5msm
Structure of the Dcc1-Ctf8-Ctf18C TrimerStructure of the Dcc1-Ctf8-Ctf18C Trimer
Structural highlights
FunctionDCC1_YEAST Component of the RFC-like complex CTF18-RFC which is required for efficient establishment of chromosome cohesion during S-phase and may load or unload POL30/PCNA. During a clamp loading circle, the RFC:clamp complex binds to DNA and the recognition of the double-stranded/single-stranded junction stimulates ATP hydrolysis by RFC. The complex presumably provides bipartite ATP sites in which one subunit supplies a catalytic site for hydrolysis of ATP bound to the neighboring subunit. Dissociation of RFC from the clamp leaves the clamp encircling DNA.[1] [2] Publication Abstract from PubMedReplication factor C complexes load and unload processivity clamps from DNA and are involved in multiple DNA replication and repair pathways. The RFCCtf18 variant complex is required for activation of the intra-S-phase checkpoint at stalled replication forks and aids the establishment of sister chromatid cohesion. Unlike other RFC complexes, RFCCtf18 contains two non-Rfc subunits, Dcc1 and Ctf8. Here, we present the crystal structure of the Dcc1-Ctf8 heterodimer bound to the C-terminus of Ctf18. We find that the C-terminus of Dcc1 contains three-winged helix domains, which bind to both ssDNA and dsDNA We further show that these domains are required for full recruitment of the complex to chromatin, and correct activation of the replication checkpoint. These findings provide the first structural data on a eukaryotic seven-subunit clamp loader and define a new biochemical activity for Dcc1. Structural studies of RFCCtf18 reveal a novel chromatin recruitment role for Dcc1.,Wade BO, Liu HW, Samora CP, Uhlmann F, Singleton MR EMBO Rep. 2017 Feb 10. pii: e201642825. doi: 10.15252/embr.201642825. PMID:28188145[3] From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine. References
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