Bacterial peptidoglycan as a living polymer

The peptidoglycan manifests as a multifaceted component of the bacterial cell wall. Throughout the lifecycle of the bacterium, the peptidoglycan is deconstructed, rebuilt, and remodeled for bacterial cell growth and replication. Degradation products of the peptidoglycan serve as precursors for cell-wall building blocks via recycling processes and as signaling molecules. Cell-wall recycling and de novo cell-wall synthesis converge biochemically at the cytoplasmic compartment. Peptidoglycan biochemistry is finely tuned to maintain the polymer's functions and is intimately connected to antibiotic-resistance mechanisms. Cell-wall-modifying enzymes present a unique opportunity for the discovery of antibiotics and antibiotic adjuvants. The unique chemical template of the peptidoglycan has been a target of numerous chemical biology approaches for investigating its functions and modulation. In this review, we highlight the current perspective on peptidoglycan research. We present recent efforts to understand the peptidoglycan as a functional component of antibiotic resistance, and as a target for antimicrobial therapy.