N. Kyle Tanner scite author profile

RNA helicases of the DEAD box and related DExD/H proteins form a very large superfamily of proteins conserved from bacteria and viruses to humans. They have seven to eight conserved motifs, the characteristics of which are used to subgroup members into individual families. They are associated with all processes involving RNA molecules, including transcription, editing, splicing, ribosome biogenesis, RNA export, translation, RNA turnover, and organelle gene expression. Analysis of the three-dimensional structures obtained through the crystallization of viral and cellular RNA helicases reveals a strong structural homology to DNA helicases. In this review, we discuss our current understanding of RNA helicases and their biological function.

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The newly discovered Q motif of DEAD-box RNA helicases regulates RNA-binding and helicase activity

Cordin

Tanner²,

Doère³

et al. 2004

EMBO J

166

200

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DEAD-box proteins are the most common RNA helicases, and they are associated with virtually all processes involving RNA. They have nine conserved motifs that are required for ATP and RNA binding, and for linking phosphoanhydride cleavage of ATP with helicase activity. The Q motif is the most recently identified conserved element, and it occurs B17 amino acids upstream of motif I. There is a highly conserved, but isolated, aromatic group B17 amino acids upstream of the Q motif. These two elements are involved in adenine recognition and in ATPase activity of DEAD-box proteins. We made extensive analyses of the Q motif and upstream aromatic residue in the yeast translation-initiation factor Ded1. We made site-specific mutations and tested them for viability in yeast. Moreover, we purified various mutant proteins and obtained the Michaelis-Menten parameters for the ATPase activities. We also measured RNA affinities and strand-displacement activities. We find that the Q motif not only regulates ATP binding and hydrolysis but also regulates the affinity of the protein for RNA substrates and ultimately the helicase activity.

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A three-dimensional model of hepatitis delta virus ribozyme based on biochemical and mutational analyses

et al. 1994

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The Q Motif

Tanner¹,

et al. 2003

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SF1 and SF2 helicases have structurally conserved cores containing seven to eight distinctive motifs and variable amino- and carboxyl-terminal flanking sequences. We have discovered a motif upstream of motif I that is unique to and characteristic of the DEAD box family of RNA helicases. It consists of a 9 amino acid sequence containing an invariant glutamine. A conserved phenylalanine occurs 17 aa further upstream. Sequence alignments, site-specific mutagenesis, and ATPase assays show that this motif and the upstream phenylalanine are highly conserved, that they are essential for viability in the yeast Saccharomyces cerevisiae, and that they control ATP binding and hydrolysis in the yeast translation-initiation factor eIF4A. These results are consistent with computer studies of the solved crystal structures.

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N. Kyle Tanner

The DEAD-box protein family of RNA helicases

DExD/H Box RNA Helicases

The newly discovered Q motif of DEAD-box RNA helicases regulates RNA-binding and helicase activity

A three-dimensional model of hepatitis delta virus ribozyme based on biochemical and mutational analyses

The Q Motif

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