Summary
The Polycomb repressive system is an essential chromatin-based regulator of gene expression. Despite being extensively studied, how its target genes are selected and whether its histone modifying activities are required for transcriptional repression remains controversial. Here, we directly test the requirement for PRC1 catalytic activity in Polycomb system function. We demonstrate that a mutation widely used to disrupt PRC1 catalysis is hypomorphic, complicating the interpretation of previous studies. To overcome this, we develop a new inducible mutation system in embryonic stem cells that completely ablates PRC1 catalytic activity, revealing that catalysis by PRC1 drives Polycomb chromatin domain formation and higher-order chromatin interactions. In the absence of catalysis, we uncover the primary DNA-based targeting determinants that direct Polycomb target site selection. Finally, we discover that Polycomb-mediated gene repression requires PRC1 catalytic activity. Together these discoveries provide compelling new evidence supporting a PRC1-initiated pathway for Polycomb system function in gene regulation.