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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)

We showed previously that the human initiator tRNA gene, in the context of its own 5'- and 3'-flanking sequences, was not expressed in Saccharomyces cerevisiae. Here we show that switching its 5'-flanking sequence with that of a yeast arginine tRNA gene allows its functional expression in yeast cells. The human initiator tRNA coding sequence was either cloned downstream of the yeast arginine tRNA gene, with various lengths of intergenic spacer separating them, or linked directly to the 5'-flanking sequence of the yeast arginine tRNA coding sequence. The human initiator tRNA made in yeast cells can be aminoacylated with methionine, and it was clearly separated from the yeast initiator and elongator methionine tRNAs by RPC-5 column chromatography. It was also functional in yeast cells. Expression of the human initiator tRNA in transformants of a slow-growing mutant yeast strain, in which three of the four endogenous initiator tRNA genes had been inactivated by gene disruption, resulted in enhancement of the growth rate. The degree of growth rate enhancement correlated with the steady-state levels of human tRNA in the transformants. Besides providing a possible assay for in vivo function of mutant human initiator tRNAs, this work represents the only example of the functional expression of a vertebrate RNA polymerase III-transcribed gene in yeast cells.
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PMID:Expression and function of a human initiator tRNA gene in the yeast Saccharomyces cerevisiae. 220 92

The rpoA gene of Escherichia coli encodes the alpha subunit of the DNA-dependent RNA polymerase. Two mutant alleles, rpoA101 and rpoA112, both of which produce RNA polymerase with altered thermostability and reduced fidelity of transcription in vitro (Ishihama et al. (1980) J. Mol. Biol. 137, 137-150), have been analyzed in details. The mutations were found to be responsible for the temperature-sensitive growth by complementation test using a rpoA-expression plasmid. Each mutant allele was amplified from total cell DNA by PCR (polymerase chain reaction) and directly sequenced. Both the mutant rpoA genes were found to carry a single base transition which leads to a substitution of Cys for Arg at the position 191 (rpoA101) or 45 (rpoA112), respectively. Since the rpoA112 mutation causes the defect in RNA polymerase assembly (Kawakami & Ishihama (1980) Biochemistry 19, 3491-3495), the amino-terminal region of alpha including the position 45 was considered to play an important role in subunit assembly.
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PMID:Sequence analysis of two temperature-sensitive mutations in the alpha subunit gene (rpoA) of Escherichia coli RNA polymerase. 223 79

The 5' and 3' ends of the lux mRNA of Vibrio harveyi, which extends over 8 kilobases, have been mapped, and two new genes, luxG and luxH, were identified at the 3' end of the lux operon. Both S1 nuclease and primer extension mapping demonstrated that the start site for the lux mRNA was 26 bases before the initiation codon of the first gene, luxC. The promoter region contained a typical -10 but not a recognizable -35 consensus sequence. By using S1 nuclease mapping the mRNA was found to be induced in a cell density- and arginine-dependent manner. The DNA downstream of the five known V. harveyi lux genes, luxCDABE, was sequenced and found to contain coding regions for two new genes, designated luxG and luxH, followed by a classical rho-independent termination signal for RNA polymerase. luxG codes for a protein of 233 amino acids with a molecular weight of 26,108, and luxH codes for a protein of 230 amino acids with a molecular weight of 25,326. The termination signal is active in vivo as demonstrated by 3' S1 nuclease mapping, confirming that the two genes are part of the V. harveyi lux operon. Comparison of the luxG amino acid sequence with coding regions immediately downstream from luxE in other luminescent bacteria has demonstrated that this gene may be a common component of the luminescent systems in different marine bacteria.
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PMID:Delineation of the transcriptional boundaries of the lux operon of Vibrio harveyi demonstrates the presence of two new lux genes. 230 59

