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Query: UMLS:C0038187 (starvation)
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The complex problems of microbiological degradation of synthetic plastics and a fairly wide variety of 62 testing materials, belonging to 14 major groups of plastics, are described. Adaequate and reliable testing techniques had to be devised. Drawing on the experiences of H. Braun, 1930, and of Bushnell and Haas, 1941, as to the metabolism of bacteria and the utilization of certain hydrocarbons by microorganisms, and previous research work by A. Schwartz in Berlin, 1959-60, on microbial corrosion of plastics, methods of laboratory testing were developed. The bacteriological technique was based on selection of aerobic microorganisms, which were, by starvation, adapted to use the plastic materials as their only carbon source; foreign carbon sources had to be strictly eliminated; emphasis was laid on proper, double control cultures. The test organisms involved included P. aeruginosa and fluorescens strains, also a certain species of Candida, and mixtures of soil, sewage and garbage organisms grown on exposed plastic surfaces. By means of series of passages the selective adaptation and conservation of these organisms was continued up to 4 1/2 years. An anaerobic adaptation method for Desulfovibrio desulfuricans was developed and used successfully. After preliminary experimentation (Soil burial, sewage and garbage exposure tests) in the laboratory as well as in the open, a large scale Field testing programme under realistic and to some extent extreme conditions was implemented: Nine different plastic materials comprising eight plain high polymer plastics and for comparison one synthetic Cellulose derivate, together with glass control samples, were exposed in twelve different sewage, garbage, and soil media over a period of 3 months to 2 years, and subsequently examined. On the basis of the bacteriological results obtained from the adaptation series the test materials were classified into three categories, corresponding to the stimulation of bacterial growth: Group one, which allowed strong proliferation, included certain types of plasticized P.V.C. and Cellulose esters, as expected, and, as a new result, Polyurethane rubber; the latter showed clear signs of surface corrosion. Group two, which induced a clear but moderate growth, comprised a nylon trade type of Polyamide. Gruop three, allowing weak but still recognisable growth, included Formaldehyde pressure resing (Bakelite). This was surprising as it was thought that the formaldehyde and phenol components would exert a bacteriocidic or at least bacteriostatic effect. The results of the long and time consuming adaptation series with Pseudomonas aeruginosa were confirmed by the manometric dissimilation method of O. Warburg by means of the Braun/Melsungen apparatus. With this subtle but elegant procedure results and graphical recordings were obtained within hours and days...
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PMID:[Mutual relations between plastic materials and bacteria (author's transl)]. 82 69

Phenol oxidase enzymes, linked to virulence in Cryptococcus neoformans, were prepared from broken cells. More enzyme activity was found in the ultracentrifugation supernatant; less was found in the membrane fraction. Phenol oxidases were located in acrylamide gel electropherograms by activity staining with L-dihydroxyphenylalanine (DOPA). Mobility differences between soluble and solubilized membrane-bound phenol oxidases were not found. Comparison of enzymes produced at 25 and 37 degrees C revealed that the enzyme had lower activity and lower mobility at 37 degrees C. The mobility of 25 degrees C phenol oxidases from strains of C. neoformans var. gattii was lower than that of those from C. neoformans var. neoformans. Half of the phenol oxidase produced at 25 degrees C was bound by concanavalin A, while that produced at 37 degrees C was not bound. However, glucose starvation of cultures at 25 degrees C overnight resulted in increased amounts of enzyme which did not bind to concanavalin A. A given strain of C. neoformans produces different species of phenol oxidase under different culture conditions.
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PMID:Heterogeneity of phenol oxidases in Cryptococcus neoformans. 150 Jan 62

The effects of a single intraperitoneal injection of methylglyoxal (50-800 mg/kg body wt.) in mice were investigated in the liver after 24 h. The administration of methylglyoxal (400 mg/kg body wt.) resulted in an increase in aniline hydroxylase activity in liver microsomes. At the same time an accumulation of p-amino-phenol, the hydroxylated product of aniline, was observed in isolated hepatocytes upon addition of aniline similarly to conditions (starvation, diabetes mellitus, pyrazole pretreatment) when aniline hydroxylase was induced. Methylglyoxal also decreased the reduced glutathione content in the liver, while the activity of serum glutamate pyruvate transaminase was increased, suggesting the onset of liver injuries. It is assumed that the increased oxidation of aniline hydroxylase combined with decreased glutathione levels after methylglyoxal treatment favours the formation of potentially hazardous phenol derivatives in the liver.
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PMID:Accumulation of phenols in isolated hepatocytes after pretreatment with methylglyoxal. 194 76

