Abstract
Drosophila nucleosome remodeling factor (NURF) is an ISWI-containing protein complex that facilitates nucleosome mobility and transcriptional activation in an ATP-dependent manner. Numerous studies have implicated histone acetylation in transcriptional activation. We investigated the relative contributions of these two chromatin modifications to transcription in vitro of a chromatinized adenovirus E4 minimal promoter that contains binding sites for the GAL4-VP16 activator. We found that NURF could remodel chromatin and stimulate transcription irrespective of the acetylation status of histones. In contrast, hyperacetylation of histones in the absence of NURF was unable to stimulate transcription, suggesting that NURF-dependent chromatin remodeling is an obligatory step in E4 promoter activation. When chromatin templates were first hyperacetylated and then incubated with NURF, significantly greater transcription stimulation was observed. The results suggest that changes in chromatin induced by acetylation of histones and the mobilization of nucleosomes by NURF combine synergistically to facilitate transcription. Experiments using single and multiple rounds of transcription indicate that these chromatin modifications stimulate transcription preinitiation as well as reinitiation.
Highlights
Drosophila nucleosome remodeling factor (NURF) is an ISWI-containing protein complex that facilitates nucleosome mobility and transcriptional activation in an ATP-dependent manner
We investigated the relative contributions of these two chromatin modifications to transcription in vitro of a chromatinized adenovirus E4 minimal promoter that contains binding sites for the GAL4-VP16 activator
This is followed by the assembly of preinitiation complexes with either a Drosophila soluble nuclear fraction that has little ATP-dependent chromatin remodeling activity [27, 80] or a purified transcription system consisting of native and recombinant Drosophila general transcription factors and RNA polymerase II
Summary
Vol 276, No 18, Issue of May 4, pp. 14773–14783, 2001 Printed in U.S.A. ATP-dependent Nucleosome Remodeling and Histone Hyperacetylation Synergistically Facilitate Transcription of Chromatin*. Drosophila nucleosome remodeling factor (NURF) is an ISWI-containing protein complex that facilitates nucleosome mobility and transcriptional activation in an ATP-dependent manner. Some arrays; histone-modifying enzymes that covalently alter specific residues of the histone tails; and ATP-dependent chromatin remodeling complexes that facilitate nucleosome mobility ATP-utilizing chromatin remodeling complexes can be classified into two main groups, containing either the SWI2/SNF2 or the related ISWI ATPases and their close relatives ISWI-containing complexes are smaller and are composed of 2–5 subunits Both types of chromatin remodelers use the free energy of ATP hydrolysis to increase nucleosome mobility by changing nucleosome conformation (19 –22). SWI2/SNF2- and ISWI-containing complexes isolated from yeast, flies, and mammals can assist the transcriptional activation of model chromatin templates in vitro (26 –32). No biochemical studies have examined the mechanistic relationship between histone hyperacetylation and ATP-de-
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