EC:3.1.26.3 - FACTA Search

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Query: EC:3.1.26.3 (RNase III)
1,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 5'-terminal sequences of Escherichia coli ribosomal RNA precursors (pre-rRNAs) synthesized in vivo were characterized by RNA oligonucleotide sequence analysis. The 60- to 170-nucleotide-long 5'-end-specific fragments were produced by RNase III treatment of 30S and 18S pre-rRNAs. Comparison of the RNA oligonucleotides of these fragments with known DNA sequences of the promoter regions of several ribosomal RNA operons allows us to determine the start points of transcription of each operon. We conclude that transcription of most (and perhaps all) rRNA operons is initiated in vivo at two tandem promoters, called P1 and P2, which have recently been identified by in vitro transcription studies of several groups. Depending on the transcription unit, the initiating nucleotide at P1 promoters is either ATP or GTP, whereas at P2 promoters it is either CTP or GTP.
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PMID:Initiation of Escherichia coli ribosomal RNA synthesis in vivo. 39 3

We reported earlier that the addition of double-stranded RNA and ATP increases the endonuclease activity more in an extract of Ehrlich ascites tumor cells which have been treated with an interferon preparation than in a comparable extract from control cells. We report here that the addition of double-stranded RNA to an extract from Ehrlich ascites tumor cells which have been treated with an interferon preparation [or with the interferon inducer poly(I)-poly(C)] promotes the phosphorylation by [gamma-32P]ATP of at least two proteins: P1 (molecular weight of 64,000) and P2 (molecular weight of 37,000). Double-stranded RNA also promotes the phosphorylation of at least one (i.e., P1) of these two proteins in an extract from cells which have not been treated with interferon, but the extent of phosphorylation is much smaller. Double-stranded RNA which has been degraded by RNase III, or DNA, does not promote the phosphorylation.
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PMID:Interferon, double-stranded RNA, and protein phosphorylation. 106 6

Transcription of the Caulobacter crescentus phage phi Cd1 genome requires both the host RNA polymerase and a phage-encoded, rifampicin-resistant RNA polymerase. Transcription of the early region of the phi Cd1 genome was examined in vitro with C. crescentus RNA polymerase. Four transcripts, A, B, C, and D, which ranged in size from 2.9 X 10(6) to 0.53 X 10(6) daltons, were synthesized in vitro by the holoenzyme. Transcript A appeared to be the major transcript since (a) it was the size of the entire 20% of the genome shown in vivo to code for the early phage mRNA, (b) it was one of the first transcripts synthesized at low enzyme-to-DNA molar ratios, and (c) it was synthesized in approximately 3 times the molar equivalent observed for the other transcripts. The A transcript initiated primarily with GTP although a portion was also labeled with ATP. The B, C, and D transcripts were present in equivalent molar ratios, were all smaller than transcript A, and were found to yield RNase III digestion products that were subsets of each other as well as of transcript A. Each of these transcripts proved to be a de novo transcript since (a) each could be pulse labeled during the initial 20 s of the reaction and (b) each transcript contained a triphosphate at its 5' terminus. Evidence is presented that suggests that the B and C transcripts initiate at or near the major A promoter but terminate at different termination or pause sites within the early region of the phage genome. Transcript D appears to initiate at a minor promoter within the terminally redundant region of the genome preceding the A promoter.
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PMID:In vitro transcription of the early region of Caulobacter phage phi Cd1 deoxyribonucleic acid by host RNA polymerase. 629 89

