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: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A new method for the determination of guanase is described. Xanthine, the product of the guanase reaction, is oxidized by xanthine oxidase, forming uric acid and hydrogen peroxide. Hydrogen peroxide is further reduced to water by catalase in the presence of ethanol. The acetaldehyde formed in this reaction step is dehydrogenated NAD or NADP dependent by aldehyde dehydrogenase. The NADH or NADPH production is measured and utilized for the calculation of the guanase activity. The sensitivity of the method can be doubled by the addition of uricase, which oxidizes uric acid to permit the formation of another mole of hydrogen peroxide.
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PMID:A new spectrophotometric assay for enzymes of purine metabolism. II. Determination of guanase activity. 48 57

In vitro kinetic studies of the reaction of hydralazine with acetaldehyde at physiological concentrations and pH were conducted. This reaction, which leads to the formation of 3-methyl-S-triazolo[3,4-a]phthalazine, may occur in the plasma and may represent an alternative pathway for hydralazine metabolism. The reaction of hydralazine with acetaldehyde followed second-order kinetics with an activation energy of 16.9 kcal/mole. At 37 degrees, the half-life of the reaction for a colution containing 2.3 microgram of acetaldehyde/ml and 1 microgram of hydralazine/ml was 4.5 hr. The rate increased with increasing acetaldehyde concentrations.
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PMID:Kinetic studies of hydralazine reaction with acetaldehyde. 51 56

To understand the role that tetrahydroisoquinoline formation may play in alcoholism and drug toxicology, high-performance liquid chromatography with electrochemical detection was used to monitor the overall rate of reaction, in pH 7.4 buffer, between the catecholamines (dopamine, alpha-methyldopamine, dihydroxyphenylpropanolamine, deoxyepinephrine, levodopa, alpha-methyldopa, epinephrine, levarterenol, ans isoproterenol) and acetaldehyde. The observed overall rate of reaction varied from 0.38 to 0.0013 liter/mole sec. In addition, the reaction rate of the neurotransmitter dopamine was measured for various aldehydes (formaldehyde, acetaldehyde, glyoxylic acid, paraldehyde, malonaldehyde, glyceraldehyde, and chloral hydrate). The observed overall rate of reaction varied from 5.3 to 0.0011 liters/mol sec. Penicillamine prevented formation of the tetrahydroisoquinoline alkaloids when initially present in concentrations equal to or greater than the aldehyde concentration.
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PMID:High-performance liquid chromatographic assay of isoquinoline alkaloid formation from reaction of biogenic amines and aldehydes. 61 97

1. A method of measuring the permeability of the pancreas by determining the apparent reflexion coefficient (sigmaA) is described, in the isolated pancreas secreting maximally under the influence of secretin. The principle is to add a non-electrolyte to the perfusate which will create an osmotic gradient (RTsigmadeltaC) counter to that of active transport and reduce the secretion rate. This is compared with the effect of an equal concentration (0.1 M) of sucrose (RTdeltaC; sigma = 1). The apparent reflection coefficient is obtained by dividing the percentage reduction in the secretion rate due to the test molecule with that due to sucrose. 2. Sucrose when added to the perfusate inhibits pancreatic secretion. For every 10 mM increase in sucrose concentration, the secretion rate was inhibited by 7.1%. It has been estimated that an osmotic gradient of 131 m-osmole/kg water will cause zero flow rate. This is a measure of the pressure required to counteract the local osmotic gradient set up by active transport, it is equivalent to about 3.4 atm. 3. Non-electrolytes with molecular volumes greater than about 85 cm3 mole-1 are relatively impermeable, below this value they enter the pancreatic juice with increasing ease as the molecular volume decreases. 4. SigmaA for a number of compounds has been measured: urea 0.17; ethanediol 0.27; thiourea 0.51; glycerol 0.69; creatinine 0.81; erythritol 0.91; arabinose 0.96; xylose 0.98; sorbitol 0.98. 5. The addition of non-electrolytes to the perfusate had effects on pancreatic secretion which were a function of sigmaA. For molecules with sigmaA lying between 0.81 and 1.0 an osmotic load of 0.1 M increased both the concentration of sodium plus potassium and the concentration of chloride plus bicarbonate by about 50 m-mole/l. Whereas the cation change is almost exclusively one of sodium that of the anions was preferentially an increase in chloride. For compounds with sigmaA lying between 0 and 0.81 the concentration of sodium plus potassium was proportional to sigmaA. 6. A number of compounds have been described which inhibit pancreatic secretion, other than by an osmotic effect. These include acetaldehyde, thioglycerol, nicotinamide, ribose, dihydroxyacetone, and glyceraldehyde. 7. It is concluded that the pancreas is more permeable than the gall-bladder of rabbit, fish and bullfrog, the proximal tubule of the kidney of rat and the small intestine of bullfrog, but is probably similar to that of small intestine of guinea-pig and man.
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PMID:The permeability of the secretin stimulated exocrine pancreas to non-electrolytes. 65 May 9

