Staphylococcus aureus sacculus mediates activities of M23 hydrolases.

Peptidoglycan, a gigadalton polymer, functions as the scaffold for bacterial cell walls and provides cell integrity. Peptidoglycan is remodelled by a large and diverse group of peptidoglycan hydrolases, which control bacterial cell growth and division. Over the years, many studies have focused on these enzymes, but knowledge on their action within peptidoglycan mesh from a molecular basis is scarce. Here, we provide structural insights into the interaction between short peptidoglycan fragments and the entire sacculus with two evolutionarily related peptidases of the M23 family, lysostaphin and LytM. Through nuclear magnetic resonance, mass spectrometry, information-driven modelling, site-directed mutagenesis and biochemical approaches, we propose a model in which peptidoglycan cross-linking affects the activity, selectivity and specificity of these two structurally related enzymes differently. In this work, the authors provide structural insights into the interaction of two evolutionarily related peptidoglycan hydrolases, lysostaphin and LytM with S. aureus sacculus, and propose a model in which PG crosslinking affects their activity differently. [ABSTRACT FROM AUTHOR]