Ryan T. Ranallo scite author profile

Actin-related proteins (Arps) and conventional actin are enigmatic components of many chromatin-remodeling enzyme complexes. The yeast INO80 ATP-dependent chromatin-remodeling complex contains stoichiometric amounts of Arp4, Arp5, Arp8, and actin. Here we have revealed functions of Arp5 and Arp8 by analysis of mutants. arp5 Delta and arp8 Delta mutants display an ino80 Delta phenotype. Purification of INO80 complexes from arp5 Delta and arp8 Delta cells shows that protein complexes remain intact but are compromised for INO80 ATPase activity, DNA binding, and nucleosome mobilization. The INO80 (arp8 Delta) complex is strikingly deficient, not only for the Arp8 subunit, but also for Arp4 and actin, suggesting an ordered assembly of Arps. Binding of Arp8 to the INO80 complex requires an N-terminal region of Ino80 adjacent to the conserved ATPase domain. GST-Arp8 binds preferentially to histones H3 and H4 in vitro, suggesting a histone chaperone function. These findings show direct involvement of Arps in the chromatin-remodeling process.

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Modulation of ATP-Dependent Chromatin-Remodeling Complexes by Inositol Polyphosphates

Shen

Xiao

Ranallo

et al. 2003

Science

314

268

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Eukaryotes use adenosine triphosphate (ATP)-dependent chromatin-remodeling complexes to regulate gene expression. Here, we show that inositol polyphosphates can modulate the activities of several chromatin-remodeling complexes in vitro. Inositol hexakisphosphate (IP6) inhibits nucleosome mobilization by NURF, ISW2, and INO80 complexes. In contrast, nucleosome mobilization by the yeast SWI/SNF complex is stimulated by inositol tetrakisphosphate (IP4) and inositol pentakisphosphate (IP5). We demonstrate that mutations in genes encoding inositol polyphosphate kinases that produce IP4, IP5, and IP6 impair transcription in vivo. These results provide a link between inositol polyphosphates, chromatin remodeling, and gene expression.

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Dual Functions of Largest NURF Subunit NURF301 in Nucleosome Sliding and Transcription Factor Interactions

et al. 2001

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NURF is an ISWI complex of four proteins that uses the energy of ATP hydrolysis to catalyze nucleosome sliding. Three NURF components have been identified previously. We have cloned cDNA encoding the largest NURF subunit, revealing a 301 kDa polypeptide (NURF301) that shares structural motifs with ACF1. We have reconstituted full and partial NURF complexes from recombinant proteins and show that NURF301 and the ISWI ATPase are necessary and sufficient for accurate and efficient nucleosome sliding. An HMGA/HMGI(Y)-like domain of NURF301 that facilitates nucleosome sliding indicates the importance of DNA conformational changes in the sliding mechanism. NURF301 also shows interactions with sequence-specific transcription factors, providing a basis for targeted recruitment of the NURF complex to specific genes.

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Ryan T. Ranallo

Involvement of Actin-Related Proteins in ATP-Dependent Chromatin Remodeling

Modulation of ATP-Dependent Chromatin-Remodeling Complexes by Inositol Polyphosphates

Dual Functions of Largest NURF Subunit NURF301 in Nucleosome Sliding and Transcription Factor Interactions

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