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)

We isolated membrane vesicles from maize (Zea mays L.) coleoptiles and identified in these vesicles a 58 kDa (pm58) and a 60 kDa (pm60) protein by photoaffinity labelling with 5-azido-[7-3H]indole-3-acetic acid ([3H]N3IAA). Photoaffinity labelling was effectively competed for by auxins as well as by flavonoids. The labelled proteins were solubilized by Triton X-114 from the vesicles and partially purified. Microsequence analysis revealed that pm60 is a beta-glucosidase. This was confirmed by biochemical and immunological analysis. We show that pm60 has a beta-D-glucoside glucohydrolase (EC 3.2.1.21) activity. It uses p-nitro-phenyl beta-D-glucopyranoside (PNPG) as a substrate, with a pH optimum of 5.0. The Km for PNPG is 0.652 mM and the Vmax. 6.24 mumol.min-1.mg-1. The beta-glucosidase activity of pm60 was competitively inhibited by IAA and 1-naphthylacetic acid as well as by gluconolactam and glucose. N-terminal amino-acid-sequence analysis of pm58 revealed similarity to pm60, suggesting that both proteins are encoded by different members of a gene family.
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PMID:Characterization of two membrane-associated beta-glucosidases from maize (Zea mays L.) coleoptiles. 806

A novel beta-glucosidase, which is inducible and capable of catalyzing the hydrolysis of sennosides, was purified from Bifidobacterium sp. strain SEN with Triton X-100 solubilization and DEAE-cellulose column chromatography, by which hydrolytic activities toward sennoside B, 4-methylumbelliferyl beta-glucoside (MUG), and p-nitrophenyl beta-glucoside (pNPG) were obtained together in the same eluted fractions. The activity was stable against detergents such as sodium dodecyl sulfate (SDS) and Triton X-100, but was denatured by SDS and beta-mercaptoethanal when heated. The final preparation was shown to be nearly homogeneous on SDS-polyacrylamide gel electrophoresis (PAGE) either after the enzyme was denatured or when it was not denatured. In the non-denaturing SDS-PAGE, a single protein band hydrolyzed MUG on the gel. In the denaturing SDS-PAGE, the subunit mass of the enzyme was estimated to be 110 kDa. The enzyme was optimally active at pH 6.0 for hydrolysis of sennoside B and MUG. Km values for sennoside B and MUG are 0.94 and 0.53 mM, respectively. The enzyme also catalyzed the hydrolysis of pNPG, amygdalin, geniposide and salicin. It was less active against methyl beta-glucoside and incapable of hydrolyzing cellobiose. The beta-glucosidase activity was inhibited by deoxynojirimycin and p-chloromercuribenzenesulfonic acid, but was less susceptible to several metals (FeSO4, ZnCl2, and CuSO4), and 5,5'-dithio-bis(2-nitrobenzoic acid).
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PMID:Purification and characterization of a novel sennoside-hydrolyzing beta-glucosidase from Bifidobacterium sp. strain SEN, a human intestinal anaerobe. 874 79

The effect of different nonionic surfactants (Tween 80, Tween 20, Triton X-100) and polyethylene glycol (PEG 6000) was tested on cellulolytic enzyme system production. Tween 80 gave the highest yield of endoglucanase, exoglucanase, and cellobiase at the 20th day of growth, presumably by causing increased permeability of cell membranes and/or by promoting the release of cell-bound enzymes. Maximal yield of endoglucanase was achieved with 1.7 mM Tween 80, whereas exoglucanase and cellobiase were at 0.85 mM. In the same way, this compound increased fungal growth. On the other hand, Tween 20 and Triton X-100 inhibited growth and cellulolytic enzyme production. High yields of endoglucanase and exoglucanase were achieved with PEG 6000 in comparison with the control, presumably by increasing enzyme stability.
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PMID:News & Notes: Effect of Surfactants on Cellulase Production by Nectria catalinensis 882 76

