Abstract
AbstractThe vibrioid predatory bacterium Bdellovibrio bacteriovorus secretes prey wall-modifying enzymes to invade and replicate within the periplasm of Gram-negative prey bacteria. Studying self-modification of predator wall peptidoglycan during predation, we discover that Bd1075 generates self-wall curvature by exerting LD-carboxypeptidase activity in the vibrioid B. bacteriovorus strain HD100 as it grows inside spherical prey. Bd1075 localizes to the outer curved face of B. bacteriovorus, in contrast to most known shape-determinants. Asymmetric protein localization is determined by the novel function of a nuclear transport factor 2-like (NTF2) domain at the protein C-terminus. The solved structure of Bd1075 is monomeric, with key differences to other LD-carboxypeptidases. Rod-shaped Δbd1075 mutants invade prey more slowly than curved wild-type predators, and stretch and deform the invaded prey cell from within. Vibrioid morphology increases the evolutionary fitness of wild predatory bacteria, facilitating efficient prey invasion and intracellular growth of curved predators inside a spherical prey niche.
Publisher
Cold Spring Harbor Laboratory