Bacteriophage lambda transcripts were synthesized in vitro using lambda b2 DNA and Escherichia coli RNA polymerase. RNA molecules initiating with ATP were labeled exclusively at the 5'-end by transcribing in the presence of [gamma-32P]ATP. They were analyzed by electrophoresis in 3.5% polyacrylamide, 7.5 M urea gels followed by autoradiography. The previously known 6 S rho-independent transcript and rho-dependent 9 S and 8 S transcripts were observed. A new rho-dependent 5 S transcript was also detected. The 5 S RNA was not the result of cleavage of larger RNAs by ribonuclease III. Analysis of partial ribonuclease T1 digestion products of isolated 5'-end-labeled transcripts showed that the 5 S RNA is synthesized from promoter pR, the promoter for the 9 S and 8 S RNA species. A similar analysis of transcripts labeled with 32P exclusively at the 3'-terminus by the post-transcriptional addition of a [32P]pCp moiety with T4 RNA ligase revealed the positions of guanosine nucleotides proximal to the 3'-hydroxyl end. This information, and inspection of the known DNA nucleotide sequence downstream from pr, allowed us to conclude that the 5 S RNA is a mixture of molecules 112 and 113 nucleotides long terminating in the middle of gene cro. The nucleotide sequence at the 3'-end of the 5 S RNA is similar to that of other rho-dependent transcripts and lacks the oligo(U) found at the terminus of rho-independent transcripts.
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PMID:Characterization of a rho-dependent termination site within the cro gene of bacteriophage lambda. 644 59

Dicer is a multi-domain RNase III-related endonuclease responsible for processing double-stranded RNA (dsRNA) to small interfering RNAs (siRNAs) during a process of RNA interference (RNAi). It also catalyses excision of the regulatory microRNAs from their precursors. In this work, we describe the purification and properties of a recombinant human Dicer. The protein cleaves dsRNAs into approximately 22 nucleotide siRNAs. Accumulation of processing intermediates of discrete sizes, and experiments performed with substrates containing modified ends, indicate that Dicer preferentially cleaves dsRNAs at their termini. Binding of the enzyme to the substrate can be uncoupled from the cleavage step by omitting Mg(2+) or performing the reaction at 4 degrees C. Activity of the recombinant Dicer, and of the endogenous protein present in mammalian cell extracts, is stimulated by limited proteolysis, and the proteolysed enzyme becomes active at 4 degrees C. Cleavage of dsRNA by purifed Dicer and the endogenous enzyme is ATP independent. Additional experiments suggest that if ATP participates in the Dicer reaction in mammalian cells, it might be involved in product release needed for the multiple turnover of the enzyme.
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PMID:Human Dicer preferentially cleaves dsRNAs at their termini without a requirement for ATP. 1241 5

RNA interference (RNAi) is a form of posttranscriptional gene silencing mediated by microRNA (miRNA) and small interfering RNA (siRNA). In Drosophila melanogaster, the RNase III enzymes Dicer-1 and Dicer-2 generate miRNA and siRNA, respectively. We describe the methods for the expression, purification, and analysis of recombinant Dicer-1 and Dicer-2 enzymes. Our studies demonstrate that Dicer-1 and Dicer-2 display different substrate specificities and ATP requirements.
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PMID:Expression, purification, and analysis of recombinant Drosophila Dicer-1 and Dicer-2 enzymes. 1836 75

Drosophila Dicer-2 generates small interfering RNAs (siRNAs) from long double-stranded RNA (dsRNA), whereas Dicer-1 produces microRNAs (miRNAs) from pre-miRNA. What makes the two Dicers specific for their biological substrates? We find that purified Dicer-2 can efficiently cleave pre-miRNA, but that inorganic phosphate and the Dicer-2 partner protein R2D2 inhibit pre-miRNA cleavage. Dicer-2 contains C-terminal RNase III domains that mediate RNA cleavage and an N-terminal helicase motif, whose function is unclear. We show that Dicer-2 is a dsRNA-stimulated ATPase that hydrolyzes ATP to ADP; ATP hydrolysis is required for Dicer-2 to process long dsRNA, but not pre-miRNA. Wild-type Dicer-2, but not a mutant defective in ATP hydrolysis, can generate siRNAs faster than it can dissociate from a long dsRNA substrate. We propose that the Dicer-2 helicase domain uses ATP to generate many siRNAs from a single molecule of dsRNA before dissociating from its substrate.
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PMID:Phosphate and R2D2 restrict the substrate specificity of Dicer-2, an ATP-driven ribonuclease. 2141 81

