Structure
Volume 19, Issue 2, 9 February 2011, Pages 221-231
Journal home page for Structure

Article
Structure of the Rtt109-AcCoA/Vps75 Complex and Implications for Chaperone-Mediated Histone Acetylation

https://doi.org/10.1016/j.str.2010.12.012Get rights and content
Under an Elsevier user license
open archive

Summary

Yeast Rtt109 promotes nucleosome assembly and genome stability by acetylating K9, K27, and K56 of histone H3 through interaction with either of two distinct histone chaperones, Vps75 or Asf1. We report the crystal structure of an Rtt109-AcCoA/Vps75 complex revealing an elongated Vps75 homodimer bound to two globular Rtt109 molecules to form a symmetrical holoenzyme with a ∼12 Å diameter central hole. Vps75 and Rtt109 residues that mediate complex formation in the crystals are also important for Rtt109-Vps75 interaction and H3K9/K27 acetylation both in vitro and in yeast cells. The same Rtt109 residues do not participate in Asf1-mediated Rtt109 acetylation in vitro or H3K56 acetylation in yeast cells, demonstrating that Asf1 and Vps75 dictate Rtt109 substrate specificity through distinct mechanisms. These studies also suggest that Vps75 binding stimulates Rtt109 catalytic activity by appropriately presenting the H3-H4 substrate within the central cavity of the holoenzyme to promote H3K9/K27 acetylation of new histones before deposition.

Highlights

► Vps75 homodimer interacts with two Rtt109 monomers to form a 2:2 ring-like complex ► Vps75-mediated Rtt109 acetylation of H3K9 requires stable Rtt109-Vps75 interaction ► Vps75 and Asf1 histone chaperones mediate Rtt109 acetylation by distinct mechanism ► H3/H4 binds to the central cavity of the Rtt109-Vps75 ring-like complex

Cited by (0)

7

These authors contributed equally to this work