Our understanding of the mechanism of RNA biosynthesis in archaebacteria is limited, due in part to the inability of purified RNA polymerases to transcribe purified genes accurately in vitro. In the present study, we show that cell extracts of Methanococcus vannielii and Methanococcus thermolithotrophicus purified by gradient centrifugation synthesize a distinct transcript from templates harboring a cloned homologous tRNA(Val) and tRNA(Arg) gene. The in vitro transcripts initiate with GTP at the same sites as in Methanococcus cells. About 60% of the sequence of the in vitro RNA products was analyzed by dideoxyterminated primer extension and found to be identical with that of the precursors of tRNA(Val) and tRNA(Arg). This finding indicates that this RNA polymerase fraction both initiates and terminates transcription faithfully in vitro. After purification of a cell-free extract (S-100) of M. thermolithotrophicus by phosphocellulose chromatography, the endogenous RNA polymerase has lost its ability to transcribe the tRNA(Val) gene accurately. The activity directing specific expression of this template was reconstituted by the addition of a protein-fraction devoid of RNA polymerase activity. Thus, a transcription factor appears to be required for accurate cell-free expression of tRNA genes from M. vannielii.
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PMID:An archaebacterial cell-free transcription system. The expression of tRNA genes from Methanococcus vannielii is mediated by a transcription factor. 232 83

The effect of infusion of a methionine-free total parenteral nutrition solution for 7 d on ribonucleic acids in liver of rats were investigated. The control solution contained leucine, valine, isoleucine, lysine, phenylalanine, threonine, tryptophan, arginine, histidine, glycine, methionine, glucose and vitamins and minerals. Deprivation of a methionine is known to increase the activity of RNA polymerase I. Infusing the methionine-free solution resulted in the accumulation of RNA molecules larger than 28S in the liver nuclei and resulted in a higher rate of rRNA synthesis than in rats infused with the control solution. A methionine deficiency did not impede either the processing of 45S pre-rRNA or transport of 28S and 18S rRNA into cytoplasm. When rats were infused with the methionine-free solution for 7 d followed by the control solution for 2 d, the level of RNA in the nucleus as well as the rate of RNA polymerase I were similar to the levels in rats receiving the control solution for 9 d. There were no significant changes in the rate of DNA synthesis due to nutritional manipulations.
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PMID:Alteration in the ribonucleic acids in rat liver induced by a methionine-free total parenteral nutrition solution. 243 90

The genome of Schistosoma mansoni, a human blood fluke, contains a family of short repetitive DNA elements which we have named the SM alpha family. In this paper we report the sequences of two SM alpha family members which are derived from tandem arrangements and four family members which are dispersed copies. The two tandemly repeated copies are 331 and 335 bp, while the four dispersed copies range in size from 107 to 322 bp. Three dispersed copies are flanked by direct repeats and have AT-rich 3' ends. The tandem copies and one of the dispersed copies have regions of homology to RNA polymerase III promoters and arginine tRNA genes. In addition the repeated element is rearranged in two of the dispersed copies when compared with the other dispersed and two tandem copies. Localization studies show that SM alpha elements are distributed in the sex and autosomal chromosomes. These observations suggest that members of this family may have been dispersed throughout the genome via RNA intermediates.
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PMID:A retroposon-like short repetitive DNA element in the genome of the human blood fluke, Schistosoma mansoni. 247 36

We have dissected the protein and nucleic acid determinants that direct a group of transcriptional antiterminators to their specific target operons. These antiterminators, the N gene products of phages lambda, 21, and P22, function solely with their respective recognition sites, nut, to modify RNA polymerase to a termination-resistant form. We demonstrate that a unique hairpin sequence within each nut site, called boxB, confers genome specificity by interacting with a small amino-terminal domain of the cognate N protein. This interaction is dependent upon an arginine-rich subdomain, which is conserved not only among the N proteins but also in many RNA binding proteins from ribosomes and RNA virus capsids. Notably, this motif constitutes an essential domain of the HIV protein Tat whose function as a trans-activator requires a specific hairpin sequence.
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PMID:Sequence-specific recognition of RNA hairpins by bacteriophage antiterminators requires a conserved arginine-rich motif. 247 56