A reinvestigation of the aqueous decomposition of N-(2-chloroethyl)-N-nitrosoureas has shown that their mode of decomposition is dependent upon whether or not the solution is buffered at or near physiological pH. In distilled water, the 2-chloroethyl compounds decompose with the loss of 1 mol, or slightly less, of chloride ion per mole in nitrosourea and the formation of acetaldehyde and 3-4% of 2-chloroethanol. In buffer, the yield of 2-chloroethanol increases to 0.3-0.6 mol per mole of nitrosourea, the yield of chloride ion decreases to 0.5 mol per mole of nitrosourea, and the yield of acetaldehyde decreases to 0.1-0.4 mol per mole of nitrosourea. Evidence for the formation of the vinyl cation, a possible precursor of acetaldehyde, in these reactions is presented. In contrast to the results obtained with the N-(2-chloroethyl)-N-nitrosoureas, the decomposition of N,N'-bis(2-fluoroethy)-N-nitrosourea in distilled water gave almost 1 mol of 2-fluoroethanol per mole of nitrosourea and only 0.04 mol of acetaldehyde per mole of nitrosourea.
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PMID:Decomposition of N-(2-chloroethyl)-N-nitrosoureas in aqueous media. 115 69

Cystathionamine and lanthionamine are good substrates for lentil seedlings amine oxidase. One mole of hydrogen peroxide and one mole of ammonia per mole of substrate are produced, indicating that only one amino group is oxidized to aldehyde. The aminoaldehydes so originated undergo cyclization by intramolecular Schiff base formation. The pH optimum for the oxidation of either cystathionamine or lanthionamine is 7.0 in potassium phosphate buffer. The Km values are 0.61 and 0.84 mM respectively, similar to that for cystamine (0.8 mM).
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PMID:Oxidation of cystathionamine and lanthionamine by lentil seedlings amine oxidase. 129 Apr 66

We have shown previously that acetaldehyde forms stable covalent adducts with tubulin, resulting in impaired microtubule formation. The present study explored the mechanism responsible for impaired microtubule formation caused by the substoichiometric stable binding of acetaldehyde to tubulin. The free tubulin dimer was much more reactive with acetaldehyde than microtubules, binding more than twice as much aldehyde. The dimer also formed nearly twice as many stable adducts on its alpha-chain as on its beta-chain, whereas microtubules exhibited an equal distribution of adducts between the two subunits. These data confirm that the alpha-chain of free tubulin, but not microtubules, has an accessible highly reactive lysine (HRL) residue that is a preferential target of acetaldehyde binding. Adduct formation with the HRL residue also correlated with impaired tubulin polymerization, and only 0.08 moles of acetaldehyde bound per mole of HRL was required for complete inhibition; however, adducts with other lysine residues (bulk adducts) did not affect assembly. Adducts to microtubule-associated proteins (MAPs) also impaired the assembly of tubulin, but were much less effective than HRL adducts. In a copolymerization assay, HRL-adducted tubulin, in addition to being itself assembly incompetent, also interfered with polymerization of normal (unadducted) tubulin. Bulk adducts did not alter assembly and were incorporated normally into the growing polymer. When tubulin was cleaved by the proteolytic enzyme, subtilisin, microtubule formation could readily take place in the absence of MAPs. In this polymerization system, HRL adducts, but not bulk adducts, still markedly inhibited assembly. When low concentrations of acetaldehyde (50 microM) were used to generate HRL adducts, an adduct on only 1 out of 20 tubulin molecules was sufficient to totally block polymerization. These findings indicate that substoichiometric amounts of acetaldehyde bound to HRL of tubulin can markedly inhibit microtubule formation via direct interference of dimer-dimer interactions, and further suggest that low concentrations of acetaldehyde could generate sufficient amounts of HRL adducts in cellular systems to alter microtubule formation and function.
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PMID:Substoichiometric inhibition of microtubule formation by acetaldehyde-tubulin adducts. 163 40

