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

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Query: CAS:7440-44-0 (Carbon)
10,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The growth of the fetal guinea pig was studied in 32 fetuses in 12 litters, ranging from 39 days gestation to full term (67 days). The wet weight of the fetus was well approximated by an exponential function of gestational age (GA) in days [fetal weight (g) = 0.993 e(0.068 X GA), r = 0.94]. Dry weight increased more rapidly than wet weight [dry weight (g) = 0.039 e(0.102 X GA); r = 0.97], resulting in an increase in percent dry weight from approximately 10% at 40 days gestation to 30% at term. Fat content increased even more rapidly than dry weight [body fat (g) = 0.00123 e(0.136 X GA), r = 0.97], accounting for 33% of dry weight and 11.7% of wet weight at term. Using bomb calorimetric projections of caloric value of 9.3 kcal X g fat-1 X day-1 and 4.6 kcal X g nonfat dry wt-1 X day-1, we estimate that growth of the fetal guinea pig requires 220 kcal X kg fetal wt-1 X day-1 near term. Carbon and nitrogen contents of the fetus increased at different rates, reflecting the changes in fat and nonfat tissues. Amino acids contributed 80% of total body nitrogen and 41% of total body carbon near term. Cysteine concentrations increased and lysine concentrations decreased with gestational age; the concentrations of the other measured amino acids did not change with gestational age. These studies represent the first systematic study of the chemical growth of the fetus in a nonhuman species.
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PMID:Growth of fetal guinea pig: physical and chemical characteristics. 396 46

Low plasma levels of branched-chain amino acids, leucine, isoleucine, and valine are postulated to play an etiologic role in hepatic encephalopathy. Supplementation is advocated to reverse encephalopathy and improve nutritional status and survival. We measured in vivo leucine metabolism in normal individuals (n = 5) and in two groups of patients with cirrhosis (n = 8) with a primed continuous infusion of L-[15N, 1-13C] leucine to quantitate the following parameters of leucine metabolism: nitrogen and carbon fluxes, oxidation, contribution to protein synthesis, breakdown of endogenous protein to leucine, deamination and reamination to/from ketoisocaproate. Studies were performed in the fasting and fed states with a conventional enteral diet (Propac) and a branched chain-enriched diet (one third Propac plus two thirds Hepatic-Aid). In vivo leucine metabolism was similar in the fasting and fed states in normal individuals in patients with cirrhosis and with both diets when studied at a protein intake of 0.6 gm/kg ideal body weight/day. When fed these diets, oxidation increased (p less than 0.05) and breakdown decreased (p less than 0.05). The Hepatic-Aid diet increased (p less than 0.05) nitrogen and carbon fluxes significantly more than did the standard diet. Four additional patients with cirrhosis on a diet with more protein were studied (0.75 gm/kg ideal body weight/day). Carbon and nitrogen fluxes, oxidation, synthesis, and deamination were increased (p less than 0.05) when patients with cirrhosis were fed the Propac diet compared with those who fasted. The Hepatic-Aid diet further increased (p less than 0.05) all parameters except synthesis and did not decrease protein breakdown. These data show that patients with cirrhosis metabolize leucine in vivo in a manner identical to that of normal subjects and that leucine-enriched formulas increase oxidation to CO2 without improving protein synthesis.
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PMID:In vivo measurement of leucine metabolism with stable isotopes in normal subjects and in those with cirrhosis fed conventional and branched-chain amino acid-enriched diets. 403 63

The antibiotic fosfomycin was produced as a secondary metabolite in a glucose-asparagine medium containing citrate, l-methionine, and l-glutamate. The citrate requirement for antibiotic synthesis was related to its requirement for growth. In contrast, l-methionine and l-glutamate caused a marked stimulation of fosfomycin production and had no effect on growth. l-Methionine had to be added early to effect maximal antibiotic synthesis later in the fermentation. The l-glutamate requirement was not specific, since several tricarboxylic acid cycle intermediates could replace this amino acid. l-Asparagine was the most effective nitrogen source for growth and production of fosfomycin. Glycine, an alternate nitrogen source, supported fosfomycin synthesis only when added in excess of that needed for growth. Cobalt and inorganic phosphate were required also for antibiotic production at concentrations exceeding those supporting maximal growth. Radioactive incorporation studies showed that the methyl carbon of methionine was the precursor of the methyl of fosfomycin. Carbon 1 of fosfomycin was derived from glucose carbons 1 and 6, whereas glucose-2-(14)C labeled fosfomycin carbon 2. Radioactivity from acetate-2-(14)C was distributed equally between fosfomycin carbons 1 and 2. No incorporation of acetate-1-(14)C, asparagine-U-(14)C, citrate-1,5-(14)C, or glutamate-U-(14)C occurred. The labeling pattern of fosfomycin carbons 1 and 2 was similar to that found in 2-aminoethylphosphonate from Tetrahymena.
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PMID:Biosynthesis of fosfomycin by Streptomyces fradiae. 484 Apr 28

