Haidi Zhang scite author profile

Dicer is a multidomain ribonuclease that processes double-stranded RNAs (dsRNAs) to 21 nt small interfering RNAs (siRNAs) during RNA interference, and excises microRNAs from precursor hairpins. Dicer contains two domains related to the bacterial dsRNA-specific endonuclease, RNase III, which is known to function as a homodimer. Based on an X-ray structure of the Aquifex aeolicus RNase III, models of the enzyme interaction with dsRNA, and its cleavage at two composite catalytic centers, have been proposed. We have generated mutations in human Dicer and Escherichia coli RNase III residues implicated in the catalysis, and studied their effect on RNA processing. Our results indicate that both enzymes have only one processing center, containing two RNA cleavage sites and generating products with 2 nt 3' overhangs. Based on these and other data, we propose that Dicer functions through intramolecular dimerization of its two RNase III domains, assisted by the flanking RNA binding domains, PAZ and dsRBD.

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TRBP, a regulator of cellular PKR and HIV‐1 virus expression, interacts with Dicer and functions in RNA silencing

Haase

et al. 2005

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Dicer is a key enzyme involved in RNA interference (RNAi) and microRNA (miRNA) pathways. It is required for biogenesis of miRNAs and small interfering RNAs (siRNAs), and also has a role in the effector steps of RNA silencing. Apart from Argonautes, no proteins are known to associate with Dicer in mammalian cells. In this work, we describe the identification of TRBP (human immunodeficiency virus (HIV-1) transactivating response (TAR) RNA-binding protein) as a protein partner of human Dicer. We show that TRBP is required for optimal RNA silencing mediated by siRNAs and endogenous miRNAs, and that it facilitates cleavage of pre-miRNA in vitro. TRBP had previously been assigned several functions, including inhibition of the interferon-induced double-stranded RNA-regulated protein kinase PKR and modulation of HIV-1 gene expression by association with TAR. The TRBP-Dicer interaction shown raises interesting questions about the potential interplay between RNAi and interferon-PKR pathways.

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Specific interference with gene expression induced by long, double-stranded RNA in mouse embryonal teratocarcinoma cell lines

Billy

Brondani

Zhang

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

365

223

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Characterization of the interactions between mammalian PAZ PIWI domain proteins and Dicer

et al. 2004

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PAZ PIWI domain (PPD) proteins, together with the RNA cleavage products of Dicer, form ribonucleoprotein complexes called RNA-induced silencing complexes (RISCs). RISCs mediate gene silencing through targeted messenger RNA cleavage and translational suppression. The PAZ domains of PPD and Dicer proteins were originally thought to mediate binding between PPD proteins and Dicer, although no evidence exists to support this theory. Here we show that PAZ domains are not required for PPD protein-Dicer interactions. Rather, a subregion of the PIWI domain in PPD proteins, the PIWI-box, binds directly to the Dicer RNase III domain. Stable binding between PPD proteins and Dicer was dependent on the activity of Hsp90. Unexpectedly, binding of PPD proteins to Dicer inhibits the RNase activity of this enzyme in vitro. Lastly, we show that PPD proteins and Dicer are present in soluble and membrane-associated fractions, indicating that interactions between these two types of proteins may occur in multiple compartments.

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Amelioration of collagen-induced arthritis by CD95 (Apo-1/Fas)-ligand gene transfer.

Zhang¹,

Yang²,

Horton³

et al. 1997

J. Clin. Invest.

187

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Haidi Zhang

Single Processing Center Models for Human Dicer and Bacterial RNase III

TRBP, a regulator of cellular PKR and HIV‐1 virus expression, interacts with Dicer and functions in RNA silencing

Specific interference with gene expression induced by long, double-stranded RNA in mouse embryonal teratocarcinoma cell lines

Characterization of the interactions between mammalian PAZ PIWI domain proteins and Dicer

Amelioration of collagen-induced arthritis by CD95 (Apo-1/Fas)-ligand gene transfer.

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