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Enzyme
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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Production of
beta-galactosidase
by Sclerotium rolfsii NCIM 1084 was studied under submerged fermentation conditions. The enzyme was produced extracellularly and constitutively on glucose. The enzyme production was enhanced when galactose, raffinose, cellobiose, sucrose, xylose, maltose, cellulose and pectin were used as carbon sources.
Cellulose
and diammonium hydrogen phosphate were best carbon and nitrogen sources, respectively. Surfactants such as Sag, Paraffin oil, Tween 20 and Tween 80 increased the enzyme production. Maximum yield of
beta-galactosidase
obtained was 3.8-4.2 nkat/ml. The optimum pH, optimum temperature and molecular weight of the beta-glactosidase were 2.7, 60 degrees C and 2,21,000 daltons, respectively. The enzyme is an aryl beta-glactosidase and did not hydrolyse lactose. The Km value for o-nitrophenyl beta-D-galactoside was 3.7 mM. Galactose and 2-mercaptoethanol inhibited the enzyme.
...
PMID:Aryl beta-galactosidase from Sclerotium rolfsii: physiological and biochemical studies. 897 38
A novel fungal beta-glucosidase gene (bgl4) and its homologue (bgl2) were cloned from the cellulolytic fungi Humicola grisea and Trichoderma reesei, respectively. The deduced amino acid sequences of H. grisea BGL4 and T. reesei BGL2 comprise 476 and 466 amino acids, respectively, and share 73.1% identity. These beta-glucosidases show significant homology to plant beta-glucosidases belonging to the beta-glucosidase A (BGA) family. Both genes were expressed in Aspergillus oryzae, and the recombinant beta-glucosidases were purified. Recombinant H. grisea BGL4 is a thermostable enzyme compared with recombinant T. reesei BGL2. In addition to beta-glucosidase activity, recombinant H. grisea BGL4 showed a significant level of
beta-galactosidase
activity, while recombinant T. reesei BGL2 showed weak
beta-galactosidase
activity.
Cellulose
saccharification by Trichoderma cellulases was improved by the addition of recombinant H. grisea BGL4.
...
PMID:Molecular cloning and expression of the novel fungal beta-glucosidase genes from Humicola grisea and Trichoderma reesei. 1010 Dec 86
The behaviour of
beta-galactosidase
powder under compaction was investigated to get more information on powder properties and to further characterise tablet excipients. The enzyme
beta-galactosidase
, the model excipient microcrystalline cellulose and several mixtures of these two substances were compressed at different compaction forces. The relative density of the obtained tablets was calculated and the Heckel equation as well as the modified Heckel equation was used to characterise the bulk powders and their mixtures.
Microcrystalline cellulose
is known as a model substance for plastic powders, the used
beta-galactosidase
was found to be a brittle substance. In further experiments, the activity loss of the compacted enzyme powder was investigated and used to characterise the behaviour of the binary mixtures in various ratios. Data interpretation with percolation theory led to a critical
beta-galactosidase
concentration of 20%. Between 100 and 20%, the enzyme builds a lattice and dominates the binary system. For
beta-galactosidase
amounts below 20% in mixtures with plastic excipients, the activity loss increases strongly because of higher shearing forces during compaction due to the system dominance of the plastic particles.
...
PMID:Compression behaviour of the enzyme beta-galactosidase and its mixture with microcrystalline cellulose. 1281 18
A mini-Tn10:lacZ:kan was inserted into a wild-type strain of Acetobacter xylinus by random transposon mutagenesis, generating a lactose-utilising and cellulose-producing mutant strain designated ITz3. Antibiotic selection plate assays and Southern hybridisation revealed that the lacZ gene was inserted once into the chromosome of strain ITz3 and was stably maintained in non-selective medium after more than 60 generations. The modified strain had, on the average, a 28-fold increase in cellulose production and a 160-fold increase in
beta-galactosidase
activity when grown in lactose medium. beta-Galactosidase activity is present in either lactose or sucrose medium indicating that the gene is constitutively expressed.
Cellulose
and
beta-galactosidase
production by the modified strain was also evaluated in pure and enriched whey substrates. Utilisation of lactose in whey substrate by ITz3 reached 17 g l(-1) after 4 days incubation.
...
PMID:Insertion of an E. coli lacZ gene in Acetobacter xylinus for the production of cellulose in whey. 1498 72
A model experiment was performed on rats to evaluate the effect of partial or total substitution of saccharose (S) and cellulose (C) by preparations of lactulose and inulin on the development and metabolism of the caecum. In the experimental diets given to rats for 4 weeks, the examined preparations were administered either with an equivalent amount of cellulose (each at 4% of the diet) or as sole source of dietary fibre at 8% of the diet. Compared to the saccharose group cellulose had no effect, and low doses of lactulose and inulin in the diet increased to a medium extent the weight of the caecum wall and caecal digesta. The addition of lactulose and inulin at 8% increased significantly the content of caecal digesta (4.62 and 4.11 g/100g BW, respectively) and the weight of the caecal wall (1.10 and 0.86 g/100g BW, respectively), compared to the groups with saccharose and cellulose (0.73, 0.90 and 0.24, 0.28 g/100g BW, respectively).
Cellulose
and cellulose partially-substituted with lactulose and inulin caused an increase in the dry matter content of caecal digesta (26.5-27.5%), compared to other groups (21.8-22.8%). The administration of lactulose and inulin preparations was accompanied by a significant drop in pH (5.47-5.81), compared to the groups with cellulose or saccharose (6.83-6.91), and a decrease in the ammonia concentration in the caecal digesta, compared to the cellulose control (0.27-0.40 and 0.62 mg/g, respectively). The group with 8% lactulose was characterized by the highest activities of microbiological alpha- and
beta-galactosidase
and beta-glucosidase in the caecal digesta.
Cellulose
and both preparations significantly decreased the activity of beta-glucuronidase, compared to the saccharose group (0.39-0.89 and 1.52 U/g, respectively). The highest concentration of VFA in the caecal digesta was observed in the saccharose group (89.2 micromol/g), and the lowest concentration in the group where cellulose was totally substituted by lactulose and inulin (55.1 and 57.5 micromol/g, respectively). The total production of VFA in the caecum was fourfold higher with 8 % lactulose and inulin (254.7 and 236.4 micromol/100g BW, respectively) than in both controls groups (65.1 and 67.8 micromol/100g BW, respectively). The high dose of inulin and lactulose increased the share of propionic acid in the VFA profile (C2:C3:C4) compared to both control groups. When 4% inulin was added to the diet a significant increase of butyrate concentration in the caecum was observed.
...
PMID:Physiological effects of lactulose and inulin in the caecum of rats. 1508 67
Actinoplanes missouriensis (for glucose isomerase), Kluyveromyces fragilis (for
beta-galactosidase
), and Saccharomyces cerevisiae (for invertase) cells were successfully entrapped within cellulose and cellulose di- and triacetate beads employing several carried solvent systems.
Cellulose
beads prepared using a melt of dimethylsulfoxide (DMSO) and N-ethylpyridinium chloride (NEPC), or cellulose diacetate using a mixture of acetone and DMSO as solvent, were found to be promising as carriers for the invertase system, cellulose triacetate beads with DMSO as solvent for yeast
beta-galactosidase
, and cellulose beads with a melt of DMSO and NEPC as solvent for glucose isomerase. The kinetic behavior of A. missouriensis glucose isomerase whole cell cellulose beads in a plug-flow column reactor was studied as an example system in greater detail.
...
PMID:Preparation and kinetic behavior of immobilized whole cell biocatalysts. 1794 48
