Class A PBPs have a distinct and unique role in the construction of the pneumococcal cell wall
Daniel Straume, Katarzyna Wiaroslawa Piechowiak, Silje Olsen, Gro Anita Stamsås, Kari Helene Berg, Morten Kjos, Maria Victoria Heggenhougen, Martín Alcorlo, J.A. Hermoso, Leiv Sigve Håvarstein
Abstract
cells to show that class A PBPs have an autonomous role during pneumococcal cell wall synthesis. Using assays to specifically inhibit the function of PBP2x and FtsW, we demonstrate that CbpD attacks nascent peptidoglycan synthesized by the divisome. Notably, class A PBPs could process this nascent peptidoglycan from a CbpD-sensitive to a CbpD-resistant form. The class A PBP-mediated processing was independent of divisome and elongasome activities. Class A PBPs thus constitute an autonomous functional entity which processes recently formed peptidoglycan synthesized by FtsW/PBP2×. Our results support a model in which mature pneumococcal peptidoglycan is synthesized by three functional entities, the divisome, the elongasome, and bifunctional PBPs. The latter modify existing peptidoglycan but are probably not involved in primary peptidoglycan synthesis.