preserve PG-incorporated HADA for fluorescence microscopy. Here, we report the optimized HADA-labeling protocol by which cells retain an enhanced HADA signal at the division septum.