Histone tails and the H3 alpha N helix regulate nucleosome mobility and stability

Helder Ferreira; Joanna Somers; Ryan Webster; Andrew Flaus; Tom Owen-Hughes

doi:10.1128/MCB.02229-06

Histone tails and the H3 alpha N helix regulate nucleosome mobility and stability

Helder Ferreira, Joanna Somers, Ryan Webster, Andrew Flaus, Tom Owen-Hughes^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Nucleosomes fulfill the apparently conflicting roles of compacting DNA within eukaryotic genomes while permitting access to regulatory factors. Central to this is their ability to stably associate with DNA while retaining the ability to undergo rearrangements that increase access to the underlying DNA. Here, we have studied different aspects of nucleosome dynamics including nucleosome sliding, histone dimer exchange, and DNA wrapping within nucleosomes. We find that alterations to histone proteins, especially the histone tails and vicinity of the histone H3 alpha N helix, can affect these processes differently, suggesting that they are mechanistically distinct. This raises the possibility that modifications to histone proteins may provide a means of fine-tuning specific aspects of the dynamic properties of nucleosomes to the context in which they are located.

Original language	English
Pages (from-to)	4037-4048
Number of pages	12
Journal	Molecular and Cellular Biology
Volume	27
Issue number	11
DOIs	https://doi.org/10.1128/MCB.02229-06
Publication status	Published - Jun 2007

Keywords

BASE-PAIR RESOLUTION
SACCHAROMYCES-CEREVISIAE
CORE PARTICLE
LINKER DNA
POSTTRANSLATIONAL MODIFICATIONS
LYSINE-56 ACETYLATION
ANGSTROM RESOLUTION
TERMINAL TAILS
CHROMATIN
TRANSCRIPTION

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title = "Histone tails and the H3 alpha N helix regulate nucleosome mobility and stability",

abstract = "Nucleosomes fulfill the apparently conflicting roles of compacting DNA within eukaryotic genomes while permitting access to regulatory factors. Central to this is their ability to stably associate with DNA while retaining the ability to undergo rearrangements that increase access to the underlying DNA. Here, we have studied different aspects of nucleosome dynamics including nucleosome sliding, histone dimer exchange, and DNA wrapping within nucleosomes. We find that alterations to histone proteins, especially the histone tails and vicinity of the histone H3 alpha N helix, can affect these processes differently, suggesting that they are mechanistically distinct. This raises the possibility that modifications to histone proteins may provide a means of fine-tuning specific aspects of the dynamic properties of nucleosomes to the context in which they are located.",

keywords = "BASE-PAIR RESOLUTION, SACCHAROMYCES-CEREVISIAE, CORE PARTICLE, LINKER DNA, POSTTRANSLATIONAL MODIFICATIONS, LYSINE-56 ACETYLATION, ANGSTROM RESOLUTION, TERMINAL TAILS, CHROMATIN, TRANSCRIPTION",

author = "Helder Ferreira and Joanna Somers and Ryan Webster and Andrew Flaus and Tom Owen-Hughes",

year = "2007",

month = jun,

doi = "10.1128/MCB.02229-06",

language = "English",

volume = "27",

pages = "4037--4048",

journal = "Molecular and Cellular Biology",

issn = "0270-7306",

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TY - JOUR

T1 - Histone tails and the H3 alpha N helix regulate nucleosome mobility and stability

AU - Ferreira, Helder

AU - Somers, Joanna

AU - Webster, Ryan

AU - Flaus, Andrew

AU - Owen-Hughes, Tom

PY - 2007/6

Y1 - 2007/6

N2 - Nucleosomes fulfill the apparently conflicting roles of compacting DNA within eukaryotic genomes while permitting access to regulatory factors. Central to this is their ability to stably associate with DNA while retaining the ability to undergo rearrangements that increase access to the underlying DNA. Here, we have studied different aspects of nucleosome dynamics including nucleosome sliding, histone dimer exchange, and DNA wrapping within nucleosomes. We find that alterations to histone proteins, especially the histone tails and vicinity of the histone H3 alpha N helix, can affect these processes differently, suggesting that they are mechanistically distinct. This raises the possibility that modifications to histone proteins may provide a means of fine-tuning specific aspects of the dynamic properties of nucleosomes to the context in which they are located.

AB - Nucleosomes fulfill the apparently conflicting roles of compacting DNA within eukaryotic genomes while permitting access to regulatory factors. Central to this is their ability to stably associate with DNA while retaining the ability to undergo rearrangements that increase access to the underlying DNA. Here, we have studied different aspects of nucleosome dynamics including nucleosome sliding, histone dimer exchange, and DNA wrapping within nucleosomes. We find that alterations to histone proteins, especially the histone tails and vicinity of the histone H3 alpha N helix, can affect these processes differently, suggesting that they are mechanistically distinct. This raises the possibility that modifications to histone proteins may provide a means of fine-tuning specific aspects of the dynamic properties of nucleosomes to the context in which they are located.

KW - BASE-PAIR RESOLUTION

KW - SACCHAROMYCES-CEREVISIAE

KW - CORE PARTICLE

KW - LINKER DNA

KW - POSTTRANSLATIONAL MODIFICATIONS

KW - LYSINE-56 ACETYLATION

KW - ANGSTROM RESOLUTION

KW - TERMINAL TAILS

KW - CHROMATIN

KW - TRANSCRIPTION

UR - https://www.scopus.com/pages/publications/34347363106

U2 - 10.1128/MCB.02229-06

DO - 10.1128/MCB.02229-06

M3 - Article

SN - 0270-7306

VL - 27

SP - 4037

EP - 4048

JO - Molecular and Cellular Biology

JF - Molecular and Cellular Biology

IS - 11

ER -

Histone tails and the H3 alpha N helix regulate nucleosome mobility and stability

Abstract

Keywords

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