Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.5 (RNase)
 17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Micro RNAs (miRNAs) are approximately 22 nucleotide molecules that regulate gene expression post-transcriptionally and govern a wide range of physiological and developmental processes. Evidence now indicates that miRNAs can also coordinately down-regulate transcript levels for very large groups of genes in a tissue-specific manner, in addition to their ability to suppress protein translation. Here, we examine expression of specific miRNAs and Dicer ribonuclease that is required for miRNA biogenesis in mouse and rat lenses. Northern blot analysis demonstrated lens expression of brain-specific miR-124 and miR-7 in lenses, as well as miR-125b and let-7a. In addition, we provide evidence that muscle specific miR-1 is not present in lens. We detected Dicer transcripts in 21 day, 6 week, and 1 year mouse lenses and 15 day rat lens, and detected Dicer protein in adult lens protein samples. Immunohistochemical examination of late embryonic, post-natal, and adult rat lens sections identified expression of Dicer in differentiating fiber cells that undergo pronounced cell elongation in the lens interior and anterior epithelial cells. The present study provides evidence that miRNAs, which include brain-specific forms, and Dicer are expressed in mammalian lenses, indicating that fundamental aspects of miRNA biology are utilized by the lens during late embryonic and post-natal development and in adult lenses.
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PMID:miRNA and Dicer in the mammalian lens: expression of brain-specific miRNAs in the lens. 1639 94

The specialized ribonuclease Dicer initiates RNA interference by cleaving double-stranded RNA (dsRNA) substrates into small fragments about 25 nucleotides in length. In the crystal structure of an intact Dicer enzyme, the PAZ domain, a module that binds the end of dsRNA, is separated from the two catalytic ribonuclease III (RNase III) domains by a flat, positively charged surface. The 65 angstrom distance between the PAZ and RNase III domains matches the length spanned by 25 base pairs of RNA. Thus, Dicer itself is a molecular ruler that recognizes dsRNA and cleaves a specified distance from the helical end.
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PMID:Structural basis for double-stranded RNA processing by Dicer. 1641 May 17

Human Dicer protein contains two RNase III domains (RNase IIIa and RNase IIIb) which are involved in the production of short interfering RNAs (siRNAs). The C-terminal RNase III domain (RNase IIIb) of human Dicer was expressed, purified and crystallized by the sitting-drop vapour-diffusion method. The crystals belonged to space group C222(1), with unit-cell parameters a = 88.6, b = 199.7, c = 119.6 angstroms, and diffracted X-rays to 2.0 angstroms resolution. The asymmetric unit contained three molecules of the RNase IIIb and the solvent content was 67%.
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PMID:Crystallization and preliminary X-ray analysis of the C-terminal RNase III domain of human Dicer. 1658 96

The recently discovered microRNAs (miRNAs) are a large family of small regulatory RNAs that have been implicated in controlling diverse pathways in a variety of organisms (1, 2). For posttranscriptional gene silencing, one strand of the miRNA is used to guide components of the RNA interference machinery, including Argonaute 2, to messenger RNAs (mRNAs) with complementary sequences (3, 4). Thus, targeted mRNAs are either cleaved by the endonuclease Argonaute 2 (5, 6), or protein synthesis is blocked by an as yet uncharacterized mechanism (7, 8). Genes encoding miRNAs are transcribed as long primary miRNAs (pri-miRNAs) that are sequentially processed by components of the nucleus and cytoplasm to yield a mature, approx 22-nucleotide (nt)-long miRNA (9). Two members of the ribonuclease (RNase) III endonuclease protein family, Drosha and Dicer, have been implicated in this two-step processing (10-13). To further our understanding of miRNA biogenesis and function it will be essential to identify the protein complexes involved. We were interested in defining the proteins required for the initial nuclear processing of pri-miRNAs to the approx 60- to 70-nt stem-loop intermediates known as precursor miRNAs (pre-miRNAs) (9, 10). This led to our identification of a protein complex we termed Microprocessor, which is necessary and sufficient for processing pri-miRNA to premiRNAs (14). The Microprocessor complex comprises Drosha and the double-stranded RNAbinding protein DiGeorge syndrome critical region 8 gene (DGCR8), which is deleted in DiGeorge syndrome (15, 16). In this chapter, we detail the methods used for the biochemical isolation and identification of the Microprocessor complex from human cells. We include a protocol for the in vitro analysis of pri-miRNA processing activity of the purified Microprocessor complex.
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PMID:MicroRNA biogenesis: isolation and characterization of the microprocessor complex. 1695 65

RNA interference (RNAi) is an evolutionarily conserved gene-silencing pathway that is triggered by double-stranded RNA (dsRNA). Central to this pathway are two ribonucleases: Dicer, a multidomain RNase III family enzyme that initiates RNAi by generating small interfering RNAs (siRNAs), and Argonaute or Slicer, an RNase H signature enzyme that affects cleavage of mRNA. Previous studies in the early diverging protozoan Trypanosoma brucei have established a key role for Argonaute 1 in RNAi. However, the identity of Dicer has not been resolved. Here, we report the identification and functional characterization of a T. brucei Dicer-like enzyme (TbDcl1). Using genetic and biochemical approaches, we provide evidence that TbDcl1 is required for the generation of siRNA-size molecules and for RNAi. Whereas Dicer and Dicer-like proteins are endowed with two adjacent RNase III domains at the carboxyl terminus (RNase IIIa and RNase IIIb), the arrangement of these two domains is unusual in TbDcl1. RNase IIIa is close to the amino terminus, and RNase IIIb is located approximately in the center of the molecule. This domain organization is specific to trypanosomatids and further illustrates the variable structures of protozoan Dicer-like proteins as compared to fungal and metazoan Dicer.
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PMID:An unusual Dicer-like1 protein fuels the RNA interference pathway in Trypanosoma brucei. 1705 86

