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)

The fungus Aspergillus terreus 17P--producer of cellulolytic enzymes--was cultivated in the Biotec 10 l fermenter on the medium containing minced and heated (at 200 degrees) wheat straw aerated with a different rate. At the mixing rate of 350 rpm and aeration rate of 0.7 r/rpm on the fourth day the culture liquid was obtained whose filtrate contained an active complex of cellulolytic enzymes and xylanase: CI--3.4; APB--1.1, Cx--35.7, cellobiase--0.23, xylanase--73.8 units/ml. The fractionation of the culture liquid filtrate with ammonium sulphate showed that the fraction precipitated at an interval of saturation of 0.3--0.7 contained the largest portion of cellulolytic enzymes and xylanase. The isolated enzymic preparations had a cellulolytic and xylanase activity and contained lipase, pectinase, laminarinase. They also contained low quantities of amylase, protease, beta-1,4- and beta-1,6-glucanase. Enzymic hylrolysis by the Asp. terreus 17P preparation of straw yielded glucose and xylose, of cotton, Na-KMC, cellobiose--glucose, Xylane hydrolyzate contained xylose and arabinose.
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PMID:[Biosynthesis of cellulolytic enzymes and xylanase during submerged cultivation of the fungus Aspergillus terreus 17P]. 10 86

Most cellulosic substances contain appreciable amounts of cellulose and hemicellulose, which on enzymatic hydrolysis mainly yield a mixture of glucose, cellobiose, and xylose. In this paper, studies on the mechanisms of hydrolysis of bagasse (a complex native cellulosic waste left after extraction of juice from cane sugar) by the cellulase enzyme components are described in light of their adsorption characteristics. Simultaneous adsorption of exo- and endoglucanases on hydrolyzable cellulosics is the causative factor of the hydrolysis that follows immediately after. It supports the postulate of synergistic enzyme action proposed by Eriksson. Xylanase pretreatment enhanced the hydrolysis of bagasse owing to the creation of more accessible cellulosic regions that are readily acted upon by exo- and endoglucanases. The synergistic action of the purified exoglucanase, endoglucanase, and xylanse has been found to be most effective for hydrolysis of bagasse but not for pure cellulose. Significant quantities of glucose are produced in beta-glucosidase-free cellulase action on bagasse. Individual and combined action of the purified cellulase components on hydrolysis of native and delignified bagasse are discussed in respect to the release of sugars in the hydrolysate.
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PMID:Studies on the mechanism of enzymatic hydrolysis of cellulosic substances. 10 3

The induced beta-D-glucosidase from Stachybotrys atra hydrolyzes aryl beta-D-glucopyranosides and aryl beta-D-xylopyranosides by the same basic two-step mechanism. In the first step the aglycon group is split of with simultaneous formation of an enzyme-glycosyl complex. In the second step this intermediate complex reacts with water yeilding beta-D-glucose or beta-D-xylose. For beta-D-xyloside hydrolysis each of the two steps is partially rate-controlling, whereas for beta-D-glucoside hydrolysis the second step is rate-limiting. The enzyme is inhibited by high concentrations of substrate and the exact rate-concentration equation is a second-order equation. 1-Thio-beta-D-glycopyranosides with an aromatic aglycon inhibit the reaction in both a competitive and non-competitive way. A tentative mechanism is proposed to explain all types of inhibition. In this mechanism substrates and inhibitors with an aromatic aglycon group bind through hydrophobic forces to the 'aglycon subsite' of the intermediate enzyme-glycosyl complex. Binding of the second substrate molecule or of the inhibitor to this complex does not prevent the reaction of the glycosyl moiety with water, it only decreases the rate of the second step.
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PMID:Hydrolysis of aryl beta-D-glucopyranosides and beta-D-xylopyranosides by an induced beta-D-glucosidase from Stachybotrys atra. 11 8

