UMLS:C0847097 - FACTA Search

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Query: UMLS:C0847097 (acidity)
15,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

For comparative studies on the esterase activities of thrombin and trypsin N(alpha)-arylsulfonyl-L-arginine methyl esters were synthetised containing in aromatic ring substituents of different polar nature, size and hydrophobicity. The kinetics of their hydrolysis by thrombin and trypsin were measured. Values of Km and kcat in steady-state conditions were determined. It was shown, that thrombin-catalysed hydrolysis was more sensitive than that of trypsin to the nature of substituents of arylsulfonyl group and determined by their polar and steric effects. A line correlation between specificity constants (kcat/Km) and sigma and Es of substituents were demonstrated. The difference in reactivity of compounds under investigation is suggested to depend on alterations of stability of hydrogen bond between arylsulfonylamide nitrogen atom of substrate and the active center of the enzyme due to changes in the acidity of the arylsulfonylamide group affected by substituent of the benzene ring.
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PMID:[Dependence of thrombin- and trypsin-catalyzed hydrolysis of N-alpha-arylsulfonyl-L-arginine methyl esters on the structure of acylamide part of substrates]. 2 Sep 97

The effect of the nutrient medium and cultivation conditions on the chitin content in cell walls of mycelial fungi of the Penicillium genus was studied. The chitin accumulation was influenced by the composition and quantity of carbon and nitrogen sources, acidity of the medium, aeration rate and age of the culture. The highest content of chitin in the strains studied was no more than 4--5%. The paper discusses the potential use of the fungi P. digitatum 24 P, P. notatum 1 f, P. terikowskii and P. claviforme as protein producers. It describes the procedure for measuring chitin in cell walls of mycelial fungi.
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PMID:[Chitin of mycelial fungi of the genus Penicillium]. 72 66

The so-called fungus Cladosporium resinae that often occurs in oil fuels ane increases their acidity grows well at the expense of n-alkanes from C11 to C16. On the n-alkane containing media the fungus grows slowly and only under the stationary conditions. During the fungal cultivation on the media containing n-dodecane or kerosene the culture liquid shows acetic acid and other fatty acids, ketoacids (pyruvic and alpha-ketoglutaric) as well as citric and isocitric acids that dominate among nonvolatile acids. Upon nitrogen deficiency in the medium and comparatively good aeration the content of citric acids increases. The culture liquid of the fungus devoid from the mycelium and nonutilized n-alkanes can be used a a nutrient medium for different microorganisms.
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PMID:[Formation of organic acids by the fungus Cladosporium resinae in media containing n-alkanes]. 116 4

The association between total daily mortality and air pollution was investigated for a 1-year period (September 1985 through August 1986) in St. Louis and in the counties in eastern Tennessee surrounding Kingston/Harriman. The purpose of this study was to evaluate the relative importance of various measures of particulate and gaseous air pollution as predictors of daily mortality. Concentrations of inhalable particles (PM10), fine particles (PM2.5), the elemental composition of these particles, and aerosols acidity were measured daily during the period of study. The effect of each air pollutant on daily mortality was estimated after controlling for meteorologic and seasonal influences. Total mortality in St. Louis was found to increase 16% (95% CI-1 to 33%) for each 100 micrograms/m3 increase in PM10, and by 17% (95% CI-12 to 57%) in eastern Tennessee. Positive but progressively weaker associations were found with PM2.5, sulfate, and aerosol acidity concentrations in both communities. Associations with gaseous pollutants--sulfur dioxide, nitrogen dioxide, and ozone--were all far from statistical significance. Because of the short monitoring period for daily particulate air pollution, the power of this study to detect associations was limited. Nevertheless, statistically significant associations with PM10 were found in St. Louis, and, more importantly, the estimated effects were consistent between the two communities studied and with other reported analyses of the effects of particles on daily mortality. These data suggest that the acidity of particles is not as important in associations with daily mortality as the mass concentrations of particles.
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PMID:Air pollution and daily mortality: associations with particulates and acid aerosols. 146 89