The effect of starvation and of protein-deprivation on the extractable amount of cardiac mRNA was investigated in male rats. Cardiac mRNA was determined by either (a) isolation of cardiac mRNA by SDS-Phenol/oligo-dT-cellulose, or by (b) hybridization of cardiac mRNA to 3H-Poly(U). During starvation (1-6 days) the extractable amount of cardiac microsomal RNA decreased from 870 micrograms/g heart (controls) to 606 micrograms/g (3 days) and to 547 micrograms/g (6 days), the extractable amount of mRNA fell from 28.6 micrograms/g heart (controls) to 18.7 micrograms/g (3 days) and to 14.5 micrograms/g (6 days). When a normocaloric but protein-deficient diet was fed, the decreases in cardiac microsomal RNA and mRNA were qualitatively similar, but slightly less severe. An analysis of the intracellular distribution of cardiac microsomal RNA and mRNA in the hearts of normal animals and of animals starved or fed a protein-deficient diet indicates that during starvation cardiac mRNA does not accumulate in the cell sap, but gets rapidly degraded. In the refeeding period, mRNA is transported from the nucleus to the cytoplasm and engages in polyribosome formation. The specific mRNA species coding for the major myofibrillar cardiac proteins are affected to a similar extent by these changes during starvation/protein-deprivation and refeeding.
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PMID:Influence of starvation and total protein deprivation on cardiac mRNA levels. 258 May 11

Addition of 5% xylitol to growing cultures of Streptococcus mutans OMZ 176 reduced the amount of extractable glycerol-phosphate polymers in these cells compared to S. mutans cultures grown in medium with 5% glucose added. The glycerol-phosphate polymers were extracted from the cells by hot phenol-water-extraction, and separated by column chromatography. Lipoteichoic acid (LTA) was identified by indirect haemagglutination tests and lipid analysis. The amount of LTA extracted from the cells or present in the medium was not significantly different. It is suggested that the accumulation of intracellular xylitol-phosphate observed in a previous study causes an effect similar to glucose starvation, which is known to affect the composition of the cell wall.
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PMID:Addition of xylitol to the growth medium of Streptococcus mutans OMZ 176--effect on the synthesis of extractable glycerol-phosphate polymers. 401 41

A mixture of aqueous phenol, choloroform, and ether extracts the lipopolysaccharides (LPS) from the phiX174-sensitive strain, Escherichia coli C/1, and resistant strains, C/phiX and K12. Interaction of the C/1 LPS with phiX in a starvation buffer containing 10(-3) M CaCl(2) at 37 C, but not at 15 C, results in a first-order inactivation that is specific for C/1 LPS. After interaction for 60 min at 15 C, followed by centrifugation, 37 and 20% of a (14)C-phiX preparation are bound to the C/1 and C/phiX LPS pellets, respectively. The results for intact cells are 75 and 10%. Supporting the conclusion that this represents specific attachment of phiX to its receptor site in the LPS is the fact that EDTA-borate buffer is required to elute 85% of the (14)C-phiX from the C/1 LPS, whereas starvation buffer elutes the same amount from C/phiX LPS. Moreover, 95% of the PFU are found in the C/1 LPS pellets as compared with 50% in the resistant strain LPS pellets. When the products of interaction between phiX and LPS at 37 C are examined by sucrose density gradients in EDTA-borate, a single 60 to 90S peak is observed in the C/1 sample, and the single peak cosediments with the 120S marker phiX in the C/phiX sample. This change in S(20, w) is very similar to that reported for the eclipse of phiX in vivo. If the inactivation at 37 C is carried out on phiX-LPS complexes first formed at 15 C, the first-order kinetics are biphasic and nearly identical to that observed for the eclipse kinetics of phiX attached to intact cells. Thus, the phiX-LPS system is suitable for in vitro studies on the early events in phiX infection.
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PMID:Mechanism of adsorption and eclipse of bacteriophage phi X174. II. Attachment and eclipse with isolated Escherichia coli cell wall lipopolysaccharide. 457 85

The rate of protein degradation in cultured Chinese hamster ovary cells increases in response to histidine starvation. Using cell lines with defective histidyl-tRNA synthetase, or histidinol (a competitive inhibitor of the enzyme), we have previously demonstrated a functional connection between the increase in degradation and the amino acylation of this tRNA (Scornik, O. A., Ledbetter, M. L. S., and Malter, J. S. (1980) J. Biol. Chem. 255, 6322-6329). A correlation is shown here between the steady state level of histidyl-tRNA and the regulatory response. Cells were incubated for 15 min in the presence of L-[3H]histidine, at a concentration at which greater than 90% of histidine for protein synthesis derives from the medium. The level of histidyl-tRNA was measured by its radioactivity after purification by phenol extraction, ethanol precipitation, and mild alkaline hydrolysis. Protein degradation in each condition was determined by the release of acid-soluble radioactivity from cells labeled for 24 h with L-[1-14C]leucine. The steady state level of histidyl-tRNA was altered by either histidinol (which slows down its production) or cycloheximide (which interferes with its utilization). Cycloheximide counteracts the effects of histidinol both on the level of histidyl-tRNA and on the rate of protein degradation. Both effects can be obtained, however, even in the presence of cycloheximide, if higher concentrations of histidinol are used. The results indicate that this regulatory mechanism does not recognize the rate of amino acylation per se but rather, the steady state level of its product, amino acyl-tRNA.
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PMID:Faster protein degradation in response to decreases steady state levels of amino acylation of tRNAHis in Chinese hamster ovary cells. 654 56

