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Enzyme
Compound
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Target Concepts:
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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)
A specialized transducing bacteriophage lambdadpolCdap D-9 has been isolated that carries the structural gene for EF-Ts1 (tsf). The presence of EF-Ts among the proteins synthesized under the direction of this phage in UVL-inactivated cells has been detected by two-dimensional gel electrophoresis and has been verified by antibody precipitation. In an induced lysogen of this phage the relative rate of synthesis of EF-Ts is increased 4-fold. Evidence is presented which suggest that the structural genes for ribosomal protein S2 (rpsB) and
RNA polymerase
sigma factor (sit) also lies on lambdadpolCdap D-9.
Mol
Gen
Genet 1976 Oct 18
PMID:A transducing bacteriophage lambda carrying the structural gene for elongation factor Ts. 79 84
In vitro transcription of the trp operon in isolated nucleoids from Escherichia coli was studied. RNA synthesis in this system occurred primarily as a continuation of transcription which had been initiated in vivo; little or no initiation of new RNA chains was observed. Transcription of the trp operon in nucleoids by endogenous
RNA polymerase
procedded efficiently and ceases sequentially in the order of the gene sequence within the operon. Under these conditions, no appreciable exonuccleolytic digestion of nascent 3H-RNA was found, though some endonucleolytic cleavage was generally seen. Little or no incorporation of 14C-leucine into polypeptides was observed, inspite of tha fact that considerable number of ribosomes and nascent RNA chains were found attached to the isolated nucleoids. The synthesis of trp mRNA continued in the presence of chloramphenicol or fusidic acid, or under conditions where the rebosomal translocation factor G was inactivated. From these and other kinetic studies of trp mRNA synthesis in nucleoids obtained from nonsense strong polar mutants of the trp operon, it was shown that transcription in nucleoids was not connected functionally with transloational processes and thus unable to exhibit polarity effected by a nonsense mutation or by general translational blockage. In studies employing nucleoids from nonsense strong polar mutants of the trp operon, it was demonstrated that
RNA polymerase
are scantily distributed over the region downstream from the nonsense mutation site of the operon, thereby supporting a notion that in vivo transcription is eventually terminated near the nonsense mutation.
Mol
Gen
Genet 1976 Nov 17
PMID:In vitro transcription of the tryptophan operon in isolated bacterial nucleoids. 79 65
The 1400 base pair repeat produced by digestion of calf satellite I DNA (phi = 1.714 g/cm3) with EcoRI, was cloned in E. coli. The hybrid plasmid (pGM 214) which contains the ColE1-Ap vector (pSF 2124) and the 1400 base pair fragment replicates stably in E. coli and can be amplified by chloramphenicol treatment. No clone was found in which more than one "repeat unit" of the satellite I DNA was present in the chimaera plasmid. Digestion of the original satellite I and the plasmid pGM 214 with R-SmaI shows that the satellite DNA replicated in E. coli is cleaved by the restriction endonuclease SmaI whereas the original satellite I DNA from calf thymus is not, suggesting that the satellite I contains a large amount of modified cytosine or guanosine, probably 5-methyl-cytosine. R-EcoRI* produces a number of fragments with the satellite I in the range of 300 base pairs to 1400 base pairs. A physical map of pGM 214 (and pSF 2124) with R-EcoRI, R-HincII, R-HindIII, R-SmaI, R-BamI and R-EclI was constructed. The 1400 base pair "repeat unit" in the pGM 214 is efficiently transcribed in vitro by purified
RNA polymerase
, starting from a pSF 2124 promoter. The restriction enzyme EclI produces a 350 base pair repeat with calf satellite II (phi = 1,722 g/cm3), whereas the satellite I is not cut by this enzyme.
Mol
Gen
Genet 1976 Nov 24
PMID:Cloning of calf thymus satellite I DNA in Escherichia coli. 79 69
The effects of a partial restriction of valyl-tRNA aminoacylation on the synthesis of aminoacyl-tRNA synthetases, ribosomal proteins, and other translation and transcription proteins were examined in otherwise isogenic stringent (relA+) and relaxed (relA1) derivatives of E. coli B. The synthesis of individual ribosomal proteins, elongation factor G, and to a lesser extent elongation factors Tu and Ts, and the valyl- and arginyl-tRNA synthetases was found to be subject to the influence of the stringent control system. The synthesis of the alpha and beta subunits of
RNA polymerase
and several of the aminoacyl-tRNA synthetases, in contrast, is either not subject to the influence of the stringent control system, or is subject to additional regulatory constraints.
Mol
Gen
Genet 1976 Dec 22
PMID:The effects of the relA gene on the synthesis of aminoacyl-tRNA synthetases and other transcription and translation proteins in Escherichia coli A. 79 47
A cell free protein synthesizing system, derived from E. coli, is shown to be a quantitiative assay system for messenger RNA extracted from B. subtilis infected with bacteriophage SPO1. DNA-directed protein synthesis in this system is shown to be limited mostly to those proteins whose messages are contained in early RNA. A phage induced enzyme, dCMP deaminase, is shown to be dependent on appearance of a class mRNA made in vivo in response to new initiations of transcription dependent on prior synthesis of phage induced protein. Control of the enzyme synthesized in the cell free system is contrasted with in vivo control, and an estimate of "read-through" by
RNA polymerase
in vitro is presented.