RNA interference is a eukaryotic regulatory mechanism by which small non-coding RNAs typically mediate specific silencing of their cognate genes. In Drosophila, the RNase III enzyme Dicer-2 (Dcr-2) is essential for biogenesis of endogenous small interfering RNAs (endo-siRNAs), which have been implicated in regulation of endogenous protein-coding genes. Although much is known about microRNA-based regulatory networks, the biological functions of endo-siRNAs in animals remain poorly understood. We performed gene expression profiling on Drosophila dcr-2 null mutant pupae to investigate transcriptional effects caused by a severe defect in endo-siRNA production, and found 306 up-regulated and 357 down-regulated genes with at least a twofold change in expression compared with the wild type. Most of these up-regulated and down-regulated genes were associated with energy metabolism and development, respectively. Importantly, mRNA sequences of 39% of the up-regulated genes were perfectly complementary to the sequences of previously reported endo-siRNAs, suggesting they may be direct targets of endo-siRNAs. We confirmed up-regulation of five selected genes matching endo-siRNAs and concomitant down-regulation of the corresponding endo-siRNAs in dcr-2 mutant pupae. Most of the potential endo-siRNA target genes were associated with energy metabolism, including the citric acid cycle and oxidative phosphorylation in mitochondria, implying that these are major metabolic processes directly affected by endo-siRNAs in Drosophila. Consistent with this finding, dcr-2 null mutant pupae had lower ATP content compared with controls, indicating that mitochondrial energy production is impaired in these mutants. Our data support a potential role for the endo-siRNA pathway in energy homeostasis through regulation of mitochondrial metabolism.
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PMID:Microarray analysis of Drosophila dicer-2 mutants reveals potential regulation of mitochondrial metabolism by endogenous siRNAs. 2296 61

We identified Mrpl44 in a search for mammalian proteins that contain RNase III domains. This protein was previously found in association with the mitochondrial ribosome of bovine liver extracts. However, the precise Mrpl44 localization had been unclear. Here, we show by immunofluorescence microscopy and subcellular fractionation that Mrpl44 is localized to the matrix of the mitochondria. We found that it can form multimers, and confirm that it is part of the large subunit of the mitochondrial ribosome. By manipulating its expression, we show that Mrpl44 may be important for regulating the expression of mtDNA-encoded genes. This was at the level of RNA expression and protein translation. This ultimately impacted ATP synthesis capability and respiratory capacity of cells. These findings indicate that Mrpl44 plays an important role in the regulation of the mitochondrial OXPHOS capacity.
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PMID:A Role for the Mitochondrial Protein Mrpl44 in Maintaining OXPHOS Capacity. 2622 31

Anoxygenic photosynthesis is an important pathway for Rhodobacter sphaeroides to produce ATP under oxygen-limiting conditions. The expression of its photosynthesis genes is tightly regulated at transcriptional and post-transcriptional levels in response to light and oxygen signals, to avoid photooxidative stress by the simultaneous presence of pigments, light and oxygen. The puf operon encodes pigment-binding proteins of the light-harvesting complex I (genes pufB and pufA), of the reaction center (genes pufL and pufM), a scaffold protein (gene pufX) and includes the gene for sRNA PcrX. Segmental differences in the stability of the pufBALMX-pcrX mRNA contribute to the stoichiometry of LHI to RC complexes. With asPcrL we identified the third sRNA and the first antisense RNA that is involved in balancing photosynthesis gene expression in R. sphaeroides. asPcrL influences the stability of the pufBALMX-pcrX mRNA but not of the pufBA mRNA and consequently the stoichiometry of photosynthetic complexes. By base pairing to the pufL region asPcrL promotes RNase III-dependent degradation of the pufBALMX-prcX mRNA. Since asPcrL is activated by the same protein regulators as the puf operon including PcrX it is part of an incoherent feed-forward loop that fine-tunes photosynthesis gene expression. [Figure: see text].
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PMID:Antisense RNA asPcrL regulates expression of photosynthesis genes in Rhodobacter sphaeroides by promoting RNase III-dependent turn-over of puf mRNA. 3325 5

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