The expression of much useful bacterial activity is facilitated by rapid growth. This coupling can create problems in bacterial fermentations and in situ bioremediation. In the latter process, for example, it necessitates addition of large amounts of nutrients to contaminated environments, such as aquifers. This approach, termed biostimulation, can be technically difficult. Moreover, the resulting in situ bacterial biomass production can have undesirable consequences. In an attempt to minimize coupling between expression of biodegradative activity and growth, we used Escherichia coli starvation promoters to control toluene monooxygenase synthesis. This enzyme complex can degrade the environmental contaminants trichloroethylene (TCE) and phenol. Totally starving cell suspensions of such strains degraded phenol and TCE. Furthermore, rapid conversions occurred in the postexponential batch or very slow growth (dilution) rate chemostat cultures, and the nutrient demand and biomass formation for transforming a given amount of TCE or phenol were reduced by 60 to 90%. Strong starvation promoters have recently been clones and characterized in environmentally relevant bacteria like Pseudomonas species; thus, starvation promoter-driven degradative systems can now be constructed in such bacteria and tested for in situ efficacy.
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PMID:Use of starvation promoters to limit growth and selectively enrich expression of trichloroethylene- and phenol-transforming activity in recombinant Escherichia coli [corrected]. 757 43

Starvation causes several changes in the various processes of biotransformation. The focus of this review is on biotransformation of various aromatic and other compounds whose metabolism is catalyzed in phase I by isozymes belonging to the CYP2E1 gene subfamily, while in phase II phenol-UDPGT or conjugation with GSH play a dominant role. The other ways of conjugation are beyond the scope of this review. The reason why this aspect has been chosen is that the capacity of these reactions is profoundly altered by nutritional conditions. There is a balance between the two phases of biotransformation. Therefore, under standard circumstances in a well-fed state the intermediate formed in the course of phase I is converted to a conjugated compound rapidly, as a result of phase II. However, in starvation the pattern of drug metabolism is altered and the balance between the two phases is changed. This alteration of drug metabolism upon starvation is partly connected to the changes of cofactor supplies due to the metabolic state.
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PMID:Increased oxidation and decreased conjugation of drugs in the liver caused by starvation. Altered metabolism of certain aromatic compounds and acetone. 772 9

We have determined and analyzed the nucleic acid sequence of a 14,855-bp region that contains the complete gene cluster encoding the 4-hydroxyphenylacetic acid (4-HPA) degradative pathway of Escherichia coli W (ATCC 11105). This catabolic pathway is composed by 11 genes, i.e., 8 enzyme-encoding genes distributed in two putative operons, hpaBC (4-HPA hydroxylase operon) and hpaGEDFHI (meta-cleavage operon); 2 regulatory genes, hpaR and hpaA; and the gene, hpaX, that encodes a protein related to the superfamily of transmembrane facilitators and appears to be cotranscribed with hpaA. Although comparisons with other aromatic catabolic pathways revealed interesting similarities, some of the genes did not present any similarity to their corresponding counterparts in other pathways, suggesting different evolutionary origins. The cluster is flanked by two genes homologous to the estA (carbon starvation protein) and tsr (serine chemoreceptor) genes of E. coli K-12. A detailed genetic analysis of this region has provided a singular example of how E. coli becomes adapted to novel nutritional sources by the recruitment of a catabolic cassette. Furthermore, the presence of the pac gene in the proximity of the 4-HPA cluster suggests that the penicillin G acylase was a recent acquisition to improve the ability of E. coli W to metabolize a wider range of substrates, enhancing its catabolic versatility. Five repetitive extragenic palindromic sequences that might be involved in transcriptional regulation were found within the cluster. The complete 4-HPA cluster was cloned in plasmid and transposon cloning vectors that were used to engineer E. coli K-12 strains able to grow on 4-HPA. We report here also the in vitro design of new biodegradative capabilities through the construction of a transposable cassette containing the wide substrate range 4-HPA hydroxylase, in order to expand the ortho-cleavage pathway of Pseudomonas putida KT2442 and allow the new recombinant strain to use phenol as the only carbon source.
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PMID:Molecular characterization of the 4-hydroxyphenylacetate catabolic pathway of Escherichia coli W: engineering a mobile aromatic degradative cluster. 855 Apr 3


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