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)

Plasma membrane glycoconjugates, enzymatically labelled with [3H]galactose, were used as an autoradiographic membrane marker for a morphometric analysis of membrane traffic during fluid phase pinocytosis in the amoeba, Dictyostelium discoideum. The fraction of grains associated with the plasma membrane decreased exponentially from 99% for cells fixed directly after labelling on the cell surface, to a steady-state value of 45% after about 1 h of pinocytotic activity. The complementary fraction of grains was observed on vacuolar membranes. Only after a lag of about 20 min, a small but significant fraction (3%) of the total grains, was found in the region of the Golgi membranes. During two subsequent doublings of cell number, over a period of 24 h, label was lost into the medium at a constant rate of 1% per h. The cell bound label remained fully membrane bound over the entire period. The beta(1-4) linkage was not noticeably modified, as judged by its susceptibility to hydrolytic release by beta-galactosidase. An analysis by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) showed an identical labelling pattern for total membrane fractions when prepared directly after labelling or after 24 h of membrane flow.
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PMID:Membrane traffic in Dictyostelium discoideum: plasma membrane glycoconjugates internalized and recycled during fluid phase pinocytosis enter the Golgi complex. 664 36

beta-Galactosidase from Alternaria tenius was purified to homogeneity from the cultural fluid using acetone precipitation, ion-exchange chromatography on DEAE-cellulose, adsorption on hydroxylapatite and affinity chromatography on N-(beta-D-galactopyranosyl-thiocarbamoyl)-beta-aminocaproyl-AN-Sepharose 4B. The enzyme homogeneity was demonstrated by ultracentrifugation and polyacrylamide gel electrophoresis with SDS or without it. The specific activity of the homogeneous enzyme is 160 u. per mg of protein; mol. weight as determined by various methods is 142 000-176 000, pI = 4.6, temperature optimum is 60-65 degrees, pH optima for o-nitrophenyl-beta-D-galactopyranoside (o-NPG) and lactose are 3.8--4.4 and 3.6--4.8, respectively. The Km values for o-NPG and lactose are 0.21 . 10(-3) and 6.57 . 10-3 M, respectively. The enzyme is a glycoprotein and contains up to 30% of carbohydrates. EDTA and pCMB have no effect on the beta-galactosidase activity. Galactose acts as a competitive inhibitor, while glucose has no inhibiting effect on the enzyme activity.
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PMID:[Purification and properties of beta-galactosidase from Alternaria tenius]. 679 53

Pig intestinal lactase/phlorizin hydrolase (EC 3.2.1.23/62) was purified in its amphiphilic form by immunoadsorbent chromatography. The purified enzyme was free of other known brush border enzymes and appeared homogeneous in immunoelectrophoresis and polyacrylamide gel electrophoresis in the presence of SDS. Pig lactase/phlorizin hydrolase was shown to have the same quaternary structure as the human enzyme, i.e., built up of two polypeptides of the same molecular weight (160000). In addition to hydrolyzing lactose, phlorizin and a number of synthetic substrates, both the human and the pig enzyme were shown to have a considerable activity against cellotriose and cellotetraose, and a low but significant activity against cellulose. The lactase/phlorizin hydrolase isolated from pigs in which the pancreatic ducts had been disconnected 3 days before death and from Ca2+-precipitated enterocyte membranes (basolateral and intracellular membranes) exhibited in SDS-polyacrylamide gel electrophoresis the same size of constituent polypeptides and the same catalytic and immunological properties as a normal brush border lactase/phlorizin hydrolase.
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PMID:Further characterization of intestinal lactase/phlorizin hydrolase. 681 89

An analysis was made of the pinocytosis-derived internalization and recycling of membrane in the macrophage cell line, P388D1. Plasma membrane glycoconjugates, reversibly labelled with [3H]galactose, were used as a membrane marker. Label internalized with the plasma membrane was no longer accessible to release by externally added beta-galactosidase and could therefore be distinguished quantitatively from label remaining on the cell surface. Direct experimental evidence for membrane recycling was obtained by demonstrating that previously internalized label reappeared at the cell surface. The composition of labelled membrane glycoconjugates, as analysed by SDS-polyacrylamide gel electrophoresis, remained unaltered before and after internalization. The label remained membrane-bound in an unmodified way during the entire period of 8 h investigated, corresponding to about twenty-four cycles of membrane flow. Membrane flow led to a steady-state distribution of label between the plasma membrane and intracellular membranes. The redistribution of label occurred with biphasic kinetics, which could be described as the sum of two exponential functions. This behavior is explained by presenting a model of membrane flow between the plasma membrane and two consecutive intracellular membrane compartments, which we assume to consist of pinosomal membranes and of pinosome-derived membrane of secondary lysosomes. The relative membrane surface areas turn out to be in the ratio of 100:12.5:7.3, respectively. At the observed rate of pinocytosis, the equivalent of the plasma membrane is internalized once every 21 min, in the form of primary pinosomes of the size 0.24 micrometer. The residence time of membranes in the pinosome compartment is about 3 min. The rate at which membranes enter the lysosomal compartment is 31 times lower than the rate of membrane internalization. We conclude that only 3% of the amount of membrane internalized at any one time subsequently enters the secondary lysosome compartment. After a residence time of 49 min this membrane fraction is finally recycled to the cell surface. The results are discussed in terms of mixing and sorting-out of pinosomal and lysosomal membranes.
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PMID:Internalization and recycling of plasma membrane glycoconjugates during pinocytosis in the macrophage cell line, P388D1. Kinetic evidence for compartmentation of internalized membranes. 684 Jan 99