Group I strains of Clostridium botulinum are known to degrade arginine by the arginine deiminase pathway. We have found that C. botulinum Okra B consumed a level of arginine (20 g/liter) higher than the basal requirement for growth (3 g/liter). Arginine was probably the preferred source of nitrogen for biosynthesis but did not serve as a major source of energy. Citrulline and proline were produced as major fermentation products in media containing high levels of arginine, but in media with basal amounts of arginine these products were produced in lower quantities during growth and were later reassimilated. The results indicate that C. botulinum Okra B changes its metabolism during consumption of surplus arginine, and this change is associated with toxin repression, formation of citrulline and proline as end products, and possibly resistance to environmental stresses such as increased acidity and osmolarity.
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PMID:Roles of arginine in growth of Clostridium botulinum Okra B. 163 70

The acid-base properties of the nucleic base residues of ITP, GTP, and ATP, and for comparison also as far as possible of the corresponding nucleosides, were studied in dependence on their concentration, i.e. on the effect of self-association. From the dependence between the 1H-NMR chemical shifts of H-2 (where applicable), H-8, and H-1', and the pD of the solutions, the acidity constants for the deprotonation of the D+(N-7) site in D2(ITP)2-, D2(GTP)2-, D(Ino)+, and D(Guo)+, and of the D+(N-1) site in D2(ATP)2- and D(Ado)+ were calculated. Chemical shift/pD profiles for a whole series of varying concentrations of the nucleic base derivatives (= N) were constructed, including those for infinite dilution (delta o), which give the acidity constant for the monomeric N, and for infinitely concentrated solutions (delta infinity), which give the acidity constant of an N in an infinitely long stack. The acidity constants determined from the delta o/pD plots are in excellent agreement with the pKa values measured by potentiometric pH titrations of highly diluted solutions of N. The effects of self-association are striking; e.g. the pKa value of the D+(N-7) site in D2(GTP)2- is lowered by about 1 (as calculated from the delta o/pD and delta infinity/pD profiles), while the pKa value of the D+(N-1) site in D2(ATP)2- is increased by approximately 0.3; i.e. in the first case deprotonation is facilitated and in the second it is inhibited. The increasing inhibition of the H+(N-1) deprotonation with an increasing ATP concentration is due to the high stability of the dimeric [H2(ATP)]2(4-) stack for which the intermolecular H+(N-1)/gamma-P(OH)(O)2- ion pairs between the two ATP molecules are crucial. In those cases where no other significant interaction but aromatic-ring stacking in the self-association process occurs, the release of protons from protonated nitrogen-ring sites is facilitated with increasing stacking; this holds not only for D2(GTP)2- as indicated above, but also for D2(ITP)2-, D(Ino)+, and D(Ado)+. The latter example especially suggests that the situation for the D2(ATP)2- system is exceptional. Some consequences of the considered acid-base properties for biological systems are indicated.
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PMID:Acid-base properties of nucleosides and nucleotides as a function of concentration. Comparison of the proton affinity of the nucleic base residues in the monomeric and self-associated, oligomeric 5'-triphosphates of inosine (ITP), guanosine (GTP), and adenosine (ATP). 186 51

