Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Enzyme
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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)
Enzyme stability studies in case of Sclerotium rolfsii UV-8 mutant have been investigated under the conditions used for saccharification of cellulose (50 degrees C, pH 4.5, 48 h). Avicelase (measure of exoenzymes) and xylanase were found to be less stable than CMCase (endoglucanase) and
beta-glucosidase
. Merthiolate (and other Hg compounds) added as a biocide, inactivated avicelase and xylanase about 60-70%. Of the antibiotics tested, tetracycline, chloramphenicol, and streptomycin sulfate were found suitable as an additive in cellulose hydrolysis system. The optimum hydrolysis of alkali-treated (AT)-rice straw, AT-bagasse, Solka Floc SW40, and Avicel P.H.101 was observed under shaking conditions at pH 4.5, 50 degrees C in
CO2
atmosphere. It is suggested, all the studied parameters could be used for the evaluation of mutant strains.
...
PMID:Factors affecting stability of Sclerotium rolfsii UV-8 mutant cellulase complex under saccharification conditions. 179 12
The bglA gene, encoding a
beta-glucosidase
from Bacillus polymyxa, has been expressed in Saccharomyces cerevisiae under control of the CYC-GAL promoter inducible by galactose. The expression of bglA-encoded activity in the strain used as a host was not sufficient to allow its growth with cellobiose as a carbon source. However, a recessive mutation in a gene designated cem1 has been obtained which, combined with the expression of
beta-glucosidase
activity, allows the growth of S. cerevisiae on cellobiose. The expression of the blgA gene in a cem1 strain confers on S. cerevisiae the capability for an efficient fermentation of cellobiose, as detected by the formation of
CO2
.
...
PMID:Construction of a Saccharomyces cerevisiae strain able to ferment cellobiose. 193 17
Five anaerobic fungal isolates from the bovine rumen were grown on Coastal Bermuda grass (CBG) leaf blades and monitored over a 9-day period for substrate utilization, fermentation products, cellulase, and xylanase activities. Two of the fungal isolates showed monocentric growth patterns; one (isolate MC-1) had monoflagellated zoospores and morphologically resembled members of the genus Piromyces; the other (isolate MC-2) had multiflagellated zoospores and resembled members of the genus Neocallimastix. Three other isolates (PC-1, PC-2, and PC-3) exhibited polycentric growth and have not yet been described in the literature; these isolates were characterized by differences in morphology. All of the isolates degraded CBG to approximately the same extent (70% [dry weight]) in 9 days. Fermentation product accumulation was concurrent with substrate utilization. The major fermentation products for all isolates were formate, acetate, D-(-)-lactate, L-(+)-lactate, ethanol,
carbon dioxide
, and hydrogen. Succinate was produced by all cultures, with the exception of MC-1. Fermentation balances revealed different profiles for each isolate. As a group, monocentric isolates produced a greater ratio of oxidized to reduced products when grown on glucose or CBG than did the polycentric isolates, which produced a nearly equal ratio of these products. All isolates exhibited cellulolytic and xylanolytic activities, including endoglucanase, exoglucanase,
beta-glucosidase
, xylanase, and beta-xylosidase activities. Increasing enzyme activity correlated with the accumulation of fermentation products and substrate utilization. The optimum pH for the enzymatic activity of polycentric isolates was within a more narrow range (pH 6.4 to 7.0) than that of the monocentric isolates (pH 5.5 to 7.5). Activity toward cellulosic substrates was not detected until after the disappearance of reducing sugars. Xylanase activity was found to be five to seven times that of carboxymethyl cellulase activity for all cultures grown on CBG.
...
