EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The nucleotide sequence of the 5'-terminal oligonucleotides produced by pancreatic RNase digestion of bacteriophage T3 RNA polymerase (EC 2.7.7.6) transcripts of T3 DNA has been determined. The sequence determination is based upon a simple isolation procedure for the 5'-terminal oligonucleotides. This procedure involves treatment of pancreatic RNase digests of alpha 32P-labeled T3 RNA polymerase transcripts with bovine brain exoribonuclease to remove oligonucleotides with free 5'-hydroxyl termini and then chromatographing the products on hydroxylapatite to resolve the remaining oligonucleotides having 5'-phosphate termini. By application of standard two-dimensional separation and sequence techniques, the major 5'-end sequences deduced were pppGpGpGpApGpApGpApY(Y = pyrimidine nucleoside) and pppGpGpGpApGpApCp. In addition, the sequences of other minor 5'-terminal oligonucleotides observed on homochromatograms were also determined. The sequences of these 5'-oligonucleotides were pppGpGpGpApApCpY, pppGpGpGpApApUpY, pppGpGp(2-4 Gp, 2-3 ApGp)..., and pppGpGpGp.... These results demonstrate that T3 phage-induced RNA polymerase possesses a high degree of specificity in the initiation of RNA chains.
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PMID:Isolation and sequence determination of 5'-terminal oligonucleotide fragments of RNA transcripts synthesized by bacteriophage T3-induced RNA polymerase from T3 DNA. 693 43

The Escherichia coli ribonuclease II (RNase II) is an exonuclease involved in mRNA degradation that hydrolyses single-stranded polyribonucleotides processively in the 3' to 5' direction. Sequencing of a 2.2 kb MseI-RsaI fragment containing the rnb gene revealed an open reading frame of 1794 nucleotides that encodes a protein of 598 amino acid residues, whose calculated molecular mass is 67,583 Da. This value is in good agreement with that obtained by sodium dodecyl sulphate/polyacrylamide gel electrophoresis of polypeptides synthesized by expression with the T7 RNA polymerase/promoter system. This system was also used to confirm the correct orientation of rnb. Translation initiation was confirmed by rnb-lacZ fusions. The mRNA start site was determined by S1 nuclease mapping. Two E. coli mutants harbouring different rnb alleles deficient in RNase II activity were complemented with the expressed fragment carrying the rnb gene.
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PMID:DNA sequencing and expression of the gene rnb encoding Escherichia coli ribonuclease II. 849 96

Polyribonucleotide phosphorylase (PNPase) is one of the critical components of the E. coli RNA degradosome, which consists of both PNPase and endoribonuclease RNase E. The function of this complex is to control the rate of mRNA degradation. The PNPase possesses two enzymatic activities, namely 3'-5' processive exoribonuclease activity and 5'-3' RNA polymerase activity. In the present study, we used conventional chromatography to purify an E. coli protein that binds to a specific double-stranded DNA sequence. Microsequencing of the purified protein showed that this DNA-binding protein was PNPase. Our data further demonstrate that PNPase binds to DNA in a sequence-specific manner. These data suggest that PNPase may have previously unappreciated DNA-related functions in addition to its known role in mRNA degradation.
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PMID:Polyribonucleotide phosphorylase is a double-stranded DNA-binding protein. 950 33

Promoter escape can be rate-limiting for transcription by bacterial RNA polymerases and RNA polymerase II of higher eukaryotes. Formation of a productive elongation complex requires disengagement of RNA polymerase from promoter-bound eukaryotic transcription factors or bacterial sigma factors. RNA polymerase III (pol III) stably associates with the TFIIIB-DNA complex even in the absence of localized DNA unwinding associated with the open promoter complex. To explore the role that release of pol III from the TFIIIB-DNA complex plays in limiting the overall rate of transcription, we have examined the early steps of RNA synthesis. We find that, on average, only three rounds of abortive initiation precede the formation of each elongation complex and that nearly all pol III molecules escape the abortive initiation phase of transcription without significant pausing or arrest. However, when elongation is limited to 5 nucleotides, the intrinsic exoribonuclease activity of pol III cleaves 5-mer RNA at a rate considerably faster than product release or reinitiation. This cleavage also occurs in the normal process of forming a productive elongation complex. The possible role of nucleolytic retraction in disengaging pol III from TFIIIB is discussed.
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PMID:Abortive initiation by Saccharomyces cerevisiae RNA polymerase III. 1047 18

