EC:3.2.1.23 - FACTA Search

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)

The acidophilic and thermophilic bacterium, Bacillus acidocaldarius maintains a cytoplasmic pH between 5.85 and 6.31 over a range of external pH from 2.0 to 4.5. Consistently, the pH optimum of beta-galactosidase, as assayed in cell extracts, is between pH 6.0 and 6.5. An electrical potential (delta-psi), interior positive, is also maintained across the membrane. A delta-psi of approximately 34 mV was calculated from determinations of thiocyanate uptake by cells at pH 3.5. Addition of the proton conductor carbonyl cyanide m-chlorophenylhydrazone increased the delta-psi. Treatment of cells with valinomycin (in the absence of external potassium ions) or high concentrations of thiocyanate, to abolish the delta psi, resulted in collapse of the transmembrane proton gradient (delta pH). Active transport of methylthio-beta, D-galactoside occurred optimally at pH 3.5. Transport of the galactoside was inhibited by various compounds which could dissipate the transmembrane delta pH and by respiratory inhibitors. A decrease in the delta pH and an increase in the delta psi occurred upon addition of methylthio-beta, D-galactoside to cells of B. acidocaldarius. Thus the transport of this solute appears to involve an electrogenic symport with protons. The transport system is most active at 50 degrees C and shows little activity at 25 degrees C, although the delta pH is the same at the two temperatures. Gramicidin inhibits methylthio-beta, D-galactoside transport equally effectively at 50 degrees C and 25 degrees C, while nigericin inhibits only after a lag at 25 degrees C.
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PMID:The protonmotive force and beta-galactoside transport in Bacillus acidocaldarius. 2 85

Treatment of exponentially growing cells of Escherichia coli with membrane-binding drugs such as chlorpromazine (CPZ) and procaine resulted in an induction of manganese-superoxide dismutase (Mn-SOD). A slight decrease was observed in the amount of Fe-SOD. The induction of Mn-SOD required de novo synthesis of this enzyme, since it was suppressed by rifampin. The treatment did not cause the induction of Mn-SOD when performed under anaerobic conditions. In E. coli cells with a sodA-lacZ operon fusion, CPZ and procaine induced beta-galactosidase in the presence of oxygen, whereas it was not expressed and was not induced by CPZ and procaine under anaerobic conditions. Although CPZ reduced the ability of cell suspensions to take up oxygen, it increased the cyanide-resistant fraction of the total respiration. Therefore, it appeared likely that the induction of the sodA gene was a response to an increase in superoxide radical production mediated by these membrane-binding drugs in E. coli cells, possibly by disruption of the electron transport systems in the cell membranes.
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PMID:Induction of manganese-superoxide dismutase by membrane-binding drugs in Escherichia coli. 204 68

In order to prepare an immunogen for enzyme immunoassay of 3 beta-(monoglucuron-1'-beta-yl)-18 beta-glycyrrhetic acid (3MGA), which was isolated from a patient with glycyrrhizin-induced pseudoaldosteronisms, benzyl glycyrrhetate (3) was allowed to react with an acetobromosugar (2) in the presence of silver carbonate to give benzyl 3 beta-(methyl 2',3',4'-triacetyl-glucuron-1' beta-yl)-glycyrrhetate (5) and methyl 3',4'-diacetyl-alpha-1',2'-O-[1-(benzyl glycyrrhet-3 beta-yl)- ethylidene]-D-glucuronate (4). On the other hand, this reaction was carried out in the presence of mercuric cyanide in nitromethane to give compound 5, benzyl 3 beta-acetyl glycyrrhetate (6) and benzyl 11-oxo-A-neooleana-3(5),12-dien-3-oate (7). 4-Aminomethylcyclohexanecarboxylic acid and glycine were introduced as chemical bridges at C-30 of 3 beta-(tert-butylglucuron-1' beta-yl)-glycyrrhetic acid (11) derived from compound 5. The former bridge was used to prepare an immunogenic conjugate with bovine serum albumin, and the latter bridge was used for antigen labelled with beta-galactosidase.
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PMID:Studies on the enzyme immunoassay of bio-active constituents contained in oriental medicinal drugs. V. Preparation of bovine serum albumin conjugate and beta-galactosidase labelled antigen for enzyme immunoassay of 3 beta-(monoglucuron-1' beta-yl)-18 beta-glycyrrhetic acid. 211 Aug 68

