Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.21 (beta-glucosidase)
 3,280 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Methods are described for the rapid detection of beta-D-glucosidase and phosphatase in mycoplasma cultures using fluorogenic 4-methylumbelliferone substrates. These methods were applied to a selection of mycoplasma cultures and were compared with the conventionally used tests for these enzymes. Results were similar by both methods, but the fluorogenic tests could be read after 1 h, whereas the conventional tests took several days.
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PMID:Rapid biochemical tests for characterization of the Mycoplasmatales. 19 17

The activities of alpha- and beta-glucosidase, beta-galactosidase and beta-N acetylglucosaminidase were assessed at acidic pH by fluorimetry using the appropriate 4-methylumbelliferyl substrate in four Mycoplasma species (M. pneumoniae, M. gallisepticum, M. hominis and M. capricolum) and in Acholeplasma laidlawii. The glycosidase activities were in a low range (0.1-4.2 nmole per h per mg protein) with the exception of higher activities of beta-N-acetylglucosaminidase in A. laidlawii. The enzyme levels of a virulent and a nonvirulent strain of M. pneumoniae were comparable. Despite the very sensitive assay, neuraminidase activity was not detected in M. pneumoniae and M. gallisepticum. No induction of alpha-glucosidase could be demonstrated for M. pneumoniae or A. laidlawii. At least part of the glycosidase activities was localized in the membrane fraction of all mycoplasmas studied. This may support the hypothesis that pathogenic mycoplasmas, being membrane parasites, may modify, by their glycosidases, some host cell glycoconjugates. However, our study did not distinguish the pathogenic mycoplasmas to possess a characteristic glycosidase profile.
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PMID:Glycosidase activities of mycoplasmas. 211 90

To understand the molecular mechanisms of damages appearing in biological membranes in the process of cellular aging, changes in the rate of catabolic processes in Mycoplasma cells have been studied. This study has revealed that the aging of Acholeplasma laidlawii culture is accompanied by a decrease in the activity of such catabolic enzymes as DNA-ase, RNA-ase, cathepsin D and beta-glucosidase. A considerable increase in the duration of the half-life of membrane proteins has been registered, which is indicative of a decrease in their turnover rate. The electrophoretic separation of membrane proteins has revealed essential changes in their properties. Such decline in the functional activity of the plasma membrane of Mycoplasma cells at the stationary phase is probably due to the inactivation of membrane enzymes and to the decreased rate of their turnover.
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PMID:[Dependence of membrane protein turnover in Mycoplasma cells on the age of the culture]. 311 36

The enzyme-gold approach was applied for ultrastructural localization of glucoside residues in animal and plant tissues. A beta-glucosidase-gold complex was prepared and used on thin tissue sections to reveal the corresponding substrate molecules by electron microscopy. Conditions for preparation of the complex, as well as for its application, were determined. Once applied on thin tissue sections, the glucosidase-gold complex yielded labeling over the rough endoplasmic reticulum, mainly on the ribosomal side of the membranes, and over the dense chromatin in the nucleus. Mitochondria, Golgi apparatus, and secretory granules in liver and pancreatic cells were free of gold particles. In plant cells, the labeling pattern was similar. In addition, the stroma regions of chloroplasts were densely labeled. In the extracellular space, labeling was found over the basal laminae of cells in animal tissues and over the fibrillar wall material bordering the intercellular space in plant tissues. Fungal cell cytoplasm was also labeled, as well as the membrane delineating mycoplasma-like organisms. Control conditions confirmed these labelings, demonstrating the possibility of revealing glucoside residues on tissue sections with high resolution and specificity.
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PMID:Ultrastructural localization of glucoside residues on tissue sections by applying the enzyme-gold approach. 311 63

Complement-fixing activity of a T strain of Mycoplasma was found to be associated with its lipid components. Heat stability and lability of periodate and beta-glucosidase treatments led to the conclusion that complement-fixing, active lipids had carboydrate determinants. Periodate treatment of chromatographic fractions of a chloroform-methanol extract showed that only antigens contained in the acetone fraction were periodate labile. Lipids also appeared to be involved in the passive hemagglutination, since the lipid fraction active in complement fixation also combined and blocked the action of antibodies which agglutinated sensitized erythrocytes with strain P108.
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PMID:Serological activity of lipids of a T strain of Mycoplasma. 413 42

The biosynthesis of cholesteryl glucoside by Mycoplasma gallinarum strain J proceeds by the transfer of glucose from uridine-5'-diphosphoglucose to membrane-bound sterol. Galactose also can be coupled to cholesterol via uridine-5'-diphosphogalactose. The reaction is specific for the uridine-5'-diphospho sugars. Enzymatic activity is associated with the membrane. Treatment of the membrane to remove endogenous sterol inactivates the enzyme. Only sterol which has been bound to the membrane participates in the reaction. The optimum pH is about 8.0, and Mg(2+) is required. The reaction is unaffected by nucleotide triphosphate, uridine-5'-monophosphate, and uridine-5'-diphosphate. Reduction of pH to the optimum for beta-glucosidase in the membrane results in loss of synthesized glucoside. The enzyme is saturated at 0.5 mm uridine-5'-diphosphoglucose. The apparent K(m) of 2.05 x 10(-7) indicates a high affinity of the enzyme for the nucleotide sugar.
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PMID:Biosynthesis of cholesteryl glucoside by Mycoplasma gallinarum. 513 38