EC:3.2.1.21 - FACTA Search

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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)

A procedure is described for the preparation of extensively purified beta-D-glucosidase (EC 3.2.1.21) from the cytosol fraction of rat kidney. The specific activity of the beta-glucosidase in the high speed supernatant (100 000 X g, 90 min) fraction of rat kidney homogenate is 700-fold greater than that in the same fraction from heart, skeletal muscle, lung, spleen, brain or liver. beta-Glucosidase activity co-chromatographs with beta-D-galactosidase, beta-D-fucosidase, alpha-L-arabinosidase and beta-D-xylosidase activities through the last four column steps of the purification and their specific activities are 0.26, 0.39, 0.028 and 0.017 relative to that of beta-glucosidase, respectively. The specific activity of the apparently homogeneous beta-glucosidase is 115 000 nmol of glucose released from 4-methylumbelliferyl-beta-D-glucopyranoside per mg protein per h. All five glycosidase activities possess similar pH dependency (pH optimum, 6--7) and heat lability, and co-migrate on polyacrylamide disc gels at pH 8.9 (RF, 0.67). beta-Glucosidase acitivity is inhibited competitively by glucono-(1 leads to 5)-lactone (KI, 0.61 mM) and non-competitively by a variety of sulfhydryl reagents including N-ethylmaleimide, p-chloromercuribenzoate, 5,5'-dithio-bis(2-nitrobenzoic acid), and iodoacetic acid. Although the enzyme will release glucose from p-nitrophenyl and 4-methylumbelliferyl derivatives of beta-D-glucose, it will not hydrolyze xylosyl-O-serine, beta-D-glucocerebroside, lactose, galactosylovalbumin or trehalose. The enzyme consists of a single polypeptide chain with a molecular weight of 50 000--58 000, has a sedimentation coefficient of 4.41 S and contains a relatively large number of acidic amino acids. A study of the distribution of beta-glucosidase activity in various regions of the dissected rat kidney indicates that the enzyme is probably contained in cells of the proximal convoluted tubule. The enzyme is also present in relatively large amounts in the villus cells, but not crypt cells, of the intestine. The physiological substrate and function of the enzyme are unknown.
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PMID:Isolation and characterization of beta-glucosidase from the cytosol of rat kidney cortex. 0 4

1. A homologous series of beta-glcosidase (beta-D-glcoside glcohydrolase, EC 3.2.1.21), which varied in relative amounts in different preparations from cultures of similar and different age, was observed in cultures od Botryodiplodia theobromae Pat grown for 4-8 week on cotton flock (cellulose) as carbon source. 2. Aging of the purified high-molecular-weight species led to some amount of siddociation into a homolous series of lower-molecular-weight speices. 3. Rough molecular-weight estimates, by gel filtration, of the various species derived from the purifeid high-molecular-weight enzyme were 350000-3800000, 170000, 180000, 83000-87000 and 45000-47000. 4. Electron micrographs of the negatively stained 350000-380000-molecular-weight enzyme showed that the molecule is an octamer in which each roughly spherical monomer occupies a corner of a cube with each side about 7.14nm long. 5. Carboxamidomethylation of the reduced form of each molecular-weight species of the enzyme led to irreversible dissociation of the molecules into electrophoretically identical polypeptides with a moleclar weight of 10000-12000. 6. These results suggest a slow association-dissociation of the type (8n)in equilibrium 2 (4n) in equilibrium 4(2n) in equilibrium 8(n), where n is defined as the monomer. The monomer is in turn made up of four polypeptide a subunits whi-ch are non-catalytic. 7. The Michaelis constants (Km) and heat stability of the four wnzymically active molecular species derived from the purified enzyme increased with molecular complexity, whereas all four species were inhibited by glycerol (100nM) at low concentrations of substrate (o-nitrophenyl beta-D-glucopyranoside) but activated at high substrat concentrations. 8. Only the lowest-molecular-weight species (45species (45,000-47000 mol. wt.) showed substrate inhibition.
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PMID:The subunit structure of beta-glucosidase from Botryodiplodia theobromae Pat. 115 65

Maize beta-glucosidase (beta-D-glucoside glucohydrolase, EC 3.2.1.21) was incubated in the presence of SDS concentrations varying from 0.025 to 3.2% at two different pHs (5 and 8), electrophoresed through 10% SDS-polyacrylamide gels, and stained for activity. The zymogram patterns of SDS-treated samples were similar to those of untreated (control) samples. The same samples were also analyzed by native PAGE and IEF, yielding similar patterns for controls and for SDS-treated samples. However, zymogram patterns were severely distorted on IEF gels when SDS concentration of the sample medium was at or above 1.6%. These results suggest that the beta-glucosidase monomer (a 60 kD polypeptide) is either catalytically active or it re-forms dimers upon the removal of SDS during equilibration washes, since the in vivo form of the functional enzyme is thought to be a dimer. The activity of maize beta-glucosidase on SDS-gels after SDS-PAGE does not seem to be limited to this enzyme alone, because beta-glucosidases from other sources (e.g., almond, Trichoderma, and Penicillium) were also active on SDS-gels. Enzyme activity in the presence of SDS or after SDS treatment may be more common than one would expect on the basis of the conventional biochemical dictum that ionic detergents denature and inactivate enzymes. Enzyme activity in the presence of SDS and development of zymograms on SDS-gels offer new approaches to studies of enzyme structure and activity.
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PMID:Detection of beta-glucosidase activity on sodium dodecyl sulphate-polyacrylamide gels. 175 85

