An N4-like Caulobacter phage requires host smooth lipopolysaccharide biosynthesis for infection

Caulobacter species are Alphaproteobacteria that commonly inhabit plant-associated and aquatic microbial communities. Although Caulobacter is widespread and has long served as a model for the study of bacterial cell biology, our understanding of the diversity of viruses that infect Caulobacter species is limited. Here, we describe the discovery and characterization of Circe, a freshwater N4-like podophage belonging to the Schitoviridae family that infects C. crescentus . We isolated two variants, CirceC and CirceH, that differ by a single nucleotide resulting in an F91I substitution in Gp063, an uncharacterized protein found in diverse bacteriophages and bacteria. While both Circe variants adsorb to C. crescentus with similar efficiency, they produce morphologically distinct plaques and display different infection dynamics. Through forward genetic selection and genome-wide transposon fitness profiling, we identified C. crescentus genes involved in cell envelope assembly, membrane sphingolipid biosynthesis, and envelope polysaccharide biosynthesis that influence susceptibility to Circe infection. Loss-of-function mutations in a predicted nucleoside diphosphate sugar epimerase and multiple genes required for smooth lipopolysaccharide (S-LPS) biosynthesis and export conferred strong resistance to infection. These results support a model in which S-LPS functions as a receptor for phage Circe. Our study expands the known repertoire of Caulobacter phages and adds to a growing understanding of the role of envelope polysaccharides in bacterial infection by N4-family phages.