Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Naphthol AS D chloroacetate esterase (NASDCE)-positive macrophages are positioned in the cortico-medullary zone (CMZ) of the normal rat thymus. These cells contain the very strongly NASDCE-positive granules of varying size in the cytoplasm. An identical distribution within the thymic parenchyma and an identical morphological appearance is observed in CMZ macrophages after staining with aldehyde fuchsin. The incubation of thymic sections in 10% formalin at pH 7.0 for 48 h does not inhibit the activity of NASDCE in CMZ macrophages. The activity of nonspecific esterase is almost totally abolished by this treatment: only the single, largest globular inclusion within some of the cells remains weakly or moderately positive. The granular content of the CMZ macrophages does not stain metachromatically with toluidine blue and these cells are endogenous peroxidase-negative. NASDCE-positive thymic macrophages are easily distinguished from: a) NASDCE-positive mast-cells, which are confined to the capsular and septal connective tissue and contain densely packed metachromatic granules, and b) NASDCE-positive neutrophilic granulocytes, which have a specific morphological appearance and show very strong endogeneous peroxidatic activity.
Virchows Arch B Cell Pathol Incl Mol Pathol 1985
PMID:Naphthol AS D chloroacetate esterase-positive macrophages in the cortico-medullary zone of the normal rat thymus. 286 65

Secondary lymphoid follicles in peripheral lymphoid organs (parathymic, mesenteric and inguinal lymph nodes and spleen) from young adult Wistar rats of both sexes were studied. Different numbers of tingible body macrophages containing aldehyde fuchsin-positive cytoplasmic granules of varying size, were present in the germinal centers. An identical staining pattern to that obtained with aldehyde fuchsin in terms of the number, distribution and size of positive cells was seen after staining for succinic dehydrogenase.
Virchows Arch B Cell Pathol Incl Mol Pathol 1986
PMID:Succinic dehydrogenase activity in germinal center macrophages in peripheral lymphoid organs of the rat. 288 60

Because natural populations of Drosophila melanogaster are polymorphic for different allozymes of alcohol dehydrogenase (ADH) and because D. melanogaster is more tolerant to the toxic effects of ethanol than its sibling species D. simulans, information regarding the sensitivities of the different forms of ADH to the products of ethanol degradation are of ecological importance. ADH-F, ADH-S, ADH-71k of D. melanogaster and the ADH of D. simulans were inhibited by NADH, but the inhibition was relieved by NAD+. The order of sensitivity to NADH was ADH-F less than ADH-71k, ADH-S less than ADH-simulans with ADH-F being about four times less sensitive than the D. melanogaster enzymes and 12 times less sensitive than the D. simulans enzyme. Acetaldehyde inhibited the ethanol-to-acetaldehyde activity of the ADHs, but at low acetaldehyde concentrations ethanol and NAD+ reduced the inhibition. ADH-71k and ADH-F were more subject to the inhibitory action of acetaldehyde than ADH-S and ADH-simulans, with ADH-71k being seven times more sensitive than ADH-S. The pattern of product inhibition of ADH-71k suggests a rapid equilibrium random mechanism for ethanol oxidation. Thus, although the ADH variants only differ by a few amino acids, these differences exert a far larger impact on their intrinsic properties than previously thought. How differences in product inhibition may be of significance in the evolution of the ADHs is discussed.
J Mol Evol
PMID:Alcohol dehydrogenase polymorphism in Drosophila: enzyme kinetics of product inhibition. 314 35

Until recently the alcohol dehydrogenase of Drosophila melanogaster was thought to act only in the first step of primary alcohol oxidation, producing an aldehyde. Instead, acetic acid is the main product of a two-step process. A rapid procedure was developed for the isolation and purification of two allozymes. The thermostability of the purified enzymes was found to be very different, t 1/2 at 35 degrees C, being 45 min and 130 min for ADH-F and ADH-71k respectively. The kinetic parameters of ethanol oxidation by the two purified allozymes were determined within physiological substrate and coenzyme ranges. The use of artificial electron acceptors has a notable influence on the ethanol oxidation: the apparent Michaelis constants increase; the oxidation rate with ADH-71k increases, whereas it decreases with ADH-F. Purified ADH is shown to be able to catalyze the oxidation of acetaldehyde solely in the presence of NAD+, and PMS and MTT as artificial electron acceptors. From the kinetic data the relative in vivo oxidation rates of ethanol by both ADH allozymes were calculated. ADH-F turned out to be somewhat less effective (30%-40%) than ADH-71k. The physiological consequences of these differences are discussed.
Mol Gen Genet 1985
PMID:Dual function of the alcohol dehydrogenase of Drosophila melanogaster: ethanol and acetaldehyde oxidation by two allozymes ADH-71k and ADH-F. 315 99

