Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Bovine testicular beta-galactosidase (beta-D-galactoside galactohydrolase, EC 3.2.1.23) is rapidly and selectively assimilated by human skin fibroblasts. The assimilation of the enzyme is strongly inhibited by mannose 6-phosphate and by a glycoprotein fraction isolated from bovine testes (glycoprotein inhibitors). These results suggest that beta-galactosidase and the glycoprotein inhibitors have a common recognition marker that contains mannose 6-phosphate. The presence of mannose phosphate in the glycoprotein inhibitors was demonstrated by acid hydrolysis of the glycoproteins to liberate mannose phosphate followed by reduction with NaB(3)H(4) to give [(3)H]mannitol phosphate. The (3)H-labeled compound was identified by paper electrophoresis and by the release of [(3)H]mannitol on treatment with phosphatase. The [(3)H]mannitol phosphate was oxidized with periodate and the resulting phosphorylated fragment, on reduction with NaB(3)H(4), yielded [(3)H]ethylene glycol phosphate, indicating substitution of phosphate on carbon 6 of mannitol. Mannose 6-phosphate was also found in a major carbohydrate-containing fraction of peptides produced from the glycoprotein inhibitors by tryspin digestion. It was estimated that about 2% of the mannose residues were present as mannose 6-phosphate. Phosphorylated oligosaccharides were also identified in hydrolysates of the glycoprotein inhibitors. One, a disaccharide, was identified as alpha-(mannosyl-6-phosphate)-(1 --> 2)-mannose. These observations suggest that the recognition marker of beta-galactosidase contains alpha1,2-linked mannose 6-phosphate; terminal alpha1,2-linked mannose residues are known to occur in the high-mannose type oligosaccharides present on beta-galactosidase.
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PMID:Identification of mannose 6-phosphate in glycoproteins that inhibit the assimilation of beta-galactosidase by fibroblasts. 11 30

Several lysosomal enzymes present in human plasma (N-acetyl-beta-glucosaminidase, beta-glucuronidase, beta-galactosidase, alpha-galactosidase, alpha-L-fucosidase, alpha-mannosidase, beta-glucosidase) were maintained in a fully active state for at least 8 months by the addition of ethylene glycol (300 milligrams final concentration) to freshly prepared plasma and storage at -20 degrees C. Pools of human plasma from healthy humans, stabilized and stored as above, and containing a low, medium or high content of the above enzymes, were used to establish the analytical imprecision (within-run, day-to-day and total imprecision) of the fluorimetric assay. Ten replicates in ten different analytical series, covering a period of two months, were performed. The total imprecision (expressed as coefficient of variation) was in general lower than 10%; in a few cases, particularly plasma samples with a low enzyme content, the total imprecision was 18%. The isozymes A, B, I1, and I2 of N-acetyl-beta-glucosaminidase displayed the same stability upon storage as the unfractionated enzyme. It is concluded that pools of human plasma containing known amounts of lysosomal enzymes, stabilized by the addition of 300 micrograms ethylene glycol and stored at -20 degrees C, are suitable liquid materials for calibration and quality control for the assay of the same enzymes.
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PMID:Preparation of a stable liquid material for calibration and quality control for lysosomal enzymes in plasma. Assay of enzymes of lysosomal origin in plasma, I. 133 72

