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
Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The purpose of this study was to determine the relationship between putative chloroplast RNA polymerase subunit genes and known chloroplast transcriptional activities. We have prepared fusion polypeptide genes from fragments of chloroplast DNA homologous to bacterial RNA polymerase subunit genes and expression vectors carrying portions of the
anthranilate synthetase
gene (trpE). Fusion proteins for chloroplast homologs of the
RNA polymerase
alpha (rpoA), beta (rpoB), and beta' (rpoC) subunits were obtained from these genes. The fusion polypeptides synthesized by Escherichia coli in vivo were purified and used as antigens for production of rabbit polyclonal anti-RNA polymerase subunit-specific antibodies. The purified antibodies were able to immobilize chloroplast DNA-dependent RNA polymerases from spinach, pea, and Euglena gracilis. In addition, the soluble chloroplast
RNA polymerase
activity in tRNA and mRNA synthesis was strongly inhibited by these antibodies under conditions which had little effect on transcription by the chloroplast transcriptionally active chromosome that preferentially transcribed rRNA genes (Greenberg, B. M., Narita, J. O., DeLuca-Flaherty, C., Gruissem, W., Rushlow, K. A., and Hallick, R. B. (1984) J. Biol. Chem. 259: 14880-14887). From these data we conclude that the chloroplast genes homologous to bacterial RNA polymerase subunit genes are expressed in vivo and that the protein products specify at least three of the components of the chloroplast
RNA polymerase
(s) involved in tRNA and mRNA transcription.
...
PMID:Chloroplast rpoA, rpoB, and rpoC genes specify at least three components of a chloroplast DNA-dependent RNA polymerase active in tRNA and mRNA transcription. 304 74
The trp operon regulatory region of Bacillus pumilus was cloned and sequenced. The cloned B. pumilus trp promoter-leader region functioned in Bacillus subtilis to express the adjacent leukocyte interferon A gene on a multicopy transcriptional fusion plasmid, pBpIFI. In strains carrying this plasmid,
anthranilate synthetase
levels were elevated, possible due to titration of a B. subtilis trp regulatory factor by multiple copies of the transcript of the plasmid-borne B. pumilus trp leader region. The B. pumilus trp promoter was recognized efficiently in vitro by B. subtilis sigma 43
RNA polymerase
. Approximately 12% of the transcripts produced in vitro terminated in the leader region immediately following synthesis of a transcript structure resembling rho-independent terminators of enteric bacteria. An analogous terminator exists in the B. subtilis trp leader transcript. Nucleotide sequence comparison of the B. pumilus and B. subtilis trp leader regions revealed conservation of these and other sequences that could form transcript secondary structures postulated to regulate transcription termination in B. subtilis (H. Shimotsu, M.I. Kuroda, C. Yanofsky, and D.J. Henner, J. Bacteriol. 166:461-471, 1986). We propose that two elements implicated in B. subtilis trp operon regulation are conserved in the related organism B. pumilus: alternative transcription antiterminator and terminator structures in the leader transcript, and a trans-acting factor present in limiting amounts that is required for transcription termination in the leader region.
...
PMID:Regulatory elements common to the Bacillus pumilus and Bacillus subtilis trp operons. 309 79
Rice (Oryza sativa)
anthranilate synthase
alpha-subunit, OASA2, was modified by in vitro mutagenesis based on structural information from bacterial homologs. Twenty-four amino acid residues, predicted as putative tryptophan binding sites or their proximal regions in the OASA2 sequence, were selected and 36 mutant OASA2 genes were constructed by PCR-based site-directed mutagenesis. Corresponding mutant proteins were synthesized in a combination of two in vitro systems, transcription with a bacteriophage SP6
RNA polymerase
and translation with a wheat-embryo cell-free system. Enzymatic functions of the mutant proteins were simultaneously examined, and we found six mutants with elevated catalytic activity and five mutants with enhanced tolerance to feedback inhibition by tryptophan. Moreover, we observed that some sets of specific combinations of the novel mutations additively conferred both characteristics to the mutant enzymes. The functions of the mutant enzymes were confirmed in vivo. The free tryptophan content of mutant rice calli expressing OASA2 enzyme with a double mutation was 30-fold of that of untransformed calli. Thus, our in vitro approach utilizing structural information of bacterial homologs is a potent technique to generate designer enzymes with predefined functions.
