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

Laminarin, a beta(1 leads to 3)-glucan similar to those found in plant cell walls, is fermented by some species of anaerobic bacteria from the human colon. Laminarinase (EC 3.2.1.6) and beta-glucosidase (EC 3.2.1.21) activities were determined in strains representing Bacteroides thetaiotaomicron, Bacteroides distasonis, and an unnamed deoxyribonucleic acid homology group of Bacteroides fragilis. In all three species, laminarinase activity was inducible by laminarin and was predominantly cell bound. The products of laminarinase activity varied with each species. In the case of B. thetaiotaomicron, the major product of laminarin hydrolysis was glucose (70 to 90%), and there were small amounts of laminaribiose (G2) and oligomers of glucose as high as G4. In the case of group '0061-1,' glucose (40 to 50%) and oligomers of glucose as high as G6 were found. The laminarinase of B. distasonis differed from the laminarinases of the other two species in that it mainly produced oligomers of glucose (G2-G5). beta-Glucosidase activity was also found in all three species. beta-Glucosidase was induced by glucose-containing disaccharides as well as by laminarin. The beta-glucosidases of the three Bacteroides species differed with respect to level of activity, induction pattern, and sensitivity to inhibition by D-glucono-1,5-lactone.
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PMID:Laminarinase (beta-glucanase) activity in Bacteroides from the human colon. 87 72

Germinating cysts and isolated walls from germinating cysts incorporated 14C-UDPG into wall material of which 22.5 and 15% respectively were insoluble in boiling 1 N HCl, indicating that part of the synthetase activity is located in the wall itself. A combination of Urografin and Ficoll density gradients was used to separate various intracellular fractions. A consistent separation of beta-glucanase and UDPG-transferase enriched fractions was achieved. The beta-glucanase fraction contained dictyosome vesicles and fragments along with some plasma membranes. The UDPG-transferase fraction was relatively rich in membranes resembling rough and smooth ER. The results suggest the two enzymes are transported to the wall by different intracellular routes, and two types of vesicle may be involved. Alkaline phosphatase, beta-glucosidase and acid phosphatase were found extracellularly and their distribution in density gradients determined. The results of histochemical staining for acid phosphatase, alkaline phosphatase and polysaccharide are described and compared with the biochemical data. beta-1,3-glucanase, found intra- and extracellularly, induced distorted growth of germ tubes and also removed most of the apical wall when added to the incubation medium. None of these responses were observed with cellulase. Determinations of the osmotic pressure of germinating cysts and incubation medium revealed that the turgor of germinating cysts amounts to about 1.8 at under the conditions used.
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PMID:Hyphal tip growth in Phytophthora. Gradient distribution and ultrahistochemistry of enzymes. 101 47

A beta-glucosidase of Coccidioides immitis was identified in electrophoresis gel separations of the concanavalin A-bound mycelial culture-filtrate-plus-lysate preparation. p-Nitrophenol-beta-D-glucopyranoside was used as the substrate to visualize the enzymatically active fraction in nonreducing gels. The gel-isolated, chromatographically purified enzyme has an optimal pH of 8.0 and cleaves beta-1,3-glycosyl linkages. The alkaline beta-glucosidase was further characterized by a pI of 3.8 to 4.0, optimal activity at 37 to 40 degrees C, and molecular size of 120 kDa as identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified beta-glucosidase is identical to a previously reported 120-kDa antigen (Ag) which reacts with immunoglobulin M (IgM) tube precipitin (TP) antibody in sera from patients with coccidioidomycosis. The TP-Ag was described as a valuable serodiagnostic reagent for detection of specific IgM in patients with early coccidioidal infections. The beta-glucosidase, like the TP-Ag, was localized in the cell wall and cytoplasmic vesicles of parasitic cells (spherules) by immunofluorescence and immunoelectron microscopy with specific antiserum raised against the purified enzyme. The boiled cell wall fraction isolated from these same young (presegmented) spherules was partially digested by the beta-glucosidase. Addition of a potent beta-glucosidase inhibitor, 1-deoxynojirimycin, to the parasitic-phase culture medium at a concentration of 200 microM blocked or retarded conversion of arthroconidia to spherules. Antibody was raised in guinea pigs against chromatographically purified 1-deoxynojirimycin which was conjugated with bovine serum albumin. The inhibitor was localized by immunofluorescence in the wall of the 1-deoxynojirimycin-treated cells. We suggest that the spherule wall-associated, alkaline hydrolase functions as a beta-1,3-glucanase to provide for wall plasticity as well as intussusception of newly synthesized wall polymers during the period of rapid diametric growth of parasitic cells of C. immitis.
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PMID:A seroreactive 120-kilodalton beta-1,3-glucanase of Coccidioides immitis which may participate in spherule morphogenesis. 139 46