A new DNA-binding unit, composed of four amino acid residues and common in gene regulatory proteins, is proposed. The occurrences of the sequences Ser-Pro-X-X (SPXX) and Thr-Pro-X-X (TPXX) in gene regulatory proteins are compared with those in general proteins. These sequences are found more frequently in gene regulatory proteins including homoeotic gene products, segmentation gene products, steroid hormone receptors and certain oncogene products, than they are in DNA-binding proteins that are not directly involved in gene regulation, such as the core histones, or in general proteins. It is therefore suggested that these sequences contribute to DNA-binding in a manner important for gene regulation. Amino acid residues characteristic of the types of proteins are found as the variable residues X: basic residues, Lys and Arg, in histones, H1 and sea urchin spermatogenous H2B; Tyr in RNA polymerase II; and Ser, Thr, Ala, Leu and Pro in other gene regulatory proteins S(T)PXX sequences are located on either side of other DNA-recognizing units such as Zn fingers, helix-turn-helices, and cores of histones. The structure of a S(T)PXX sequence is presumed to be a beta-turn I stabilized by two hydrogen bonds, and its potential mode of DNA-binding is discussed.
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PMID:SPXX, a frequent sequence motif in gene regulatory proteins. 250 May 31

The construction of allele-specific suppressor mutations has enabled us to demonstrate that a sporulation-specific transcription unit in Bacillus subtilis, the spoIIG operon, is transcribed by a form of RNA polymerase associated with sigma A, the principal sigma factor in vegetative cells. The spoIIG operon encodes sporulation-specific factor sigma E, and its transcription is directed from a promoter that is activated about 1 hr after the onset of endospore formation. This promoter contains sequences that are similar to those found at the -10 and -35 regions of promoters that are used by sigma A-associated RNA polymerase, but these sigma A-like recognition sequences are separated by 22 base pairs rather than the typical 17 or 18 base pairs. We have found that substitution of an arginyl residue for the glutamyl residue at position 196 of sigma A (Glu-196----Arg) suppresses the deleterious effect of a thymidine-to-cytidine base substitution at position -11 in the spoIIG promoter. This suppression was allele-specific, since it did not suppress the effects of base substitutions in other positions in the spoIIG promoter or the effects of a thymidine-to-guanosine change at -11. These results support a model in which a form of RNA polymerase containing sigma A is utilized in an unusual manner to activate the transcription of the spoIIG operon well after the onset of endospore formation.
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PMID:Genetic evidence that RNA polymerase associated with sigma A factor uses a sporulation-specific promoter in Bacillus subtilis. 251 76

Temperature-sensitive (ts) mutants of Sindbis virus belonging to complementation group F, ts6, ts110, and ts118, are defective in RNA synthesis at the nonpermissive temperature. cDNA clones of these group F mutants, as well as of ts+ revertants, have been constructed. To assign the ts phenotype to a specific region in the viral genome, restriction fragments from the mutant cDNA clones were used to replace the corresponding regions of the full-length clone Toto1101 of Sindbis virus. These hybrid plasmids were transcribed in vitro by SP6 RNA polymerase to produce infectious transcripts, and the virus recovered was tested for temperature sensitivity. After the ts lesion of each mutant was mapped to a specific region of 400 to 800 nucleotides by this approach, this region of the cDNA clones of both the ts mutant and ts+ revertants was sequenced in order to determine the precise nucleotide change and amino acid substitution responsible for each mutation. Rescued mutants, which have a uniform background except for one or two defined changes, were examined for viral RNA synthesis and complementation to show that the phenotypes observed were the result of the mutations mapped. ts6 and ts110 had a single base substitution in nsP4, resulting in replacement of Gly by Glu at position 153 or position 324, respectively. It is of interest that nsP4 contains the Gly-Asp-Asp motif characteristic of a number of viral replicases, and this, together with the fact that all RNA synthesis in ts6-infected cells and, to a lesser extent, in ts110-infected cells shut off when the cells were shifted from a permissive to a nonpermissive temperature, suggests that nsP4 is the virus polymerase. ts118 was a double mutant. It contained a single base substitution in nsP2, resulting in replacement of Val by Ala at position 425 that resulted in the formation of minute plaques, but not in a reduction in the plaque number at the nonpermissive condition. The second change, a substitution of Gln by Arg in ts118 at residue 93 in nsP4, had little apparent phenotype on its own, but in combination with the change in nsP2 led to a ts phenotype. Thus, in each case the mutation responsible for the temperature sensitivity of the three known complementation group F mutants lay in nsP4. In addition, the result with ts118 suggests that nsP2 and nsP4 may interact with each other in a complex.
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PMID:Mapping of RNA- temperature-sensitive mutants of Sindbis virus: complementation group F mutants have lesions in nsP4. 252 74


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