UMLS:C0038187 - FACTA Search

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

Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Guanosine 5'-diphosphate 3'-diphosphate (ppGpp) and guanosine 5'-triphosphate 3'-diphosphate (pppGpp) were identified in the vegative mycelium of Streptomyces griseus. Adenosine 5'-diphosphate 3'-diphosphate (ppApp) and adenosine 5'-triphosphate 3'-diphosphate (pppApp) were not present but several other phosphorus-containing compounds which may have been inorganic polyphosphates were detected. During exponential growth of S. griseus the concentrations of ppGpp and pppGpp were several times higher than in the stationary stage. They fell sharply when exponential growth ended and then remained at an almost constant basal level. For the tetraphosphate the maximum concentration was about 50, and for the basal level about 10, pmol per millilitre of a culture with an optical density of 1.0. Production of streptomycin started several hours after exponential growth had ended and the concentrations of ppGpp and pppGpp had fallen. Streptomycin synthesis was delayed if the cells were resuspended just before production started in fresh medium lacking phosphate, but it was not delayed by glucose starvation. Both cultures, as well as cultures transferred to nitrogen-free medium, showed an immediate increase in ppGpp content to about four-fold the basal level. The results suggest that the guanosine polyphosphates do not directly control initiation of streptomycin production in S. griseus. Twelve additional species of Streptomyces examined all contained ppGpp and pppGpp.
...
PMID:Intracellular levels of guanosine 5'-diphosphate 3'-diphosphate (ppGpp) and guanosine 5'-triphosphate 3'-diphosphate (pppGpp) in cultures of Streptomyces griseus producing streptomycin. 41 58

An accurate assay of diadenosine 5',5'''- P1,P4-tetraphosphate [A(5') pppp(5')A], which was shown to be formed in vitro in the backreaction of the amino acid activation step, has been developed in various cell lines in culture and in normal mouse liver or hepatoma in vivo. Use of radioactive labeling of acid-soluble nucleotides to high specific activity followed by chromatographic separation techniques yielded levels of Ap4A varying from 5 to 0.05 muM (from 30 pmol/mg of protein to 0.15 pmol), depending on the doubling time of the cell line or the proliferative state of the cells. The levels of Ap4A incells is inversely related to their doubling time, varying from 0.1 X 10(-4) of the cellular ATP levels in slowly growing cells to 20 X 10(-4) of the ATP levels of cells with rapid doubling times. The steady-state levels of ATP of different cell lines, although showing some fluctuations, are not related to the doubling time of the cells. Arrest of cellular proliferation by serum deprivation or amino acid starvation, which does not alter the cellular ATP levels more than 2-fold, does nevertheless cause a decrease of 30 to 50-fold in the Ap4A levels. Inhibition of protein synthesis by pactamycin or puromycin, or inhibition of DNA synthesis by hydroxyurea, leads to a more dramatic decrease of 50 to 100-fold in intracellular Ap4A levels. The metabolic lability of Ap4A is also demonstrated by its rapid depletion after decreases in the ATP/ADP ratio. The possibility of Ap4A being a metabolic "signal nucleotide" that is formed at the onset of protein synthesis and is active in positive growth regulation (positive pleiotypic activation) is discussed.
...
PMID:Presence of diadenosine 5',5''' -P1, P4-tetraphosphate (Ap4A) in mamalian cells in levels varying widely with proliferative activity of the tissue: a possible positive "pleiotypic activator". 106 82

The mode of action of a synthetic cytostatic quinone was studied in Escherichia coli. 1. At concentrations of 1.5-6 mug/ml, 5,8-dioxo-6-amino-7-chloroquinoline rapidly inhibits growth and protein synthesis in E. coli. The synthesis of RNA is immediately affected in E. coli rel+ whereas in E. coli rel- the accumulation of RNA can proceed on addition of the quinone. This indicates that the inhibition of RNA synthesis in the stringent strain is a consequence of the regulatory phenomenon governed by the rel gene. 2. Chloramphenicol, known to abolish the stringent control mechanism, added simultaneously with the quinone allows the accumulation of RNA to proceed in the stringent strain. 3. Guanosine tetraphosphate accumulates in quinone-treated E. coli rel+ but not in the relaxed mutant strain. 4. Addition of amino acids reverses all inhibitory effects observed in quinone treated stringent and relaxed cells. 5. It is concluded that the bacteriostatic effect of 5,8-dioxo-6-amino-7-chloroquinoline on E. coli is caused by an apparent intracellular amino acid starvation.
...
PMID:Quinone induced stringent control. Accumulation of ppGpp and inhibition of RNA synthesis in stringent Escherichia coli by 5,8-dioxo-6-amino-7-chloroquinoline. 109 72

