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Michaelis Constant (michaeli + constant)

Distribution by Scientific Domains
Medical Sciences38%
Life Sciences23%
Chemistry23%

Selected Abstracts

Electrochemically Induced Formation of Surface-Attached Temperature-Responsive Hydrogels.

ELECTROANALYSIS, Issue 9 2010
Amperometric Glucose Sensors with Tunable Sensor Characteristics
Abstract Employing thermally responsive hydrogels, the design of an amperometric glucose sensor is proposed. The properties of the biosensor can be modulated upon changing the temperature. Homo- and copolymers of N -isopropylacrylamide (NIPAm) and oligo(ethylene glycol) methacrylate (OEGMA) were prepared by electrochemically induced polymerization thus yielding surface-attached hydrogels. The growth of the films as well as the change in the film thickness in dependence from the temperature were investigated by means of an electrochemical quartz crystal microbalance (EQCM). The layer thickness in the dry state ranged from 20 to 120,nm. The lower critical solution temperature (LCST) of the hydrogel increases with increasing content of the more hydrophilic OEGMA. Hence, the swelling in aqueous electrolyte is composition dependent and can be adjusted by selecting a specific NIPAm to OEGMA ratio. All homo- and copolymer films showed good biocompatibility and no fouling could be observed during exposing the surfaces to human serum albumin. For amperometric glucose detection, glucose oxidase was entrapped in the films during electrochemically-induced polymerization. Both the apparent Michaelis constant (K and the apparent maximum current (i as determined by amperometry could be adjusted both by the film composition as well as the operation temperature. [source]

Electrophoretically mediated reaction of glycosidases at a nanoliter scale

ELECTROPHORESIS, Issue 6 2003
Yoshimi Kanie
Abstract We have investigated electrophoretically mediated microanalysis (EMMA) for the assay of a native glyco-enzyme. As a representative of this class of enzyme, ,-glucosidase was selected, and the reaction was analyzed. Our EMMA was based on the plug-plug interaction of enzyme and substrate plugs, which is essential to reduce quantities of materials. Furthermore, we have addressed the problem of incompatibility of the enzymatic reaction and separation of the reactants. As a result, EMMA of native glycosidase was achieved with a reaction volume of ,,20 nL and the Michaelis constant was estimated according to the Lineweaver-Burk plot. The current method may have advantages over traditional assay methods, especially in terms of the amount of enzyme (ng order) and substrate (pmol order) required for a reaction*. [source]

Characterization of ,- d -glucosidase extracted from soil fractions

EUROPEAN JOURNAL OF SOIL SCIENCE, Issue 2 2000
M. D. Busto
Summary One way to study the state in which stabilized extracellular enzymes persist and are active in the soil is by extraction from the soil, with subsequent fractionation of enzyme,organomineral complexes and characterization of such complexes. In order to investigate the location and characteristics of soil ,-glucosidase, three soil fractions were obtained both from real (undisturbed) soil aggregates and from structural (dispersed in water and physically disrupted) aggregates using two different granulometric procedures. The ,-glucosidase activity of the fraction was then assayed. When the aggregates were dispersed, more than 73% of activity was in the soil microaggregates with diameters of less than 50 ,m (SF50). These aggregates were associated with strongly humified organic matter. Solutions of diluted pyrophosphate at neutral pH liberated active ,-glucosidase from all fractions, although the efficacy of extraction varied according to the type of fraction. The SF50 fraction and aggregates of 2000,100 ,m obtained by sieving (SF2000) showed the greatest ,-glucosidase activity (34.5 and 36.0%, respectively). Micro- and ultrafiltration of SF50 extracts increased the total ,-glucosidase activity, whereas these procedures, applied to the RF2000 fraction, decreased it. Humus,,-glucosidase complexes in the SF50 fraction, between 0.45 ,m and 105 nominal molecular weight limit ( nmwl) (SF50II) and < 105nmwl (SF50III) showed an optimum pH at 5.4, and in the SF50I fraction (> 0.45 ,m) the optimum was 4.0. The stability of ,-glucosidase in the aggregates of the smallest size SF50II and SF50III decreased at acid pHs. The presence of two enzymes (or two forms of the same enzyme) catalysing the same reaction with different values of Michaelis constant and maximum velocity was observed in all but one of the ,-glucosidase complexes extracted and partially purified from the SF50 aggregates. [source]

