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Abstract

Argonaute proteins participate in conferring all known functions of RNA-mediated gene silencing phenomena. However, prior to structural investigations of this evolutionarily conserved family of proteins, there was little information concerning their mechanisms of action. Here, we describe our crystallographic analysis of the PIWI domain of an archaeal Argonaute homolog, AfPiwi. Our structural analysis revealed that the Argonaute PIWI fold incorporates both an RNase-H-like catalytic domain and an anchor site for the obligatory 5' phosphate of the RNA guide strand. RNA-AfPiwi binding assays combined with crystallographic studies demonstrated that AfPiwi interacts with RNA via a conserved region centered on the carboxyl terminus of the protein, utilizing a novel metal-binding site. A model of the PIWI domain of Argonaute in complex with a small interfering RNA (siRNA)-like duplex is consistent with much of the existing biochemical and genetic data, explaining the specificity of the RNA-directed RNA endonuclease reaction and the importance of the 5' region of microRNAs (miRNAs) (the "seed") to nucleate target RNA recognition and provide high-affinity guide-target interactions.

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Argonaute2 is the catalytic engine of mammalian RNAi.

Jidong Liu, Michelle A Carmell, Fabiola V Rivas … (2004)

Gene silencing through RNA interference (RNAi) is carried out by RISC, the RNA-induced silencing complex. RISC contains two signature components, small interfering RNAs (siRNAs) and Argonaute family proteins. Here, we show that the multiple Argonaute proteins present in mammals are both biologically and biochemically distinct, with a single mammalian family member, Argonaute2, being responsible for messenger RNA cleavage activity. This protein is essential for mouse development, and cells lacking Argonaute2 are unable to mount an experimental response to siRNAs. Mutations within a cryptic ribonuclease H domain within Argonaute2, as identified by comparison with the structure of an archeal Argonaute protein, inactivate RISC. Thus, our evidence supports a model in which Argonaute contributes "Slicer" activity to RISC, providing the catalytic engine for RNAi.

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RNA interference is mediated by 21- and 22-nucleotide RNAs.

S. Elbashir (2001)

Double-stranded RNA (dsRNA) induces sequence-specific posttranscriptional gene silencing in many organisms by a process known as RNA interference (RNAi). Using a Drosophila in vitro system, we demonstrate that 21- and 22-nt RNA fragments are the sequence-specific mediators of RNAi. The short interfering RNAs (siRNAs) are generated by an RNase III-like processing reaction from long dsRNA. Chemically synthesized siRNA duplexes with overhanging 3' ends mediate efficient target RNA cleavage in the lysate, and the cleavage site is located near the center of the region spanned by the guiding siRNA. Furthermore, we provide evidence that the direction of dsRNA processing determines whether sense or antisense target RNA can be cleaved by the siRNA-protein complex.

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Specificity of microRNA target selection in translational repression.

John Doench, Phillip A Sharp (2004)

MicroRNAs (miRNAs) are a class of noncoding RNAs found in organisms as evolutionarily distant as plants and mammals, yet most of the mRNAs they regulate are unknown. Here we show that the ability of an miRNA to translationally repress a target mRNA is largely dictated by the free energy of binding of the first eight nucleotides in the 5' region of the miRNA. However, G:U wobble base-pairing in this region interferes with activity beyond that predicted on the basis of thermodynamic stability. Furthermore, an mRNA can be simultaneously repressed by more than one miRNA species. The level of repression achieved is dependent on both the amount of mRNA and the amount of available miRNA complexes. Thus, predicted miRNA:mRNA interactions must be viewed in the context of other potential interactions and cellular conditions.

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PubMed ID:: 17381279

DOI:: 10.1101/sqb.2006.71.029

ScienceOpen disciplines: Chemistry

Keywords: Archaeal Proteins,chemistry,genetics,metabolism,Archaeoglobus fulgidus,Binding Sites,Macromolecular Substances,Models, Biological,Models, Molecular,Nucleic Acid Conformation,Protein Structure, Tertiary,RNA Interference,RNA, Archaeal,RNA, Guide,RNA, Small Interfering,RNA-Induced Silencing Complex

Molecular mechanism of target RNA transcript recognition by Argonaute-guide complexes.

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Most cited references 30

Argonaute2 is the catalytic engine of mammalian RNAi.

RNA interference is mediated by 21- and 22-nucleotide RNAs.

Specificity of microRNA target selection in translational repression.

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