Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Retroviral gene delivery systems for RNA polymerase II (RNA pol II)-based promoters have been developed and are widely used in gene transfer studies. In contrast, gene delivery systems with RNA pol III-based expression cassettes have not been studied comprehensively, although therapeutic applications (e.g., ribozymes, antisense, triplex RNA and RNA decoys) have been proposed. In this report, we describe retroviral vectors designed to optimize expression of short chimeric RNAs transcribed from a number of RNA pol III promoters. Our results show that all analysed RNA pol III expression cassettes (tRNA, U6, Ad VA1), regardless of orientation, do not transcribe efficiently when located between the retroviral long terminal repeats (LTRs). In contrast, high steady-state expression levels can be achieved by inserting the RNA pol III expression cassette into the U3 region of the LTR (double-copy design). Compared to human tRNA gene promoters (tRNA(Met), tRNA(Val)), the human small nuclear RNA U6 gene (U6) and the adenovirus virus-associated RNA 1 (Ad VA1) gene promoters yielded higher expression levels. The majority of the chimeric U6-derived transcripts were detected in the nuclear RNA fraction, and the VA1 and tRNA-driven transcripts were predominantly detected in the cytoplasmic compartments. This report is the first comparative study of RNA pol III-driven promoters expressing short chimeric transcripts leading to an optimized retroviral-vector design.
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PMID:Retroviral vectors designed for targeted expression of RNA polymerase III-driven transcripts: a comparative study. 866 73

Mouse neuroblastoma Neuro-2a cells were examined for the expression of pro-enkephalin mRNA, protein, and Met-enkephalin ([Met]-Enk) peptide. Reverse transcriptase/polymerase chain reaction (RT/PCR) and in situ hybridization demonstrated the presence of pro-enkephalin mRNA in these cells. Immunocytochemistry using an antibody which recognizes pro-enkephalin and high pressure liquid chromatography (HPLC) followed by radioimmunoassay indicated that pro-enkephalin was synthesized in these cells and processed to yield the bioactive pentapeptide, [Met]-Enk. Furthermore, release studies showed that the [Met]-Enk was secreted from these cells with high K+ stimulation. Using double labeling, in situ hybridization combined with immunocytochemistry, we demonstrated that prohormone convertase 2 (PC2) mRNA is colocalized with pro-enkephalin in the same Neuro-2a cells, suggesting that this enzyme may be responsible for processing this precursor. we also showed the presence of vasopressin mRNA and arginine-vasopressin peptide in these cells using in situ hybridization and immunocytochemistry, respectively. Thus, the Neuro-2a cells are a multiple neuropeptide-producing cell line and an excellent model for studying the mechanisms involved in the synthesis, intracellular targeting and processing of endogenous pro-enkephalin and pro-vasopressin, as well as other transfected neuropeptide precursors.
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PMID:The Neuro-2a neuroblastoma cell line expresses [Met]-enkephalin and vasopressin mRNA and peptide. 867 23

The elongation factor 1 alpha from the archaeon Sulfolobus solfataricus (SsEF-1 alpha) was expressed in Escherichia coli and purified. The SsEF-1 alpha gene was amplified by PCR and cloned in the Ndel site of the pT7-7 expression vector, under the control of the promoter of T7 RNA polymerase. Upon induction with isopropyl beta-D-thiogalactopyranoside, the recombinant SsEF-1 alpha (recSsEF-1 alpha) was purified from the E. coli S-100 extract by a two-step procedure. From 1 litre of cell culture, about 2 mg of purified recSsEF-1 alpha was obtained. The N-terminal sequence of the first 30 amino acid residues of recSsEF-1 alpha was identical with that translated from the nucleotide sequence of the corresponding gene, except for the initial residue, which in recSsEF-1 alpha was Ser instead of Met. The M(r) of recSsEF-1 alpha (determined by electrospray MS) was almost coincident with that of the naturally occurring SsEF-1 alpha (SsEF-1 alpha). The thermal-inactivation and thermophilicity profiles of SsEF-1 alpha and recSsEF-1 alpha were identical. Concerning the functional properties, recSsEF-1 alpha was able to support poly(Phe) synthesis in vitro, to bind GDP and GTP and to elicit an NaCl-dependent GTPase activity [Masullo, De Vendittis and Bocchini (1994) J. Biol. Chem. 269, 20376-20379] with the same efficiency as that displayed by SsEF-1 alpha.
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PMID:Expression in Escherichia coli of thermostable elongation factor 1 alpha from the archaeon Sulfolobus solfataricus. 886 95

