Protein Displacement by DExH/D "RNA Helicases" Without Duplex Unwinding
- 30 April 2004
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 304 (5671) , 730-734
- https://doi.org/10.1126/science.1095596
Abstract
Members of the DExH/D superfamily of nucleic acid–activated nucleotide triphosphatases are essential for virtually all aspects of RNA metabolism, including pre–messenger RNA splicing, RNA interference, translation, and nucleocytoplasmic trafficking. Physiological substrates for these enzymes are thought to be regions of double-stranded RNA, because several DExH/D proteins catalyze strand separation in vitro. These “RNA helicases” can also disrupt RNA-protein interactions, but it is unclear whether this activity is coupled to duplex unwinding. Here we demonstrate that two unrelated DExH/D proteins catalyze protein displacement independently of duplex unwinding. Therefore, the essential functions of DExH/D proteins are not confined to RNA duplexes but can be exerted on a wide range of ribonucleoprotein substrates.Keywords
This publication has 26 references indexed in Scilit:
- How introns influence and enhance eukaryotic gene expressionTrends in Biochemical Sciences, 2003
- Messenger-RNA-binding proteins and the messages they carryNature Reviews Molecular Cell Biology, 2002
- The hepatitis C viral NS3 protein is a processive DNA helicase with cofactor enhanced RNA unwindingThe EMBO Journal, 2002
- Composition and Functional Characterization of the Yeast Spliceosomal Penta-snRNPMolecular Cell, 2002
- Direct Measurement of Single-Stranded DNA Translocation by PcrA Helicase Using the Fluorescent Base Analogue 2-AminopurineBiochemistry, 2001
- DExD/H Box RNA HelicasesMolecular Cell, 2001
- Active Disruption of an RNA-Protein Interaction by a DExH/D RNA HelicaseScience, 2001
- The Protein Family of RNA HelicasesCritical Reviews in Biochemistry and Molecular Biology, 1998
- Kinetics of the RNA−DNA Helicase Activity of Escherichia coli Transcription Termination Factor Rho. 2. Processivity, ATP Consumption, and RNA BindingBiochemistry, 1997
- Helicases and RNA unwinding in translationCurrent Opinion in Structural Biology, 1993