EC:2.7.7.48 - FACTA Search

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

Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

(1) The RNA replicase induced by bacteriophage Qbeta consists of four non-identical subunits designated as alpha (mol. wt. 74000), beta (mol. wt. 64000), gamma (mol. wt. 47000) and delta (mol. wt. 33000), only one (subunit beta) of which is specified by the phage genome. (2) Subunit alpha (30 S ribosomal protein "S1" as well as translational interference factor "i") is required only for (+) strand-directed RNA synthesis in the presence of the host factor. (3) Qbeta replicase lacking subunit alpha (R-alpha) is capable of replicating templates other than (+) strand, such as (--), "6S" RNA, poly(C) etc., in the absence of the host factor. (4) Subunit beta is suggested to be the nucleotide-polymerizing enzyme, but is unable to initiate RNA synthesis by itself. (5) Subunits gamma and delta are identical to the protein synthesis elongation factors, EF-Tu and EF-Ts, respectively, and are required only for initiation of RNA synthesis, but not for elongation. (6) A model of Qbeta replicase is presented in order to discuss observed template-enzyme interactions.
...
PMID:Structure and function of RNA replicase of bacteriophage Qbeta. 5 11

Phage SP RNA-dependent RNA polymerase (SP replicase) was purified from Escherichia coli infected with RNA phage SP. The enzyme was found to be composed of four non-identical polypeptides, i.e. subunits I, II, III, and IV and molecular weights of 74,000, 69,000, 47,000, and 36,000 daltons, respectively. As in the case of phage Qbeta replicase, the largest polypeptide is identical with the ribosomal protein S1, and subunits III and IV with polypeptide chain elongation factors EF-Tu and EF-ts, respectively.. This is based on the behaviour of the subunits on SDS-polyacrylamide gel electrophoresis, isoelectric focusing and immunological cross-reaction. Subunits I, III, and IV of SP replicase are derived from the host cell, while subunit II is coded by phage RNA genome. The striking coincidence of the composition and entity of the structural components of SP replicase with those of Qbeta replicase may indicate the structural and functional requirements of host-derived polypeptides in RNA replicase. The binding activity of S1 (in 70S ribosome comples) to poly (U) is retained in SP replicase complex. In contrast, the GDP binding activity of EF-Tu is masked in SP replicase. It is concluded that S1 is required functionally whereas EF-Tu.EF-Ts are required structurally in RNA replicase.
...
PMID:Identification of host-derived subunits of phage SP RNA-dependent RNA polymerase (SP replicase). 36 4

The enzymes responsible for replication of the RNA of the single-stranded RNA bacteriophages contain, in addition to one phage-coded polypeptide, three host-coded polypeptides taken from the protein biosynthetic machinery: ribosomal protein S1 and the elongation factors Tu and Ts. While S1 performs a function in RNA replication derived from its protein synthetic function, mRNA binding, the reactions catalysed by the elongation factors in protein synthesis are apparently dispensible for RNA replication. In the replicase, these polypeptides, acting as the EF-Tu . Ts complex, play a fundamental structural role. Replacement of the endogenous EF-Tu with mutant EF-Tu, itself stable, causes the RNA replicase to become unstable. The possibility that EF-Tu . Ts is solely a structural protein in the RNA replicase is suggested by experiments showing that a variety of modifications of the elongation factors can be tolerated without loss of RNA synthetic capacity. In fact, EF-Tu . Ts from distantly related bacterial species can substitute for E. coli EF-Tu . Ts in RNA replicase. Evidence is presented that the high in vitro template specificity of Q beta replicase may be accomplished through modulation of the level of GTP required for initiation of transcription. Different natural and synthetic RNAs require quite different GTP concentrations. Mn2+ ions, which extend the range of templates transcribed by Q beta replicase, lower the requirement for GTP. High ionic strength, which alters the conformation of Q beta replicase such that template specificity is increased, raises the GTP requirement. An additional host coded protein required for in vitro Q beta RNA replication, host factor (HF), interacts specifically with Q beta RNA. This polypeptide acts by allowing Q beta replicase to initiate RNA synthesis with Q beta RNA at reduced GTP concentration.
...
PMID:Interaction of host-coded and virus-coded polypeptides in RNA phage replication. 610 96

