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Structure and nucleic-acid binding of the Drosophila Argonaute 2 PAZ domain

Andreas Lingel, Bernd Simon, Elisa Izaurralde () and Michael Sattler ()
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Andreas Lingel: European Molecular Biology Laboratory
Bernd Simon: European Molecular Biology Laboratory
Elisa Izaurralde: European Molecular Biology Laboratory
Michael Sattler: European Molecular Biology Laboratory

Nature, 2003, vol. 426, issue 6965, 465-469

Abstract: Abstract RNA interference is a conserved mechanism that regulates gene expression in response to the presence of double-stranded (ds)RNAs1,2. The RNase III-like enzyme Dicer first cleaves dsRNA into 21–23-nucleotide small interfering RNAs (siRNAs)3,4,5,6. In the effector step, the multimeric RNA-induced silencing complex (RISC) identifies messenger RNAs homologous to the siRNAs and promotes their degradation3,7. The Argonaute 2 protein (Ago2) is a critical component of RISC8,9. Both Argonaute and Dicer family proteins contain a common PAZ domain whose function is unknown10. Here we present the three-dimensional nuclear magnetic resonance structure of the Drosophila melanogaster Ago2 PAZ domain. This domain adopts a nucleic-acid-binding fold that is stabilized by conserved hydrophobic residues. The nucleic-acid-binding patch is located in a cleft between the surface of a central β-barrel and a conserved module comprising strands β3, β4 and helix α3. Because critical structural residues and the binding surface are conserved, we suggest that PAZ domains in all members of the Argonaute and Dicer families adopt a similar fold with nucleic-acid binding function, and that this plays an important part in gene silencing.

Date: 2003
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DOI: 10.1038/nature02123

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