UMLS:C0009443 - FACTA Search

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Query: UMLS:C0009443 (cold)
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Proline-requiring mutants of Saccharomyces cerevisiae were isolated. Each mutation is recessive and is inherited as expected for a single nuclear gene. Three complementation groups cold be defined which are believed to correspond to mutations in the three genes (pro1, pro2, and pro3) coding for the three enzymes of the pathway. Mutants defective in the pro1 and pro2 genes can be satisfied by arginine or ornithine as well as proline. This suggests that the blocks are in steps leading to glutamate semialdehyde, either in glutamyl kinase or glutamyl phosphate reductase. A pro3 mutant has been shown by enzyme assay to be deficient in delta 1-pyrroline-5-carboxylate reductase which converts pyrroline-5-carboxylate to proline. A unique feature of yeast proline auxotrophs is their failure to grown on the rich medium, yeast extract-peptone-glucose. This failure is not understood at present, although it accounts for the absence of proline auxotrophs in previous screening for amino acid auxotrophy.
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PMID:Isolation and preliminary characterization of Saccharomyces cerevisiae proline auxotrophs. 37 40

The direction and capacity for the metabolism of delta1-pyrroline-5-carboxylate in a number of rat tissues ere investigated by measuring the activities of delta1-pyrroline-5-carboxylate reductase, delta1-pyrroline-5-carboxylate dehydrogenase and proline oxidase. Each of these enzymes catalyzed unidirectional reactions in which delta1-pyrroline-5-carboxylate was either the substrate or product. Delta1-Pyrroline-5-carboxylate reductase activities that were much higher than any previously reported were obtained by avoiding its inactivation in the cold. delta1-Pyrroline-5-carboxylate dehydrogenase, previously said to act on both D- and L-isomers of delta1-pyrroline-5-carboxylate, acted only on the L-isomer. Proline oxidase could not be measured in two adult tissues, in which an inhibitor appeared after birth. The activity of delta1-pyrroline-5-carboxylate reductase significantly paralleled that of ornithine aminotransferase in 23 tissues, showing a widespread potential for proline synthesis from ornithine. An independently distributed potential in fewer tissues for proline degradation to alpha-oxoglutarate was shown by the significantly similar tissue distributions of proline oxidase. Delta1-pyrroline-5-carboxylate dehydrogenase and glutamate dehydrogenase. Reverse metabolism of glutamate or proline to ornithine would be atypical in rat tissues with these distributions of unidirectional enzyme reactions.
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PMID:Enzymes metabolizing delta1-pyrroline-5-carboxylate in rat tissues. 90 23

The levels of 11 enzymes, most of them involved in the metabolism of ornithine, were measured in whole upper intestine, or in duodenum, small intestine and colon of adult rats. The developmental formations in small intestine of arginase, ornithine aminotransferase, and ornithine transcarbamylase were compared with those in liver. Changes with age (late gestation of adult) of the intestinal activities of pyrroline-5-carboxylate reductase, proline oxidase and glutamyl transpeptidase are also described. The results suggest that the proximal part of the intestine is well endowed with enzymes involved in the conversion of ornithine to proline as well as to citrulline. Fetal intestine is rich in proline oxidase and pyrroline-5-carboxylate reductase. The peak levels of ornithine aminotransferase found in intestine in the first 3 postnatal weeks were higher than seen in any other rat tissue. Some of the properties of arginase, ornithine aminotransferase and pyrroline-5-carboxylate reductase in small intestine were compared with those in liver. Isozymes of arginase in small intestine differed from those in liver; the kinetic properties of ornithine aminotransferase were similar in the two tissues. In intestine of 14-day-old rats, the ornithine aminotransferase reaction was reversible, forming ornithine from pyrroline-5-carboxylate. The intestinal pyrroline-5-carboxylate reductase was cold-labile as was the hepatic enzyme in rat.
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PMID:Enzymes of ornithine metabolism in adult and developing rat intestine. 127 71