The eosinophilia-myalgia syndrome was first reported from New Mexico, USA, in 1989. Since then, there have been further reports from the USA, Canada and Europe. Patients with the eosinophilia-myalgia syndrome present with myalgias, morbilliform and urticarial rash, oedema, sclerodermiform lesions, fever, pneumonia, fatigue and peripheral eosinophilia (greater than 1,000/mm3). The ultimate cause is postulated to be a contamination produced by Bacterium amyloliquefaciens during the production of L-tryptophan by genetic engineering techniques. HPLC analysis revealed that the causative agent was a condensation product of 1 mole acetaldehyde and 2 moles tryptophan. Clinical and laboratory findings of the eosinophilia-myalgia syndrome, Shulman syndrome and toxic-oil syndrome are discussed.
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PMID:[Eosinophilia-myalgia syndrome]. 205 61

Reaction of aldose reductase (ALR2) from pig muscle with pyridoxal 5'-phosphate (pyridoxal-P) and other lysine modifying reagents resulted in activation of the enzyme. The activation by pyridoxal-P showed pH and concentration dependence that was prevented by incubation with NADPH and various cofactor analogues but not by the aldehyde substrate. Spectral analysis of the reaction showed characteristic peaks associated with Schiff's base formation between a lysine amino group and the aldehyde of pyridoxal-P. Subsequent reduction produced spectra characteristic of a phosphopyridoxyllysine bond. Phosphopyridoxyllysine was isolated by amino acid analysis of modified ALR2. Determination of the stoichiometry of bound phosphopyridoxyllysine indicated one mole of pyridoxal-P per mole of enzyme under conditions that produced maximal activation. A single [3H]phosphopyridoxyllysine containing peptide was isolated by high performance liquid chromatography after enzymatic cleavage of the modified enzyme. This 34 residue peptide exhibited considerable sequence homology to the region comprising residues 242 to 275 of human liver ALR1 and a similar region in rat lens ALR2, human muscle ALR2 and human placental ALR2. The activation of ALR2 via formation of a Schiff's base suggests a possible mechanism of activation of the enzyme in vivo by glucose.
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PMID:Enhancement of aldose reductase activity by modification of an active site lysine: a possible mechanism for in vivo activation. 211 50

A heterobifunctional linking reagent containing a masked aldehydo group and acyl hydrazide was synthesized for coupling of glycopeptides and other amino-containing compounds to proteins. After conversion to acyl azide, the reagent reacts with the amino group of a glycopeptide, and the modified glycopeptide is deacetalized with a weak acid to unmask the aldehydo group, which is then conjugated to bovine serum albumin (BSA) by reductive alkylation with pyridine-borane. The overall reaction scheme proceeds under relatively mild conditions. When the protein amino group was in a large excess (greater than 6-fold) of the aldehyde reagent, the efficiency of conjugation was as high as 88% even at submicromole levels. As a test case for application of this reagent, 6-aminohexyl beta-D-galactopyranoside (Gal-AH) was attached to the linking reagent and conjugated to BSA at various aldehyde-to-protein molar ratios ranging from 25 to 200. The level of O-galactosyl residue incorporated into BSA by this reagent far exceeded that observed in a similar reductive alkylation involving S-galactoside reagents [Lee, R. T., & Lee, Y. C. (1980) Biochemistry 19, 156-163]. By use of the present conjugating procedure, as many as 112 mol of Gal-AH residues were incorporated per mole of BSA, which represents near total modification of the amino groups. Some binding characteristics of the new BSA derivatives were studied in the mammalian hepatic galactose/N-acetylgalactosamine specific lectin system along with other types of BSA derivatives (containing S-galactosyl residues). In general, the behavior of the new derivatives was similar to that of other types. For instance, the affinity increased exponentially at low sugar substitution levels (up to 30 mol of galactosyl residues/mol of BSA), and the slope of exponential increase and affinity at a given sugar substitution level was similar to those of other types.
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PMID:Efficient coupling of glycopeptides to proteins with a heterobifunctional reagent. 247 Apr 4


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