An in vitro system reconstituted with highly purified RNA polymerase III, TFIIIC2, and TFIIIB has been used to identify two chromatographically distinct human RNA polymerase III transcription factors, TFIIIC1 and TFIIIC1', which are functionally equivalent to the previously defined TFIIIC1 (S. T. Yoshinaga, P. A. Boulanger, and A. J. Berk, Proc. Natl. Acad. Sci. USA 84:3585-3589, 1987). Interactions between TFIIIC2, TFIIIC1 (or TFIIIC1'), and the VA1 and tRNA1(Met) templates have been investigated by DNase I footprint analysis. Homogeneous TFIIIC2 alone shows only a weak footprint over the B-box region of the VA1 and tRNA1(Met) templates, whereas TFIIIC1 (or TFIIIC1') alone shows both a strong interaction over the downstream termination region and a very weak interaction near the A-box region. Importantly, when both factors are present simultaneously, TFIIIC1 (or TFIIIC1') dramatically enhances the level of TFIIIC2 binding and extends the footprint to a region that includes the A box. The downstream termination region is essential for this cooperative interaction between TFIIIC2 and TFIIIC1 (or TFIIIC1') on the VA1 and tRNA1(Met) templates and plays a role in the overall accuracy and efficiency of RNA polymerase III transcription.
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PMID:TFIIIC1 acts through a downstream region to stabilize TFIIIC2 binding to RNA polymerase III promoters. 894 39

The contribution of the ribose 2'-hydroxyls to RNA structure and function has been analyzed, but still remains controversial. In this work, we report the use of a mutant T7 RNA polymerase as a tool in RNA studies, applied to the aspartate and methionine tRNA aminoacylation systems from yeast. Our approach consists of determining the effect of substituting natural ribonucleotides by deoxyribonucleotides in RNA and, thereby, defining the subset of important 2'-hydroxyl groups. We show that deoxyribose-containing RNA can be folded in a global conformation similar to that of natural RNA. Melting curves of tRNAs, obtained by temperature-gradient gel electrophoresis, indicate that in deoxyribo-containing molecules, the thermal stability of the tertiary network drops down, whereas the stability of the secondary structure remains unaltered. Nuclease footprinting reveals a significant increase in the accessibility of both single- and double-stranded regions. As to the functionality of the deoxyribose-containing tRNAs, their in vitro aminoacylation efficiency indicates striking differential effects depending upon the nature of the substituted ribonucleotides. Strongest decrease in charging occurs for yeast initiator tRNA(Met) transcripts containing dG or dC residues and for yeast tRNA(Asp) transcripts with dU or dG. In the aspartate system, the decreased aminoacylation capacities can be correlated with the substitution of the ribose moieties of U11 and G27, disrupting two hydrogen bond contacts with the synthetase. Altogether, this suggests that specific 2'-hydroxyl groups in tRNAs can act as determinants specifying aminoacylation identity.
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PMID:Structure and aminoacylation capacities of tRNA transcripts containing deoxyribonucleotides. 925 48

