Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The restriction nuclease cleavage pattern of E. coli DNA synthesized in vitro in the cellophane membrane system (Schaller et al., 1972) is similar to the one obtained after labelling E. coli in vivo. This is shown for exponentially growing cells and for cells synchronized by amino acid starvation followed by thymine starvation. In synchronized cells a piece of some 180 kilobase pairs is labelled containing oriC and neighbouring regions at 82 min on the genetic map of E. coli. A pulse label in vitro is incorporated into the same piece of DNA, but the center of this region, i.e. the EcoR1 fragment of 8.6 kbp length which contains the oriC region (Marsh and Worcel, 1977; v. Meyenburg et al., 1977; Yasuda and Hirota, 1977) is missing.
Mol Gen Genet 1979 Jan 16
PMID:In vitro replication of a DNA fragment containing the vicinity of the origin of E. coli DNA replication. 37 97

It has been shown that in bacteria, besides specific regulatory mechanisms, the synthesis of aminoacid biosynthetic enzymes is also controlled by the endogenous aminoacid pool. The latter regulates the intracellular level of ppGpp, a positive effector of RNA messenger transcription. A similar regulatory control exists in yeast but does not appear to involve the same general effector. This was established by the observation that derepression of the enzymes belonging to several aminoacid biosynthetic pathways follows aminoacid starvation or tRNA discharging. We now report the repression of the arginine pathway by the total aminoacid pool. New mutations affecting the repressibility of the arginine enzymes as well as enzymes belonging to other aminoacid biosyntheses, when cells are grown in the presence of an excess of aminoacids, were identified.
Mol Gen Genet 1979 Jan 16
PMID:Concerted repression of the synthesis of the arginine biosynthetic enzymes by aminoacids: a comparison between the regulatory mechanisms controlling aminoacid biosyntheses in bacteria and in yeast. 37 2

A study has been made of the regulation of the synthesis of Pl double-stranded (ds) RNA, the genome of the yeast virus-like particle. When yeast protein synthesis is prevented by starvation for a required amino acid or by addition of cycloheximide, the rate of Pl dsRNA synthesis is reduced markedly. During nitrogen starvation the synthesis of Pl dsRNA persists but is accompanied by the degradation of pre-existing molecules. This degradation appears to require the induction of new enzymes and it is likely that the breakdown products are used to enable the cell to complete its division cycle. However, all of the copies of the VLP genome are not degraded in this process, some are conserved and can replenish the amount of Pl dsRNA on return to growth conditions. The controls which must operate on Pl dsRNA synthesis are discussed and compared with those exerted on nuclear RNA synthesis in yeast.
Mol Gen Genet 1979 Mar 20
PMID:The regulation of RNA synthesis in yeast IV. Synthesis of double-stranded RNA. 37 28

The plasmid pMY3, which was constructed so as to express the Su+7 amber suppressor tRNA gene, also relaxes control of stable RNA synthesis in stringent cells. The relaxation is not growth medium or strain-dependent and does not occur in the presence of the vehicle alone. When expression of the effective sequence is diminished, in a lysogen of phi 80d3 ilv+Su+7, the sequence no longer affects RNA synthesis. The relaxation is general, extending to all or almost all tRNA loci, including tRNAs located in the ribosomal spacer regions, and to all ribosomal RNAs. Relaxed plasmid-carrying strains are still able to elevate guanosine tetra- and penta-phosphate levels in response to amino acid starvation, but steady state levels are somewhat diminished. Aminoacyl-tRNA falls to control levels when the plasmid-carrying strain is deprived of amino acid. Therefore, the relaxed strain perceives amino acid starvation, but does not respond normally. These properties define a novel locus which relaxes stringent control.
Mol Gen Genet 1979 Mar 05
PMID:Relaxation of stable RNA synthesis by a plasmid-borne locus. 37 46

A sudden induction of the imbalance between the rates of DNA and protein synthesis in the cell (by nalidixic acid or by thymine starvation) results in the stabilization of breaks in DNA chains in vivo. Such "imbalance induced breaks" represent gaps in DNA chains formed with the participation of exonuclease V. Stabilization of the "imbalance induced breaks" is accompanied by DNA degradation and cell death. Restoration of the imbalance between the rates of DNA and protein syntheses by balanced inhibition completely prevents the stabilization of breaks in cells with competent repair systems. Balanced inhibition of intracellular DNA and protein synthesis decreases the rate of repair and permits to see the sequence of induction (stabilization) and disappearance (repair) of breaks in DNA chains in vivo. Repair of breaks occuring on the background of balanced inhition of DNA and protein synthesis decreases the extent of DNA degradation and completely prevents death of E. coli cells with completely functional repair systems.
Mol Biol (Mosk)
PMID:[Induction and repair of breaks in DNA chains in vivo due to the imbalance between DNA and protein synthesis]. 37 3