The metabolism of L-canavanine and L-canaline were investigated in larvae of the tobacco budworm, Heliothis virescens [Noctuidae]. H. virescens larvae were treated with L-[1,2,3,4-14C]canavanine or L-[U-14C]canaline with sufficient cold carrier to provide 5 mg g-1 canavanine or a molar equivalent of canaline (3.81 mg g-1). The preponderant catabolite in both canavanine- and canaline-treated larvae was [14C]homoserine. Other minor metabolites derived from canavanine included [14C]aspartate/asparagine, [14C]glutamate/glutamine, [14C]2-aminobutyrate, [14C]ornithine, [14C]proline, and [14C]isoleucine. Canaline yielded [14C]glutamate/glutamine, [14C]aspartate/asparagine, and [14C]-2-aminobutyrate. Our current studies support the belief that this destructive insect tolerates L-canavanine and L-canaline because of its ability to reductively cleave these potentially insecticidal natural products to L-homoserine and guanidine or ammonia, respectively.
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PMID:Metabolism of L-canavanine and L-canaline in the tobacco budworm, Heliothis virescens [Noctuidae]. 178 52

Aeromonas hydrophila manifested itself since its discovery in 1891 as a pathogen of cold-blooded and warm-blooded animals and man. Aeromonads cause intestinal and non-intestinal disease. The genus Aeromonas comprises: A. hydrophila, A. sorbria, A. caviae, A. veronii, A. schubertii, i.e. mesophilie species and as to psychrophilie immobile species. A. salmonicida and A. media. For warm-blooded animals and man mesophilie motile species are important as pathogens. A. veronii is an ornithine-decarboxylase positive species, A. schubertii is mannitol-negative, A. caviae is non-haemolytic and VP-negative. It is difficult to differentiate. A. hydrophila with aerogenic and anaerogenic strains from A. sobria. Several practical differential diagnostic tests were suggested by Janda et al. and Joseph et al.: hydrolysis of esculine, KCN, arabinose and salicin are usually positive in A. hydrophila, in A. sobria usually negative. Existing species of mesophilie aeromonads, however, do not correspond to some strains which are found. Therefore Arduino et al. divided their aeromonads into DNA-hybridization groups: for A. hydrophila there were 5, for A. caviae 2 and for A. sobria 1 hybridization group. Biochemisal characteristics corresponded to the hybridization groups. For isolation of aeromonads from faeces selective media with ampicillin must be used and possibly enrichment in alkaline peptone water. Evidence of pathogenity factors is similar as in E. coli,: detection of adhesins and enterotoxin or cytotoxin by means of tests commonly used in cholera and E. coli. The types of adhesins are differentiated by means of fucose- galactose- and mannose resistant haemagglutination.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The Aeromonas genus]. 182 21

Eflornithine [2-(difluoromethyl)-DL-ornithine monohydrochloride, monohydrate; DFMO] is an ornithine decarboxylase inhibitor used to treat Pneumocystis carinii pneumonia (PCP) in AIDS patients unresponsive or intolerant to conventional drug therapy. A reversed-phase HPLC method utilizing precolumn dansylation is described which permits the analysis of DFMO in serum of AIDS patients in support of pharmacokinetic studies. Norvaline (2-amino valeric acid) was added as the internal standard and the sample was extracted with three portions of ice-cold 80% ethanol. The supernatants were evaporated in a vacuum oven at 50 degrees C, and the residue was dissolved in base and derivatized at 25 degrees C for 4 h in the dark using dansyl chloride in acetone. Dilute base was then added and 25 to 50 microL was injected into the HPLC. Chromatography was performed on a C-8, 15-cm column with a linear gradient from a 95:5 solution of 10 mM pH 4 acetate buffer and THF, to a 90:10 solution of acetonitrile and THF over a period of 28 min. Detection was by UV at 330 nm, and DFMO and norvaline eluted at 14.7 and 17.7 min, respectively. The method was linear over a range of 5 to 950 micrograms/mL, and replicate analyses of a 25-micrograms/mL control specimen produced a between-run coefficient of variation of 6%. No interferences were encountered in a variety of patient and normal serum blanks.
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PMID:High-pressure liquid chromatographic analysis of eflornithine in serum. 249 39