Transcription of Q beta RNA replicase requires that the host-encoded Escherichia coli ribosomal protein S1 be present as a subunit of the replicase. To determine whether the activities of S1 in protein synthesis are operational in Q beta RNA transcription, we formed altered replicase enzymes by reconstituting replicase lacking S1 (R(-S1)) with modified S1 species whose properties in nucleic acid binding and protein synthesis had been previously established. S1 derivatized with N-ethylmaleimide reconstitutes a modified replicase that is 81% as active as replicase reconstituted with unmodified S1. S1 derivatized with N-ethylmaleimide and unmodified S1 bind with comparable affinity to R(-S1) (1 X 10(8) M-1). These results indicate that the helix-unwinding properties of S1, which are known to be inactivated by N-ethylmaleimide modification, are not required for Q beta RNA transcription and that the sulfhydryl-derivatized region of S1 is not utilized in replicase subunit contacts. In contrast with its established ability to replace E. coli S1 on the ribosome, Caulobacter crescentus S1 does not reconstitute Q beta RNA transcription activity when added to R(-S1). Our results suggest this inactivity may be due to poor binding to R(-S1).
...
PMID:Q beta replicase containing altered forms of ribosomal protein S1. 675 44

An RNA replicase of GA phage, one of the Group II RNA phages, was isolated and purified to a homogeneous state. By SDS polyacrylamide gel analysis, the purified GA replicase was found to contain four different subunits, numbered I, II, III, and IV, the molecular weights of which were 74,000, 60,000, 47,000, and 36,000, respectively. Three of them, I, III, and IV, proved to be host-coded proteins, ribosomal protein S1 (I), and elongation factors Tu (III) and Ts (IV) of protein biosynthesis, respectively. On a phosphocellulose column, the RNA replicase was separated into two components: One composed of subunits I and II, and the other composed of subunits III and IV. Each component alone had no replicase activity. However, when the two components were combined at 0 degree C, 60% of the replicase activity was restored within 10 min. The purified GA replicase catalyzed the GA phage RNA-directed synthesis of template-size RNA. However, the maximum level of product RNA synthesized was less than 20% of the amount of template RNA added. RNA-RNA hybridization experiments indicated that the product RNA included only the RNA strand complementary to the template RNA, and not the viral strand.
...
PMID:In vitro replication of bacteriophage GA RNA. Subunit structure and catalytic properties of GA replicase. 689 19

A conserved architectural feature of ribosomes is a protuberance (the stalk) in the large subunit, essential for ribosomal interactions with translational factors and GTP hydrolysis and generated by two dimers of L12, the only multicopy protein in ribosomes. In higher plants, the rpl12 gene for chloroplast L12 is located in the nucleus. We report here the cloning and sequencing of this nuclear gene from Arabidopsis thaliana, revealing the first gene family for a chloroplast ribosomal protein (RP). A single cluster/haploid genome of three rpl12 genes is located in the sequenced 9.1-kilobase region of the Arabidopsis genome. Two of the rpl12 genes encode identical mature proteins, and the third encodes a 25% divergent RP, although the chloroplast-targeting transit peptide in each is distinct. The rpl12 genes encoding identical RPs are closely linked at their 5' ends to identical cytosolic tRNA(Pro) genes with a < 250-base pair spacer. Reverse transcriptase polymerase chain reaction experiments with total RNA isolated from Arabidopsis (and characterization of several L12 cDNA clones) show that only the tRNA-linked rpl12 genes are expressed. We also show (by polymerase chain reaction experiments with isolated total DNA) that this tRNA(Pro)-rpl12 gene linkage is conserved in spinach (inferred to contain a single gene copy) indicating its importance. The previously described enhanced translation of spinach L12 mRNA from its two tandem AUG codons and the two functional rpl12 genes in Arabidopsis probably provide two mechanisms for generating the four copies of L12/chloroplast ribosome, qualitatively different from those attempted in eubacteria.
...
PMID:Multicopy GTPase center protein L12 of Arabidopsis chloroplast ribosome is encoded by a clustered nuclear gene family with the expressed members closely linked to tRNA(Pro) genes. 812 49

