Authors
Patrick A Grant, Laura Duggan, Jacques Côté, Shannon M Roberts, James E Brownell, Reyes Candau, Reiko Ohba, Tom Owen-Hughes, C David Allis, Fred Winston, Shelley L Berger, Jerry L Workman
Publication date
1997/7/1
Journal
Genes & development
Volume
11
Issue
13
Pages
1640-1650
Publisher
Cold Spring Harbor Lab
Description
The transcriptional adaptor protein Gcn5 has been identified as a nuclear histone acetyltransferase (HAT). Although recombinant yeast Gcn5 efficiently acetylates free histones, it fails to acetylate histones contained in nucleosomes, indicating that additional components are required for acetylation of chromosomal histones. We report here that Gcn5 functions as a catalytic subunit in two high-molecular-mass native HAT complexes, with apparent molecular masses of 0.8 and 1.8 megadalton (MD), respectively, which acetylate nucleosomal histones. Both the 0.8- and 1.8-MD Gcn5-containing complexes cofractionate with Ada2 and are lost in gcn5delta, ada2delta, or ada3delta yeast strains, illustrating that these HAT complexes are bona fide native Ada-transcriptional adaptor complexes. Importantly, the 1.8-MD adaptor/HAT complex also contains Spt gene products that are linked to TATA-binding protein (TBP …
Total citations
Scholar articles
PA Grant, L Duggan, J Côté, SM Roberts, JE Brownell… - Genes & development, 1997