Rats were concurrently exposed to mixtures of ozone or nitrogen dioxide and respirable-sized aerosols of sulfuric acid, ammonium sulfate, or sodium chloride, or to each pollutant individually. Their responses to such exposures were evaluated by various quantitative biochemical analyses of lung tissue or lavage fluids, or by morphometric analyses. Such studies were performed in the acute time frame, generally involving exposures of from one to nine days, depending on the assays used. Correlations between the biochemical and morphometric results were examined over a wide range of pollutant concentrations in the exposure chambers. Good correlations were found between the most sensitive biochemical indicators of lung damage--the protein content of lung lavage fluid or whole lung tissue and the rate of lung collagen synthesis--and the morphometric estimation of volume density or volume percent of the centriacinar lung lesion characteristically observed in animals exposed to ozone. Synergistic interaction between ozone and sulfuric acid aerosol was demonstrated to occur at environmentally relevant concentrations of both pollutants by several of the analytical methods used. Such interactions were demonstrated at concentrations of ozone as low as 0.12 parts per million (ppm)2 and of sulfuric acid aerosol at concentrations as low as 5 to 20 micrograms/m3. The acidity of the aerosol is a necessary (and apparently a sufficient) condition for such a synergistic interaction between an oxidant gas and a respirable aerosol to occur. A hitherto unexpected synergistic interaction between nitrogen dioxide and sodium chloride aerosol was found during these studies; it is hypothesized that this was due to formation of their acidic (anhydride) reaction product, nitrosyl chloride, in the chambers during exposure to the mixture. Preliminary experiments treating exposed animals in vivo with various free-radical scavengers suggested that dimethylthiourea, a hydroxyl-radical scavenger, might be protective against effects of ozone on rat lungs. This observation might have mechanistic implications, but further studies will be necessary to determine the significance of these findings.
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PMID:Synergistic effects of air pollutants: ozone plus a respirable aerosol. 201 83

Experimental variables affecting the daughter-ion spectra of a series of protonated peptides [MH]+, produced by fast-atom bombardment ionization, using a low energy (0-450 eV) quadrupole collision cell are investigated. The parameters studied include target gas pressure, collision energy, cross-sectional area and acidity of the target gas. The results show that low-mass immonium ions are preferentially formed both at high collision energies (greater than 200 eV) and at target gas pressures greater than 10(-6) mBar (where multiple collisions occur in the gas cell). Positive fragment ion abundance is maximized when acidic gases are used as the target gases, and this is rationalized on the basis of a proton-transfer reaction from the target gas to the amide nitrogen of the peptide bond promoting fragmentation.
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PMID:Effect of different target gases on low-energy collision-activated dissociation of peptides. 213 46

Acid fog is complex and contains multiple stimuli that may be capable of inducing bronchoconstriction. These stimuli include sulfuric and niric acids, the principal inorganic acids present; sulfites, formed in the atmosphere as a reaction product of sulfur dioxide and water droplets; fog water itself, a hypoosmolar aerosol; the organic acid hydroxymethanesulfonate, the bisulfite adduct of formaldehyde; and gaseous pollutants, e.g., sulfur dioxide, oxides of nitrogen, ozone. Given this complexity, evaluation of the respiratory health effects of naturally occurring acid fog requires assessment of the bronchoconstrictor potency of each component stimulus and possible interactions among these stimuli. We summarize the results of three studies that involve characterization of the bronchoconstrictor potency of acid fog stimuli and/or their interaction in subjects with asthma. The results of the first study indicate that titratable acidity appears to be a more important stimulus to bronchoconstriction than is pH. The results of the second study demonstrate that sulfite species are capable of inducing bronchoconstriction, especially when inhaled at acid pH. The results of the third study suggest that acidity can potentiate hypoosmolar fog-induced bronchoconstriction.
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PMID:Potential bronchoconstrictor stimuli in acid fog. 253 89

The relationship between nonlipid formula components and fat absorption in newborns is largely uninvestigated. Two formulas of identical fat blend but different protein quality and acid-base properties were fed to two groups of babies from birth and during 3-5 d balance periods in the third week of life. Babies receiving a formula of higher acidity containing predominantly curd protein absorbed a significantly lower percentage of their fat and nitrogen intake than babies receiving a curd-and-whey protein formula (fat absorptions of 73 +/- 11.0 and 85 +/- 8.0%, means +/- SD, p less than 0.04; N absorptions of 90 +/- 3.0 and 93 +/- 1.0%, p less than 0.03, respectively). The feces of the curd-formula babies contained a smaller proportion of long-chain, saturated fatty acids and a larger proportion of shorter-chain and unsaturated fatty acids. Fatty acid type and triglyceride structure are not the only factors influencing fat absorption in newborns. Other formula components may need modification to achieve maximum fat absorption.
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PMID:Nonlipid formula components and fat absorption in the low-birth-weight newborn. 291 12

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