Covalent Modifications of Histone H3K9 Promote Binding of CHD3 | Zendy

Adam H. Tencer | Zendy; Khan L. Cox | Zendy; Di Luo | Zendy; Joseph B. Bridgers | Zendy; Jie Lyu | Zendy; Xiaodong Wang | Zendy; Jennifer K. Sims | Zendy; Tyler Weaver | Zendy; Hillary F. Allen | Zendy; Yi Zhang | Zendy; Jovylyn Gatchalian | Zendy; Michael A. Darcy | Zendy; Matthew D. Gibson | Zendy; Jinzen Ikebe | Zendy; Wei Li | Zendy; Paul A. Wade | Zendy; Jeffrey J. Hayes | Zendy; Brian D. Strahl | Zendy; Hidetoshi Kono | Zendy; Michael G. Poirier | Zendy; Catherine A. Musselman | Zendy; Tatiana G. Kutateladze | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

Covalent Modifications of Histone H3K9 Promote Binding of CHD3

Author(s) -

Adam H. Tencer,

Khan L. Cox,

Di Luo,

Joseph B. Bridgers,

Jie Lyu,

Xiaodong Wang,

Jennifer K. Sims,

Tyler Weaver,

Hillary F. Allen,

Yi Zhang,

Jovylyn Gatchalian,

Michael A. Darcy,

Matthew D. Gibson,

Jinzen Ikebe,

Wei Li,

Paul A. Wade,

Jeffrey J. Hayes,

Brian D. Strahl,

Hidetoshi Kono,

Michael G. Poirier,

Catherine A. Musselman,

Tatiana G. Kutateladze

Publication year - 2017

Publication title -

cell reports

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.264

H-Index - 154

eISSN - 2639-1856

pISSN - 2211-1247

DOI - 10.1016/j.celrep.2017.09.054

Subject(s) - chromodomain , heterochromatin protein 1 , nucleosome , chromatin remodeling , microbiology and biotechnology , histone , acetylation , chromatin , biology , histone h3 , bromodomain , chemistry , genetics , heterochromatin , helicase , dna , gene , rna

Chromatin remodeling is required for genome function and is facilitated by ATP-dependent complexes, such as nucleosome remodeling and deacetylase (NuRD). Among its core components is the chromodomain helicase DNA binding protein 3 (CHD3) whose functional significance is not well established. Here, we show that CHD3 co-localizes with the other NuRD subunits, including HDAC1, near the H3K9ac-enriched promoters of the NuRD target genes. The tandem PHD fingers of CHD3 bind histone H3 tails and posttranslational modifications that increase hydrophobicity of H3K9-methylation or acetylation (H3K9me3 or H3K9ac)-enhance this interaction. Binding of CHD3 PHDs promotes H3K9 C me3-nucleosome unwrapping in vitro and perturbs the pericentric heterochromatin structure in vivo. Methylation or acetylation of H3K9 uniquely alleviates the intra-nucleosomal interaction of histone H3 tails, increasing H3K9 accessibility. Collectively, our data suggest that the targeting of covalently modified H3K9 by CHD3 might be essential in diverse functions of NuRD.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research