Margaret E. Fairman-Williams scite author profile

Helicases of the superfamily (SF) 1 and 2 are involved in virtually all aspects of RNA and DNA metabolism. SF1 and SF2 helicases share a catalytic core with high structural similarity, but different enzymes even within each superfamily perform a wide spectrum of distinct functions on diverse substrates. To rationalize similarities and differences between these helicases, we outline a classification based on protein families that are characterized by typical sequence, structural and mechanistic features. This classification complements and extends existing SF1 and SF2 helicase categorizations and highlights major structural and functional themes for these proteins. We discuss recent data in the context of this unifying view of SF1 and SF2 helicases.

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Unwinding Initiation by the Viral RNA Helicase NPH-II

Fairman-Williams

Jankowsky

2012

Journal of Molecular Biology

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Viral RNA helicases of the NS3/NPH-II group unwind RNA duplexes by processive, directional translocation on one of the duplex strands. The translocation is preceded by a poorly understood unwinding initiation phase. For NPH-II from vaccinia virus, unwinding initiation is rate limiting for the overall unwinding reaction. To develop a mechanistic understanding of the unwinding initiation, we studied kinetic and thermodynamic aspects of this reaction phase for NPH-II in vitro, using biochemical and single molecule fluorescence approaches. Our data show that NPH-II functions as a monomer and that different stages of the ATP-hydrolysis cycle dictate distinct binding preferences of NPH-II for duplex vs. single stranded RNA. We further find that the NPH-II-RNA complex does not adopt a single but at least two distinct conformations in each of the analyzed stages of ATP hydrolysis. These conformations interconvert with rate constants that depend on the stage of the ATP hydrolysis cycle. Our data establish a basic mechanistic framework for unwinding initiation by NPH-II and suggest that the various stages of the ATP hydrolysis cycle do not induce single, stage-specific conformations in the NPH-II-RNA complex, but primarily control transitions between multiple states.

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An Introduction to RNA Helicases: Superfamilies, Families, and Major Themes

Jankowsky

Fairman-Williams

2010

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Viral DExH Proteins, the NS3/NPH-II Family

Fairman-Williams

Jankowsky

2010

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