Biochemical and structural insights into the activation of PBP1b by the essential domain of FtsN

Abstract

AbstractPeptidoglycan (PG) is an essential constituent of the bacterial cell wall. During cell division PG synthesis localizes at mid-cell under the control of a multiprotein complex, the divisome. In Escherichia coli, septal PG synthesis and cell constriction rely on the accumulation of FtsN at the division site. The region L75 to Q93 of FtsN (EFtsN) was shown to be essential and sufficient for its functioning in vivo but the specific target and the molecular mechanism remained unknown. Here, we show that EFtsN binds specifically to the major PG synthase PBP1b and is sufficient to stimulate its GTase activity. We also report the crystal structure of PBP1b in complex with EFtsN which provides structural insights into the mode of binding of EFtsN at the junction between the GTase and UB2H domains of PBP1b. Interestingly, the mutations R141A/R397A of PBP1b, within the EFtsN binding pocket, reduce the activation of PBP1b by FtsN. This mutant was unable to rescue ΔponB-ponAts strain at nonpermissive temperature and induced a mild cell chaining phenotype and cell lysis. Altogether, the results show that PBP1b is a target of EFtsN and suggest that binding of FtsN to PBP1b contributes to trigger septal PG synthesis and cell constriction.