Mol
Gen
Genet 1975
PMID:Bacteriophage SPO1 DNA- and RNA-directed protein synthesis in vitro: comparison with in vivo control. 81 Jun 56
Bacillus subtilis strain PB 2427 temperature sensitive in the synthesis of RNA during spore germination and outgrowth has been characterized to some extent. At non permissive temperature (46 degrees C) strain PB 2427 synthesizes stable and unstable RNA for 50 min from the beginning of germination and then stops. Most of the stable RNA is degraded to shorter molecules but can be identified as ribosomal RNA by hybridization-competition experiments. At non permissive temperature, in the presence of chloramphenicol, synthesis of RNA proceeds, though at a reduced rate, for at least 90 min. By hybridization-competition experiments it can also be shown that the RNA synthesized at 46 degrees C in the presence of chloramphenicol includes transcripts that are absent, from the RNA synthesized at 46 degrees C in the absence of drug. The
RNA polymerase
(holo and core) purified from vegatative cells of the mutant strain does not appear to have a greater heat-lability as compared with the enzyme purified from the parental strain. At non permissive temperature only six polypeptide chains with MW ranging from 47,000 to 78,000 daltons are synthesized by the germinating spores of the mutant.
Mol
Gen
Genet 1976 Oct 18
PMID:Synthesis of RNA and protein in a mutant of Bacillus subtilis temperature sensitive during spore germination. 82 46
A rifampicin-resistant Achromobacter mutant with an altered
RNA polymerase
was isolated. The mutant supports phage alpha3a growth in both log and stationary phase cells. Phage growth on stationary phase cells is sensitive to aeration and growth only occurs at oxygen concentrations of less than 5-2 p.p.m. The rifampicin-resistant mutant is similar to the spontaneous mutant strain 14 reported by Woods (1976) in that both mutants support stationary-phase phage growth under micro-aerophilic conditions. The isolation of the rifampicin-resistant mutant with an altered
RNA polymerase
suggests that the phenomenon of stationary phase phage growth could be due to a change in the template specificity of the Achromobacter
RNA polymerase
. Plaque morphology mutants which grow on log and/or stationary phase cells of the Achromobacter wild type, strain 14 and rifampicin-resistant strains are also described.
J
Gen
Virol 1977 Apr
PMID:Rifampicin-resistant mutant supporting bacteriophage growth on stationary phase Achromobacter cells. 85 10
Two previously undescribed stable polypeptides (referred to as nsp 90 and nsp 63) appear in mammalian and avian cells infected with Semliki Forest virus. They are distinguishable from the virus structural proteins and their known precursors by their molecular weights and tryptic peptide maps, and are identical in size to two polypeptides found in purified preparations of virus-specific
RNA polymerase
. Data from pulse-chase experiments and from the use of inhibitors of proteolytic cleavage indicate that nsp 90 and nsp 63 are synthesized via a series of post-translational cleavages from three larger polypeptides, p200, p184 and p150. The labelling kinetics after synchronous initiation of protein synthesis are also consistent with the synthesis of nsp 90 and nsp 63 from a common initiation site, and show that nsp 63 is located close to this site. It is concluded that nsp 90 and nsp 63 are components of the virus-specific
RNA polymerase
, and are synthesized via a post-translational cleavage scheme entirely separate from that leading to the synthesis of the virus structural proteins.
J
Gen
Virol 1976 Sep
PMID:RNA polymerase components in Semliki Forest virus-infected cells: synthesis from large precursors. 96 48
The transducing phage lambdarifd18 isolated by Kirschbaum and Konrad [(1973 J. Bacteriol. 116, 517-526] was found to carry structural genes for several 50S ribosomal proteins and 16S and 23S rRNA. It has previously been demonstrated [Kirschbaum & Scaife (1974) Mol.
Gen
. Genet. 132, 193-201] that this phage carries genes for the
DNA-dependent RNA polymerase
(nucleosidetriphosphate:
RNA nucleotidyltransferase
;
EC 2.7.7.6
) subunits beta and beta'. Thus, the region of the E. coli chromosome carried by lambdarifd18 contains a cluster of genes essential for transcription and translation.
...
PMID:Cluster of genes in Escherichia coli for ribosomal proteins, ribosomal RNA, and RNA polymerase subunits. 110 Dec 64
An unlinked regulatory mutation hisT1504, causes an approximate 11-fold derepression of the histidine (his) operon and a linked constitutive mutation hisO1242 causes an approximate 15-fold derepression. In this study we demonstrate that hisT1504 provokes a significant increase in the UV-induced reversion frequency of his ochre and frameshift mutations. Analysis of revertants derived from frameshift mutants show that this increment in derepressed strains compared to the repressed strains is due to better growth of suppressed revertants by weak frameshift suppressors. The frequency of revertants suppressed by strong frameshift suppressors appears to be the same in repressed and derepressed strains. In contrast, intragenic revertants appear at two-fold decreased frequency in derepressed strains carrying either of the histidine constitutive mutations, hisT1504 or hisO1242. A possible competition is indicated between frequently transcribing
RNA polymerase
and error-promoting recombinational repair within the histidine operon.
Mol
Gen
Genet 1975
PMID:UV-induced reversion patterns of constitutive and repressed Salmonella histidine auxotrophs. 110 13
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