PMID:Fermentation products and plant cell wall-degrading enzymes produced by monocentric and polycentric anaerobic ruminal fungi. 275 72
Total number of cells, their viability and ability to adhesion were examined in surface alveolar macrophages isolated from rat livers after exposure to sulphur dioxide during 2, 4 and 6 weeks (0.05, 0.5, 1.0 and 5.0 mg/m3); to nitrogen oxide during 5, 8 and 15 hours, 28 and 56 days (19 mg/m3) and to
carbon monoxide
during 2, 28 and 56 days (0.01% or 10 MAC). In the experiment with exposure to sulphur dioxide, the activity of enzymes of varying localization in the macrophages - soluble in the cytoplasm (lactate dehydrogenase) and connected with subcellular structures - lysosomes (beta-galactosidase,
beta-glucosidase
and acid phosphatase) was tested by means of biochemical methods in parallel with cytological examinations. Low concentrations of various chemical contaminants of the atmospheric air (sulphur dioxide, nitrogen oxides,
carbon monoxide
) have an unfavourable biological effect on rats, manifest in the impairment of local immunity, i.e., decreased number of alveolar macrophages, disturbance of their viability and reduced ability of the macrophages to adhesion. At the same time, sulphur dioxide induces enzyme disorganization in lactate dehydrogenase and in a number of lysosomal enzymes of the macrophages. These results serve as a basis for the recommendation of cytobiochemical methods of elaborating methodological approaches to the regulation of environmental factors. Alveolar macrophages as a constituent part of the mononuclear phagocytic system ensuring local non-specific and specific resistance of the organism form one of the most important cellular mechanisms of protection of the organism against the harmful effect of environmental factors including chemical contaminants of the atmospheric air (1, 2).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Importance of the functional state of alveolar macrophages of the lungs for hygienic evaluation of protective reactions and cell damage due to atmospheric pollution. 641 25
Phenotypic and genetic traits of porcine intestinal spirochete strain P43/6/78T (= ATCC 51139T) (T = type strain), which is pathogenic and weakly beta-hemolytic, were determined in order to confirm the taxonomic position of this organism and its relationships to previously described species of intestinal spirochetes. In BHIS broth, P43/6/78T cells had a doubling time of 1 to 2 h and grew to a maximum cell density of 2 x 10(9) cells per ml at 37 to 42 degrees C. They hydrolyzed hippurate, utilized D-glucose, D-fructose, sucrose, D-trehalose, D-galactose, D-mannose, maltose, N-acetyl-D-glucosamine, D-glucosamine, pyruvate, L-fucose, D-cellobiose, and D-ribose as growth substrates, and produced acetate, butyrate, ethanol, H2, and
CO2
as metabolic products. They consumed substrate amounts of oxygen and had a G+C content (24.6 mol%) similar to that of Serpulina hyodysenteriae B78T (25.9 mol%). Phenotypic traits that could be used to distinguish strain P43/6/78T from S. hyodysenteriae and Serpulina innocens included its ultrastructural appearance (each strain P43/6/78T cell had 8 or 10 periplasmic flagella, with 4 or 5 flagella inserted at each end, and the cells were thinner and shorter and had more pointed ends than S. hyodysenteriae and S. innocens cells), its faster growth rate in liquid media, its hydrolysis of hippurate, its lack of
beta-glucosidase
activity, and its metabolism of D-ribose. DNA-DNA relative reassociation experiments in which the S1 nuclease method was used revealed that P43/6/78T was related to, but was genetically distinct from, both S. hyodysenteriae B78T (level of sequence homology, 25 to 32%) and S. innocens B256T (level of sequence homology, 24 to 25%). These and previous results indicate that intestinal spirochete strain P43/6/78T represents a distinct Serpulina species. Therefore, we propose that strain P43/6/78 should be designated as the type strain of a new species, Serpulina pilosicoli.
...
PMID:Serpulina pilosicoli sp. nov., the agent of porcine intestinal spirochetosis. 857 97
Effects of elevated atmospheric
CO2
concentration on northern peatland biogeochemistry was studied in a short-term experiment. Eight intact soil cores (11-cm diameter x 40-cm depth) with Juncus and Festuca spp. were collected from a calcareous fen in north Wales. Half of the cores were incubated under 350 ppm
CO2
concentration, whilst the other four cores were maintained at 700 ppm
CO2
. After a 4-month incubation, significantly higher biomass (root + shoot + algal mat) was determined under elevated
CO2
conditions. Higher emissions of N2O and
CO2
, and higher concentration of pore-water DOC (dissolved organic carbon) were also observed under elevated
CO2
. However, no significant differences were found in CH4 emission or soil enzyme activities (
beta-glucosidase
, phosphatase, and N-acetylglucosaminidase) in the bulk soil. Overall, the results suggest that elevated
CO2
would increase the primary productivity of the fen vegetation, and stimulate N2O and
CO2
emissions as a consequence of an enhanced DOC supply from the vegetation to the soil microbes.
...
PMID:Effects of elevated CO2 on fen peat biogeochemistry. 1171 4
An oxygen-limited fed-batch technique (OLFB) was compared to traditional methanol-limited fed-batch technique (MLFB) for the production of recombinant Thai Rosewood
beta-glucosidase
with Pichia pastoris. The degree of energy limitation, expressed as the relative rate of respiration (q(O)/q(O,max)), was kept similar in both the types of processes. Due to the higher driving force for oxygen transfer in the OLFB, the oxygen and methanol consumption rates were about 40% higher in the OLFB. The obligate aerobe P. pastoris responded to the severe oxygen limitation mainly by increased maintenance demand, measured as increased
carbon dioxide
production per methanol, but still somewhat higher cell density (5%) and higher product concentrations (16%) were obtained. The viability was similar, about 90-95%, in both process types, but the amount of total proteins released in the medium was much less in the OLFB processes resulting in substantially higher (64%) specific enzyme purity for input to the downstream processing.
...