Neurospora crassa possesses an inducible L-amino acid oxidase that is expressed only when cells are derepressed for nitrogen in the presence of an amino acid. Enzyme synthesis requires both induction by an amino acid and simultaneous nitrogen catabolite derepression. Carbon limition in the presence of an amino acid does not permit induction of L-amino acid oxidase. The nit-2 gene is a major regulatory locus which is believed to mediate nitrogen catabolite repression in Neurospora. Mutants of nit-2 are repressed for L-amino acid oxidase activity under conditions which lead to good enzyme induction in wild type and nit-2 revertants. The loss of the enzyme in nit-2 mutants does not result from inducer exclusion, which suggests that the nit-2 gene product has a direct role in controlling the expression of this enzyme. Substantial amounts of L-amino acid oxidase were detected in the growth medium as well as in cell extracts of the wild type strain. Biochemical data indicates that the intracellular and the extracellular L-amino acid oxidases are identical. Inhibitors of protein and of RNA synthesis block accumulation of L-amino acid oxidase, suggesting that enzyme expression is controlled at the level of transcription. D-amino acid oxidase can be detected in cell extracts of Neurospora grown in the presence of a D-amino acid. The enzyme is present in cys-3 mutants and is not repressed by high concentrations of sulfate or nitrogen indicating that D-amino acid oxidase is not a member of the sulfur or nitrogen regulatory circuits of this organism.
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PMID:Regulation of L-amino acid oxidase and of D-amino acid oxidase in Neurospora crassa. 612 72

Neurospora crassa possesses an inducible L-phenylalanine ammonia-lyase that is expressed only when cells are derepressed for nitrogen in the presence of L-phenylalanine. Enzyme synthesis requires both induction by L-phenylalanine and simultaneous nitrogen catabolite derepression. Carbon limitation in the presence of phenylalanine does not elicit induction of L-phenylalanine ammonia-lyase. Specific induction by L-phenylalanine is required, and other amino acids completely failed to induce any lyase activity. The nit-2 gene is a major regulatory locus which is believed to mediate nitrogen catabolite repression in Neurospora. Mutants of nit-2 fail to express any phenylalanine ammonia-lyase activity under conditions of derepression and induction which lead to good enzyme induction in the wild type and in nit-2 revertants. The loss of lyase activity in nit-2 mutants does not result from inducer exclusion, which suggests that the nit-2 gene product has a direct role in controlling the expression of this enzyme. Substantial amounts of the enzyme were detected in the growth medium as well as in cell extracts. Inhibitors of protein synthesis or RNA synthesis block the induction of L-phenylalanine ammonia-lyase, suggesting that expression of this enzyme is controlled at the level of transcription.
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PMID:Regulation of L-phenylalanine ammonia-lyase by L-phenylalanine and nitrogen in Neurospora crassa. 621 Jun 88

In this survey we describe the influence of hydrogen oxidation on the physiology of Rhizobium ORS 571. The presence of hydrogen is required for the synthesis of hydrogenase. Carbon substrates do not repress the synthesis of hydrogenase. The respiratory system contains cytrochromes of the b- and c-type. Cytochrome alpha 600 is present after growth at high oxygen tensions. The nature of the terminal oxidases functioning at low oxygen tensions has not been established yet----H+/O values with endogenous substrates are between 6 and 7. The results show the presence of two phosphorylation sites: site 1 (ATP/2e = 1.0) and site 2(ATP/2e = 1.33). By measuring molar growth yields it has been demonstrated that carbon-limited, nitrogen-fixing cultures obtain additional ATP from hydrogen oxidation, and that site 2 of oxidative phosphorylation is passed during hydrogen oxidation. A method is described to calculate ATP/N2 values (the total amount of ATP used by nitrogenase during the fixation of 1 mol N2) and H2/N2 ratios (mol hydrogen formed per mol N2 fixed) in aerobic organisms. For Rhizobium ORS 571 the ATP/N2 value is about 40 and the H2/N2 ratio is between 5 and 7.5. Cells obtained from oxygen-limited nitrogen-fixing cultures contain 30-40% poly-beta-hydroxybutyrate, which explains the high molar growth yields found. Hydrogen has not been detected in the effluent gas of these cultures, which may point to reoxidation of the hydrogen formed at nitrogen fixation. Calculations show that the effect of hydrogen reoxidation on the efficiency of nitrogen fixation (g N fixed X mol-1 substrate converted) is not very large and that the actual H2/N2 ratio is of much more importance. After addition of hydrogen to succinate-limited, ammonia-assimilating cultures, an initial increase of the Ysuccinate value (g dry wt X mol-1 succinate) is followed by a gradual decrease. This is accompanied by a large decrease of the YO2 value, and an increased permeability of the cytoplasmic membrane to protons. The results may be explained by a transition of the culture from an energy-limited state to a carbon-limited state.
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PMID:Hydrogen oxidation and nitrogen fixation in rhizobia, with special attention focused on strain ORS 571. 639 31