One of the mutagenic byproducts associated with chlorinated humic waters and kraft pulp bleaching effluents was recently identified as 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone. This compound and several related chlorofuranones and precursors were synthesized and evaluated for direct-acting mutagenicity in Salmonella typhimurium tester strain TA100. Mutagenicity was greatest for 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone, its 5-methoxy derivative, and the precursor in their synthesis, 3-(dichloromethyl)-2,4,4-trichloro-2-butenoic acid. Several of the compounds were tested in the presence of added rat liver homogenate S9 fraction, and in all cases mutagenicity was substantially reduced. An important structural feature which may govern the mutagenic response in these instances appears to be the cis arrangement of CHCl2 and Cl substituents on a carbon-carbon double bond. These compounds may also be transformed in vitro to the same acyclic chlorine substituted alpha, beta-unsaturated aldehyde derivative, which is proposed to be the agent responsible for the observed mutagenicity.
Environ Mol Mutagen 1988
PMID:Mutagenic potency of chlorofuranones and related compounds in Salmonella. 327 97

The genes of Photobacterium leiognathi luminescence system were cloned in plasmid pUC18. Escherichia coli cells harboring a recombinant plasmid pPHL1 are luminescent. pPHL1 contains luciferase genes and genes responsible for aldehyde biosynthesis. The luminescence of Escherichia coli is subject to autoinductor regulation similar to the one existing in luminescent bacteria. The 2.7 kb fragment of Photobacterium leiognathi DNA containing the genes for alpha- and beta-luciferase subunits were cloned in pUC19.
Mol Gen Mikrobiol Virusol 1987 Aug
PMID:[Cloning and expression of genes of the luminescence system in Photobacterium leiognathi]. 368 27

The in vitro metabolism of phenelzine (2-phenylethylhydrazine) by phenobarbital-pretreated rat liver microsomes yields ethylbenzene, 2-phenylethanol, 2-phenylacetaldehyde, benzaldehyde, benzylalcohol, and toluene as metabolites. Isotopic studies demonstrate that the oxygen atom of 2-phenylethanol derives from molecular oxygen and that this alcohol is not produced by reduction of 2-phenylacetaldehyde. The rates of destruction of cytochrome P-450, accumulation of spin-trapped 2-phenylethyl radicals, and formation of ethylbenzene and 2-phenylethanol are the same for [1,1-2H]-2-phenylethylhydrazine as for the undeuterated substrate. Small primary isotope effects are observed, however, for the formation of 2-phenylacetaldehyde (kH/kD greater than 1) and benzaldehyde (kH/kD less than 1). Synthetic 2-phenylethylhydroperoxide is converted by liver microsomes to the same alcohol and aldehyde metabolites. The results indicate that the metabolism of phenelzine by rat liver microsomes proceeds primarily via the 2-phenylethyl radical.
Mol Pharmacol 1987 Feb
PMID:Free radical pathways in the in vitro hepatic metabolism of phenelzine. 380 96

Various preparatory procedures were tested to preserve the ultrastructure of the sarcoplasmic reticulum (SR) by the best possible method within frog sino-atrial muscle fibres. These procedures were: conventional aldehyde fixation with or without tannic acid, cryofracture, metallic impregnation and quick-freezing followed by freeze-substitution. Our results illustrated that, when optimally preserved, the SR architecture and ultrastructure of frog sino-atrial fibres were not fundamentally different from those described in many other vertebrate muscle fibres, particularly cardiac fibres. The three-dimensional arrangement of the SR and the structure of its main compartments were situated in a precise fashion: the peripheral SR, located close to the plasma membrane, was made of a tight network of tubules and showed typical couplings; the juxtafibrillar SR was made of a loose network of tubules, small cisternae and some tubules near Z-lines; the intermediary SR, associated with the mitochondria, was made of tubules and fenestrated cisternae. Contacts between SR and mitochondrial membranes were also studied; cryofractures revealed no special intramembrane particles at this level. Collapsed portions of the SR were found after quick-freezing. Because of its relative importance and its three-dimensional arrangement, the SR of frog sino-atrial fibres may have comparable functional significance to the SR of other cardiac muscle fibres.
J Mol Cell Cardiol 1985 Jan
PMID:Ultrastructure and architecture of the sarcoplasmic reticulum in frog sino-atrial fibres: a comparative study with various preparatory procedures. 388 16