Four different beta-galactosidase fusion proteins have been partitioned in poly(ethylene glycol) (PEG) 4000/potassium phosphate aqueous two-phase systems. The partition coefficients (K) of staphylococcal protein A-beta-galactosidase (SpA beta gal) (K = 3.5) and staphylococcal protein A-streptococcal protein G-beta-galactosidase (AG beta gal) (K = 2.8) were compared with the partition coefficients of their constituent molecules, beta-galactosidase, SpA, and protein AG. It was found that by fusing beta-galactosidase to the smaller proteins SpA and protein AG, their partition coefficients were increased four to five times. Experimental data were fitted into, and found to agree with, the Albertsson partition model of interacting molecules. The compatibility with PEG and potassium phosphate of beta-galactosidase, SpA, and two different versions of the SpA beta gal protein, displayed as precipitation curves, showed a relationship to the protein partition coefficients in PEG/potassium phosphate systems. High solubility in one phase component was accompanied by preferential partitioning to the phase rich in the same component in the PEG/potassium phosphate system. Also, a changed linker region in SpA beta gal resulted in a more soluble protein. This, together with the improved K values of the target proteins by fusion, shows that it is possible to use beta-galactosidase as an affinity handle.
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PMID:Partitioning of beta-galactosidase fusion proteins in PEG/potassium phosphate aqueous two-phase systems. 136 98

Partitioning of beta-galactosidase in aqueous two-phase systems of poly(ethylene glycol) and potassium phosphate is reviewed. The affinity of Escherichia coli beta-galactosidase for the PEG-rich phase dominates also in beta-galactosidase fusion proteins and the concept of using beta-galactosidase as an affinity handle for extraction of other proteins, after fusion, is discussed. A hypothesis is presented, assuming that tryptophan residues at the surface of beta-galactosidase is responsible for its partitioning to the PEG rich phase, and the concept of poly-tryptophan handles fused to the target protein for extraction is introduced.
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PMID:Combined use of extraction and genetic engineering for protein purification: recovery of beta-galactosidase fused proteins. 136 76

A simplified scheme for the presumptive early identification of Nocardia, Rhodococcus, rapidly growing Mycobacterium, and Streptomyces species is presented. The Nocardia and Streptomyces spp. and the Mycobacterium spp. were positive. The spp. were positive for siderophore activity, but only 25% of the Rhodococcus spp. were positive. The Rhodococcus and Mycobacterium spp. were negative for beta-galactosidase, while the Nocardia and Streptomyces spp. were positive. The Nocardia and Streptomyces spp. and the Mycobacterium spp. were negative for ethylene glycol degradation, while 75% of the Rhodococcus spp. were positive. In combination, these tests were useful for differentiating Mycobacterium, Rhodococcus, and Nocardia species but did not differentiate Nocardia from Streptomyces species.
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PMID:Use of a siderophore detection medium, ethylene glycol degradation, and beta-galactosidase activity in the early presumptive differentiation of Nocardia, Rhodococcus, Streptomyces, and rapidly growing Mycobacterium species. 183 72

The partition of beta-galactosidase from Escherichia coli in aqueous two-phase systems composed of poly(ethylene glycol)/Aquaphase PPT or poly(ethylene glycol)/potassium phosphate, respectively, has been studied thoroughly by varying diverse parameters of the phase forming conditions. The enzyme was found to partition in both systems predominantly to the upper poly(ethylene glycol) containing phase, while the protein bulk of E. coli is concentrated in the lower phase. Optimum conditions for the employment of the two-phase partition for the purification of the enzyme were elaborated leading to a simple and effective procedure in which the enzyme was isolated to homogeneity with 70% recovery.
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PMID:Study on the partition of beta-galactosidase from Escherichia coli in aqueous two-phase systems and elaboration of a simple procedure for the purification of the enzyme to homogeneity. 250 63

Male Sprague-Dawley rats were challenged with various hyperoxaluric agents including ammonium oxalate, hydroxy-L-proline, and ethylene glycol. All treatments resulted in increased urinary oxalate. Associated with hyperoxaluria was an increase in urinary levels of renal enzymes, gamma-glutamyl transpeptidase, N-acetyl-beta-glucosaminidase, and alkaline phosphatase. Most of the rats did not demonstrate any significant change in urinary levels of beta-galactosidase. There was a highly significant positive correlation between urinary oxalate and N-acetyl-beta-glucosaminidase.
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PMID:Urinary enzymes and calcium oxalate urolithiasis. 257 Jan 67

