AbstractSeveral transcriptional regulators have been found to act as enzymes that acetylate histones. The targeted post-translational modification of histones within regulatory nucleoprotein complexes provides an attractive mechanism for controlling transcription within a chromatin environment
AbstractSpecific patterns of acetylation of the core histones are associated with specific structure...
Packaging the long and fragile genomes of eukaryotic species into nucleosomes is all well and good, ...
Histone acetylation and deacetylation play essential roles in modifying chromatin structure and regu...
AbstractSeveral transcriptional regulators have been found to act as enzymes that acetylate histones...
AbstractTranscriptional control at a number of promoters has been found to involve the highly select...
AbstractHistone acetyltransferases and deacetylases are involved in the regulation of gene transcrip...
AbstractCore histones can be modified by reversible, posttranslational acetylation of specific lysin...
Extensive studies in the past few years have begun to dem-onstrate that chromosome structure plays a...
Acetylation of histones within the chromatin context is a post-translational modification that can r...
Eukaryotic genes are regulated by a hierarchy of intricate controls that include modifications to ch...
Histones are subject to a variety of posttranslational modifications, the most studied being acetyla...
How post-translational histone modifications regulate DNA utilization constitutes one of the central...
AbstractHistone acetyltransferases and deacetylases are involved in the regulation of gene transcrip...
The enzyme-catalyzed acetylation of the N-terminal tail domains of core histones provides a rich pot...
Gene expression in eukaryotes is regulated by epigenetic mechanisms such as histone acetylation and ...
AbstractSpecific patterns of acetylation of the core histones are associated with specific structure...
Packaging the long and fragile genomes of eukaryotic species into nucleosomes is all well and good, ...
Histone acetylation and deacetylation play essential roles in modifying chromatin structure and regu...
AbstractSeveral transcriptional regulators have been found to act as enzymes that acetylate histones...
AbstractTranscriptional control at a number of promoters has been found to involve the highly select...
AbstractHistone acetyltransferases and deacetylases are involved in the regulation of gene transcrip...
AbstractCore histones can be modified by reversible, posttranslational acetylation of specific lysin...
Extensive studies in the past few years have begun to dem-onstrate that chromosome structure plays a...
Acetylation of histones within the chromatin context is a post-translational modification that can r...
Eukaryotic genes are regulated by a hierarchy of intricate controls that include modifications to ch...
Histones are subject to a variety of posttranslational modifications, the most studied being acetyla...
How post-translational histone modifications regulate DNA utilization constitutes one of the central...
AbstractHistone acetyltransferases and deacetylases are involved in the regulation of gene transcrip...
The enzyme-catalyzed acetylation of the N-terminal tail domains of core histones provides a rich pot...
Gene expression in eukaryotes is regulated by epigenetic mechanisms such as histone acetylation and ...
AbstractSpecific patterns of acetylation of the core histones are associated with specific structure...
Packaging the long and fragile genomes of eukaryotic species into nucleosomes is all well and good, ...
Histone acetylation and deacetylation play essential roles in modifying chromatin structure and regu...
DOI
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