Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.5 (urease)
 7,257 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Colony counts of fecal samples from three persons, obtained by using a chemically defined anaerobic roll-tube medium (containing glucose, maltose, glycerol, minerals, hemin, B-vitamins, methionine, volatile fatty acids, sulfide, bicarbonate, agar, carbon dioxide (gas phase), and 1 mM NH(4) (+) as main nitrogen source), averaged 60% of the 8.8 x 10(10) bacteria per g obtained when 0.2% Trypticase and 0.05% yeast extract were added to the otherwise identical medium. When 0.2% vitamin-free Casitone replaced Trypticase and yeast extract, counts were 94% those of the more complex medium. When urea-nitrogen was added to the defined medium as the main nitrogen source in place of NH(4) (+), counts of relatively large colonies averaged 1.0 x 10(9) per g of feces from five persons-1.1% of counts on the medium containing Trypticase and yeast extract. All of the organisms from the large colonies in the urea roll tubes were morphologically similar, and all six representative strains isolated were identified as urease-forming Peptostreptococcus productus, a species not previously known to produce urease. Ureolytic strains of Selenomonas ruminantium and P. productus were negative for urease activity in three assay media when inocula were from media containing complex nitrogen sources. The study documents that P. productus is the most numerous ureolytic species so far found in human feces and suggests that NH(4) (+) and more complex organic nitrogen sources strongly repress its production of urease. The study also indicates the efficacy of chemically defined media for direct selective isolation of nutritional groups of bacteria from feces.
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PMID:Isolation of ureolytic Peptostreptococcus productus from feces using defined medium; failure of common urease tests. 421 72

The wild-type strain of Neurospora crassa Em 5297a can utilize allantoin as a sole nitrogen source. The pathway of allantoin utilization is via its conversion into allantoic acid and urea, followed by the breakdown of urea to ammonia. This is shown by the inability of the urease-less mutant, N. crassa 1229, to grow on allantoin as a sole nitrogen source and by the formation of allantoate and urea by pre-formed mycelia of this mutant. In the wild strain (Em 5297a) thiourea is tenfold more toxic on an allantoin medium than on an inorganic nitrogen medium; allantoin as well as urea counteract thiourea toxicity in the allantoin nitrogen medium. This selective toxicity of thiourea for the mould utilizing allantoin nitrogen does not, however, result in an impairment of allantoin uptake, allantoinase activity or the formation of urea from allantoin. The only process affected by thiourea is the synthesis of urease; urea antagonizes this effect of thiourea in N. crassa.
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PMID:The effect of thiourea on ureide metabolism in Neurospora crassa. 427 57

One representative of each of five different pathogenic serotypes of Leptospira as well as one saprophytic strain were capable of growing on medium containing urea in place of an ammonium salt as a nitrogen source. Growth of all of the organisms tested on 1% urea was substantial, but only those that exhibited strong urease activity could grow to any appreciable extent on urea at a concentration as high as 2%. Intact urea-grown cells of the pathogenic serotypes tested (grippotyphosa and icterohaemorrhagiae) exhibited urease activity, with the level of activity of the former being considerably greater. No urease could be detected in cells of the saprophytic strain. When the pathogenic leptospires were sonicated or treated with toluene, the urease activity was greatly enhanced. When cultivated on NH(4)Cl, neither intact nor disrupted cells of any of the strains tested exhibited any urease activity. Cells of the grippotyphosa and icterohaemorrhagiae strains exhibited diauxic growth when cultivated in the presence of both NH(4)Cl and urea, whereas only monophasic growth could be detected for the saprophytic test strain. The experimental data on urea utilization and urease activity, when considered in the light of previously reported findings on leptospiral pathology, renal physiology, and the role of urease in other bacterial infections, suggests a significant role for leptospiral urease (in addition to other factors) in determining localization of the organism in the kidney and contributing to the resultant kidney pathology.
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PMID:Urea utilization by Leptospira. 442 9

To determine the most useful diagnostic characters for the differentiation of pseudomonads pathogenic for man, including Pseudomonas maltophilia (Alcaligenes bookeri), P. stutzeri (Bacillus denitrificans), P. pseudomallei (Malleomyces pseudomallei), and apyocyanogenic strains of P. aeruginosa, a comparative examination was made of 58 strains of these bacilli for their morphological and biochemical characteristics. It was concluded that the criteria for differentiating these bacteria are type of flagellation, growth on S S Agar, fluorescein production, oxidation of carbohydrates in the medium of Hugh and Leifson, nitrogen gas production, gluconate oxidation, gelatinase activity, urease activity, lysine decarboxylase activity, arginine dihydrolase activity, oxidase reaction, sensitivity to polymyxin, requirement for methionine as a growth factor, and assimilation of organic compounds as the sole source of carbon and energy.
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PMID:Diagnostic criteria for differentiation of pseudomonads pathogenic for man. 487 13

Uric acid, but not xanthine, was degraded by gram-positive catalase-producing cocci and diphtheroids which represented the two predominant human autochthonous skin bacteria. The proportions of uricolytic cocci and diphtheroids varied with the cutaneous site sampled. Uric acid and allantoin were not utilized by cocci or diphtheroids as sole sources of nitrogen. Uric acid appeared to act only as a secondary substrate for the gram-positive bacteria. Cutaneous cocci are known to be ureolytic but few diphtheroids had urease activity. Urea and ammonium nitrogen were not utilized as sole nitrogen sources by cocci, but some diphtheroids used these compounds for nitrogen. The majority of the cocci and diphtheroids were nutritionally fastidious and required amino-nitrogen for growth. In addition, some strains required vitamins and other unidentified metabolites found in yeast extract. These requirements were partially related to the cutaneous site from which the cocci or diphtheroids were isolated. Certain gram-negative bacilli degraded uric acid and utilized urate or its degradation products as nitrogen sources.
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PMID:Nitrogen requirements and uricolytic activity of cutaneous bacteria. 491 42