The glycoproteinic nature of the insulin receptor was indicated using two different approaches: 1. [125I] insulin binding to soluble receptors from mouse liver was inhibited by digestion with beta-galactosidase or pretreatment with Ricinus communis I or concanavalin A. An other enzyme (neuraminidase) and lectins (wheat germ agglutinin, Dolichos biflorus) did not affect the binding reaction. These data confirmed that insulin directly interacts with the galactoglycoproteins of liver membranes. 2. The galactose oxidase-sodium boro[3H] hydride technique, previously used for labeling accessible membrane galactoglycoproteins, was again utilized to discern the components that interact with insulin. When liver membranes were equilibrated with 10-7 M insulin prior to labeling, the SDS gel radioactive profiles were specifically modified with two galactoglycoprotein of apparent molecular sizes 195 000 and 145 000, compatible with their participation in the insulin binding interaction. Membrane pretreatment with beta-galactosidase or Sophora japonica lectin reduced the labeling in most peaks, thus supporting the argument for labeling sensitivity. Preincubation of membranes with 10-7 M proinsulin slightly hindered labeling, while pretreatment with 10-7 M glucagon was ineffective, suggesting a specificity of the insulin effect. These data indicate that glycoprotein nature of the insulin receptor for two reasons: alteration of insulin binding after modification of the galactoglycoproteins, and alteration of galactoglycoprotein labeling after insulin binding. Two galactoglycoproteins, with apparent molecular weights 145 000 and 195 000, respectively, were identified and they are suggested to have insulin binding properties.
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PMID:Identification of liver cell membrane galactoglycoproteins involved in the process of insulin binding. 703 Mar 99

Spinach ferredoxin-nitrite reductase is a chloroplast enzyme that contains a coupled [Fe4S4]-siroheme-active site and catalyzes the six-electron reduction of nitrite to ammonia. An expression system which produced enzymatically active spinach nitrite reductase (NiR) in Escherichia coli was developed in order to study the structure-function relationships of the coupled active site using site-directed mutagenesis. The spinach NiR cDNA, without the sequences encoding the chloroplast transit peptide, was expressed as a beta-galactosidase fusion containing five additional amino acids at the N-terminus. The expressed NiR in aerobic cultures was mostly insoluble and inactive. After optimizing growth conditions, active NiR represented 0.5-1.0% of the total protein. E. coli-expressed NiR was purified approximately 200-fold to homogeneity as indicated by SDS-polyacrylamide gel electrophoresis. The expressed NiR enzyme was recognized by rabbit anti-spinach NiR antibody as visualized by Western blot analysis. The absorption spectrum of the E. coli-expressed NiR was identical to authentic spinach NiR with a Soret and alpha band at 386 and 573 nm, respectively, and a A278/A386 = 1.9. The addition of nitrite to the oxidized enzyme preparation produced the characteristic shifts in the spectrum. The specific activity for the methyl viologen-dependent reduction of nitrite of E. coli-expressed NiR was 100 U/mg and the Km determined for nitrite was 0.3 mM, which are in agreement with reported values for this enzyme. These results indicate that the E. coli-expressed NiR is fully comparable to spinach NiR in purity, catalytic activity, and physical state.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of spinach nitrite reductase in Escherichia coli: site-directed mutagenesis of predicted active site amino acids. 748 61

CRP-cAMP-dependent operons of Escherichia coli can be expressed in cells lacking functional adenylate cyclase when they carry a second-site mutation in the crp gene (crp*). It is known that the expression of these operons is repressed by glucose, but the molecular mechanism underlying this cAMP-independent catabolite repression has been a long-standing mystery. Here we address the question of how glucose inhibits the expression of beta-galactosidase in the absence of cAMP. We have isolated several mutations in the crp gene that confer a CRP* phenotype. The expression of beta-galactosidase is reduced by glucose in cells carrying these mutations. Using Western blotting and/or SDS-PAGE analysis, we demonstrate that glucose lowers the cellular concentration of CRP* through a reduction in crp* mRNA levels. The level of CRP* protein correlates with beta-galactosidase activity. When the crp promoter is replaced with the bla promoter, the inhibitory effect of glucose on crp* expression is virtually abolished. These data strongly suggest that the lowered level of CRP* caused by glucose mediates catabolite repression in cya- crp* cells and that the autoregulatory circuit of the crp gene is involved in the down-regulation of CRP* expression by glucose.
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PMID:Glucose lowers CRP* levels resulting in repression of the lac operon in cells lacking cAMP. 749 74