Conversion of vitamin D3 to 1,,25-dihydroxyvitamin D3 in human skin equivalents

EXPERIMENTAL DERMATOLOGY, Issue 2 2000
B. Lehmann
Abstract: These results demonstrate for the first time that human keratinocytes under in vivo -like conditions have the capacity of the enzymatic hydroxylation of vitamin D3 to hormonally active calcitriol (1,,25(OH)2D3). Supplementation of the culture medium with bovine serum albumin (BSA) up to 1.5% (w/v) amplifies the conversion of vitamin D3 to 1,,25(OH)2D3. The maximum turnover rate of this reaction at 780 nM vitamin D3 in presence of 1.0% (w/v) BSA amounts to approximately 3 pmol 1,,25(OH)2D3 per 106 cells after 6 h of incubation. The hydroxylation of vitamin D3 to 1,,25(OH)2D3 is inhibited by the P-450 oxidase inhibitor ketoconazole. The generation of 1,,25(OH)2D3 from vitamin D3 has an apparent Michaelis constant (Km) of 2.3×10,6 M. The intrinsic conversion of vitamin D3 to biologically active 1,,25(OH)2D3 may be of importance for the regulation of proliferation and differentiation of keratinocytes. [source]

Sensitivity of the 2-oxoglutarate carrier to alcohol intake contributes to mitochondrial glutathione depletion

HEPATOLOGY, Issue 3 2003
Olga Coll
The mitochondrial pool of reduced glutathione (mGSH) is known to play a protective role against liver injury and cytokine-mediated cell death. However, the identification of the mitochondrial carriers involved in its transport in hepatocellular mitochondria remains unestablished. In this study, we show that the functional expression of the 2-oxoglutarate carrier from HepG2 cells in mitochondria from Xenopus laevis oocytes conferred a reduced glutathione (GSH) transport activity that was inhibited by phenylsuccinate, a specific inhibitor of the carrier. In addition, the mitochondrial transport of GSH and 2-oxoglutarate in isolated mitochondria from rat liver exhibited mutual competition and sensitivity to glutamate and phenylsuccinate. Interestingly, the kinetics of 2-oxoglutarate transport in rat liver mitochondria displayed a single Michaelis-Menten component with a Michaelis constant of 3.1 ± 0.3 mmol/L and maximum velocity of 1.9 ± 0.1 nmol/mg protein/25 seconds. Furthermore, the initial rate of 2-oxoglutarate was reduced in mitochondria from alcohol-fed rat livers, an effect that was not accompanied by an alcohol-induced decrease in the 2-oxoglutarate messenger RNA levels but rather by changes in mitochondrial membrane dynamics induced by alcohol. The fluidization of mitochondria by the fluidizing agent 2-(2-methoxyethoxy)ethyl 8-(cis-2-n-octylcyclopropyl) (A2C) restored the initial transport rate of both GSH and 2-oxoglutarate. Finally, these changes were reproduced in normal liver mitochondria enriched in cholesterol where the fluidization of cholesterol-enriched mitochondria with A2C restored the order membrane parameter and the mitochondrial 2-oxoglutarate uptake. In conclusion, these findings provide unequivocal evidence for 2-oxoglutarate as a GSH carrier and its sensitivity to membrane dynamics perturbation contributes in part to the alcohol-induced mGSH depletion. [source]