Enhanced phosphorylation of the ribosomal protein s6 kinase, p70(s6k), and the translational repressor, 4E-BP1, are associated with either insulin-induced or amino acid-induced protein synthesis. Hyperphosphorylation of p70(s6k) and 4E-BP1 in response to insulin or amino acids is mediated through the mammalian target of rapamycin (mTOR). In several cell lines, mTOR or its downstream targets can be regulated by phosphatidylinositol (PI) 3-kinase; protein kinases A, B, and C; heterotrimeric G-proteins; a PD98059-sensitive kinase or calcium; as well as by amino acids. Regulation by amino acids appears to involve detection of levels of charged t-RNA or t-RNA synthetase activity and is sensitive to inhibition by amino acid alcohols. In the present article, however, we show that the rapamycin-sensitive regulation of 4E-BP1 and p70(s6k) in freshly isolated rat adipocytes is not inhibited by either L-leucinol or L-histidinol. This finding is in agreement with other recent studies from our laboratory suggesting that the mechanism by which amino acids regulate mTOR in freshly isolated adipocytes may be different than the mechanism found in a number of cell lines. Therefore we investigated the possible role of growth factor-regulated and G-protein-regulated signaling pathways in the rapamycin-sensitive, amino acid alcohol-insensitive actions of amino acids on 4E-BP1 phosphorylation. We found, in contrast to previously published results using 3T3-L1 adipocytes or other cell lines, that the increase in 4E-BP1 phosphorylation promoted by amino acids was insensitive to agents that regulate protein kinase A, mobilize calcium, or inhibit protein kinase C. Furthermore, amino acid-induced 4E-BP1 phosphorylation was not blocked by pertussis toxin nor was it mimicked by the G-protein agonists fluoroaluminate or MAS-7. However, amino acids failed to activate either PI 3-kinase, protein kinase B, or mitogen-activated protein kinase and failed to promote tyrosine phosphorylation of cellular proteins, similar to observations made using cell lines. In summary, amino acids appear to use an amino acid alcohol-insensitive mechanism to regulate mTOR in freshly isolated adipocytes. This mechanism is independent of cell-signaling pathways implicated in the regulation of mTOR or its downstream targets in other cells. Overall, our study emphasizes the need for caution when extending results obtained using established cell lines to the differentiated nondividing cells found in most tissues.
...
PMID:Assessment of cell-signaling pathways in the regulation of mammalian target of rapamycin (mTOR) by amino acids in rat adipocytes. 1097 80

The hypothesis that vestiges of the ancestral RNA-dependent RNA polymerase involved in the replication of RNA genomes of Archean cells are present in the eubacterial RNA polymerase beta' subunit and its homologues is discussed. We show that in the DNA-dependent RNA polymerases from the three cellular lineages a very conserved sequence of eight amino acids also found in a small RNA-binding site previously described for the E. coli polynucleotide phosphorylase and the S1 ribosomal protein is present. The optimal conditions for the replicase activity of the avian myeloblastosis virus reverse transcriptase are presented. The evolutionary significance of the in vitro modifications of substrate and template specificities of RNA polymerases and reverse transcriptases is also discussed.
...
PMID:The origin and early evolution of nucleic acid polymerases. 1153 40

Two conservative gene clusters, the S10 ribosomal protein region and one (of the two) set of rRNA genes, were split in a genome crossover rearrangement event in Mycoplasma gallisepticum. As a result of the rearrangement the major part of the S10 ribosomal protein cluster is located upstream of genes for 23S-5S rRNA (rrn23-5), but the genes infA-rpl36-rps13-rpoA-rpl17 are located immediately downstream of the isolated gene for 16S rRNA (rrn16). A new ribosomal protein cluster infA-rpl36-rps13-rpoA-rpl17-rps16-trmD-rpl19 was formed. Reverse transcriptase-polymerase chain reaction (RT-PCR) analysis revealed that this ribosomal protein cluster is an operon.
...
PMID:Mycoplasma gallisepticum rpoA gene cluster. 1195 50

In researches involving in vitro protein synthesis and self-replication system, Qbeta replicase is one of the key enzymes, which are demanded for the high availability. Qbeta replicase is a RNA-dependent RNA polymerase of Qbeta coliphage. It consists of four subunits (alpha, beta, gamma, and delta subunit), where the beta-subunit is encoded by the viral genome, while the other three subunits are host proteins normally involved in protein synthesis, namely, ribosomal protein S1 (alpha), elongation factors EF-Tu (gamma) and EF-Ts (delta). To increase the production of the Qbeta replicase holoenzyme, several types of expression vectors, including pKK, pET and others, were employed to produce Qbeta replicase. However, the beta-subunit was almost in the precipitate fraction. Considering that the four subunits of Qbeta replicase holoenzyme are in equivalent molar ratio and the amount of the subunits, ribosomal S1 and EF-Ts, being produced by the host cells is relatively low, co-expression of beta-subunit with the other three subunits was performed to know whether the availability of the host subunits is the contributing factor for the solubility of the Qbeta replicase. pBAD33-rep was constructed by cloning the beta-subunit gene into pBAD 33, a pACYC derivative, and pET21a(+) was employed as expression vector for the three other subunits. Among the different combinations of co-expression experiments, solubility was found to slightly increase by SDS-PAGE analysis when the beta-subunit was co-expressed with EF-Tu-Ts. And the replicase activity assay showed this soluble enzyme is in active form. The expression of beta-subunit was enhanced by decreasing the level of inducer IPTG in co-expression, and more soluble enzyme were obtained.
...
PMID:[Co-expression of beta-subunit with other subunits of Qbeta replicase]. 1611 Sep 60

1 2 3 Next >>