EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Emerging evidence suggests that microRNA, which are well-conserved, abundant and small regulatory RNA, may be involved in the pathogenesis of human cancers. We recently reported that expression of let-7 was frequently reduced in lung cancers, and that reduced let-7 expression was significantly associated with shorter patient survival. Two members of the double-stranded RNA-specific endonuclease family, Dicer and Drosha, convert precursor forms of microRNA into their mature forms using a stepwise process. In the present study, we examined expression levels of these genes in 67 non-small cell lung cancer cases, and found for the first time that Dicer expression levels were reduced in a fraction of lung cancers with a significant prognostic impact on the survival of surgically treated cases. It should be noted that multivariate COX regression analysis showed that the prognostic impact of Dicer (P=0.001) appears to be independent of disease stage (P=0.001), while logistic regression analysis demonstrated that the higher incidence of reduced Dicer expression in poorly differentiated tumors remained significant even after correction for other parameters (P=0.02). Given the fundamental and multiple biological roles of Dicer in various cellular processes, our results suggest the involvement of reduced Dicer expression in the development of lung cancers, thus warranting further investigations of the underlying mechanisms, which can be expected to enhance understanding of the molecular pathogenesis of this fatal cancer.
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PMID:Reduced expression of Dicer associated with poor prognosis in lung cancer patients. 1572 55

Rnt1p, the only known Saccharomyces cerevisiae RNase III double-stranded RNA endonuclease, plays important roles in the processing of precursors of ribosomal RNAs and small nuclear and nucleolar RNAs and in the surveillance of unspliced pre-mRNAs. Specificity of cleavage by Rnt1p relies on the presence of RNA tetraloop structures with the consensus sequence AGNN at the top of the target dsRNA. The sequences of 79 fungal RNase III substrates were inspected to identify additional conserved sequence elements or antideterminants that may contribute to Rnt1p recognition of the double-stranded RNA. Surprisingly, U-A sequences at the base pair adjacent to the conserved terminal tetraloop (closing base pair) were found to be absent from all but one inspected sequence. Analysis of chemically modified variants of the closing base pair showed that the presence of exocyclic groups in the major groove of purines 3' to the last nucleotide of the tetraloop inhibits Rnt1p cleavage without strongly inhibiting Rnt1p binding. We propose that these groups interfere with the recognition of the RNA substrate by the catalytic domain of Rnt1p. These results identify exocyclic groups of purines in the major groove downstream of the tetraloop as a major antideterminant in S. cerevisiae RNase III activity, and suggest a rationale for their apparent counter selection in RNA processing sites.
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PMID:A conserved major groove antideterminant for Saccharomyces cerevisiae RNase III recognition. 1576 45

MicroRNAs (miRNA) are a recently discovered family of short non-protein-coding RNAs that negatively regulate gene expression. Recent studies of miRNAs highlight a requirement for cell viability. Posttranscriptional silencing of target genes by miRNAs occurs either by targeting specific cleavage of homologous mRNAs, or by targeting specific inhibition of protein synthesis. We recently identified a multisubunit protein complex termed Microprocessor that is necessary and sufficient for processing miRNA precursor RNAs. Microprocessor contains Drosha, an RNase III endonuclease, and DGCR8, a gene deleted in DiGeorge syndrome. We consider recent findings that link miRNA perturbation to cancer.
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PMID:MicroRNA biogenesis and cancer. 1586 38

Double-stranded RNA (dsRNA)-specific endonucleases belonging to RNase III classes 3 and 2 process dsRNA precursors to small interfering RNA (siRNA) or microRNA, respectively, thereby initiating and amplifying RNA silencing-based antiviral defense and gene regulation in eukaryotic cells. However, we now provide evidence that a class 1 RNase III is involved in suppression of RNA silencing. The single-stranded RNA genome of sweet potato chlorotic stunt virus (SPCSV) encodes an RNase III (RNase3) homologous to putative class 1 RNase IIIs of unknown function in rice and Arabidopsis. We show that RNase3 has dsRNA-specific endonuclease activity that enhances the RNA-silencing suppression activity of another protein (p22) encoded by SPCSV. RNase3 and p22 coexpression reduced siRNA accumulation more efficiently than p22 alone in Nicotiana benthamiana leaves expressing a strong silencing inducer (i.e., dsRNA). RNase3 did not cause intracellular silencing suppression or reduce accumulation of siRNA in the absence of p22 or enhance silencing suppression activity of a protein encoded by a heterologous virus. No other known RNA virus encodes an RNase III or uses two independent proteins cooperatively for RNA silencing suppression.
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PMID:Viral class 1 RNase III involved in suppression of RNA silencing. 1589 Sep 61

microRNAs (miRNAs) are single-stranded, 21- to 23-nucleotide cellular RNAs that control the expression of cognate target genes. Primary miRNA (pri-miRNA) transcripts are transformed to mature miRNA by the successive actions of two RNase III endonucleases. Drosha converts pri-miRNA transcripts to precursor miRNA (pre-miRNA); Dicer, in turn, converts pre-miRNA to mature miRNA. Here, we show that normal processing of Drosophila pre-miRNAs by Dicer-1 requires the double-stranded RNA-binding domain (dsRBD) protein Loquacious (Loqs), a homolog of human TRBP, a protein first identified as binding the HIV trans-activator RNA (TAR). Efficient miRNA-directed silencing of a reporter transgene, complete repression of white by a dsRNA trigger, and silencing of the endogenous Stellate locus by Suppressor of Stellate, all require Loqs. In loqs(f00791) mutant ovaries, germ-line stem cells are not appropriately maintained. Loqs associates with Dcr-1, the Drosophila RNase III enzyme that processes pre-miRNA into mature miRNA. Thus, every known Drosophila RNase-III endonuclease is paired with a dsRBD protein that facilitates its function in small RNA biogenesis.
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PMID:Normal microRNA maturation and germ-line stem cell maintenance requires Loquacious, a double-stranded RNA-binding domain protein. 1591 70

