Ralf Strohner scite author profile

Transcription by RNA polymerase I on nucleosomal templates requires binding of the transcription termination factor TTF‐I to a cognate site 160 bp upstream of the transcription start site. Binding of TTF‐I is accompanied by changes in the chromatin architecture which suggests that TTF‐I recruits a remodeling activity to the rDNA promoter. We have cloned a cDNA that encodes TIP5 (TTF‐I‐interacting protein 5), a 205 kDa protein that shares a number of important protein domains with WSTF (Williams syndrome transcription factor) and hAcf1/WCRF180, the largest subunits of human chromatin remodeling complexes hCHRAC and WCRF. TIP5 co‐localizes with the basal RNA polymerase I transcription factor UBF in the nucleolus and is associated with SNF2h. The cellular TIP5–SNF2h complex, termed NoRC (nucleolar remodeling complex), induces nucleosome sliding in an ATP‐ and histone H4 tail‐dependent fashion. The results suggest that NoRC is a novel nucleolar chromatin remodeling machine that may serve a role in the regulation of the rDNA locus.

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The DNA chaperone HMGB1 facilitates ACF/CHRAC-dependent nucleosome sliding

Bonaldi

Längst²,

Strohner³

et al. 2002

239

166

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Nucleosome remodelling complexes CHRAC and ACF contribute to chromatin dynamics by converting chemical energy into sliding of histone octamers on DNA. Their shared ATPase subunit ISWI binds DNA at the sites of entry into the nucleosome. A prevalent model assumes that DNA distortions catalysed by ISWI are converted into relocation of DNA relative to a histone octamer. HMGB1, one of the most abundant nuclear non-histone proteins, binds with preference to distorted DNA. We have now found that transient interaction of HMGB1 with nucleosomal linker DNA overlapping ISWI-binding sites enhances the ability of ACF to bind nucleosomal DNA and accelerates the sliding activity of limiting concentrations of remodelling factor. By contrast, an HMGB1 mutant with increased binding affinity was inhibitory. These observations are consistent with a role for HMGB1 as a DNA chaperone facilitating the rate-limiting DNA distortion during nucleosome remodelling.

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DNA sequence- and conformation-directed positioning of nucleosomes by chromatin-remodeling complexes

Rippe

Schrader

Riede

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

126

157

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Chromatin-remodeling complexes can translocate nucleosomes along the DNA in an ATP-coupled reaction. This process is an important regulator of all DNA-dependent processes because it determines whether certain DNA sequences are found in regions between nucleosomes with increased accessibility for other factors or wrapped around the histone octamer complex. In a comparison of seven different chromatin-remodeling machines (ACF, ISWI, Snf2H, Chd1, Mi-2, Brg1, and NURF), it is demonstrated that these complexes can read out DNA sequence features to establish specific nucleosome-positioning patterns. For one of the remodelers, ACF, we identified a 40-bp DNA sequence element that directs nucleosome positioning. Furthermore, we show that nucleosome positioning by the remodelers ACF and Chd1 is determined by a reduced affinity to the end product of the translocation reaction. The results suggest that the linkage of differential remodeling activities with the intrinsic binding preferences of nucleosomes can result in establishing distinct chromatin structures that depend on the DNA sequence and define the DNA accessibility for other protein factors.

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A fully synthetic human Fab antibody library based on fixed VH/VL framework pairings with favorable biophysical properties

Tiller

Schuster

Deppe

et al. 2013

mAbs

185

147

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Ralf Strohner

NoRC--a novel member of mammalian ISWI-containing chromatin remodeling machines

The DNA chaperone HMGB1 facilitates ACF/CHRAC-dependent nucleosome sliding

DNA sequence- and conformation-directed positioning of nucleosomes by chromatin-remodeling complexes

A fully synthetic human Fab antibody library based on fixed VH/VL framework pairings with favorable biophysical properties

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