Agrobacterium radiobacter NCIB 11883 was grown in lactose-limited continuous culture at a dilution rate of 0.045/h. Washed cells transported [14C]lactose and [methyl-14C]beta-D-thiogalactoside, a nonmetabolisable analog of lactose, at similar rates and with similar affinities (Km for transport, less than 1 microM). Transport was inhibited to various extents by the uncoupling agent carbonyl cyanide p-trifluoromethoxyphenylhydrazone, by unlabeled beta-galactosides and D-galactose, and by osmotic shock. The accumulation ratio for methyl-beta-D-thiogalactoside was greater than or equal to 4,100. An abundant protein (molecular weight, 41,000) was purified from osmotic-shock fluid and shown by equilibrium dialysis to bind lactose and methyl-beta-D-thiogalactoside, the former with very high affinity (binding constant, 0.14 microM). The N-terminal amino acid sequence of this lactose-binding protein exhibited some homology with several other sugar-binding proteins from bacteria. Antiserum raised against the lactose-binding protein did not cross-react with two glucose-binding proteins from A. radiobacter or with extracts of other bacteria grown under lactose limitation. Lactose transport and beta-galactosidase were induced in batch cultures by lactose, melibiose [O-alpha-D-galactoside-(1----6)alpha-D-glucose], and isopropyl-beta-D-thiogalactoside and were subject to catabolite repression by glucose, galactose, and succinate which was not alleviated by cyclic AMP. We conclude that lactose is transported into A. radiobacter via a binding protein-dependent active transport system (in contrast to the H+ symport and phosphotransferase systems found in other bacteria) and that the expression of this transport system is closely linked to that of beta-galactosidase.
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PMID:Binding-protein-dependent lactose transport in Agrobacterium radiobacter. 231

A tetracycline resistance (Tcr) gene that was found originally on two Bacteroides plasmids (pBF4 and pCP1) confers tetracycline resistance on Escherichia coli, but only when it is grown aerobically. Using maxicells, we have identified a 44-kilodalton protein which is encoded by the region that carries the Tcr gene and which may be the Tcr gene product. Localization experiments indicate that this 44-kilodalton protein is cytoplasmic. To determine whether the tetracycline resistance gene is expressed under anaerobic conditions, we have constructed a protein fusion between the Tcr gene and lacZ. In strains of E. coli carrying the fusion, beta-galactosidase activity was the same when the cells were grown under anaerobic conditions as when the cells were grown under aerobic conditions. This indicates that the tetracycline resistance gene product is made under anaerobic conditions but does not work. The failure of the Tcr protein to function under anaerobic conditions was not due to a requirement for function of the anaerobic electron transport system, because neither nitrate nor fumarate added to anaerobic media restored tetracycline resistance. Inhibition of the aerobic electron transport system with potassium cyanide did not prevent growth on tetracycline of cells containing the Tcr gene. A heme-deficient mutant, E. coli SHSP19, which carries the Tcr gene, was still resistant to tetracycline even when grown in heme-free medium. These results indicate that functioning of the Tcr gene product is not dependent on the aerobic electron transport system. Thus the requirement for aerobic conditions appears to reflect a requirement for oxygen. Spent medium from an E. coli strain carrying the Tcr gene, which was grown in medium containing tetracycline (50 micrograms/ml), did not inhibit growth of a tetracycline-susceptible strain of E. coli. Thus, the Tcr gene product may be detoxifying tetracycline.
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PMID:Characterization of a novel tetracycline resistance that functions only in aerobically grown Escherichia coli. 283 61

The intestinal first pass metabolism of amygdalin has been investigated in rat small intestine in vitro. The results show that amygdalin is hydrolyzed to prunasin, essentially in the wall of the proximal jejunum. This specific beta(1-6)hydrolytic cleavage of the terminal glucose residue is pH-dependent and can be inhibited by glucono-delta-lactone, a potent inhibitor of the lysosomal beta-glucosidase of the rat intestine. No substrate competition between phloridzin and lactose vs amygdalin was noted. None of the more common soluble beta- or alpha-enzymatic activities of mammalian intestine (alpha-glucosidase, alpha-amylase) or mammalian liver (beta-galactosidase, beta-glucuronidase) were capable of catalyzing the hydrolysis of the terminal glucose from amygdalin at pH's 5.0, 7.0 or 9.0. Furthermore, no metabolic activity of isolated rat livers toward amygdalin and prunasin was observed within two hours of recirculating perfusion. However, cecal contents of conventional rats, exhibited both amygdalin- and prunasin-hydrolyzing activities. The resulting mandelonitrile dissociates spontaneously into cyanide and benzaldehyde. Therefore, our findings indicate that metabolism of amygdalin to prunasin occurring in the proximal part of jejunum is apparently mediated by enzymatic beta(1-6)glucosidase activity of the gut wall. In contrast, the toxicity of amygdalin due to the release of cyanide obviously requires microbiological activities of the gut flora.
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PMID:Intestinal first pass metabolism of amygdalin in the rat in vitro. 308 25

