Essential Role for FtsL in Activation of Septal Peptidoglycan Synthesis
Kyung-Tae Park, Shishen Du, Joe Lutkenhaus
Abstract
A critical step in bacterial cytokinesis is the activation of septal peptidoglycan synthesis at the Z ring. Although FtsN is the trigger and acts through FtsQLB and FtsA to activate FtsWI the mechanism is unclear. Here, we find an essential role for FtsL in activating septal peptidoglycan (PG) synthesis and find that it acts on FtsI. Our results suggest a model where FtsWI is recruited in an inactive form by FtsQLB, and upon the arrival of FtsN, FtsQLB undergoes a conformational change so that a region of FtsL, which we designate the AWI domain, becomes available to interact with FtsI and activate the FtsWI complex. This mechanism for activation of the divisome has similarities to the activation of the elongasome and is likely to be widely conserved in bacteria.