The nucleotide sequence of the Clostridium thermocellum gene licB, coding for a thermoactive beta-1,3-1,4-glucanase, has been determined. The gene is located downstream, but in opposite orientation to the beta-glucosidase gene bglA. A coding region of 1002 bp is flanked by canonical promoter and transcription terminator sequences. The primary translation product of the licB gene has a predicted molecular mass of 37,896 Da. The protein sequence can be divided into several discrete segments: an N-terminal signal peptide, a catalytic region, a segment rich in Pro and Thr residues and a C-terminal reiterated domain. The catalytic region shows close similarity to lichenases of bacilli (52-58% identity) and Fibrobacter succinogenes (35% identity), but is unrelated to barley beta-1,3-1,4-glucanases. It consists of two domains, which in the case of the F. succinogenes lichenase are arranged in reversed order to that of C. thermocellum and Bacillus lichenases. The C-terminal reiterated domain of C. thermocellum lichenase is homologous to the duplicated non-catalytic domain of endo-beta-1,4-glucanases and xylanase Z from the same organism. This domain is considered a characteristic feature of clostridial cellulases organized as multienzyme complex (cellulosome). The beta-1,3-1,4-glucanase encoded by the licB gene might therefore be an additional enzyme component of the C. thermocellum cellulosome.
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PMID:Structure of the Clostridium thermocellum gene licB and the encoded beta-1,3-1,4-glucanase. A catalytic region homologous to Bacillus lichenases joined to the reiterated domain of clostridial cellulases. 174 Jan 23

An extracellular laminarinase (1----3)-beta-glucan glucohydrolase (EC 3.2.1.6) was purified from culture filtrates of Penicillium funiculosum. It was homogeneous on polyacrylamide gel electrophoresis in the presence and absence of sodium dodecyl sulfate. It had a Mr of 14,000 and isoelectric point of pH 4.2. The apparent Km value for lamimarinase was 8.3 mg/ml and Vmax was 8 mumol/min/mg. The distribution of beta-glucosidase activity in two different species of Penicillium showed that P. funiculosum had a higher ratio of extracellular to cell wall bound activity than Penicillium janthinellum. Treatment of mycelia of both species with NaCl, EDTA, Triton X-100, or proteolytic enzymes did not release the cell wall bound beta-glucosidase. Incubation of the mycelia with the laminarinase released 2-4 times more beta-glucosidase than the estimated cell bound activity in P. janthinellum and P. funiculosum.
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PMID:Laminarinase from Penicillium funiculosum and its role in release of beta-glucosidase. 190 46

The polysaccharidic effect of a purified 1,3-beta-glucanase, a purified beta-glucosidase, and of partially purified endo-1,3-beta-glucanase from autolysed Penicillium oxalicum cultures on cell wall isolate fractions from the same fungus were studied. Fractionation of 5-day-old cell wall gave rise to a series of fractions that were identified using infrared spectrophotometry. The fractions used were: F1, an alpha-glucan; F3, a beta-glucan; F4, a chitin-glucan; and F4b, a beta-glucan. The fractions were incubated with each of the enzymes and with a mixture of equal parts of the three enzymes and the products of the enzymatic hydrolysis were analyzed after 96 h incubation. The enzymes were found to degrade fraction F4b (beta-glucan); the greatest degree of hydrolysis was reached when the three enzymes were used together, suggesting the need for synergic action by these enzymes in the cell wall degradation process.
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PMID:Effect of beta-glucanases on Penicillium oxalicum cell wall fractions. 212 89