Continuously growing cultures of E. coli B/r were irradiated with a fluence of broad-band near-ultraviolet radiation (315-405 nm) sufficient to cause extensive growth delay and complete cessation of net RNA synthesis. Chloramphenicol treatment was found to stimulate resumption of RNA synthesis, similar to that observed with chloramphenicol treatment after amino-acid starvation. E. coli strains in which amino-acid starvation does not result in cessation of RNA synthesis ("relaxed" or rel- strains) show no cessation of growth and only a slight effect on the rate of growth or of RNA synthesis. These findings show that such near-UV fluences do not inactivate the RNA synthetic machinery but affect the regulation of RNA synthesis, in a manner similat to that produced by amino-acid starvation. Such regulation is believed to be mediated through alterations in concentration of guanosine tetraphosphate (ppGpp), and our estimations of ppGpp after near-UV irradiation are consistent with such an interpretation. These data, combined with earlier published data, strongly suggest that the mechanism of near-UV-induced growth delay in E. coli involves partial inactivation of certain tRNA species, which is interpreted by the cell in a manner similar to that of amino-acid starvation, causing a rise in ppGpp levels, a shut-off of net RNA synthesis, and the induction of a growth delay.
...
PMID:Mechanism of growth delay induced in Escherichia coli by near ultraviolet radiation. 110 19

A controversy has surrounded the questions of whether or not guanosine tetraphosphate (ppGpp) is a specific inhibitor of bacterial rRNA and tRNA synthesis, especially during normal exponential growth, and whether the RNA polymerase is the target of ppGpp action. To answer these questions, a pBR322-derived plasmid, pKT28, was constructed that carries the Escherichia coli relA gene encoding a ppGpp synthetase under control of the lacUV5 promoter. The plasmid was used to transform the ppGpp reporter strain VH271 in which expression of beta-galactosidase from an rrnB P1 promoter is inhibited by ppGpp. In the presence of high concentrations of lac inducer, bacteria of the transformed strain accumulate ppGpp with the result that synthesis of rRNA and beta-galactosidase is inhibited and growth ceases. At low concentrations of inducer, growth is only reduced and cells form small white colonies on X-gal indicator plates. After continued incubation, these colonies form blue sectors of faster growing mutant cells. Phage P1 transduction experiments showed that these mutants have mutations cotransducing with rpoB, the gene encoding the beta-subunit of RNA polymerase. One particular mutant strain, KT13, had acquired partial resistance to ppGpp inhibition of rRNA synthesis. The mutation in this strain was cloned by in vivo recombination into an rpoB plasmid. The presence of this plasmid conferred increased resistance to overproduction of ppGpp. These results suggest that ppGpp is a specific inhibitor of rRNA synthesis, even in the absence of amino acid starvation, and that RNA polymerase is involved as the target of ppGpp action.
...
PMID:Toxic effects of high levels of ppGpp in Escherichia coli are relieved by rpoB mutations. 137 Aug 17

The time required for transcription of the lacZ gene in Escherichia coli was determined during exponential growth and under conditions, when the bacterium was exposed to partial isoleucine starvation. To do this, RNA was extracted from the cells at 10 s intervals following induction and quantified by Northern hybridization with probes complementary to either the beginning or the end of the lacZ mRNA. The time lag between inducer addition and the appearance of a hybridization signal at the 'late' probe represents the transit time for RNA polymerase on the lacZ gene, and this parameter and the known length of the transcribed sequence were used to calculate the lacZ mRNA chain growth-rate. The transcription elongation rate was c. 43 nucleotides s-1 during exponential growth and decreased abruptly to c. 20 nucleotides s-1 in a relA+ strain after the onset of isoleucine starvation, when massive concentrations of guanosine tetraphosphate (ppGpp) accumulated in the cells. The starvation condition did not affect initiation of transcription at the lac-promoter, but a substantial fraction of the initiated lacZ mRNA chains was never completed. For the rel+ strain the polarity was moderate, since c. 25% of the initiated lacZ mRNA' chains were continued into full-length mRNAs, but for the relA strain the polarity was so strong that no completed lacZ mRNA could be detected. The protein chain elongation rates decreased from 13 amino acids (aa) s-1 in the unperturbed growth phase to approximately 6 as s-1, when the cells starved for isoleucine. In combination, these results suggest that ppGpp plays a major role in maintaining the coupling between transcription and translation during the downshift by inhibiting mRNA chain elongation. The implications of this result for the control of stable RNA synthesis during the stringent response are discussed.
...
PMID:Decreasing transcription elongation rate in Escherichia coli exposed to amino acid starvation. 140 59