Enzymatic properties of phenoloxidase from Pieris rapae (Lepidoptera) larvae

INSECT SCIENCE, Issue 4 2006
CHAO-BIN XUE
Abstract The kinetic parameters of partially purified phenoloxidase (PO, EC. 1.14.18.1) from the 5th instar larvae of Pieris rapae (Lepidoptera) were determined, using L-3, 4-dihydroxyphenylalanine (L-DOPA) as substrate. The optimal pH and temperature of the enzyme for the oxidation of L-DOPA were determined to be at pH 7.0 and at 42°C, respectively. The enzyme was stable between pH 6.5 and 7.4 and at temperatures lower than 37°C. At pH 6.8 and 37°C, the Michaelis constant (Km) and maximal velocity (Vm) of the enzyme for the oxidation of L-DOPA were determined to be 0.80 ,mol/L and 1.84 ,mol/ L/min, respectively. Tetra-hexylresorcinol and 4-dodecylresorcinol effectively inhibited activity of phenoloxidase and this inhibition was reversible and competitive, with the IC50 of 1.50 and 1.12 ,mol/L, respectively. The inhibition constants were estimated to be 0.50 and 0.47 ,mol/L, respectively. [source]

Kinetic analysis of bacterial bioluminescence in water,organic media

LUMINESCENCE: THE JOURNAL OF BIOLOGICAL AND CHEMICAL LUMINESCENCE, Issue 4 2001
I. E. Sukovataya
Abstract The interaction of luciferases from two types of luminous bacteria, Photobacterium leiognathi and Vibrio harveyi, with their substrates [the photorecovered FMNH2 and long-chain aldehydes,decanal (C10), dodecanal (C12) and tetradecanal (C14)] in water,organic media was analysed using kinetic graphical methods. Moderate concentrations of organic solvents have been demonstrated to activate the bioluminescence, while higher concentrations inhibit it. The interactions of these effectors with luciferases show different types of kinetics, which depend on concentrations of solvents, kinds of enzymes and substrates. The apparent value of the Michaelis constant, Km, for C14 of both luciferases and for C10 of luciferase V. harveyi is enhanced with increasing concentration of the organic solvent, but Km for C12 and C10 of luciferase P. leiognathi decreases. Obviously, at the specific binding of aldehydes with luciferases in the first case, hydrophobic interactions are realized, but in second, the electrostatic interactions are realized. The series of changes in parameters of bioluminescence reaction catalysed by different luciferases is obviously determined by their structural peculiarities. Copyright © 2001 John Wiley & Sons, Ltd. [source]

The Properties of Covalently Immobilized Trypsin on Soap-Free P(MMA-EA-AA) Latex Particles

MACROMOLECULAR BIOSCIENCE, Issue 4 2005
Kai Kang
Abstract Summary: The covalent immobilization of trypsin onto poly[(methyl methacrylate)- co -(ethyl acrylate)- co -(acrylic acid)] latex particles, produced by a soap-free emulsion polymerization technique, was carried out using the carbodiimide method. The catalytic properties and kinetic parameters, as well as the stability of the immobilized enzyme were compared to those of the free enzyme. Results showed that the optimum temperature and pH for the immobilized trypsin in the hydrolysis of casein were 55,°C and 8.5, both of which were higher than that of the free form. It was found that Km (Michaelis constant) was 45.7 mg,·,ml,1 and Vmax (maximal reaction rate) was 793.0 ,g,·,min,1 for immobilized trypsin, compared to a Km of 30.0 mg,·,ml,1 and a Vmax of 5,467.5 ,g,·,min,1 for free trypsin. The immobilized trypsin exhibited much better thermal and chemical stabilities than its free counterpart and maintained over 63% of its initial activity after reusing ten times. TEM photograph of latex particles after trypsin immobilization. [source]

The oxidation of l -ascorbic acid catalysed by pear tyrosinase

PHYSIOLOGIA PLANTARUM, Issue 1 2000
Juan Carlos Espín
The ability of partially purified pear tyrosinase (PPO) to catalyse the oxidation of l -ascorbic acid (AA) has been reported here for the first time. The ascorbate oxidase activity of PPO was studied by oxymetric assays. The activity was linearly related to the enzyme concentration with a Michaelis constant (Km) for AA of 0.55±0.03 mM at pH 7. The stoichiometry was found to be 1:2 (O2:AA). The action of the PPO inhibitors tropolone and sodium chloride was studied to exclude a possible interference of endogenous pear ascorbate oxidase in the oxidation of AA. A possible role of the ,AA/PPO' system in the browning of pears is proposed. [source]

