Structure of the human RAD17-RFC clamp loader and 9-1-1 checkpoint clamp bound to a dsDNA-ssDNA junction.

Abstract

The RAD9–RAD1–HUS1 (9–1–1) clamp forms one half of the DNA damage checkpoint system that signals the presence of substantial regions of single-stranded DNA arising from replication fork collapse or resection of DNA double strand breaks. Loaded at the 5′-recessed end of a dsDNA–ssDNA junction by the RAD17–RFC clamp loader complex, the phosphorylated C-terminal tail of the RAD9 subunit of 9–1–1 engages with the mediator scaffold TOPBP1 which in turn activates the ATR kinase, localised through the interaction of its constitutive partner ATRIP with RPA-coated ssDNA. Using cryogenic electron microscopy (cryoEM) we have determined the structure of a complex of the human RAD17–RFC clamp loader bound to human 9–1–1, engaged with a dsDNA–ssDNA junction. The structure answers the key questions of how RAD17 confers specificity for 9–1–1 over PCNA, and how the clamp loader specifically recognises the recessed 5′ DNA end and fixes the orientation of 9–1–1 on the ssDNA.