Four randomly selected male Wistar rats were placed in separate metabolic chambers containing torqued Wahmann activity wheels. Quantitative collection of expired CO2, feces, and urine were carried out and the Carbon-Nitrogen balance technique was used to determine the changes in body composition of exercised animals during sequential, 48-hour periods. The behavioral contigency significantly increased running performance and weight gain. The weight of all body compartments, with the exception of body fat, increased significantly. Increased exercise significantly increased heat production. Sufficient data were gathered to permit discussion of individual animals and their adaptations and responses to the running contingencies.
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PMID:A test of the carbon-nitrogen balance technique to measure body composition of exercising animals. 643 42

It is generally thought that the Universe started with a big explosion (Big Bang) approximately 15 billion years ago. Hydrogen and helium were formed within the first few minutes, while all the other chemical elements are the by-products of stellar evolution that are added to the interstellar medium through the supernova explosions of the larger stars. Carbon, Oxygen, Hydrogen and Nitrogen, which constitute about 98% of the biomass of the Earth, are also among the most abundant chemical elements in the Universe. A seemingly unique combination of the fundamental laws and constants of the Universe made possible the origin and subsequent slow evolution of life.
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PMID:Life-related aspects of stellar evolution. 646 79

Carbon-13 spin-lattice relaxation times, T1, have been measured for aqueous solutions of L-aspartic acid, L-alanine, O-phospho-L-serine, and 2-mercapto-L-succinic acid in the presence of the paramagnetic metal ions, Cu2+ and Mn2+, and Mg2+ as a diamagnetic control, at ambient temperature and neutral pH. Nitrogen-15, oxygen-17 and proton relaxation times were also obtained for L-aspartic acid and phosphorus-31 relaxation times for O-phospho-L-serine under similar conditions. The structures of these complexes in solution were determined from the various metal ion-nuclei distances calculated from the paramagnetically-induced relaxation. These results indicate that the Cu2+ interaction with L-aspartic acid is through alpha-amino and beta-carboxyl groups while Mn2+ coordinates most strongly through alpha- and beta-carboxyl groups, with the possibility of a weak interaction through the amino group. An examination of the coordination of these divalent metal ions to an analog of L-aspartic acid in which the beta-carboxyl group is replaced by a phosphate group (O-phospho-L-serine) indicated that Cu2+ coordination is now probably through the alpha-amino and phosphate groups, while this analog is a monodentate ligand for Mn2+ coordinating through the phosphate group. Removal of the beta-carboxyl group (L-alanine) also results in Cu2+ coordination through the alpha-carboxyl and alpha-amino groups, and the same ligand interactions are observed with Mn2+. Replacement of the alpha-amino group of L-aspartic acid with an -SH group (2-mercapto-L-succinate) is sufficient to eliminate any specific coordination with either Cu2+ or Mn2+.
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PMID:A multinuclear NMR relaxation study of the interaction of divalent metal ions with L-aspartic acid. 649 55

The utilization of L-proline as carbon or nitrogen source for the growth of Escherichia coli K12 requires the activities of an L-proline porter (PP-I) and a bifunctional L-proline dehydrogenase-delta1-pyrroline carboxylate dehydrogenase. PP-I is inactivated by mutations at putP and the bifunctional dehydrogenase is encoded in the adjacent locus, putA, at 22 min on the chromosome map. Two additional loci, proP (at 92 min) and proT (at 82 min), have also been implicated in L-proline transport. We have studied four ColE1/E. coli K12 hybrid plasmids from the plasmid bank prepared by Clarke and Carbon. Each of these plasmids was shown previously to complement an L-proline transport defect in E. coli. Genetic complementation analysis and biochemical assays of L-proline transport and L-proline dehydrogenase activity show that three of these hybrid plasmids bear the putPA region of the E. coli chromosome (plasmids pLC4-45, pLC10-29, and pLC43-41). The fourth plasmid, pLC35-38, specifically enhances the L-proline transport activity of its host bacteria but not their L-proline dehydrogenase activity. It probably encodes putP. We have used these plasmids in an E. coli minicell system to identify the putA and putP gene products.
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PMID:Amplification of the put genes and identification of the put gene products in Escherichia coli K12. 700 56


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