The beta-glucosidase of Mucor racemosus was shown to be synthesized when the organism was grown in the presence of such diverse carbon sources as glycerol, lactate, xylose, ribose, alpha-methylglucoside, alpha-phenylglucoside, maltose, and cellobiose. Enzyme synthesis was strongly repressed in the presence of hexoses. In addition, exogenous cyclic adenosine 3',5'-monophosphate (cAMP) resulted in enzyme repression. When cAMP was added exogenously after enzyme activity had accumulated, a reversible enzyme inactivation occurred. Growth on disaccharides (maltose or cellobiose) was severely retarded in the presence of cAMP, whereas that on glucose remained unaffected. The results indicate a probable role for cAMP in control of glucosidase synthesis in Mucor.
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PMID:Control of beta-glucosidase synthesis in Mucor racemosus. 23 21

Piromyces sp. strain E2, an anaerobic fungus isolated from an Indian elephant (hindgut fermenter) was tested for its ability to ferment a range of substrates. The fungus was able to use bagasse, cellobiose, cellulose, fructose, glucose, lactose, mannose, starch, wheat bran, wheat straw, xylan and xylose. Formate and acetate were the main fermentation products after growth on these substrates. The amount of carbon found in the fermentation products of cultures, in which substrate digestion was complete averaged 88.5 mM, or 59% of the carbon offered as substrate. No growth was observed on other substrates tested. Lactose, starch, cellobiose and filter paper cellulose were good inducers of cellulolytic and xylanolytic enzymes. Cellulolytic and xylanolytic enzymes were produced constitutively by Piromyces strain E2, although enzyme activities were generally lower after growth on glucose and other soluble sugars. Complex substrates (bagasse, wheat bran, and wheat straw) were good inducers for xylanolytic enzymes but not for cellulolytic enzymes. The extracellular protein banding pattern after SDS-PAGE was therefore only slightly affected by the growth substrate. Identical beta-glucosidase and endoglucanase activity patterns were found after growth on different substrates. This indicated that differences in enzyme activities were not the result of secretion of different sets of isoenzymes although it remains possible that the relative amount of each isoenzyme produced is influenced by the growth substrate.
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PMID:Production of cellulolytic and xylanolytic enzymes during growth of the anaerobic fungus Piromyces sp. on different substrates. 152 5

Second-crop, mixed grass-legume forage was ensiled in four bunker silos either untreated or after application at the forage harvester of an enzyme mixture containing cellulase, xylanase, cellobiase, and glucose oxidase, a commercial inoculant, or both additives combined. Sixteen multiparous midlactation Holstein cows in a 4 x 4 Latin square design received each silage in a 50:50 forage: concentrate diet to determine effects of silage additives on milk production and composition. Enzyme treatment reduced silage pH, concentrations of xylose and total sugars, and concentration and proportion of cell-wall arabinose. Titratable acidity, buffering capacity, concentration of residual water-soluble carbohydrate, and digestibility of DM in vitro were increased, and levels of silage structural carbohydrates were reduced. Inoculation, both alone and in the combined treatment, reduced silage pH compared with control, but inoculation alone was more effective than the combination. Enzyme treatment increased DMI and production of milk, FCM, SCM, milk protein, and milk SNF. The two silage additives were antagonistic when combined and did not improve silage fermentation, nutritional value, or animal performance, and enzyme degradation of forage structural carbohydrates was reduced. Inoculation also reduced silage aerobic stability. Combination of enzyme systems with inoculants requires careful evaluation to avoid antagonistic interactions.
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PMID:Effects of an enzyme mixture, an inoculant, and their interaction on silage fermentation and dairy production. 156 68