Polynucleotide phosphorylase (PNPase, polyribonucleotide nucleotidyltransferase, EC 2.7.7.8) is a multifunctional protein, with a 3'-5' processive exoribonuclease, a Pi exchange, an RNA polymerase and an autoregulatory activity. The interaction between this enzyme and the mRNA target is crucial for its activities. In the present study, we characterized the interaction of PNPase with its mRNA regulatory region and ssRNA, as well as with ssDNA and dsDNA by determining K(d). Our results indicate that PNPase has high affinity for its mRNA, ssRNA and for ssDNA (K(d) approximately 10-20 nM). However, this enzyme exhibits a lower affinity for dsDNA (K(d) approximately 200-1400 nM). Possible implications of these results on the molecular mechanisms by which PNPase is regulated and degrades mRNA are discussed.
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PMID:Polynucleotide phosphorylase binds to ssRNA with same affinity as to ssDNA. 1210 10

Replication of the giant RNA genome of severe acute respiratory syndrome (SARS) coronavirus (CoV) and synthesis of as many as eight subgenomic (sg) mRNAs are mediated by a viral replicase-transcriptase of outstanding complexity that includes an essential endoribonuclease activity. Here, we show that the CoV replicative machinery, unlike that of other RNA viruses, also uses an exoribonuclease (ExoN) activity, which is associated with nonstructural protein (nsp) 14. Bacterially expressed forms of SARS-CoV nsp14 were shown to act on both ssRNAs and dsRNAs in a 3'-->5' direction. The activity depended on residues that are conserved in the DEDD exonuclease superfamily. The protein did not hydrolyze DNA or ribose-2'-O-methylated RNA substrates and required divalent metal ions for activity. A range of 5'-labeled ssRNA substrates were processed to final products of approximately 8-12 nucleotides. When part of dsRNA or in the presence of nonlabeled dsRNA, the 5'-labeled RNA substrates were processed to significantly smaller products, indicating that binding to dsRNA in cis or trans modulates the exonucleolytic activity of nsp14. Characterization of human CoV 229E ExoN active-site mutants revealed severe defects in viral RNA synthesis, and no viable virus could be recovered. Besides strongly reduced genome replication, specific defects in sg RNA synthesis, such as aberrant sizes of specific sg RNAs and changes in the molar ratios between individual sg RNA species, were observed. Taken together, the study identifies an RNA virus ExoN activity that is involved in the synthesis of multiple RNAs from the exceptionally large genomic RNA templates of CoVs.
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PMID:Discovery of an RNA virus 3'->5' exoribonuclease that is critically involved in coronavirus RNA synthesis. 1654 95

The 5'-->3' exoribonucleases (XRNs) comprise a large family of conserved enzymes in eukaryotes with crucial functions in RNA metabolism and RNA interference. XRN2, or Rat1 in yeast, functions primarily in the nucleus and also has an important role in transcription termination by RNA polymerase II (refs 7-14). Rat1 exoribonuclease activity is stimulated by the protein Rai1 (refs 15, 16). Here we report the crystal structure at 2.2 A resolution of Schizosaccharomyces pombe Rat1 in complex with Rai1, as well as the structures of Rai1 and its murine homologue Dom3Z alone at 2.0 A resolution. The structures reveal the molecular mechanism for the activation of Rat1 by Rai1 and for the exclusive exoribonuclease activity of Rat1. Biochemical studies confirm these observations, and show that Rai1 allows Rat1 to degrade RNAs with stable secondary structure more effectively. There are large differences in the active site landscape of Rat1 compared to related and PIN (PilT N terminus) domain-containing nucleases. Unexpectedly, we identified a large pocket in Rai1 and Dom3Z that contains highly conserved residues, including three acidic side chains that coordinate a divalent cation. Mutagenesis and biochemical studies demonstrate that Rai1 possesses pyrophosphohydrolase activity towards 5' triphosphorylated RNA. Such an activity is important for messenger RNA degradation in bacteria, but this is, to our knowledge, the first demonstration of this activity in eukaryotes and suggests that Rai1/Dom3Z may have additional important functions in RNA metabolism.
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PMID:Structure and function of the 5'-->3' exoribonuclease Rat1 and its activating partner Rai1. 1919 60