A beta-D-glycosidase activity was purified from mycelium of Humicola grisea var. thermoidea grown on avicel as the main carbon source. The purified enzyme was a glycoprotein and migrated as a single polypeptide band on polyacrylamide gel electrophoresis under native or denaturing conditions. The apparent molecular weight of the enzyme was estimated to be 55 kDa by gel filtration and SDS-PAGE. The enzyme was active against o-nitrophenyl beta-D-galactoside; p-nitrophenyl beta-D-glucoside, p-nitrophenyl beta-D-fucoside, lactose and cellobiose, PNP fucoside (synthetic substrate) and cellobiose (natural substrate) being the best utilized. A comparison of the properties of beta-D-galactosidase, beta-D-glucosidase and beta-D-fucosidase showed that three activities exhibited similar pH and temperature optima and the same thermostability. The hydrolysis rate of substrate mixtures suggests that the enzyme possesses a common catalytic site for all the substrates assayed.
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PMID:Beta-D-glycosidase activities of Humicola grisea: biochemical and kinetic characterization of a multifunctional enzyme. 210 72

Maize beta-glucosidase (beta-D-glucoside glucohydrolase; EC 3.2.1.21) was extracted from coleoptiles of 15 maize genotypes (3 normals, 10 nulls, and 2 hybrids) in two fractions, the soluble and the insoluble. The enzyme activity was measured spectrophotometrically in the soluble fraction and also studied on zymograms after native gel electrophoresis and isoelectric focusing. The enzyme was purified from a normal genotype by anion-exchange chromatography and preparative electrophoresis. Antisera were raised in four rabbits, and the soluble and the insoluble extracts of each genotype were analyzed for a cross-reacting material by ELISA and immunoblotting. The results showed that extracts from both the normal and the null genotypes had beta-glucosidase activity, and the activity measured spectrophotometrically was 2- to 10-fold higher in normals than in nulls. Zymograms of the null genotypes were devoid of distinct bands that were present in those of normals and hybrids from crosses between normals and nulls. Zymograms of both the normal and the null genotypes had a diffuse, smeared zone of activity at the cathodic end of native gels. A cross-reacting antigen was present in extracts of both genotypes when assayed by ELISA and a 60-kD polypeptide (beta-glucosidase monomer) was detected by four different monospecific beta-glucosidase antisera on Western blots by immunostaining. Moreover, six of seven null genotypes had a larger amount of their 60-kD polypeptide in the insoluble fraction than in the soluble fraction. These data show that both the null and the normal genotypes have similar amounts of the enzyme protein, but the enzyme occurs mostly as insoluble or poorly soluble polymers in nulls, and the monogenic inheritance reported for the null alleles of the glu locus is likely to be for a factor encoded by another locus which affects directly or indirectly the solubility of the enzyme by increasing its polymerization into large quaternary structures.
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PMID:Maize genotypes classified as null at the glu locus have beta-glucosidase activity and immunoreactive protein. 212 2

A cDNA encoding human acid beta-glucosidase (N-acylsphingosyl-1-O-beta-D-glucoside: glucohydrolase, EC 3.2.1.45) expressed catalytically active enzyme in transfected COS-1 or infected Spodoptera frugiperda (Sf9) cells. The expression plasmid p91023(B) (p91023B/Glc) and a Baculovirus (AcMNPV/Glc) containing the cDNA were constructed and used with the respective cells. By immunoblotting a glycosylated, 63-kilodalton human acid-beta-glucosidase was detected in the transfected or infected cells. A 56-kilodalton human polypeptide was obtained after complete deglycosylation with N-Glycanase. The expressed human enzymes also had partial endoglycosidase H sensitivity. The human enzyme expressed at high levels in Sf9 cells and had normal immunologic properties. With the partially purified enzyme from Sf9 cells, intact function of active site was indicated by normal kcat and Kmapp or Kiapp values for alternative substrates or potent inhibitors, respectively. The expressed enzyme was also activated normally by the negatively charged lipid, taurocholate. The results of these studies indicate that the Baculovirus expression system could provide a convenient source of normal human enzyme for structure/function investigations. In addition, this expression system should prove useful for the identification and evaluation of putative etiologic point mutations in Gaucher disease variants with kinetically altered residual enzymes.
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PMID:Expression of functional human acid beta-glucosidase in COS-1 and Spodoptera frugiperda cells. 249 77

