Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.3.4.6 (urease)
 7,490 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Urease (urea amidohydrolase, EC 3.5.1.5) was extracted from the mixed rumen bacterial fraction of bovine rumen contents and purified 60-fold by (NH4)2SO4 precipitation, calcium phosphate-gel adsorption and chromatography on hydroxyapatite. The purified enzyme had maximum activity at pH 8.0. The molecular weight was estimated to be 120000-130000. The Km for urea was 8.3 X 10(-4) M+/-1.7 X 10(-4) M. The maximum velocity was 3.2+/-0.25 mmol of urea hydrolysed/h per mg of protein. The enzyme was stabilized by 50 mM-dithiothreitol. The enzyme was not inhibited by high concentrations of EDTA or phosphate but was inhibited by Mn2+, Mg2+, Ba2+, Hg2+, Cu2+, Zn2+, Cd2+, Ni2+ and Co2+. p-Chloromercuribenzenesulfphonate and N-ethylmaleimide inhibited the enzyme almost completely at 0.1 mM. Hydroxyurea and acetohydroxamate reversibly inhibited the enzyme. Polyacrylamide-gel electrophoresis showed that the mixed rumen bacteria produce ureases which have identical molecular weights and electrophoretic mobility. No multiple forms of urease were detected.
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PMID:Purification and properties of urease from bovine rumen. 1 37

The effect of some heavy metals on the urease activity was studied in a pure system using jack bean urease (JBU). While Mn showed no effect, copper reduced the enzyme activity more than did Zn or Fe at high concentrations (100 ppm). At a low concentration, iron reduced the enzyme activity more than at a high concentration. Inhibition of the urease activity was induced by less than 0.1 ppm Fe, 0.5 ppm Cu, and 10.0 ppm Zn. In the soil, these heavy metals inhibited the JBU in this order: Fe++ greater than Cu++ greater than Zn++. The possibility is discussed of using heavy metals to delay urea hydrolysis in soils.
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PMID:Studies on urea hydrolysis. Part 2. Effects of some heavy metals on urease activity. 55 Aug 59

One hundred forty-eight drugs and other organic and inorganic substances were screened for their ability to inhibit the enzyme urease in an in vitro system modeled on infected urine. The reported urease-inhibiting properties of ascorbic acid, tetracyclines, and sulfanilamide were not confirmed. At least 50 per cent inhibition was observed in the presence of kanamvcin, hydroxguanidine, benzoquinone, 1,2-naphthaquinone-4-sulfonate, chloramine-T, N-bromoacetamide, copper, mercury, and fluoride. It is, however, unlikely that therapeutically effective concentrations can be attained in urine without giving dosages likely to result in toxic effects. Hydroxyurea, at the dose level used in cytotoxic therapy, may be expected to produce effective inhibition of bacterial urease in the urinary tract, providing renal function is unimpaired and providing urinary volume does not exceed 1 liter per 24 hr. Acetohydroxamic acid is potentially the most useful drug for the treatment of infection-induced urinary stone disease available at present.
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PMID:Inhibition of urease by miscellaneous ions and compounds. Implications for the therapy of infection-induced urolithiasis. 90 16

Acid urease was purified to an electrophoretically homogeneous state, and the molecular weight was estimated to be 220,000. The enzyme consisted of three kinds of subunits, designated alpha, beta and gamma, with molecular weights of 67,000, 16,800 and 8600, respectively, in a (alpha 1 beta 2 gamma 1)2 structure. The isoelectric point of the enzyme was 4.8. The nickel content was found to be 1.9 atoms of nickel per alpha 1 beta 2 gamma 1 unit. The amino acid profile was different from those of known bacterial neutral ureases. The enzyme was most active at pH 2 and around 65 degrees C. It was stable between pH 3 and 9, and below 50 degrees C. The Km for urea was 2.7 mM at pH 2. The enzyme activity was inhibited by Ag+, Hg2+, Cu2+, p-chloromercuribenzoate and acetohydroxamate. The enzyme was separated into three subunits by reverse phase HPLC. The amino terminal amino acid sequences of the subunits alpha, beta and gamma were Ser-Phe-Asp-Met-, Met-Val-Pro-Gly- and Met-Arg-Leu-Thr-, respectively.
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PMID:Purification and characterization of acid urease from Lactobacillus fermentum. 136 38

Inhibition of H. pylori urease was studied by means of electron-microscopy and electrophoretic methods using different urease inhibitors, such as acetohydroxamic-acid (AHA), L-ascorbic acid (AsA), copper ions, a combination of L-ascorbic acid with copper ions and UV light. AHA in two different concentrations and AsA at a concentration of 0.1 mg ml-1 showed incomplete inhibition of H. pylori urease activity in our electrophoretic experiments. Only membrane-bound activity was inhibited with AHA but not the activity localized within the cytoplasma as demonstrated by electron-microscopy. AsA at a concentration of 0.5 mg ml-1 and the combination of copper ions (1 microgram ml-1) with AsA completely inhibited the urease activity as demonstrated by electron-microscopy and electrophoretic experiments. Cu2+ ions in high concentrations (100 micrograms ml-1) and UV light exposure for more than 4 h induced a complete disintegration of H. pylori. Electrophoresis showed no active protein after UV light exposure of 2 h. Different urease inhibitors tested in this study showed dose-dependent inhibitory effects on H. pylori urease in vitro.
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PMID:In vitro inhibition of Helicobacter pylori urease: biochemical and ultrastructural analysis. 175 95