Nidoviruses employ unique strategies to replicate and express their exceptionally large RNA genomes. The viruses use a variety of enzymes to synthesize, modify and process an extensive set of viral RNAs of both genome and subgenome length, including RNA polymerase, primase, helicase, ribose 2'-O and guanosine-N7 methyltransferases and several types of nuclease activities. In this review, the recent progress in the structural and functional characterization of nidovirus nuclease activities is discussed, focusing on a nidovirus-wide conserved uridylate-specific endoribonuclease, NendoU, and a 3'-to-5' exoribonuclease called ExoN. The latter enzyme is related to members of the DEDD exoribonuclease superfamily and conserved in all nidovirus families with genome sizes approaching 30 kilobases. Recent evidence implicates ExoN in reduced mutation rates during viral RNA replication and, possibly, superior fidelity of nidovirus replicases, leading to the suggestion that ExoN may be a key factor in the expansion of nidovirus genomes to sizes not seen in other RNA viruses.
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PMID:Nidovirus ribonucleases: Structures and functions in viral replication. 2142 22

For most protein coding genes, termination of transcription by RNA polymerase II is preceded by an endonucleolytic cleavage of the nascent transcript. The 3' product of this cleavage is rapidly degraded via the 5' exoribonuclease Rat1p which is thought to destabilize the RNA polymerase II complex. It is not clear whether RNA cleavage is sufficient to trigger nuclear RNA degradation and transcription termination or whether the fate of the RNA depends on additional elements. For most mRNAs, this cleavage is mediated by the cleavage and polyadenylation machinery, but it can also be mediated by Rnt1p. We show that Rnt1p cleavage of an mRNA is not sufficient to trigger nuclear degradation or transcription termination. Insertion of an Rnt1p target site into a reporter mRNA did not block transcription downstream of the cleavage site, but instead produced two unstable cleavage products, neither of which were stabilized by inactivation of Rat1p. In contrast, the 3' and 5' cleavage products were stabilized by the deletion of the cytoplasmic 5' exoribonuclease (Xrn1p) or by inactivation of the cytoplasmic RNA exosome. These data indicate that transcription termination and nuclear degradation is not the default fate of cleaved RNAs and that specific promoter and/or sequence elements are required to determine the fate of the cleavage products.
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PMID:Reporter mRNAs cleaved by Rnt1p are exported and degraded in the cytoplasm. 2182 55

In most eukaryotes, the generation of the 3' end and transcription termination are initiated by cleavage of the pre-mRNA upstream of the polyadenylation site. This cleavage initiates 5'-3' degradation of the 3' end cleavage product by the exoribonuclease Rat1p leading to the dissociation of the RNA polymerase II (RNAPII) complex. The Rat1p-dependent transcription termination was also shown to be initiated by a polyadenylation-independent cleavage performed by the double-stranded RNA-specific ribonuclease (RNase) III (Rnt1p) suggesting that the majority of transcription termination events are RNase dependent. Therefore, it became essential for future studies on transcription termination to carefully consider both the nature of the RNase-dependent RNA transcripts and the association pattern of the RNAPII with the transcriptional unit. Here, we present methods allowing the evaluation of the impact of yeast RNases on the 3' end formation and their contribution to transcription termination. Northern blot analysis of transcripts generated downstream of known genes in the absence of RNases identifies potential transcription termination sites while chromatin immunoprecipitation of RNAPII differentiates between termination- and transcription-independent processing events.
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PMID:Detection and characterization of transcription termination. 2211 2

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