The conserved Shugoshin (SGO) protein family has essential roles in mediating proper chromosome segregation from yeast to humans. SGO proteins have been implicated in diverse roles in and out of the nucleus; SGO activity inhibits incorrect spindle attachment in the kinetochore, regulates the spindle assembly checkpoint (SAC), and ensures centriole cohesion in the centrosome. These functions involve different microtubule scaffolding structures in the cell. In Caenorhabditis elegans, a species with holocentric chromosomes, SGO-1 is not required for cohesin protection or spindle attachment but appears important for licensing meiotic recombination. Here we provide the first functional evidence that in C. elegans, Shugoshin functions in yet another microtubule-based structure, the primary cilium. We identify the centrosomal and microtubule-regulating transforming acidic coiled-coil protein, TACC/TAC-1, which also localizes to the basal body, as a SGO-1 binding protein. Genetic analyses indicate that TAC-1 activity must be maintained below a threshold at the ciliary base for correct cilia function, and that SGO-1 likely participates in constraining TAC-1 to the basal body by influencing the function of the transition zone ‘ciliary gate’. This research expands our understanding of cellular functions of Shugoshin proteins and contributes to the growing examples of overlap between kinetochore, centrosome and cilia proteomes.