The toxicity of Cu, Ni and Fe individually, as well as in combination (Cu + Ni, Cu + Fe, Ni + Fe), on growth-rate depression, uptake of NO3- and NH4+, photosynthesis, nitrate reductase and urease activity of Chlorella vulgaris has been studied. All the test metals when used individually showed pronounced toxicity on all the parameters studied. However, their interactive effect was mostly antagonistic except for Cu + Ni (synergism). Pre-addition of Fe offered more protection to the cells against copper and nickel toxicity. The data of statistical analysis reconfirmed that 14CO2 uptake is the most sensitive parameter (significant at P less than 0.005, both for time and treatment) than others in metal toxicity assessment. However, these results suggest further that exposure time and sequence of metal addition are very important in biomonitoring of heavy metal toxicity.
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PMID:Impact of bimetallic combinations of Cu, Ni and Fe on growth rate, uptake of nitrate and ammonium, 14CO2 fixation, nitrate reductase and urease activity of Chlorella vulgaris. 216 14

The use of alternating current conductometric transducers in biosensing devices has been investigated for urea and D-amino acid sensors using the enzyme systems urease and D-amino acid oxidase/catalase. Transducers with copper and platinum electrodes were constructed and characterized, and two enzyme immobilization methods were tested. Detection limits of 1 x 10(-6)M and linear ranges of 2 orders of magnitude were routinely achieved for these model sensors with enzymes covalently immobilized on collagen films.
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PMID:Conductometric transducers for enzyme-based biosensors. 277 2

The predominant ureolytic bacteria in the pig large intestine were determined while growing pigs were fed a basal diet or basal diet plus copper sulfate, Aureo SP250, or clinoptilolite. Fecal samples were collected from four pigs fed each diet at 3, 9, and 14 weeks and analyzed for total colony counts and percent ureolytic bacteria. Fecal urease activity, ammonia nitrogen, and identity of the ureolytic bacteria were determined at 14 weeks. Copper sulfate and Aureo SP250 reduced the number of ureolytic organisms, with a marked decrease occurring in the Streptococcus spp., which made up 74% of the ureolytic isolates from the pigs on the basal diet. Other ureolytic species detected at lower concentrations were Staphylococcus spp., Selenomonas ruminantium, Bacteroides multiacidus, and Eubacterium limosum. Copper sulfate also reduced fecal urease activity (P less than 0.10). Fecal ammonia concentrations were not different between pigs fed the various diets. These data suggest that the streptococci are the most numerous ureolytic species in the pig intestinal tract and are significantly reduced by copper sulfate and Aureo SP250; however, only copper sulfate reduced intestinal urease activity.
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PMID:Effect of dietary copper sulfate, Aureo SP250, or clinoptilolite on ureolytic bacteria found in the pig large intestine. 282 7

Thirty male calves were used in a 2 X 3 factorial arrangement of treatments to determine the effects of dietary nickel and protein on performance, urease activity and tissue concentrations of nickel, iron, zinc, copper and manganese. Protein levels evaluated were 10.0, 12.25 and 14.5%, and nickel was supplemented at a level of 0 or 5 mg/kg of diet. Nickel did not affect growth during the 140-d study but tended to increase efficiency of gain in calves fed 14.5% protein. Rumen fluid urease activity was increased by nickel only in animals receiving the low protein diet. Urease activity in rumen fluid was higher in calves fed 10.0% than in animals fed 12.25% or 14.5% protein. Neither nickel nor protein affected urease activity in rumen epithelium. Increasing dietary protein resulted in increased urease in cecal digesta. Lung, liver, kidney and serum nickel concentrations were increased by supplemental nickel. A nickel X protein interaction was noted for kidney nickel. Nickel supplementation increased kidney nickel to a greater degree in calves fed 10.0% protein than in calves fed higher protein levels. Nickel supplementation reduced iron concentrations in lung, liver and muscle and manganese concentrations in muscle. Increased dietary protein decreased iron in liver and spleen but increased manganese concentrations in heart. These findings indicate that dietary protein influences responses of ruminants to nickel supplementation and relatively small increases in dietary nickel and protein can influence metabolism of other trace elements.
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PMID:Effects of dietary nickel and protein on growth, nitrogen metabolism and tissue concentrations of nickel, iron, zinc, manganese and copper in calves. 377 17

Growing steers were used in a replicated 3 X 3 Latin square to study the influence of ionophores on mineral metabolism and ruminal urease activity. Treatments consisted of: 1) basal high energy diet; 2) basal plus 33 ppm lasalocid and 3) basal plus 33 ppm monensin. Each period was 33 days and apparent absorption and retention of macrominerals were measured during the last 5 days of each period. Mineral intake during the collection period was not affected by treatment. Both ionophores increased apparent absorption of sodium, magnesium and phosphorus. Retention of magnesium and phosphorus were higher for steers receiving either lasalocid or monensin. Potassium and calcium absorption were not significantly affected by treatment. Serum concentrations of macrominerals were similar for all treatments. Zinc and copper concentrations in serum were higher in animals fed monensin or lasalocid. Steers fed either ionophore had lower concentrations of soluble potassium and calcium in rumen fluid. Both ionophores also decreased ruminal osmolality. Bacterial urease, a nickel-dependent enzyme, was decreased by 28 and 66% in animals that received lasalocid and monensin, respectively. These findings indicate that lasalocid and monensin affect metabolism of certain minerals in ruminants.
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PMID:Influence of monensin and lasalocid on mineral metabolism and ruminal urease activity in steers. 669 34


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