...
PMID:Structure-based in vitro engineering of the anthranilate synthase, a metabolic key enzyme in the plant tryptophan pathway. 1604 Jun 54
A protein fraction, called At (= anti termination) factor, has been isolated from extracts of E. coli and partially purified. The At factor stimulates the synthesis in vitro of
anthranilate synthetase
, an enzyme encoded by two genes of the tryptophan (trp) operon, but has no effect on the synthesis of T7
RNA polymerase
and other T7- and T4 coded proteins. The At factor stimulates the synthesis of trp mRNA; it has no effect on the translation of trp mRNA. We conclude that in vitro transcription of the trp operon is positively controlled.
...
PMID:In vitro synthesis of enzymes of the tryptophan operon of Escherichia coli. Evidence for positive control of transcription. 1609 72
In this article a model, first, classical attenuation RNA regulation of gene expression by means of transcription termination is offered. The model bases on representation about a macrostate of secondary structure in RNA regulatory region between a ribosome and a
RNA polymerase
, on the formulas of a resonant type defining the value of deceleration of a
RNA polymerase
by a set of hairpins in the same region. The special attention is given to selection of parameters of model. To check of model the computer simulation is carried out and the dependences of transcription termination probability from the value of concentration charged tRNA are obtained, in particular, and from concentration of amino acid for many regulatory regions in genomes of bacteria (here data are presented for trpE genes in Streptomyces spp., Bradyrhizobium japonicum and Escherichia coli) and at various values of three parameters, which authors consider as the main. The obtained dependences are compounded with the accessible experimental data; including, under the form of the graphs concerning to activity of an enzyme depending on concentration of amino acid (for example,
anthranilate synthase
from tryptophan in S. venezuela). One possible usage: now attenuation is predicted usually by means of multiple alignment, it needs some sequences; the obtaining with the help of model on an individual sequence characteristic for attenuation or its absence of a curve at approaching parameters could be considered as argument for the benefit of presence or absence of attenuation.
...
PMID:[Model of genes expression regulation in bacteria by means of formation of secondary RNA structures]. 1681 69
The last several years have seen the consolidation of high-throughput proteomics initiatives to identify and characterize protein interactions and macromolecular complexes in model organisms. In particular, more that 10,000 high-confidence protein-protein interactions have been described between the roughly 6,000 proteins encoded in the budding yeast genome (Saccharomyces cerevisiae). However, unfortunately, high-resolution three-dimensional structures are only available for less than one hundred of these interacting pairs. Here, we expand this structural information on yeast protein interactions by running the first-ever high-throughput docking experiment with some of the best state-of-the-art methodologies, according to our benchmarks. To increase the coverage of the interaction space, we also explore the possibility of using homology models of varying quality in the docking experiments, instead of experimental structures, and assess how it would affect the global performance of the methods. In total, we have applied the docking procedure to 217 experimental structures and 1,023 homology models, providing putative structural models for over 3,000 protein-protein interactions in the yeast interactome. Finally, we analyze in detail the structural models obtained for the interaction between SAM1-
anthranilate synthase
complex and the MET30-
RNA polymerase III
to illustrate how our predictions can be straightforwardly used by the scientific community. The results of our experiment will be integrated into the general 3D-Repertoire pipeline, a European initiative to solve the structures of as many as possible protein complexes in yeast at the best possible resolution. All docking results are available at http://gatealoy.pcb.ub.es/HT_docking/.
...
PMID:Pushing structural information into the yeast interactome by high-throughput protein docking experiments. 1971 7
