Centriole assembly requires both centriolar and pericentriolar material proteins.

Centrioles organize pericentriolar material to form centrosomes and also template the formation of cilia. Despite the importance of centrioles in dividing and differentiated cells, their assembly remains poorly understood at a molecular level. Here, we develop a fluorescence microscopy-based assay for centriole assembly in the 1-cell stage C. elegans embryo. We use this assay to characterize SAS-6, a centriolar protein that we identified based on its requirement for centrosome duplication. We show that SAS-6, a member of a conserved metazoan protein family, is specifically required for new centriole assembly, a result we confirm by electron microscopy. We further use the centriole assembly assay to examine the roles of three pericentriolar material proteins: SPD-5, the kinase aurora-A, and gamma-tubulin. Our results suggest that the pericentriolar material promotes daughter centriole formation by concentrating gamma-tubulin around the parent centriole. Thus, both centriolar and pericentriolar material proteins contribute to centriole assembly.