The Xenopus laevis selenocysteine tRNA[Ser]Sec gene utilizes the TATA box binding protein (TBP) for its transcription in a manner more like TATA-dependent class II genes than TATA-less class III tRNA genes, even though this gene is transcribed by RNA polymerase III (Pol III). Addition of TBP increased in vitro transcription of the tRNA[Ser]Sec gene and a RNA polymerase II-(Pol II-) dependent template, while it decreased TATA-independent tRNA(Met) gene transcription, in a dose-dependent manner. Addition of wild-type TBP, truncated TBP containing the highly conserved COOH-terminal domain or a mutant TBP defective in TATA-independent Pol III transcription to TBP-depleted extracts restored tRNA[Ser]Sec transcription, while addition of a mutant TBP defective in Pol II transcription did not. These studies provide evidence that common surfaces of TBP may be used in transcription from TATA-dependent promoters of the tRNA[Ser]Sec gene and class II genes. Further, we show that distinct chromatographic fractions of TBP complexes are required for tRNA[Ser]Sec gene transcription and TATA-less class III gene transcription.
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PMID:Differential mode of TBP utilization in transcription of the tRNA[Ser]Sec gene and TATA-less class III genes. 932 46

The N terminal amino acid of nonstructural protein nsP4, the viral RNA polymerase, is a tyrosine in all sequenced alphaviruses; this is a destabilizing amino acid for the N-end rule pathway and results in rapid degradation of nsP4 produced in infected cells or in reticulocyte lysates. We have constructed 11 mutants of Sindbis virus bearing Phe, Ala, Thr, Cys, Leu, Met, Asn, Gln, Glu, Arg, or Pro at the N terminus of nsP4. Translation of RNAs in reticulocyte lysates showed that cleavage at the nsP3/nsP4 site occurred efficiently for all mutants except for Glu-nsP4, which was cleaved inefficiently, and Pro-nsP4, which was not detectably cleaved, and that Tyr, Cys, Leu, Arg, and Phe destabilized nsP4 but Ala, Met, Thr, Asn, Gln, and Glu stabilized nsP4 to various extents. The viability of the mutants was examined by transfection of chicken cells at 30 or 40 degrees C. The Phe-nsP4 mutant formed large plaques at both temperatures. The Met-nsP4 mutant was also viable but formed small plaques at 30 degrees C and minute plaques at 40 degrees C. The remaining mutants did not form plaques at either temperature. However, after prolonged incubation at 30 degrees C, all the mutants except Glu-nsP4 and Pro-nsP4 produced viable viruses. In the case of Cys-, Leu-, Asn-, Gln-, or Arg-nsP4, revertants that were indistinguishable in plaque phenotype from the wild-type virus arose by same-site reversion to Tyr, Trp, Phe, or His by a single nucleotide substitution in the original mutant codon. Viable viruses also arose from the Ala-, Leu-, Cys-, Thr-, Asn-, Gln-, and Arg-nsP4 mutants that retained the original mutations at the N terminus of nsP4, but these viruses formed smaller plaques than the wild-type virus and many were temperature sensitive. Our results indicate that only nsP4s bearing N-terminal Tyr, Phe, Trp, or His have wild-type or near-wild-type activity for RNA replication and that rapid degradation of nsP4 is not a prerequisite for its function. nsP4s bearing other N-terminal residues, with the exception of Met-nsP4, have only very low or negligible activity, so that no detectable infectious virus can be produced. However, suppressor mutations can arise that enable most such nsP4s to regain significant but still suboptimal activity.
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PMID:Requirement for an aromatic amino acid or histidine at the N terminus of Sindbis virus RNA polymerase. 949 91