Involvement of an influx transporter in the blood,brain barrier transport of naloxone

BIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 4 2010
Toyofumi Suzuki
Abstract Naloxone, a potent and specific opioid antagonist, has been shown in previous studies to have an influx clearance across the rat blood,brain barrier (BBB) two times greater than the efflux clearance. The purpose of the present study was to characterize the influx transport of naloxone across the rat BBB using the brain uptake index (BUI) method. The initial uptake rate of [3H]naloxone exhibited saturability in a concentration-dependent manner (concentration range 0.5,µM to 15,mM) in the presence of unlabeled naloxone. These results indicate that both passive diffusion and a carrier-mediated transport mechanism are operating. The in vivo kinetic parameters were estimated as follows: the Michaelis constant, Kt, was 2.99±0.71,mM; the maximum uptake rate, Jmax, was 0.477±0.083,µmol/min/g brain; and the nonsaturable first-order rate constant, Kd, was 0.160±0.044,ml/min/g brain. The uptake of [3H]naloxone by the rat brain increased as the pH of the injected solution was increased from 5.5 to 8.5 and was strongly inhibited by cationic H1 -antagonists such as pyrilamine and diphenhydramine and cationic drugs such as lidocaine and propranolol. In contrast, the BBB transport of [3H]naloxone was not affected by any typical substrates for organic cation transport systems such as tetraethylammonium, ergothioneine or L -carnitine or substrates for organic anion transport systems such as p -aminohippuric acid, benzylpenicillin or pravastatin. The present results suggest that a pH-dependent and saturable influx transport system that is a selective transporter for cationic H1 -antagonists is involved in the BBB transport of naloxone in the rat. Copyright © 2010 John Wiley & Sons, Ltd. [source]

Effect of macrolide antibiotics on uptake of digoxin into rat liver

BIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 3 2007
Suwako Ito
Abstract The objective of this study was to examine the effect of macrolide antibiotics, clarithromycin, erythromycin, roxithromycin, josamycin and azithromycin, on the hepatic uptake of digoxin. The uptake of [3H]digoxin was studied in rats in vivo, using the tissue-sampling single-injection technique, and in isolated rat hepatocytes in vitro. The uptake of [3H]digoxin into rat hepatocytes was concentration-dependent with a Michaelis constant (Km) of 445 nM. All the macrolide antibiotics inhibited the uptake of [3H]digoxin into rat hepatocytes in a concentration-dependent manner. However, clarithromycin did not affect the in vivo hepatic uptake of digoxin in rats. The in vivo permeability,surface area product of digoxin for hepatic uptake (PSinf) was estimated to be 12.5 ml/min/g liver from the present in vitro data, which is far larger than the hepatic blood flow rate (1.4 ml/min/g liver). Macrolide antibiotics at clinically relevant concentrations inhibit digoxin uptake by rat hepatocytes in vitro, but not in vivo, probably because hepatic uptake of digoxin in rats is blood flow-limited. Clinically observed digoxin,macrolide interaction in humans could be due to macrolide inhibition of hepatic digoxin uptake, if the uptake is permeation-limited. Copyright © 2007 John Wiley & Sons, Ltd. [source]

Conversion of a glutamate dehydrogenase into methionine/norleucine dehydrogenase by site-directed mutagenesis

