Distinct Differences in Chromatin Structure at Subtelomeric X and Y' Elements in Budding Yeast

A Ottaviani; A Yarragudi; Axel Imhof; B Pina; Claes M. Gustafsson; CM Azzalin; DE Gottschling; DF Eberl; EH Bresnick; EJ Louis; EJ Louis; EJ Louis; ES Chen; FE Pryde; G Fourel; G Kyrion; GC Yuan; JD Lieb; JJ Wyrick; L Valenzuela; M Grunstein; MA Mondoux; MA Vega-Palas; MJ Buck; ML Pardue; S Schoeftner; S Strahl-Bolsinger; WH Tham; X Zhu; Xuefeng Zhu; Z Zhang

Distinct Differences in Chromatin Structure at Subtelomeric X and Y' Elements in Budding Yeast

Authors: A Ottaviani
A Yarragudi
Axel Imhof
B Pina
Claes M. Gustafsson
CM Azzalin
DE Gottschling
DF Eberl
EH Bresnick
EJ Louis
EJ Louis
EJ Louis
ES Chen
FE Pryde
G Fourel
G Kyrion
GC Yuan
JD Lieb
JJ Wyrick
L Valenzuela
M Grunstein
MA Mondoux
MA Vega-Palas
MJ Buck
ML Pardue
S Schoeftner
S Strahl-Bolsinger
WH Tham
X Zhu
Xuefeng Zhu
Z Zhang
Publication date: 1 January 2009
Publisher: Public Library of Science
Doi

Abstract

In Saccharomyces cerevisiae, all ends of telomeric DNA contain telomeric repeats of (TG1–3), but the number and position of subtelomeric X and Y' repeat elements vary. Using chromatin immunoprecipitation and genome-wide analyses, we here demonstrate that the subtelomeric X and Y' elements have distinct structural and functional properties. Y' elements are transcriptionally active and highly enriched in nucleosomes, whereas X elements are repressed and devoid of nucleosomes. In contrast to X elements, the Y' elements also lack the classical hallmarks of heterochromatin, such as high Sir3 and Rap1 occupancy as well as low levels of histone H4 lysine 16 acetylation. Our analyses suggest that the presence of X and Y' elements govern chromatin structure and transcription activity at individual chromosome ends