The nucleotide sequence of the bglB gene, coding for the thermostable beta-glucosidase B of Clostridium thermocellum was determined. The coding region of 2265 bp was identified by comparison with the N-terminal amino acid sequence of beta-glucosidase B purified from Escherichia coli. The derived amino acid sequence corresponding to a polypeptide of Mr 84,100 was confirmed by sequencing of the C-terminal peptide generated by cleavage with cyanogen bromide. The protein bears no resemblance to other bacterial beta-glucosidase sequences. However, extensive regions of homology were identified between the C. thermocellum enzyme and fungal beta-glucosidases. The N-terminal homologous region contains an amino acid sequence very similar to the active site of beta-glucosidase A3 from Aspergillus wentii. The striking sequence similarities between C. thermocellum beta-glucosidase B and Kluyveromyces fragilis beta-glucosidase suggest the possibility of a genetic exchange between thermophilic anaerobic bacteria and yeasts.
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PMID:Nucleotide sequence of the Clostridium thermocellum bgIB gene encoding thermostable beta-glucosidase B: homology to fungal beta-glucosidases. 250 54

The gene for a beta-glucosidase from the extremely thermophilic bacterium Caldocellum saccharolyticum has been isolated from a genomic library and sequenced. An open reading frame identified by computer analysis of the sequence could encode a protein of Mr 54,400, which is close to the size of the polypeptide experimentally determined using maxicells. Analysis of the amino-terminal residues of the protein produced in Escherichia coli suggests that it is processed by a methionine aminopeptidase. A sequence within C. saccharolyticum DNA upstream of the beta-glucosidase gene was found to act as a promoter for expression of the thermophile gene in E. coli. The protein has been overproduced in E. coli and Bacillus subtilis where it retains its enzymatic activity and heat stability. There appears to be a single copy of the gene in Caldocellum DNA.
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PMID:Sequence structure and expression of a cloned beta-glucosidase gene from an extreme thermophile. 285 13

Extracellular cellulolytic enzymes produced by a species of Monilia could be fractionated by chromatography on SP-Sephadex, Con A-Sepharose, and cellobiose-Sepharose. These methods did not separate the beta-D-glucosidases (beta-D-glucoside glucohydrolases, EC 3.2.1.21) from the cellulases and xylanases within a single purification step. Fractionation by isoelectric focusing on a flat-bed granulated gel gave all of the beta-D-glucosidase activity in a single zone isoelectric at pH 8-9. The beta-D-glucosidase could be further purified to homogeneity by column isoelectric focusing at pH 8.0-10.5, and gel filtration on Biogel P-100. The purified beta-D-glucosidase showed optimal activity at pH 4-5 and 50 degrees, was isoelectric at pH 8.87, and had a molecular weight of 46,600. SDS-Polyacrylamide-gel electrophoresis demonstrated that the beta-D-glucosidase was not dissociated into subunits and, hence, consisted of a single polypeptide chain. The enzyme is considered a glycoprotein, as it binds to Con A-Sepharose. The beta-D-glucosidase hydrolyzed (1----2)-, (1----4)-, and (1----6)-beta-D-glucosidic linkages but not cellulose. Nitrophenyl beta-D-glucopyranosides and beta-D-xylopyranosides were also degraded. The beta-D-glucosidase was competitively inhibited by D-glucose (Ki 0.67 mM).
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PMID:Fractionation of the cellulolytic enzymes produced by a species of Monilia; purification and properties of an extracellular beta-D-glucosidase. 310 61

A beta-glucosidase has been purified from culture filtrates of the fungus Trichoderma reesei QM9414 grown on microcrystalline cellulose. The beta-glucosidase was purified using two successive DEAE-Sephadex anion-exchange chromatography steps, followed by SP-Sephadex cation-exchange chromatography and concanavalin-A--agarose chromatography. Evidence for homogeneity is provided by polyacrylamide disc gel electrophoretic patterns, which show a single protein band. Sedimentation equilibrium analysis yielded a molecular mass of 74.6 +/- 2.4 kDa. Sodium dodecyl sulfate/polyacrylamide gel electrophoresis yielded a single protein band with a molecular mass of 81.6 kDa. Thus, the enzyme appears to be a single, monomeric polypeptide. The beta-glucosidase is isoelectric at pH 8.5. The enzyme is rich in basic amino acids and contains few half-cystine and methionine residues. The purified beta-glucosidase contains less than 1% by weight of neutral carbohydrate. The beta-glucosidase catalyzes the hydrolysis of cellobiose, p-nitrophenyl beta-D-glucopyranoside and 4-methylumbelliferyl beta-D-glucopyranoside; the values of V/Km for each substrate were determined to be 2.3 X 10(4), 6.9 X 10(5) and 2.9 X 10(6) M-1 S-1 respectively. The enzyme is optimally active from pH 4.5 to 5.0 and is labile at higher hydrogen ion concentrations. The beta-glucosidase has an unusually high affinity for D-glucose (Ki = 700 microM). Comparison of inhibition constants for cello-oligosaccharides suggests that the substrate-binding region of the beta-glucosidase comprises multiple subsites.
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PMID:Purification and characterization of a beta-glucosidase from Trichoderma reesei. 310

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