Ornithine decarboxylase (ODC) activity, the first and generally rate-limiting enzyme for polyamine synthesis, is stimulated in permanent focal cerebral ischaemia in areas of incomplete ischaemia which are developing ischaemic brain oedema. As polyamines are ubiquitous ornithine-derived molecules which are obligatory in cold-induced vasogenic oedema, we studied the effect of transient dense cerebral ischaemia with reperfusion on ischaemic oedema development and ODC activity. Fifty-nine Mongolian gerbils were anaesthetized with ketamine hydrochloride (160 mg/kg i.p. plus supplementation as needed). Both common carotid arteries were isolated and a tracheotomy placed in position. EEG was monitored with needle electrodes and temperature maintained at 37-38 degrees C. Twenty-nine gerbils underwent 40 min of bilateral carotid artery occlusion followed by reperfusion times of 10 min, 1, 2, 4, 6 or 8 h. Non-ischaemic control groups were monitored for equal intervals. At sacrifice, the brain was rapidly removed and forebrain samples analysed for ODC activity (enzymatic assay) and cerebral oedema (gravimetric determination). Marked loss of EEG amplitude was noted in all gerbils subjected to bilateral carotid artery occlusion. Ischaemia produced significant levels of cortical oedema throughout the reperfusion period (maximal decrease in specific gravity at 4 h postischaemia; control: 1.0456 +/- 0.0013; ischaemia: 1.0355 +/- 0.0021, mean +/- SD; p less than 0.0001). Significant subcortical oedema was produced at 10 min, 2 and 4 h postischaemia. A biphasic response was observed in brain ODC activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Brain ornithine decarboxylase activity following transient cerebral ischaemia: relationship to cerebral oedema development. 290 81

L-Ornithine was shown to inhibit the development of cytolytic T lymphocytes (CTL) in mixed lymphocyte cultures (MLC). Lymphokines were unable to reverse the suppressive effect, and cytotoxic activity was not revealed by coupling ornithine-inhibited MLC cells to target cells with phytohemagglutinin (PHA). If addition of ornithine to MLC were delayed, sensitivity of CTL to inhibition was reduced after 24 hr and lost by 48 hr. Suppression of CTL development was not due to a toxic effect. MLC washed free of ornithine after 3 days produced detectable cytolytic activity within 24 hr of secondary culture, and to the same degree as the uninhibited MLC control within 48 hr. Cytotoxic cells generated in secondary cultures were Lyt-2+, did not kill the natural killer-sensitive YAC-1 cell line, and were shown to be antigen-specific by virtue of the findings that cytolysis and cold target inhibition were observed only with cells carrying the original, inducing H-2 haplotype. Cytolysis of target cells by normal CTL effector cells was not inhibited by L-ornithine. MLC depleted of accessory cells so that CTL activation was dependent upon addition of lymphokines remained susceptible to inhibition by ornithine. Our findings indicate that in the ornithine-inhibited MLC, CTL precursors undergo clonal expansion, but their maturation is arrested at a precytolytic stage. L-Arginine and putrescine also suppressed generation of CTL in primary MLC, and cells recovered from arginine- and putrescine-inhibited MLC developed control levels of CTL within 48 hr of secondary culture. Inhibition by putrescine was observed in tissue culture medium supplemented with human serum but not with fetal calf serum, presumably due to the presence of diamine oxidase activity in fetal calf serum. Similar to ornithine, the suppressive effects of arginine and putrescine on T lymphocytes were apparently selective for CTL because they did not inhibit mitogen activation with concanavalin A or the production of interleukin 2 and interleukin 3. These findings are consistent with a hypothesis that the inhibitory effects of ornithine, arginine, and putrescine are mediated by polyamines, and exerted on the differentiative stage of CTL development.
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PMID:Inhibition of cytolytic T lymphocyte maturation with ornithine, arginine, and putrescine. 295 52

