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Association of distinct yeast Not2 functional domains with components of Gcn5 histone acetylase and Ccr4 transcriptional regulatory complexes.
The TAFs in the HAT.
Histone acetylation and transcriptional regulatory mechanisms.
Differential gene regulation by selective association of transcriptional coactivators and bZIP DNA-binding domains.
Gene regulation. A paradigm for precision.
Coordinate regulation of yeast ribosomal protein genes is associated with targeted recruitment of Esa1 histone acetylase.
Gcn4 activator targets Gcn5 histone acetyltransferase to specific promoters independently of transcription.
JNK1 phosphorylation of Cdt1 inhibits recruitment of HBO1 histone acetylase and blocks replication licensing in response to stress.
TAF-Containing and TAF-independent forms of transcriptionally active TBP in vivo.
HBO1 histone acetylase activity is essential for DNA replication licensing and inhibited by Geminin.
HBO1 histone acetylase is a coactivator of the replication licensing factor Cdt1.
Targeted recruitment of Rpd3 histone deacetylase represses transcription by inhibiting recruitment of Swi/Snf, SAGA, and TATA binding protein.
The VP16 activation domain interacts with multiple transcriptional components as determined by protein-protein cross-linking in vivo.
SAGA and ATAC histone acetyl transferase complexes regulate distinct sets of genes and ATAC defines a class of p300-independent enhancers.
Preferential accessibility of the yeast his3 promoter is determined by a general property of the DNA sequence, not by specific elements.
Eaf3 regulates the global pattern of histone acetylation in Saccharomyces cerevisiae.