The product yield of staphylococcal Protein A reached only 1.8% of the cell dry weight, while the corresponding value was 14% for a fusion protein composed of Protein A and Escherichia coli beta-galactosidase [1], when produced in the same E. coli host strain, with the same promoter and under identical process conditions. Measurement of the stability of Protein A in vivo showed that it was quickly degraded in the cell with a half-life of 30 min when the protein was expressed alone, but after fusion to beta-galactosidase, the Protein A part became considerably stabilized. In spite of the fast intracellular proteolysis of Protein A, few degradation products could be identified on Coomassie Brilliant Blue-stained SDS/PAGE gels after IgG purification, indicating an even faster degradation of the Protein A fragments. Such degradation products, however, accumulated during incubation of the disintegrated cells. Intracellular degradation intermediates could be demonstrated with the more sensitive Western-blot technique. This technique also revealed that a slow degradation took place not only in the Protein A moiety of the fusion protein, but also in the beta-galactosidase moiety. A control with native beta-galactosidase also showed a weak in vivo proteolysis of this molecule, but it was more stable in free form than in the fused form. This means that the proteolytically very sensitive Protein A was stabilized by fusion with beta-galactosidase, but the originally rather stable beta-galactosidase became slightly more susceptible to proteolysis after the fusion.
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PMID:Proteolysis of fusion proteins: stabilization and destabilization of staphylococcal protein A and Escherichia coli beta-galactosidase. 757 56

An exo-(1-->4)-beta-D-galactanase was isolated from ripe tomato fruit (Lycopersicon esculentum Mill. cv Ailsa Craig and cv Better Boy) using anion-exchange, gel filtration, and cation-exchange chromatography. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the most active fraction revealed a predominant protein band at 75 kD and several minor bands. A 30-amino acid N-terminal sequence from this 75-kD protein showed a high degree of homology with other recently identified beta-galactosidase/ galactanase proteins from persimmon and apple fruits (I.-K. Kang, S.-G. Suh, K.C. Gross, J.-K. Byun [1994] Plant Physiol 105: 975-979; G.S. Ross, T. Wegrzyn, E.A. MacRae, R.J. Redgwell [1994] Plant Physiol 106: 521-528) and with the predicted polypeptide sequence encoded by the ethylene-regulated SR12 gene in carnation (K.G. Raghothama, K.A. Lawton, P.B. Goldsbrough, W.R. Woodson [1991] Plant Mol Biol 17: 61-71). The enzyme focused to a single band of beta-galactosidase activity on an isoelectrofocusing gel at pH 9.8. The enzyme was specific for (1-->4)-beta-D-galactan substrates with a pH optimum of 4.5. The only reaction product detected was monomeric galactose, indicating that the enzyme was an exo (1-->4)-beta-D-galactanase. beta-Galactanase activity increased at the onset of ripening in normal fruit, but no similar increase was detected in the nonripening mutants nor and rin. A tomato homolog (pTombetagal1) was isolated using the SR12 cDNA clone from carnation as a probe. This clone showed 73% identify at the amino acid level with beta-galactosidase-related sequences from apple and asparagus and 66% identity with SR12. pTombetagal1 is a member of a gene family. Northern analysis demonstrated that pTombetagal1 expression was ripening related in normal fruits, with lower levels apparent in the nonsoftening mutants.
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PMID:Tomato exo-(1-->4)-beta-D-galactanase. Isolation, changes during ripening in normal and mutant tomato fruit, and characterization of a related cDNA clone. 763 Sep 37

To investigate the variability in test results obtained with the SOS chromotest (Escherichia coli PQ37 genotoxicity assay) when varying the composition of the exogenous metabolizing system (S9 mix), we examined the influence of different S9 and NADP concentrations, of buffer pH value, of SDS concentrations, the effects of E. coli PQ37 density and centrifugation steps on the expression of beta-galactosidase (beta g) and alkaline phosphatase (ap) activity, the calculated induction factors (IFs) and SOS-inducing potencies (SOSIPs). Additionally we examined the metabolic potency (stability) of S9 mix when stored at 37 degrees C before use. Initially, we used 0-5000 ng (= 0-20 nmole) benzo[a]pyrene (B[a]P) as a reference compound for the test procedure in the presence of standard S9 mix. Subsequently, to evaluate the results of S9 mix variations we examined several polycyclic aromatic hydrocarbons (PAHs) using both the standard and a modified S9 mix composition and test protocol. We observed the highest beta g and ap activities and/or IFs using only 11-27 microliters 9000 x g liver supernatant (S9) from Aroclor 1254-induced rats per assay (20-50% of standard amount) and calibrating the S9 mix Tris buffer to pH 7.8-8.0. 60-300 micrograms NADP/assay (10-50% of standard) was sufficient for optimum activation of PAHs. In contrast to previous investigations about the variability of the SOS chromotest in the absence of a metabolizing system, higher induction factors were obtained when using higher bacterial densities (12-18 x 10(6) cfu/assay). Centrifugation steps as recommended by other investigators were not necessary when using optimum S9 amounts. The metabolic activity of S9 mix remained nearly constant approximately 20 min after preparation, but decreased to 80% of its activity in about 1 h.
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PMID:Influence of S9 mix composition on the SOS response in Escherichia coli PQ37 by polycyclic aromatic hydrocarbons. 767 15


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