PMID:Oxygen-limited fed-batch process: an alternative control for Pichia pastoris recombinant protein processes. 1608 2
To find out microbial metabolic functioning and toxicity in a former sawmill area,
carbon dioxide
evolution, methane oxidation potential, 10 hydrolytic enzyme activities, Vibrio fischeri test, fluorescein diacetate hydrolysis activity (FDA), soil pH, carbon, nitrogen and pentachlorophenol (PCP) content were measured at four sites. The area is contaminated with aged chlorophenols. Chlorophenol content of soil was analyzed with a novel HPLC-MS technique, which allowed to measure chlorophenols without derivatization. The sites had a pollution gradient from 0.5 to 15 microg PCP g dw of soil(-1). Endogenous
carbon dioxide
evolution, methane oxidation potential, butyrate-esterase, acetate-esterase, sulphatase and aminopeptidase activities were lower at the site 2 than 3, although the site 2 and 3 had similar content of carbon and nitrogen. The soil was toxic in V. fischeri test at the site 2, which had high content of PCP (3.93+/-1.00 microg PCP g dw of soil(-1)). The results indicated that endogenous
carbon dioxide
evolution, methane oxidation potential, butyrate-esterase, acetate-esterase, sulphatase and aminopeptidase activities were sensitive to PCP in the soil. The results indicated that alpha-glucosidase,
beta-glucosidase
, beta-xylosidase, beta-cellobiosidase, phosphomonoesterase, N-acetyl-glucosaminidase activity and FDA hydrolysis activity were not sensitive to PCP in the soil. Soil processes involved in the cycling of carbon, nitrogen, sulphur and phosphorus were only slightly vulnerable in the former sawmill area and most sensitive microbial species were probably replaced with more tolerant ones to maintain and recover functioning of the former sawmill soils.
...
PMID:Microbial activities in soils of a former sawmill area. 1711 24
Peatlands export more dissolved organic carbon (DOC) than any other biome, contributing 20% of all terrestrial DOC exported to the oceans. Both warming and elevated atmospheric
CO2
(eCO2) can increase DOC exports, but their interaction is poorly understood. Peat monoliths were, therefore, exposed to eCO2, warming and eCO2 + warming (combined). The combined treatment produced a synergistic (i.e., significant interaction) rise in DOC concentrations available for export (119% higher than the control, interaction P < 0.05) and enriched this pool with phenolic compounds (284%). We attribute this to increased plant inputs, coupled with impaired microbial degradation induced by competition with the vegetation for nutrients and inhibitory phenolics. Root biomass showed a synergistic increase (407% relative to the control, P < 0.1 only), while exudate inputs increased additively. Phenol oxidase was suppressed synergistically (58%, interaction P < 0.1 only) and
beta-glucosidase
(27%) additively, while microbial nutritional stress increased (51%) additively. Such results suggest intensified carbon exports from peatlands, with potentially widespread ramifications for aquatic processes in the receiving waters.
...
PMID:Interactions between elevated CO2 and warming could amplify DOC exports from peatland catchments. 1753 18
The main aim of this study was to assess the impact of pesticidal residues on soil microbial and biochemical parameters of the tea garden soils. The microbial biomass carbon (MBC), basal (BSR) and substrate induced respirations (SIR),
beta-glucosidase
activity and fluorescein diacetate hydrolyzing activity (FDHA) of six tea garden soils, along with two adjacent forest soils (control) in West Bengal, India were measured. The biomass and its activities and biochemical parameters were generally lower in the tea garden soils than the control soils. The MBC of the soils ranged from 295.5 to 767.5 micro g g(- 1). The BSR and SIR ranged from 1.65 to 3.08 mu g
CO2
-C g(- 1) soil h(- 1) and 3.08 to 10.76 micro g
CO2
-C g(- 1)h(- 1) respectively. The
beta-glucosidase
and FDHA of the soils varied from 33.3 and 76.3 micro g para-nitrophenol g(- 1) soil h(- 1) and 60.5 to 173.5 micro g fluorescein g(- 1)h(- 1)respectively. The tea garden soils contained variable residues of organophosphorus and organochlorine pesticides, which negatively affected the MBC, BSR, SIR, FDHA and beta -glucosidase activity. Ethion and chlorpyriphos pesticide residues in all the tea garden soils varied from 5.00 to 527.8 ppb and 17.6 to 478.1 ppb respectively. The alpha endosulfan, beta endosulfan and endosulfan sulfate pesticide residues in the tea garden soils ranged from 7.40 to 81.40 ppb, 8.50 to 256.1 ppb and 55 to 95.9 ppb respectively. Canonical correlation analysis shows that 93% of the total variation was associated with the negative impact of chlorpyriphos, beta and alpha endosulfan and endosulfan sulfate on MBC, BSR and FDHA. At the same time ethion had negative impact on SIR and
beta-glucosidase
. Data demonstrated that the pesticide residues had a strong impact on the microbial and biochemical components of soil quality.
...
PMID:Assessment of the impact of pesticide residues on microbiological and biochemical parameters of tea garden soils in India. 1894 98
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