Gribun A, Cheung KL, Huen J, Ortega J, Houry WA

Rvb1 and Rvb2 are highly conserved proteins present in archaea and eukaryotes. These proteins are members of a large superfamily of ATPases associated with diverse cellular activities--the AAA(+) superfamily. The Rvbs have been found in multiprotein complexes that have wide ranges of functions, including DNA repair, transcription, chromatin remodeling, ribosomal ...

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RNA processing, and small nucleolar RNA accumulation. Here we show that yeast Rvb1 and Rvb2 form a heterohexameric ring structure rather than the double-hexameric ring structure proposed to be formed by the human proteins. The yeast Rvb1/2 complex has enhanced ATPase activity compared with the individual Rvb proteins; furthermore, the ATPase activity of the Rvb1/2 complex is further increased in the presence of double-stranded DNA with 5' or 3' overhangs. The yeast Rvb1/2 ring undergoes nucleotide-dependent conformational changes as observed by electron microscopy. In addition, consistent with a role for these proteins in chromatin remodeling and DNA repair, the yeast Rvb1/2 complex exhibits DNA helicase activity with a preference for unwinding in the 5'-to-3' direction. The individual Rvb proteins also exhibit helicase activity, albeit weaker than that of the Rvb1/2 complex. These results clearly establish the yeast Rvb1/2 complex as a heterohexameric ATP-dependent DNA helicase and highlight the possible roles played by the Rvb proteins within multiprotein complexes.

Date: Mar. 07, 2008

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