In mammalian cells, fragile X mental retardation protein (FMRP) has been reported to be part of a microRNA (miRNA)-containing effector ribonucleoprotien (RNP) complex believed to mediate translational control of specific mRNAs. Here, using recombinant proteins, we demonstrate that human FMRP can act as a miRNA acceptor protein for the ribonuclease Dicer and facilitate the assembly of miRNAs on specific target RNA sequences. The miRNA assembler property of FMRP was abrogated upon deletion of its single-stranded (ss) RNA binding K-homology domains. The requirement of FMRP for efficient RNA interference (RNAi) in vivo was unveiled by reporter gene silencing assays using various small RNA inducers, which also supports its involvement in an ss small interfering RNA (siRNA)-containing RNP (siRNP) effector complex in mammalian cells. Our results define a possible role for FMRP in RNA silencing and may provide further insight into the molecular defects in patients with the fragile X syndrome.
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PMID:Dicer-derived microRNAs are utilized by the fragile X mental retardation protein for assembly on target RNAs. 1705 66

Dicer is a specialized ribonuclease that processes double-stranded RNA (dsRNA) into small RNA fragments about 25 nucleotides in length during the initiation phase of RNA interference (RNAi). We previously determined the crystal structure of a Dicer enzyme from the diplomonad Giardia intestinalis and proposed a structural model for dsRNA processing. Here, we provide evidence that Dicer is composed of three structurally rigid regions connected by flexible hinges and propose that conformational flexibility facilitates dsRNA binding and processing. We also examine the role of the accessory domains found in Dicers of higher eukaryotes but absent in Giardia Dicer. Finally, we combine the structure of Dicer with published biochemical data to propose a model for the architecture of the RNA-induced silencing complex (RISC)-loading complex.
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PMID:Structure of Dicer and mechanistic implications for RNAi. 1738 Dec 83

The fission yeast centromeric repeats are transcribed and ultimately processed into small interfering RNAs (siRNAs) that are required for heterochromatin formation. siRNA generation requires dsRNA synthesis by the RNA-directed RNA polymerase complex (RDRC) and processing by the Dicer ribonuclease. Here we show that Dcr1, the fission yeast Dicer, is physically associated with RDRC. Dcr1 generates siRNAs in an ATP-dependent manner that requires its conserved N-terminal helicase domain. Furthermore, C-terminal truncations of Dcr1 that abolish its interaction with RDRC, but can generate siRNA in vitro, abolish siRNA generation and heterochromatic gene silencing in vivo. Finally, reconstitution experiments show that the association of Dcr1 with RDRC strongly stimulates the dsRNA synthesis activity of RDRC. Our results suggest that heterochromatic dsRNA synthesis and siRNA generation are physically coupled processes. This coupling has implications for cis-restriction of siRNA-mediated heterochromatin assembly and for mechanisms that give rise to siRNA strand polarity.
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PMID:Coupling of double-stranded RNA synthesis and siRNA generation in fission yeast RNAi. 1770 23

MicroRNA (miRNA) genes are transcribed into long primary transcripts (pri-miRNAs) that get processed into mature miRNAs of about 22 nt in length by two different ribonuclease (RNase) III enzymes, Drosha and Dicer. Various experimental protocols have been developed and modified for genetic and biochemical analyses for microRNA processing. Here we describe the methods for the analysis of pri-miRNA processing that is mediated by Drosha and its cofactor, DiGeorge Syndrome Critical Region Gene 8 (DGCR8).
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PMID:In vitro and in vivo assays for the activity of Drosha complex. 1772 Apr 80

Human Dicer contains two RNase III domains (RNase IIIa and RNase IIIb) that are responsible for the production of short interfering RNAs and microRNAs. These small RNAs induce gene silencing known as RNA interference. Here, we report the crystal structure of the C-terminal RNase III domain (RNase IIIb) of human Dicer at 2.0 A resolution. The structure revealed that the RNase IIIb domain can form a tightly associated homodimer, which is similar to the dimers of the bacterial RNase III domains and the two RNase III domains of Giardia Dicer. Biochemical analysis showed that the RNase IIIb homodimer can cleave double-stranded RNAs (dsRNAs), and generate short dsRNAs with 2 nt 3' overhang, which is characteristic of RNase III products. The RNase IIIb domain contained two magnesium ions per monomer around the active site. The distance between two Mg-1 ions is approximately 20.6 A, almost identical with those observed in bacterial RNase III enzymes and Giardia Dicer, while the locations of two Mg-2 ions were not conserved at all. We presume that Mg-1 ions act as catalysts for dsRNA cleavage, while Mg-2 ions are involved in RNA binding.
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PMID:Homodimeric structure and double-stranded RNA cleavage activity of the C-terminal RNase III domain of human dicer. 1792 Jun 23


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