In the presence of citrulline synthesis, we made the following observations. External ornithine is channeled between its transporter and ornithine transcarbamylase; mitochondria preloaded with cold ornithine, then incubated with [3H]ornithine, produced citrulline of the same specific radioactivity as that of external ornithine, while matrix ornithine remained essentially unlabeled. The channeling of ornithine suggests that some soluble enzymes are organized within the mitochondrial matrix. The rate of ornithine transport can be greater than 80 nmol/min/mg. At rates of carbamyl phosphate synthesis of 10-50 nmol/min/mg, the rate of citrulline synthesis is controlled by external ornithine in the range 0.03-0.2 mM; at greater than or equal to 0.2 mM ornithine, transport is not limiting for citrulline synthesis. At external ornithine concentrations less than or equal to 1 mM, i.e. within the physiological range, this amino acid is undetectable in the matrix. Given the rates of citrulline and urea synthesis which occur in vivo and the concentrations of ornithine present in the liver, our findings indicate that ornithine may contribute to the physiological regulation of urea synthesis. Preliminary reports of parts of this work have been published (Raijman, L., Cheung, C-W., and Cohen, N. S. (1984) Fed. Proc. 43, 1831; Cohen, N. S., Cheung, C-W., and Raijman, L. (1986) Fed. Proc. 45, 2677).
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PMID:Channeling of extramitochondrial ornithine to matrix ornithine transcarbamylase. 309 38

1. Protoplasts of Saccharomyces cerevisiae N.C.Y.C. 366 were prepared by incubating washed exponential-phase cells in buffered mannitol (0.8m) containing 10mm-magnesium chloride and snail gut juice (about 8mg. of protein/ml. of reaction mixture). Protoplast membranes were obtained by bursting protoplasts in ice-cold phosphate buffer (pH7.0) containing 10mm-magnesium chloride. 2. Protoplast membranes accounted for 13-20% of the dry weight of the yeast cell. They contained on a weight basis about 39% of lipid, 49% of protein, 6% of sterol (assayed spectrophotometrically) and traces of RNA and carbohydrate (glucan+mannan). 3. The principal fatty acids in membrane lipids were C(16:0), C(16:1) and C(18:1) acids. Whole cells contained a slightly greater proportion of C(16:0) and a somewhat smaller proportion of C(18:1) acids. Membrane and whole-cell lipids included monoglycerides, diglycerides, triglycerides, sterols, sterol esters, phosphatidylcholine, lysophosphatidylcholine, phosphatidylethanolamine and phosphatidylinositol+phosphatidylserine. Phosphorus analyses on phospholipid fractions from membranes and whole cells showed that membranes contained proportionately more phosphatidylethanolamine and phosphatidylinositol+phosphatidylserine than whole cells, which in turn were richer in phosphatidylcholine. Phospholipid fractions from membranes and whole cells had similar fatty acid compositions. 4. Membranes and whole cells contained two major and three minor sterol components. Gas-liquid chromatography, mass spectrometry and u.v. and i.r. spectra indicated that the major components were probably Delta(5,7,22,24(28))-ergostatetraen-3beta-ol and zymosterol. The minor sterol components in whole cells were probably episterol (or fecosterol), ergosterol and a C(29) di-unsaturated sterol. 5. Defatted whole cells contained slightly more glutamate and ornithine and slightly less leucine and isoleucine than membranes. Otherwise, no major differences were detected in the amino acid compositions of defatted whole cells and membranes.
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PMID:Composition of the protoplast membrane from Saccharomyces cerevisiae. 566 54

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