A cDNA encoding for a sperm antigen, designated NZ-2, was cloned and sequenced from human testis cDNA-lambda gt11 expression library by using antibodies to human sperm surface antigens belonging to 14-18 kD molecular regions. These sperm antigens are involved in binding to zona pellucida of the human oocyte. Computer generated translation analysis of 963-bp cDNA yielded an open reading frame (ORF) of 163 amino acids (aa) with first ATG, Met start codon at nucleotide (nt) 335 and the stop codon TAA at nt 824. The NZ-2 cDNA has 335-bp 5' and 139-bp 3' noncoding regions. The translated protein has a calculated molecular weight of approximately 19 kD, and has two casein kinase II (CK-2) sites at aa 94-97 and 149-152, respectively. Extensive computer search in the GenBank, National Biomedical Research Foundation (NBRF), and Swiss database indicates it to be a novel protein, having 99.5% nt sequence similarity, except for the first 40-bp, only with the human bacterial artificial chromosome (BAC) containing cloned human sperm DNA, at position 76935-76009. The in vitro translated product of T3 RNA polymerase by using NZ-2 cDNA digested with XhoI yielded a protein band of approximately 20 kD, indicating it to be sense strand. The in vitro translated product of T7 RNA polymerase by using NZ-2 cDNA digested with NotI did not yield any protein band, indicating it to be antisense strand. The approximately 20 kD protein was recognized specifically by the antisperm IgG, not by the control IgG in the Western blot procedure. Neither antisperm IgG nor control IgG recognized any protein band in the in vitro translation products of the antisense strand. The human genomic DNAs from three different cells/tissues namely, sperm, kidney, and testis when cut by HindIII, and then hybridized with the NZ-2 cDNA probe in the Southern blot procedure, showed restriction fragment length polymorphism (RFLP). The recombinant human sperm NZ-2 antigen may find applications in the development of a contraceptive vaccine, and diagnosis and treatment of infertility in humans.
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PMID:Cloning and sequencing of cDNA encoding for a human sperm antigen involved in fertilization. 974 Mar 25

Identification of the RNA polymerase functional regions involved in interactions with promoter is a basis for understanding the mechanism of transcription initiation. We have used formaldehyde cross-linking to identify a region of Escherichia coli RNA polymerase beta' subunit contacting lacUV5 promoter in open complex. Treatment of open complex with formaldehyde results in cross-linking of beta' and sigma(70) subunits at positions -5 and -3 on the nontemplate strand of the promoter DNA. These cross-links reflect specific interactions between RNA polymerase and promoter established in open complex. The positions of formaldehyde cross-links in the beta' subunit were mapped to the N-terminal segment (Cys(198)-Met(237)), which is contiguous to the evolutionary conserved region B. The proximity of the beta' and sigma cross-links suggest that the N-terminal region of the beta' subunit, interacting with single-stranded promoter DNA, can cooperate with the sigma subunit in the process of open complex formation.
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PMID:Identification of RNA polymerase beta' subunit segment contacting the melted region of the lacUV5 promoter. 1065 63

The alphavirus RNA polymerase, nsP4, invariably has a Tyr residue at the N-terminus. Previously we reported that the N-terminal Tyr residue of nsP4 of Sindbis virus, the type species of the genus Alphavirus, can be substituted with Phe, Trp, or His without altering the wild-type phenotype in cultured cells but that other substitutions tested, except for Met, were lethal or quasilethal. Here we report the identification of two suppressor mutations in nsP4 (Glu-191 to Leu and Glu-315 to Gly, Val, or Lys) and one in nsP1 (Thr-349 to Lys) that allow nsP4 with nonaromatic amino acids at the N-terminus to function at 30 degrees C. The suppressor mutation at nsP4 Glu-315 occurred most frequently. All three suppressor mutations suppressed the effects of Ala, Arg, or Leu at the N-terminus of nsP4 with almost equal efficiency and thus the effect of the suppressing mutation is independent of the nsP4 N-terminal residue. Reconstructed mutants containing nsP1-T349K or nsP4-E315G combined with Ala-nsP4 had a defect in minus-strand RNA synthesis at 40 degrees C. A double mutant containing nsP4-Q191L combined with Ala-nsP4 was unstable and could not be tested for RNA synthesis because it reverted to temperature-independence too rapidly. Combinations of nsP1-T349K or nsP4-E315G with Leu, Arg, His, or any aromatic amino acid at the N-terminus of nsP4 also made the mutant viruses temperature sensitive. The results from this study and from a previous report on the shutoff of minus-strand RNA synthesis at 40 degrees C with the nsP1-A348T mutation in ts11 suggests that the N-terminus nsP4 interacts with nsP1 during initiation of minus-strand RNA synthesis.
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PMID:Suppressor mutations that allow sindbis virus RNA polymerase to function with nonaromatic amino acids at the N-terminus: evidence for interaction between nsP1 and nsP4 in minus-strand RNA synthesis. 1102 3


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