Sucrase-isomaltase (SI), trehalase (T) and lactase-beta-glucosidase (LG) activities were assessed histochemically in samples of colorectal adenomas (11 tubular, 12 tubulovillous, 10 villous) and 30 adenocarcinomas obtained by biopsy during colonoscopy or from specimens removed by surgical intervention. Small samples of tumor tissue, tissue of the transitional zone and of macroscopically normal mucosa were quenched in heptan cooled in an acetone-dry ice mixture. Cryostat sections, transferred to non-precooled slides and in some cases to semipermeable membranes, were dried and subjected to the histochemical reactions for SI, T and LG. Sucrose, 2-naphthyl, 6-Br-2-naphthyl, and 5-Br-4-Cl-3-indoxyl alpha-D-glucosides, trehalose, and 5-Br-4-Cl-3-indoxyl-beta-D-fucoside were used as substrates. Sections of jejunal biopsies with normal activities of brush border glycosidases were used as controls. From samples of 5 adenomas, 5 adenocarcinomas and collected rests of jejunal biopsies with a normal finding 10% (w/vol) homogenates in 2% Triton X-100 were prepared. Homogenates were frozen and thawed 3 times and their supernatants subjected to isoelectric focusing on polyacrylamide gel plates. Zymograms were developed with the same methods as for the detection of alpha-glucosidases in sections. In no colorectal tumor LG was present. SI was found in 70% adenocarcinomas, 50% villous, 25% tubulovillous and 19% tubular adenomas when the method with sucrose, glucose oxidase-peroxidase and 3,3'-diaminobenzidine was used. Hardly discernible traces of activity were found in tumors with azo-coupling reactions applied at pH 5, 6 and 6.5. No reaction was detected with the indigogenic method applied at pH above 6.0. However, jejunal biopsies displayed very strong reactions confined to the brush border of enterocytes under the same conditions. A strongly positive reaction was seen in 7 of 12 tumors investigated recently when the indigogenic reaction was applied at pH below 6.0 (particularly at pH 5.0). In this case the deposition of indigo was due to membrane and lysosomal alpha-glucosidases of the tumor cells and lysosomal alpha-glucosidase of macrophages and leukocytes. These findings were corroborated by zymograms. T was detected in the same tumors as SI; its activity was lower, however. SI activity in colorectal tumors is a useful, but not general marker of these tumors.
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PMID:Sucrase-isomaltase and other brush border glycosidases in colorectal tumors. 886 57

The membrane anchoring of the following glycohydrolases of human erythrocyte plasma membranes was investigated: alpha- and beta-D-glucosidase, alpha- and beta-D-galactosidase, beta-D-glucuronidase, N-acetyl-beta-D-glucosaminidase, alpha-D-mannosidase, and alpha-L-fucosidase. Optimized fluorimetric methods for the assay of these enzymes were set up. Treatment of the ghost preparation with 1.0 mol/l (optimal concentration) NaCl caused release ranging from 4.2% of alpha-D-glucosidase to 70% of beta-D-galactosidase; treatment with 0.4% (optimal concentration) Triton X-100 liberated 5.1% of beta-D-galactosidase to 89% of alpha-D-glucosidase; treatment with 1.75% (optimal concentration) octylglucoside yielded solubilization from 6.3% of beta-D-galactosidase to 85% of alpha-D-glucosidase. Treatment with phosphoinositide-specific phospholipase C caused no liberation of any of the studied glycohydrolases. These results are consistent with the notion that the above glycohydrolases are differently anchored or associated with the erythrocyte plasma membrane, and provide the methodological basis for inspecting the occurrence of these enzymes in different membrane microdomains.
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PMID:Membrane anchoring and surface distribution of glycohydrolases of human erythrocyte membranes. 1080 66

The hyphomycete Chalara paradoxa CH32 produced an extracellular beta-glucosidase during the trophophase. The enzyme was purified to homogeneity by ion-exchange and size-exclusion chromatography. The purified enzyme had an estimated molecular mass of 170 kDa by size-exclusion chromatography and 167 kDa by SDS-PAGE. The enzyme had maximum activity at pH 4.0-5.0 and 45 degrees C. The enzyme was inactivated at 60 degrees C. At room temperature, it was unstable at acidic pH, but it was stable to alkaline pH. The purified enzyme was inhibited markedly by Hg(2+) and Ag(2+) and also to some extent by the detergents SDS, Tween 80, and Triton X-100 at 0.1%. Enzyme activity increased by 3-fold in the presence of 20% ethanol and to a lesser extent by other organic solvents. Purified beta-glucosidase was active against cellobiose and p-nitrophenyl-beta-D-glucopyranoside but did not hydrolyze lactose, maltose, sucrose, cellulosic substrates, or galactopyranoside, mannopyranoside, or xyloside derivatives of p-nitrophenol. The V(max) of the enzyme for p-NPG (K(m) = 0.52 mM) and cellobiose (K(m) = 0.58 mM) were 294 and 288.7 units/mg, respectively. Hydrolysis of pNPG was inhibited competitively by glucose (K(i) = 11.02 mM). Release of reducing sugars from carboxymethylcellulose by a purified endoglucanase produced by the same organism increased markedly in the presence of beta-glucosidase.
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PMID:Beta-glucosidase from Chalara paradoxa CH32: purification and properties. 1095 73