The dinucleotide AppppA (5',5'''-P1, P4-diadenosine tetraphosphate) is rapidly synthesized in cells exposed to heat stress or oxidative stress. Stress-induced AppppA accumulation has been observed in all cell types studied to date. In order to study the function(s) of AppppA, we created a mutation in the Escherichia coli gene that encodes the sole AppppN hydrolase (apaH). High levels of AppppA have subsequently been shown to affect many cellular processes, including expression of catabolite repressible genes and the ability to survive starvation, oxidative stress and near-UV irradiation. Nevertheless, the precise role of AppppA remains undefined. In order to better understand the mechanism by which AppppA exerts its effects, we attempted to determine which proteins bind to AppppA by synthesizing (alpha'-32P) 8-N3AppppA for use in photocrosslinking experiments with extract derived from cells with different genetic backgrounds and exposed to various stress conditions. We report here that several E. coli proteins bind AppppA, including the heat shock and oxidative stress proteins DnaK, GroEL, E89, C45 and C40. In addition, we show that apaH mutants, which have high basal levels of AppppA, are hypersensitive to killing by heat.
...
PMID:AppppA binds to several proteins in Escherichia coli, including the heat shock and oxidative stress proteins DnaK, GroEL, E89, C45 and C40. 193 9

Weak stringent or relaxed responses were induced in Escherichia coli (relA+), using mild amino acid starvation or treatment with chloramphenicol at low concentrations, respectively, such that the growth rate was barely reduced. In this manner, the intracellular concentration of the nucleotide guanosine tetraphosphate, ppGpp, could be varied in any desired range between 0 and 1000 pmol of ppGpp per OD460 unit of culture mass. At the same time, the rate of synthesis of stable RNA (rs; rRNA and tRNA) was measured, relative to the total instantaneous rate of RNA synthesis (rt). The correlation between the cytoplasmic concentration of ppGpp and stable RNA gene activity (rs/rt) was the same as that observed previously with relA+ and relA strains growing exponentially at different rates in different media. This suggests that the distinction between growth control and stringent control of stable RNA synthesis is arbitrary, and that both kinds of control reflect the same ppGpp-dependent phenomenon. By increasing the stable RNA gene dosage, using high copy number plasmids carrying an rrn gene, we have tested the idea that ppGpp partitions the bacterial RNA polymerase into two forms with different probabilities to initiate at stable RNA and mRNA promoters. The relaxed response was not significantly altered, but the extent of the stringent response was reduced by the presence of extra rrn genes. The results agree with quantitative predictions derived from the RNA polymerase partitioning hypothesis.
...
PMID:Stringent and growth control of rRNA synthesis in Escherichia coli are both mediated by ppGpp. 244 28

The synthesis of stable RNA in bacteria is known to be regulated by a stringent control mechanism. Characteristic of stringent-regulated promoters, all ribosomal RNA promoters P1, but not P2, contain a GC-rich discriminator sequence assumed to be important for such a control. Using site-directed mutagenesis we have altered both the rrnB P2 and the synthetic tac promoter to the consensus GCGC discriminator motif. The modified promoters were placed upstream of the structural gene encoding the chloramphenicol acetyltransferase. The response of the modified promoters to amino acid starvation, changes in the growth rate or differences in the basal level of guanosine tetraphosphate (ppGpp) were determined in vivo. The results clearly show, that the discriminator motif is sufficient to convert the ribosomal RNA promoter P2 to a stringent, as well as growth-rate regulated, promoter. By contrast, the same discriminator sequence linked to the synthetic tac promoter does not convert this promoter to either stringency or growth-rate regulation. Finally, the results presented in this study reinforce the view that stringent and growth-rate regulation utilize the same mechanism, with ppGpp being the common mediator.
...
PMID:Influence of the GCGC discriminator motif introduced into the ribosomal RNA P2- and tac promoter on growth-rate control and stringent sensitivity. 247 45

Thiolutin was found to inhibit the utilization of glucose and other growth substrates in Escherichia coli. The inhibition was detected by a sharp drop of the respiration rate after addition of the antibiotic. The actual function affected was allocated to the cytoplasmic membrane of the bacterial cells by the following evidence: --spheroplasts were affected like intact cells, --individual reactions of either the electron transport chain or the glycolytic pathway were not inhibited, --glucose consumption in the culture stopped and the cells accumulated guanosine tetraphosphate as under starvation conditions, --activation of the cell's apo-glucose dehydrogenase restored respiration via bypassing the glucose phosphotransferase system. It was concluded that the transport of certain substrates across the membrane was inhibited.
...
PMID:Thiolutin inhibits utilization of glucose and other carbon sources in cells of Escherichia coli. 266 3

1 2 3 4 5 6 7 Next >>