Experiments measuring the initial uptake of commercial (3H) tetracycline exhibit two distinct kinetic phases: a rapid phase followed by a slow phase. (3H) tetracycline purified by chromatography on a Dowex 50WX2 column exhibited only monophasic rapid uptake when tested with susceptible Escherichia coli cells. Cyanide inhibited the uptake of purified (3H) tetracycline only partially while transport of proline and maltose was entirely abolished. Energy independent accumulation of tetracycline may be accounted for by binding to cellular constituents. Uptake of tetracycline--as measured by inhibition of beta-galactosidase synthesis--was strongly affected by a shift in temperature from 37 degrees C to 21 degrees C while carrier-mediated transport systems revealed only minor reductions. Taken together with the non-saturability of tetracycline uptake and the evidence for diffusion of tetracycline through phospholipid bilayers [Argast and Beck (1984) Antimicrob Agents Chemother 26:263-265] these data support the hypothesis that tetracycline enters the cytoplasm by diffusion.
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PMID:Tetracycline uptake by susceptible Escherichia coli cells. 392 92

Unlike the uncoupler carbonyl cyanide 3-chlorophenyl-hydrazone, the respiratory inhibitors CN-, N3-, NO2- and rotenone enhanced the formation of nitrate and nitrite reductases in highly aerated cultures of the Paracoccus denitrificans ex-conjugant PD1222 (pRW2A/FF). A maximal effect was observed at concentrations partly blocking electron transport to O2. The level of beta-galactosidase reporting the activity of an Fnr-like regulatory protein showed a similar concentration dependency. It is concluded that oxygen is sensed by Fnr in an indirect way, possibly via the redox state of a cellular component.
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PMID:Respiratory inhibitors activate an Fnr-like regulatory protein in Paracoccus denitrificans: implications for the regulation of the denitrification pathway. 801 29

Indolicidin is a cationic antimicrobial peptide isolated from bovine neutrophils. It consists of only 13 amino acids, has the highest tryptophan content of any known protein, and is amidated at the carboxyl terminus in nature. By circular dichroism spectroscopy a weak poly-L-proline II extended helix structure was observed that became substantially more pronounced upon interaction with liposomes. Indolicidin bound purified surface lipopolysaccharide with high affinity and permeabilized the outer membrane of Escherichia coli to the small hydrophobic molecule 1-N-phenylnapthylamine (Mr 200), results consistent with indolicidin crossing the outer membrane via the self-promoted uptake pathway. The methyl esterification of indolicidin's carboxyl terminus increased its activity for Gram-negative and Gram-positive bacteria. In Gram-negative bacteria this was associated with an increased binding to lipopolysaccharide and increased permeabilization of the outer membrane. The cytoplasmic membrane was the site of action of indolicidin as assayed in E. coli by the unmasking of cytoplasmic beta-galactosidase due to membrane permeabilization. The mechanism for this activity was shown to be the ability of the peptide to cause an increase in the transmembrane current of planar lipid bilayers. This current increase was activated by transmembrane potentials in excess of -70 to -80 mV. Consistent with this, there was a substantial decrease in indolicidin-mediated bacterial killing and permeabilization of the cytoplasmic membrane of E. coli that had been pretreated with the uncoupler carbonyl cyanide-m-chlorophenyl hydrazone. In planar bilayers, indolicidin induced the formation of discrete channels, which ranged in conductance from 0.05-0.15 nS. Thus despite the small size and unique composition of indolicidin, it was capable of killing Gram-negative bacteria by crossing the outer membrane and causing disruption of the cytoplasmic membrane by channel formation.
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PMID:Mode of action of the antimicrobial peptide indolicidin. 870 13

During the growth of Kluyveromyces marxianus var. marxianus ATCC 10022 on lactose, peaks of glucose, but not beta-galactosidase activity, were detected in culture medium. Harvested and washed whole cells produced glucose and galactose from lactose, or ortho-nitro-phenol from the chromogenic substrate ortho-nitro-phenyl-beta-D-galactopyranoside (ONPG), indicating that beta-galactosidase is physically associated with cells. ONPG hydrolysis by whole cells presented a monophasic kinetics (Km 36.6 mM) in lactose exponential growth phase cells, but a biphasic kinetics (Km 0.2 and 36.6 mM) in stationary growth phase cells. Permeabilization with digitonin or disruption of cells from both growth phases led to monosite ONPG hydrolysis (Km 2.2 to 2.5 mM), indicating that beta-galactosidase is not located in the periplasm. In addition, the energy inhibitors fluoride or arsenate, as well as the uncoupler carbonyl cyanide m-chlorophenylhydrazone (CCCP) prevented ONPG hydrolysis by whole cells. These findings indicate that energy coupled transmembrane transport is the rate-limiting step for intracellular ONPG cleavage. The taxonomic and physiologic implications of the exclusive intracellular location of beta-galactosidase of K. marxianus var. marxianus ATCC 10022 are discussed.
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PMID:Location of the beta-galactosidase of the yeast Kluyveromyces marxianus var. marxianus ATCC 10022. 883 33

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