Bacillus fastidiosus was grown in a minimal medium that contained uric acid or allantoin, aerated by vigorous stirring. A constant, optimum pH of 7.4 was maintained by controlled addition of sulfuric acid. Washed cells converted both urate and allantoin into carbon dioxide and ammonia, simultaneously assimilating part of the available carbon and nitrogen. Urate oxidase (formerly called uricase) was present in extracts from urate-grown but not allantoin-grown cells. The formation of urate oxidase was apparently induced by urate. Urea was detected as an intermediate in some but not all of these experiments. However, the high urease activity observed in cell-free extracts may have prevented accumulation of urea in many of the experiments. The presence of glyoxylate carboligase and tartronic semialdehyde reductase activities indicates that the glycerate pathway may be involved in urate and allantoin catabolism in this organism.
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PMID:Studies on the physiology of Bacillus fastidiosus. 509 89

Urea metabolism was studied with nitrogen-starved cells of Chlorella vulgaris Beijerinck var. viridis (Chodat), a green alga which apparently lacks urease. Incorporation of radioactivity from urea-(14)C into the alcohol-soluble fraction was virtually eliminated in cell suspensions flushed with 10% CO(2) in air. This same result was obtained when expected acceptors of urea carbon were replenished by adding ornithine and glucose with the urea. Several carbamyl compounds, which might be early products of urea metabolism and a source of the (14)CO(2), were not appreciably labeled. If cells were treated with cyanide at a concentration which inhibited ammonia uptake completely and urea uptake only slightly, more than half of the urea nitrogen taken up was found in the medium as ammonia. Cells under nitrogen gas in the dark were unable to take up urea or ammonia, but the normal rate of uptake was resumed in light. Since 3-(3,4-dichlorophenyl)-1,1-dimethylurea did not selectively inhibit this uptake, an active respiration supported by light-dependent oxygen evolution in these cells was ruled out. A tentative scheme for urea metabolism is proposed to consist of an initial energy-dependent splitting of urea into carbon dioxide and ammonia. This reaction in Chlorella is thought to differ from a typical urease-catalyzed reaction by the apparent requirement of a high energy compound, possibly adenosine triphosphate.
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PMID:Metabolism of urea by Chlorella vulgaris. 578 73

Urea concentration in uterine fluid was determined in 20 women fitted with Lippes loops IUDs, compared to that in 12 parous controls, to see whether urea accounts for the higher nitrogen content reported in uterine fluid in IUD users. The fluid was centrifuged and the supernatant analyzed enzymatically by the Tarnoky urease method. The urea concentration of the fluid from IUD users was significantly higher than that of controls, 181.8 vs 42.9 mcg/ml, p0.01. Uterine fluid urea content did not differ throughout the menstrual cycle. Blood urea levels did not differ between groups. The protein denaturant effects of urea may conceivably be detrimental to the preimplantation blastocyst.
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PMID:Effect of an intrauterine contraceptive device on urea content of uterine fluid. 578 13

A previously unknown metabolite necessary for growth of T strains of Mycoplasma in artificial culture media has been identified as urea. The source of this metabolite was the mammalian plasma or serum enrichment of the culture medium. Normal horse serum was the most satisfactory native protein enrichment for cultivation of T strains of mycoplasma, and it is believed that its superior performance in agar and fluid culture media is associated with its relatively high urea content (approximately 40 mg/100 ml). T-strain urease activity was maximal at pH 6.0 +/- 0.5. This is also the optimal pH for growth of T strains. Substrate concentrations greater than 1.0% urea were inhibitory to growth and urease activity of T-strain organisms, and optimal urea concentrations in fluid media appeared to lie within the range of 0.008 to 0.01 m. This range of urea concentration permitted maximal growth of T-strain organisms without rapid loss of viability due to excessive ammonia accumulation and rise in pH to lethal levels. T strains of Mycoplasma were cultivated in a serum-free fluid medium containing urea as the only added metabolite and nitrogen source. T strains are the only known human mycoplasmas which exhibit urease activity, and this biochemical marker can be employed as an aid in the detection and identification of T strains of Mycoplasma (urease color test) and in distinguishing T strains from other members of the human Mycoplasma group.
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PMID:Occurrence of urease in T strains of Mycoplasma. 602 39

The pathway of arginine biosynthesis in Streptococcus bovis was studied by radioactive tracer techniques. Cells were grown anaerobically with (14)CO(2) in a synthetic medium containing NH(4) (+) as the sole nitrogen source except for the trace present in nitrogen-containing vitamins. The protein fraction isolated from the labeled cells was acid-hydrolyzed, and (14)C-arginine was isolated from the protein hydrolysate by ion-exchange chromatography. The carboxyl carbon of the isolated arginine was removed with arginine decarboxylase, and the guanidino carbon was removed by simultaneous arginase-urease degradation. By manometric measurement and liquid scintillation counting of the CO(2) released by enzymatic degradation, 50% of the label was found in the carboxyl carbon and 50% in the guanidino carbon. Specific radioactivity determinations indicated that growth on (14)CO(2) resulted in twice as much label in arginine as with aspartate, glutamate, or lysine. These results are consistent with a glutamate --> ornithine --> citrulline pathway of arginine biosynthesis in S. bovis and provide further evidence for the synthesis of glutamate via the tricarboxylic acid cycle reactions from citrate through alpha-ketoglutarate.
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PMID:Arginine biosynthesis by Streptococcus bovis. 605 38


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