The naturally occurring serine protease inhibitor, chymostatin, forms a hemiacetal adduct with the catalytic Ser195 residue of Streptomyces griseus protease A. Restrained parameter least-squares refinement of this complex to 1.8 A resolution has produced an R index of 0 X 123 for the 11,755 observed reflections. The refined distance of the carbonyl carbon atom of the aldehyde to O gamma of Ser195 is 1 X 62 A. Both the R and S configurations of the hemiacetal occur in equal populations, with the end result resembling the expected configuration for a covalent tetrahedral product intermediate of a true substrate. This study strengthens the concept that serine proteases stabilize a covalent, tetrahedrally co-ordinated species and elaborates those features of the enzyme responsible for this effect. We propose that a major driving force for the hydrolysis of peptide bonds by serine proteases is the non-planar distortion of the scissile bond by the enzyme, which thereby lowers the activation energy barrier to hydrolysis by eliminating the resonance stabilization energy of the peptide bond.
J Mol Biol 1985 May 05
PMID:The 1.8 A structure of the complex between chymostatin and Streptomyces griseus protease A. A model for serine protease catalytic tetrahedral intermediates. 389 18

Gunn rats have a marked deficiency in hepatic UDP-glucuronosyl transferase activity which results in hyperthyroxinemia and hyperbilirubinemia. Their thyroids show a brownish-black discoloration associated ultrastructurally with intracellular dense granules and intraluminal dense masses. In order to determine whether colloid composition and colloid proteolysis are altered in the thyroid of the Gunn rat compared with the Wistar rat, we studied the in situ resistance of thyroid proteins to in vitro proteolysis, the pattern of in vivo (125I) labeled thyroid iodoproteins and the proteolysis of isolated iodoprotein fractions in both strains of rats. For the cytochemical study, thin sections of aldehyde-fixed and plastic-embedded thyroid tissue were treated with 0.3 or 1% pronase in aqueous solution. With the low concentration of pronase, the secretory granules in C-cells and the apical vesicles in follicular cells were extensively digested in both strains of rats, whereas the colloid in the follicular lumen and the colloid droplets were only partially digested. With the high concentration of pronase, the colloid in the lumen and the colloid droplets were more markedly digested in both strains. In the presence of both concentrations of pronase, the dense granules and intraluminal dense masses were unchanged in the Gunn rats. The (125I) iodoprotein pattern was investigated 24 h after a single injection of (125I) iodide and by labeling at the isotopic equilibrium. It was found that the (125I) thyroglobulin fraction was reduced, whereas the (125I) 3-8 S fraction was increased in Gunn rats compared to Wistar rats. Pronase hydrolysis of the soluble (125I) iodine fraction showed similar pronase-resistant fractions in both strains with the single labeling procedure. At the isotopic equilibrium, the pronase resistant fraction was significantly increased in Gunn rats (Gunn 24.0 +/- 5.3%; Wistar: 13.7 +/- 3.1% of the soluble 125I) and a linear correlation was observed between the (125I) 3-8 S fraction of the soluble extract and the pronase-resistant fraction. These data suggest that iodocompounds of small molecular size and low turnover accumulate in the thyroid of the Gunn rat due to their strong resistance to in vivo hydrolysis. A local accumulation of 3-8 S iodocompounds may occur within the intracellular dense granules and intraluminal dense masses in the thyroid of Gunn rat.
Virchows Arch B Cell Pathol Incl Mol Pathol 1983
PMID:Abnormal iodoprotein distribution and resistance to proteolysis in Gunn rat black thyroid. An ultrastructural and biochemical study. 614 65


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