Zymosan (Z) and its major insoluble carbohydrate component beta-linked glucan activate human neutrophils (PMN) through a trypsin-sensitive recognition mechanism. This mechanism is believed to involve the PMN CR3R. Both Z and glucan generated dose and time-dependent release of the secondary lysosomal granule marker vitamin B12 binding protein, leukotriene B4 (LTB4) and superoxide from PMN and were phagocytosed with similar dose-dependent kinetics. The PMN superoxide and LTB4 responses to glucan; however, were consistently greater than those to the same doses of Z. The phagocytosis of both particles was significantly reduced after partial digestion with beta-laminarinase but not beta-glucosidase or alpha-mannosidase suggesting a recognition mechanism dependent on intact beta-1,3-glucosidic bonds in both particles. TNF-alpha (rhTNF-alpha) promoted a time- and dose-dependent increase in the expression of PMN CR3 up to 60 min. The increased expression of CR3 was paralleled by the release of the secondary lysosomal granule marker vitamin B12-binding protein. This granule contains a population of CR3R in its boundary membrane and it is the fusion of this membrane with the plasma membrane that may represent the mechanism by which CR3 expression is increased. Preincubation of PMN with 10(-9)M rhTNF-alpha augmented phagocytosis, LTB4, and superoxide generation by PMN in response to activation by Z. In contrast, none of the responses to glucan was significantly increased after incubation with rhTNF-alpha. These differences suggest a lack of absolute homology between the recognition mechanisms for zymosan and glucan and that there is a component of the recognition mechanism for zymosan that is independent of that for glucan and is up-regulated after rhTNF-alpha pretreatment.
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PMID:Differential augmentation by recombinant human tumor necrosis factor-alpha of neutrophil responses to particulate zymosan and glucan. 215 33

Two enzyme complexes, each with beta-glucosidase (beta-D-glucoside glucohydrolase, EC 3.2.1.21), beta-xylosidase (beta-D-xylan xylohydrolase, EC 3.2.1.37), and 1,3-beta-glucanase (laminarinase, EC 3.2.1.39) activity, were purified to near homogeneity from the cellulolytic fungus Trichoderma harzianum E58. The two complexes had the same isoelectric point of pH 8.3 and identical subunit molecular masses of 75,400 daltons. The two complexes were also similar in that all activities were sensitive to inhibition by mercuric chloride (2 mM) and D-glucono-1,5-lactone (0.2% w/v). The activity ratios of the major and minor complexes were 1:1.7:4.3 and 1:1.6:3.1 for the beta-xylosidase, beta-glucosidase, and 1,3-beta-glucanase, respectively. Both complexes had approximately the same Km values for p-nitrophenyl beta-D-glucopyranoside and salicin. The pH optima of corresponding activities of the two complexes were also similar. The major and minor complexes differed in that the Km of the former for laminarin was almost threefold lower than that of the latter. Whereas all three activities of the minor complexes were inhibited by D-glucono-1,5-lactone with the same inhibition constant, the beta-glucosidase and 1,3-beta-glucanase of the major complex had inhibition constants which differed by more than 80,000 times. In addition, the inhibition on the 1,3-beta-glucanase in the major and minor complexes using D-glucono-1,5-lactone were noncompetitive and competitive, respectively. From the inhibition studies, the beta-glucosidase, beta-xylosidase, and 1,3-beta-glucanase activities in the minor complex were deduced to be more interdependent than the same activities in the major complex.
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PMID:The copurification of beta-glucosidase, beta-xylosidase, and 1,3-beta-glucanase in two separate enzyme complexes isolated from Trichoderma harzianum E58. 312 47

Brock, Thomas D. (Indiana University, Bloomington). Biochemical and cellular changes occurring during conjugation in Hansenula wingei. J. Bacteriol. 90:1019-1025. 1954.-A technique has been devised for deagglutinating mixed populations of conjugating cells so as to be able to visualize microscopically early stages of the conjugation process. A cell can form a conjugation tube only when in contact with a cell of opposite mating type, but may do so even if the mate is unresponsive or ultraviolet-inactivated. Cell fusion occurs, however, only when both cells are able to form conjugation tubes in a region of contact. Fusion begins almost as soon as the two cells begin to form protuberances, and long before any dissolution of cell-wall material between the cells occurs. A cell which has conjugated in one region of its cell wall is still able to conjugate with another cell in another region, so that triply and quadruply conjugated cells are occasionally formed. There is no significant net increase in deoxyribonucleic acid, ribonucleic acid, protein, or carbohydrate which might be related to the conjugation process, because any minor changes that occur in these components are also detected when cells of only one mating type are incubated or when the conjugation process is inhibited with the antibiotic cycloheximide. Changes in activity of beta-1,3-glucanase (with laminarin as substrate) and beta-1,6-glucanase (with pustulan as substrate) have been measured during the conjugation process, in addition to changes in the activity of several control enzymes which would not be expected to be related to the conjugation process. Significant increases in invertase (sucrase), laminarinase, and pustulanase were detected, and minimal increases occurred in beta-glucosidase and acid phosphatase. However, these same increases were also observed in controls involving only one mating type; thus, these increases are probably not related to the conjugation process, but may be a result of other processes which probably occur during incubation in the conjugation medium.
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PMID:Biochemical and cellular changes occuring during conjugation in Hansenula wingei. 584 91

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