High-pressure liquid chromatography and microcalorimetry have been used to study the thermodynamics of the hydrolysis reactions of a series of disaccharides. The enzymes used to bring about the hydrolyses were: beta-galactosidase for lactulose and 3-o-beta-D-galactopyranosyl-D-arabinose; beta-glucosidase for alpha-D-melibiose; beta-amylase for D-trehalose; isomaltase for palatinose; and alpha-glucosidase for D-turanose. The buffer used was sodium acetate (0.02-0.10 M and pH 4.44-5.65). For the following processes at 298.15 K: lactulose(aq) + H2O(liq) = D-galactose(aq) + D-fructose(aq), K0 = 128 +/- 10 and delta H0 = 2.21 +/- 0.10 kJ mol-1; alpha-D-melibiose(aq) + H2O(liq) = D-galactose(aq) + D-glucose(aq), K0 = 123 +/- 42 and delta H0 = -0.88 +/- 0.50 kJ mol-1; palatinose(aq) + H2O(liq) = D-glucose(aq) + D-fructose(aq), delta H0 = -4.44 +/- 1.1 kJ mol-1; D-trehalose(aq) + H2O(liq) = 2 D-glucose(aq), K0 = 119 +/- 10 and delta H0 = 4.73 +/- 0.41 kJ mol-1; D-turanose(aq) + H2O(liq) = D-glucose(aq) + D-fructose(aq), delta H0 = -2.68 +/- 0.75 kJ mol-1; and 3-o-beta-D-galactopyranosyl-D-arabinose(aq) + H2O(liq) = D-galactose(aq) + D- arabinose(aq),0H0 = 107 +/- 10 and delta H0 = 2.97 +/- 0.10 kJ mol-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thermodynamics of hydrolysis of disaccharides. Lactulose, alpha-D-melibiose, palatinose, D-trehalose, D-turanose and 3-o-beta-D-galactopyranosyl-D-arabinose. 187 72

Phenotypic characteristics of 100 strains pertaining to the group of mesophilic aeromonas isolated in feces of patients with diarrhea (23 A. hydrophila, 34 A. sobria, 19 A. caviae, and 24 considered atypical because produced a the negative esculin reaction and a positive gas formation from glucose [TSI]). The percentages obtained in the different biochemical tests support the hypothesis that in this group there is a taxonomic complexity. We observed variations in the following tests: LDC, arabinose, Voges-Proskauser, lactose, and motility and hemolytic activity. We compared manual and automatic procedures in detecting esculinase and beta-galactosidase activity (ONPG). The study of constitutional enzymatic activity by means of API ZYM system can not be used to differentiate the distinct species although the enzyme beta-glucosidase is detected preferentially in A. hydrophila.
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PMID:[Phenotypic characteristics of 100 strains belonging to the mesophilic aeromonas group isolated from feces]. 190 54

1. A soluble beta-glucosidase from sheep liver has been isolated and purified 114-fold by conventional enzyme fractionation procedures. The specific activity of the purified enzyme was 5910 mU/mg of protein. 2. The enzyme has a broad specificity and hydrolyzes the p-nitrophenyl derivatives of beta-D-glucose, beta-D-galactose, beta-D-fucose, beta-D-xylose and alpha-L-arabinose. The best Vmax/Km value corresponds to the beta-glucosidase activity. 3. The enzyme has a pH optimum between 4.5-5.5 for all the activities, and mol. wt 95,000. 4. A variety of chemicals was tested as possible activators or inhibitors. 5. The enzyme is strongly inhibited by aldono 1-5 lactones and DMDP. 6. The kinetic evidences suggest a substrate activation model and the existence of two active sites (a "gluco-fuco" site and a "galacto" site). 7. The activation energies were calculated from beta-glucosidase and beta-galactosidase activities.
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PMID:Purification and characterization of a broad specificity beta-glucosidase from sheep liver. 250 2

Proteins from the culture filtrates of Thermoascus aurantiacus grown on paper were found to hydrolyze larchwood xylan completely to form xylose and 4-O-methyl-alpha-D-glucuronic acid. Partial hydrolysis of xylan by a xylanase purified from the culture filtrates resulted in the formation of neutral xylooligosaccharides of dp from 2 to 6 and acidic xylooligosaccharides of dp from 5 to 8. Each of these acidic sugars contained a single molecule of 4-O-methyl-alpha-D-glucuronic acid as a branch. Extensive hydrolysis of these oligosaccharides or xylan by xylanase led to the isolation of xylose, xylobiose, and an aldotetrauronic acid as terminal products. The structure of the aldotetrauronic acid was established by NMR as (2(2)-O-alpha-D,4-O-methyl-alpha-D-glucurono)-xylotriose. A beta-glucosidase, also purified from the culture filtrates, hydrolyzed xylan and the neutral or the acidic xylooligosaccharides from the nonreducing end to release only xylose. Neither xylanase nor beta-glucosidase hydrolyzed the beta-(1----4) linkage between the xylose carrying the branch and the adjacent xylose residue on each side.
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PMID:Degradation of larchwood xylan by enzymes of a thermophilic fungus, Thermoascus aurantiacus. 250 63

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