Studies were undertaken to determine if mitochondrial rRNA synthesis in yeast is regulated by general cellular stringent control mechanism. Those variables affecting the relaxation of a cycloheximide-induced stringent response as a result of medium-shift-down or tyrosine limitation include: 1) the stage of cell growth, 2) carbon source, 3) strain differences and, 4) integrity of the cell wall. The extent of phenotypic relaxation decreased or was eliminated entirely in a strain dependent manner as cells entered stationary phase of growth or by growth of cells on galactose or in osmotically stabilized spheroplast cultures. Cytoplasmic and mitochondrial RNA species were extracted from regrowing spheroplast cultures subjected to different experimental regimens and analyzed by electrophoresis on 2.5% polyacrylamide gels. Relative rates of synthesis were determined in pulse experiments and normalized by double-label procedures to longterm label material. Tyrosine starvation was found to inhibit synthesis of the large and small rRNA species of both cytoplasmic and mitochondrial rRNAs to about 5-20% of the control values. Chloramphenicol inhibits mitochondrial and cytoplasmic rRNA synthesis to 60-80% of control; however, chloramphenicol addition does not relax the stringent inhibition of either class of rRNAs. Cycloheximide addition results in 70-80% inhibition of synthesis of both cellular speceis of rRNAs. As noted above, cycloheximide does not relax the stringent response of cytoplasmic rRNA synthesis in spheroplasts, and also does not relax the stringent inhibition of mitochondrial rRNA synthesis. From these studies, we conclude that both cytoplasmic and mitochondrial rRNA synthesis share common control mechanisms related to regulation of protein synthesis by shift-down or amino acid limitation.
Mol Gen Genet 1979 Jun 20
PMID:Regulation of mitochondrial ribosomal RNA synthesis in yeast. I. In search of a relaxation of stringency. 38 47

The glycogen content of cultured chick embryo breast muscle cells changes during their development and can be reduced by starvation. It is demonstrated that the rate of glucose incorporation into glycogen and the degree of interconversion of glycogen synthase are controlled by the actual glycogen content. Stimulation of both corresponding activities by insulin is found in fused and in unfused cells. The insulin response depends on the extracellular calcium concentration and can be mimicked by the ionophore A 23187. These metabolic effects as well as calcium efflux data confirm the hypothesis that insulin acts on its enzyme target via increased cytoplasmic calcium concentration. Cytochalasin B is shown to inhibit the interconversion but does not interfere with the insulin-induced increase of the mitochondrial calcium pool or with the acceleration of the calcium efflux out of 45C-preloaded myotubes.
Mol Cell Endocrinol 1977 Jul
PMID:Regulation of glycogen synthase interconversion in cultured muscle cells: actions of insulin, calcium, ionophore A 23187 and cytochalasin B. 40 13

Inactivation of the dna B or dna D gene product in Bacillus subtilis stimulates RNA and protein synthesis. Strains containing ts dna B and D mutations have been constructed by introducing the mutations by transformation into a thymine requiring strain which does not lyse during thymine starvation. The consequences of inactivation of these gene products have been assessed by comparing RNA and protein synthesis during thymine starvation at the restrictive temperature with the recipient strain. In the ts+ strain, there is a doubling in rate of RNA synthesis during thymine starvation. In the ts dna B and D mutations at the restrictive temperature the rate of RNA synthesis increases four fold. By preincubating the mutants in the absence of thymine for one generation at the permissive temperature the two fold increase in rate of RNA synthesis associated with inactivation of the initiation complex can be demonstrated under conditions where the ts+ strain shows a decrease in rate of RNA synthesis. The rate of protein synthesis observed largely reflects the rate of RNA synthesis in all strains. Completion of the chromosome at the restrictive temperature has no significant effect on the rate of RNA synthesis. It is suggested that inactivation of the initiation complex after chromosome initiation could play an important role in control of RNA synthesis in relation to the cell cycle.
Mol Gen Genet 1977 Oct 24
PMID:Macromolecular synthesis in chromosome initiation mutants of Bacillus subtilis. 41 65

The haploid myxamoebae of Physarum polycephalum reversibly differentiate to form dormant microcysts under conditions of starvation. The thin-walled cysts can be selective recovered from a cell suspension which has been treated with the surfactant Triton X-100 to lyse amoeboid forms. Excystment, which is initiated by suspension in liquid medium, is inhibited by antibiotics which block protein synthesis. Cysts of drug resistant mutants excyst rapidly in media containing sufficient antibiotic to maintain drug sensitive strains in the encysted state. The selective survival of non-excysted cells following Triton X-100 treatment has been employed to enrich for drug sensitive mutants. Several anisomycin sensitive mutants have been isolated, one of which has been analysed genetically. The possible applications of this mutant enrichment technique are discussed.
Mol Gen Genet 1977 Mar 16
PMID:Anisomycin sensitive mutants of Physarum polycephalum isolated by cyst selection. 55 41

Treatment with cystamine, phlorrhizin or nicotinic acid, which induced liver glycogenolysis, resulted in the increase of liver lactate dehydrogenase activity. This increase was counteracted by the administration of cycloheximide or actinomycin D and coincided with the increase os isozymes 4 and 3 and the decrease of isozyme 5. The enhancement of liver lactate dehydrogenase activity and the changes observed in the isozyme profile were similar to those observed after starvation. These results suggest that the changes in the lactate dehydrogenase isozyme profile found after cystamine, phlorrhizin or nicotinic acid administration may be related to the glycogenolytic effect of these compounds. These result in an adaptation of the liver lactate dehydrogenase to gluconeogenesis.
Mol Cell Biochem 1978 Apr 11
PMID:Changes in the liver lactate dehydrogenase isozyme profile after induced glycogenolysis. 65 72


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