An artificial bifunctional enzyme, beta-galactosidase/galactokinase, has been prepared by gene fusion. The hybrid protein catalyzes the hydrolysis of lactose followed by phosphorylation of galactose. The protein has been purified using DEAE-Sephacel chromatography and gel filtration on Sephacryl S-400 Superfine. The configuration of the hybrid protein is mainly tetrameric but also higher aggregates can be detected. The monomer Mr is 160,000 as judged from sodium dodecyl sulfate/polyacrylamide gel electrophoresis and the native Mr has been calculated to be 600,000-650,000 from gel filtration experiments. beta-Galactosidase/galactokinase has different thermostability curves, pH/activity profiles and Km values as compared with the native enzymes. By using a third enzyme, galactose dehydrogenase, which competes with galactokinase for the galactose formed by beta-galactosidase, substrate channeling can be detected. This proximity effect becomes even more pronounced in an assay mixture containing poly(ethylene glycol).
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PMID:Characterization of an artificial bifunctional enzyme, beta-galactosidase/galactokinase, prepared by gene fusion. 310 37

beta-Galactosidase (beta-D-galactoside galactohydrolase, EC 3.2.1.23) purified from Aspergillus oryzae was modified with 2,4,6-trichloro-s-triazine derivatives of polyethylene glycol (activated BPEG) having molecular weights of 600, 1500, 2000, and 4000. Polyethylene glycol derivatives were attached to 6 of the 12 amino groups exposed on the surface of the enzyme. Upon modification, the enzymatic activity for a water-soluble substrate, o-nitrophenyl beta-D-galactopyranoside, was reduced with increasing molecular weight of the activated BPEG. On the contrary, the enzymatic activity for another substrate, 4-methylumbelliferyl beta-D-galactopyranoside, was increased upon modification. The Michaelis constants of native and modified enzymes for these two substrates were virtually the same. The effect of the modification was more marked in the enzymatic hydrolysis of the beta-galactosidic bond of amphipathic substrates. A fluorescent analog of naturally occurring galactocerebroside, 1-O-galactosyl-2-N-(1-dimethylaminonaphthalene-5-sulfonyl)-sphingosine, was hydrolyzed more rapidly by the modified enzyme than by the native one. The enzyme modified with activated BPEG of 1500 Da had the highest activity for this substrate. The beta-galactosidic bond of the terminal galactose of GM1-ganglioside (II3NeuAcGgOse4Cer, galactosyl-N-acetylgalactosaminyl-(N-acetylneuraminosyl)-galactosyl -glucosylceramide) was cleaved by the modified but not by the native enzyme.
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PMID:Alteration of the substrate specificity of Aspergillus oryzae beta-galactosidase by modification with polyethylene glycol. 643 28

Escherichia coli cells were found to grow in poly(ethylene glycol) (PEG)/phosphate aqueous two-phase systems by selecting the phase-forming components and their concentrations, the tie-line length, and the phase volume ratio properly. The cells cultivated up to an optical density at 660 nm of 1.0 were disrupted by ultrasonic irradiation to release and recover overproduced beta-galactosidase. The surviving cells were found to grow immediately after ultrasonic irradiation. The PEG/phosphate (KH2-PO4-K2HPO4) system with added Na2SO4 was the one optimized for extractive cultivation of E. coli cells, where beta-galactosidase was selectively partitioned to the top phase while total soluble proteins and cells partitioned to the bottom phase. This integrated process was extended to a semicontinuous operating mode, where the top phase containing beta-galactosidase was removed following intermittent ultrasonic irradiation and the bottom phase containing cells was recycled together with the new top phase solution to repeat production and recovery of beta-galactosidase.
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PMID:Extractive cultivation of Escherichia coli using poly(ethylene glycol)/phosphate aqueous two-phase systems to produce intracellular beta-galactosidase. 776 2


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