Roles of RodZ and class A PBP1b in the assembly and regulation of the peripheral peptidoglycan elongasome in ovoid‐shaped cells of Streptococcus pneumoniae D39

RodZ of rod‐shaped bacteria functions to link MreB filaments to the Rod peptidoglycan (PG) synthase complex that moves circumferentially perpendicular to the long cell axis, creating hoop‐like sidewall PG. Ovoid‐shaped bacteria, such as Streptococcus pneumoniae (pneumococcus; Spn ) that lack MreB, use a different modality for peripheral PG elongation that emanates from the midcell of dividing cells. Yet, S. pneumoniae encodes a RodZ homolog similar to RodZ in rod‐shaped bacteria. We show here that the helix‐turn‐helix and transmembrane domains of RodZ( Spn ) are essential for growth at 37°C. Δ rodZ mutations are suppressed by Δ pbp1a , mpgA (Y488D), and Δ khpA mutations that suppress Δ mreC , but not Δ cozE . Consistent with a role in PG elongation, RodZ( Spn ) co‐localizes with MreC and aPBP1a throughout the cell cycle and forms complexes and interacts with PG elongasome proteins and regulators. Depletion of RodZ( Spn ) results in aberrantly shaped, non‐growing cells and mislocalization of elongasome proteins MreC, PBP2b, and RodA. Moreover, Tn‐seq reveals that RodZ( Spn ), but not MreCD( Spn ), displays a specific synthetic‐viable genetic relationship with aPBP1b, whose function is unknown. We conclude that RodZ( Spn ) acts as a scaffolding protein required for elongasome assembly and function and that aPBP1b, like aPBP1a, plays a role in elongasome regulation and possibly peripheral PG synthesis.