Analysis of Human Histone H2AZ Deposition In Vivo Argues against Its Direct Role in Epigenetic Templating Mechanisms
- 1 July 2006
- journal article
- Published by Taylor & Francis in Molecular and Cellular Biology
- Vol. 26 (14) , 5325-5335
- https://doi.org/10.1128/mcb.00584-06
Abstract
Chromatin is considered to be a principal carrier of epigenetic information due to the ability of alternative chromatin states to persist through generations of cell divisions and to spread on DNA. Replacement histone variants are novel candidates for epigenetic marking of chromatin. We developed a novel approach to analyze the chromatin environment of nucleosomes containing a particular replacement histone. We applied it to human H2AZ, one of the most studied alternative histones. We find that neither H2AZ itself nor other features of the H2AZ-containing nucleosome spread to the neighboring nucleosomes in vivo, arguing against a role for H2AZ as a self-perpetuating epigenetic mark.Keywords
This publication has 43 references indexed in Scilit:
- Variant Histone H2A.Z Is Globally Localized to the Promoters of Inactive Yeast Genes and Regulates Nucleosome PositioningPLoS Biology, 2005
- H2A.Z Alters the Nucleosome Surface to Promote HP1α-Mediated Chromatin Fiber FoldingMolecular Cell, 2004
- Histone H3.1 and H3.3 Complexes Mediate Nucleosome Assembly Pathways Dependent or Independent of DNA SynthesisCell, 2004
- Inactivating Chromosomes: A macro Domain that Minimizes TranscriptionMolecular Cell, 2003
- Controlling the double helixNature, 2003
- Translating the Histone CodeScience, 2001
- Histone H2A.Z Is Widely but Nonrandomly Distributed in Chromosomes of Drosophila melanogasterJournal of Biological Chemistry, 2000
- The language of covalent histone modificationsNature, 2000
- Decoding the nucleosomeCell, 1993
- The histone core complex: an octamer assembled by two sets of protein-protein interactionsBiochemistry, 1978