The objective of the research was to determine the influence of methyl jasmonate (JA-Me) and beta-glucosidase on the mechanisms of apple tree resistance to T. urticae like antibiosis and non-preference. The experiments were conducted on leaves of Close and Jester apple cultivars in laboratory conditions. Leaves were treated with: 1. solution of 0.1% JA-Me in 0.05% Triton X-100 (by spraying); 2. beta-glucosidase dissolved in 0.1 M citrate buffer at pH 6 (by petiole); 3. 0.05% solution of the Triton X-100 (by spraying); 4. 0.1 M citrate buffer at pH 6 (by petiole); 5. non-treated leaves. In the no-choice test, application of JA-Me on leaves of apple trees caused reducing of number of eggs laid up during three days of the experiment. In the choice test, which was carried out for determination of non-preference mechanism of resistance, there was not significant differences between number of mites on leaves treated with JA-Me compared to leaves treated with beta-glucosidase, and to non-treated leaves after 24 hours from solutions application. However, at the same experiment, females of T. urticae laid the least number of eggs on leaves treated with JA-Me. Analysis conducted using liquid chromatography method, revealed higher level of phenolic compounds on leaves treated with JA-Me compared to check and leaves treated with beta-glucosidase. Thus, it appears that JA-Me may be regarded as elicitor of induced resistance of apple tree to two-spotted spider mite.
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PMID:The influence of methyl jasmonate and beta-glucosidase on induction of apple tree resistance mechanisms to two-spotted spider mite (Tetranychus urncae Koch.). 1514 17

To evaluate the potential of using the enzymes from spent mushroom compost (SMC) as an industrial enzyme, the production of alpha-amylase, cellulase, beta-glucosidase, laccase, and xylanase was determined from the SMC of four edible mushroom species (Pleurotus ostreatus, Lentinula edodes, Flammulina velutipes and Hericium erinaceum). Among the tested SMC, the SMC of L. edodes showed the highest enzyme activity in alpha-amylase (229 nkat/g), cellulase (759 nkat/g) and beta-glucosidase (767 nkat/g) in 0.5% Triton X-100, and that of P. ostreatus showed the highest activity in laccase (1452 nkat/g) in phosphate-buffered 0.2% Triton X-100. The highest xylanase activity (119 nkat/g) was found in the SMC of F. velutipes.
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PMID:Detection and recovery of hydrolytic enzymes from spent compost of four mushroom species. 1611 Sep 12

The goal of the research was to study the influence of methyl jasmonate (JA-Me) and beta-glucosidase treatments on fecundity and preference to infestation and oviposition of two-spotted spider mite feeding on strawberry. The experiments were conducted in laboratory conditions on leaves of Aga and Kent cultivars. Leaves were treated with: a. solution of 0.1% JA-Me in 0.05% Triton X-100 (by spraying); b. beta-glucosidase dissolved in 0.1 M citrate buffer at pH 6 (by petiole); c. 0.05% solution of the Triton X-100 (by spraying); d. 0.1 M citrate buffer at pH 6 (by petiole). In the no-choice test, application of JA-Me on leaves of strawberry caused reducing of number of eggs laid during three days of the experiment. In the choice test, which was carried out for determination of non-preference mechanism of resistance, there was a statistically significant lower number of mites on leaves treated with JA-Me compared to leaves treated with other compounds as well as to non-treated leaves after 24 hours from solutions application. Moreover, at the same experiment, females of two-spotted spider mite laid the least number of eggs on leaves treated with JA-Me. Analysis conducted using liquid chromatography method, revealed increase of the level of phenolic compounds like chlorogenic acid and rutin on leaves treated with JA-Me. Thus, it appears that JA-Me may be involved in antybiosis or non-preference mechanisms of resistance of strawberry to two-spotted spider mite.
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PMID:The influence of methyl jasmonate (JA-Me) and B-glucosidase on induction of resistance mechanisms of strawberry against two-spotted spider mite (Tetranychus urticae Koch.). 1662 24

Soybean cells in suspension culture were inhibited in their growth by mixed culture with Rhizobium japonicum 5033. Rhizobium cells had the ability to adsorb on the surface of soybean cells. Cell envelope prepared from Rhizobium by sonic oscillation inhibited the growth of soybean cells. The growth-inhibiting activity of the cell envelope was depressed by beta-glucosidase, KIO(4), urea, sodium cholate, and Triton X-100, but was stable on heating at 120 C for 15 minutes. Adsorption of the cell envelope on soybean cells was depressed by only beta-glucosidase. The sodium cholate-soluble fraction of the cell envelope had the growth-inhibiting activity. Results in this paper suggest that components of the Rhizobium cell surface cause the inhibition of soybean cell growth after the adsorption of the Rhizobium cell to the soybean cell.
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PMID:Inhibition of Soybean Cell Growth by the Adsorption of Rhizobium japonicum. 1666 Sep 16

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