FEBS JOURNAL, Issue 22 2001
Xing-Guo Wang
In earlier attempts to shift the substrate specificity of glutamate dehydrogenase (GDH) in favour of monocarboxylic amino-acid substrates, the active-site residues K89 and S380 were replaced by leucine and valine, respectively, which occupy corresponding positions in leucine dehydrogenase. In the GDH framework, however, the mutation S380V caused a steric clash. To avoid this, S380 has been replaced with alanine instead. The single mutant S380A and the combined double mutant K89L/S380A were satisfactorily overexpressed in soluble form and folded correctly as hexameric enzymes. Both were purified successfully by Remazol Red dye chromatography as routinely used for wild-type GDH. The S380A mutant shows much lower activity than wild-type GDH with glutamate. Activities towards monocarboxylic substrates were only marginally altered, and the pH profile of substrate specificity was not markedly altered. In the double mutant K89L/S380A, activity towards glutamate was undetectable. Activity towards l -methionine, l -norleucine and l -norvaline, however, was measurable at pH 7.0, 8.0 and 9.0, as for wild-type GDH. Ala163 is one of the residues that lines the binding pocket for the side chain of the amino-acid substrate. To explore its importance, the three mutants A163G, K89L/A163G and K89L/S380A/A163G were constructed. All three were abundantly overexpressed and showed chromatographic behaviour identical with that of wild-type GDH. With A163G, glutamate activity was lower at pH 7.0 and 8.0, but by contrast higher at pH 9.0 than with wild-type GDH. Activities towards five aliphatic amino acids were remarkably higher than those for the wild-type enzyme at pH 8.0 and 9.0. In addition, the mutant A163G used l -aspartate and l -leucine as substrates, neither of which gave any detectable activity with wild-type GDH. Compared with wild-type GDH, the A163 mutant showed lower catalytic efficiencies and higher Km values for glutamate/2-oxoglutarate at pH 7.0, but a similar kcat/Km value and lower Km at pH 8.0, and a nearly 22-fold lower S0.5 (substrate concentration giving half-saturation under conditions where Michaelis,Menten kinetics does not apply) at pH 9.0. Coupling the A163G mutation with the K89L mutation markedly enhanced activity (100,1000-fold) over that of the single mutant K89L towards monocarboxylic amino acids, especially l -norleucine and l -methionine. The triple mutant K89L/S380A/A163G retained a level of activity towards monocarboxylic amino acids similar to that of the double mutant K89L/A163G, but could no longer use glutamate as substrate. In terms of natural amino-acid substrates, the triple mutant represents effective conversion of a glutamate dehydrogenase into a methionine dehydrogenase. Kinetic parameters for the reductive amination reaction are also reported. At pH 7 the triple mutant and K89L/A163G show 5 to 10-fold increased catalytic efficiency, compared with K89L, towards the novel substrates. In the oxidative deamination reaction, it is not possible to estimate kcat and Km separately, but for reductive amination the additional mutations have no significant effect on kcat at pH 7, and the increase in catalytic efficiency is entirely attributable to the measured decrease in Km. At pH 8 the enhancement of catalytic efficiency with the novel substrates was much more striking (e.g. for norleucine ,,2000-fold compared with wild-type or the K89L mutant), but it was not established whether this is also exclusively due to more favourable Michaelis constants. [source]

Cloning of the dog bile salt export pump (BSEP; ABCB11) and functional comparison with the human and rat proteins

BIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 8 2008
Hikaru Yabuuchi
Abstract The dog bile salt export pump (BSEP; ABCB11) was cloned and expressed in a Sf9 insect cell system. The deduced amino acid sequence encodes a 1325-amino-acid protein, which shows 89.4% and 80.2% homology with human BSEP and rat Bsep, respectively. The transcript of the dog Bsep gene was detected at a high level in liver, but not other tissues, by quantitative RT-PCR. The BSEP-expressing membrane vesicles isolated from Sf9 cells exhibited saturable uptake of [3H]taurocholic acid with Michaelis constants (Km) of 33.7, 22.2 and 19.9,µM for the dog, rat and human transporters, respectively. The uptake of [3H]taurocholic acid by all three transporters was significantly inhibited by troglitazone, glibenclamide, and other several inhibitors, while pravastatin inhibited dog Bsep and human BSEP, but not rat Bsep at 100,µM. The IC50 of troglitazone for dog Bsep, human BSEP, and rat Bsep were 32, 20, and 60,µM, and those of pravastatin were 441, 240 and >1,000,µM, respectively. In conclusion, while dog Bsep shows similar ATP-dependent bile acid transport characteristics to human BSEP and rat Bsep, there is a species difference in affinity for drugs such as pravastatin and troglitazone. Copyright © 2008 John Wiley & Sons, Ltd. [source]