Bacterial ribonuclease III (RNase III) can affect RNA structure and gene expression in either of two ways: as a processing enzyme that cleaves double-stranded (ds) RNA, or as a binding protein that binds but does not cleave dsRNA. We previously proposed a model of the catalytic complex of RNase III with dsRNA based on three crystal structures, including the endonuclease domain of RNase III with and without bound metal ions and a dsRNA binding protein complexed with dsRNA. We also reported a noncatalytic assembly observed in the crystal structure of an RNase III mutant, which binds but does not cleave dsRNA, complexed with dsRNA. We hypothesize that the RNase III*dsRNA complex can exist in two functional forms, a catalytic complex and a noncatalytic assembly, and that in between the two forms there may be intermediate states. Here, we present four crystal structures of RNase III complexed with dsRNA, representing possible intermediates.
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PMID:Intermediate states of ribonuclease III in complex with double-stranded RNA. 1621 75

RNA editing adds and deletes uridine nucleotides in many preedited mRNAs to create translatable mRNAs in the mitochondria of the parasite Trypanosoma brucei. Kinetoplastid RNA editing protein B3 (KREPB3, formerly TbMP61) is part of the multiprotein complex that catalyzes editing in T. brucei and contains an RNase III motif that suggests nuclease function. Repression of KREPB3 expression, either by RNA interference in procyclic forms (PFs) or by conditional inactivation of an ectopic KREPB3 allele in bloodstream forms (BFs) that lack both endogenous alleles, strongly inhibited growth and in vivo editing in PFs and completely blocked them in BFs. KREPB3 repression inhibited cleavage of insertion editing substrates but not deletion editing substrates in vitro, whereas the terminal uridylyl transferase, U-specific exoribonuclease, and ligase activities of editing were unaffected, and approximately 20S editosomes were retained. Expression of KREPB3 alleles with single amino acid mutations in the RNase III motif had similar consequences. These data indicate that KREPB3 is an RNA editing endonuclease that is specific for insertion sites and is accordingly renamed KREN2 (kinetoplastid RNA editing endonuclease 2).
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PMID:An essential RNase III insertion editing endonuclease in Trypanosoma brucei. 1626 44

RNA editing in Trypanosoma brucei inserts and deletes uridines in mitochondrial mRNAs by a series of enzymatic steps that are catalyzed by a multiprotein complex, the editosome. KREPB1 and two related editosome proteins KREPB2 and KREPB3 contain motifs that suggest endonuclease and RNA/protein interaction functions. Repression of KREPB1 expression in procyclic forms by RNAi inhibited growth, in vivo editing, and in vitro endoribonucleolytic cleavage of deletion substrates. However, cleavage of insertion substrates and the exoUase, TUTase, and ligase catalytic activities of editing were retained by 20S editosomes. Repression of expression of an ectopic KREPB1 allele in bloodstream forms lacking both endogenous alleles or exclusive expression of KREPB1 with point mutations in the putative RNase III catalytic domain also blocked growth, in vivo editing, and abolished cleavage of deletion substrates, without affecting the other editing steps. These data indicate that KREPB1 is an endoribonuclease that is specific for RNA editing deletion sites.
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PMID:A deletion site editing endonuclease in Trypanosoma brucei. 1628 22

Small RNA-mediated gene silencing (RNA silencing) has emerged as a major regulatory pathway in eukaryotes. Identification of the key factors involved in this pathway has been a subject of rigorous investigation in recent years. In humans, small RNAs are generated by Dicer and assembled into the effector complex known as RNA-induced silencing complex (RISC) by multiple factors including hAgo2, the mRNA-targeting endonuclease, and TRBP (HIV-1 TAR RNA-binding protein), a dsRNA-binding protein that interacts with both Dicer and hAgo2. Here we describe an additional dsRNA-binding protein known as PACT, which is significant in RNA silencing. PACT is associated with an approximately 500 kDa complex that contains Dicer, hAgo2, and TRBP. The interaction with Dicer involves the third dsRNA-binding domain (dsRBD) of PACT and the N-terminal region of Dicer containing the helicase motif. Like TRBP, PACT is not required for the pre-microRNA (miRNA) cleavage reaction step. However, the depletion of PACT strongly affects the accumulation of mature miRNA in vivo and moderately reduces the efficiency of small interfering RNA-induced RNA interference. Our study indicates that, unlike other RNase III type proteins, human Dicer may employ two different dsRBD-containing proteins that facilitate RISC assembly.
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PMID:The role of PACT in the RNA silencing pathway. 1642 7

Ribonuclease III (RNase III) represents a highly conserved family of double-stranded (ds) RNA-specific endoribonucleases, exemplified by bacterial RNase III and eukaryotic Rnt1p, Drosha and Dicer. Bacterial RNase III, containing an endonuclease domain followed by a dsRNA-binding domain, is the most extensively studied member of the family. It can affect RNA structure and gene expression in either of two ways: as a processing enzyme that cleaves dsRNA or as a binding protein that binds but does not cleave dsRNA. The available biochemical and structural data support the existence of two distinct forms of the RNase III-dsRNA complex which reflect the dual activities of the protein. The information revealed by the structures of bacterial RNase III provides insight into the mechanism of dsRNA processing by all members of the family.
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PMID:Structural basis for non-catalytic and catalytic activities of ribonuclease III. 1685 11

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