EC:6.3.4.6 - FACTA Search

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)

Quantitative transformation of streptomycin resistance marker was carried out with strains of Acinetobacter calcoaceticus. Standard recipient strain was the competent BD4-Ss. Transformation proceeded in a liquid system with a concentration of 20 micrograms/ml of streptomycin resistant DNA (Sr-DNA) from BD4, 17 reference strains of Acinetobacter, and 42 recent clinical isolates of the acid forming variant (anitratus) and 12 of the non-acid forming variant (lwoffi) as donors of Sr-DNA. The exposure time was 20 min before interruption with DNase and quantitated plating. Among the strains examined were differentiated 16 biotypes as based on oxidative acid production from glucose and lactose, haemolysis, urease, gelatinase, and growth with citrate as the sole carbon source. Autologous transformation gave a transformation of 2.94 (+/- 0.66)% of the recipient cells (quantitated by colony forming units). Sr-DNA from 50 of 63 strains were able to transform BD4-Ss. The transformation ratio was 0.06-6.4% of autologous BD4 transformation. Two further recent clinical isolates were weakly transformation competent. Competence was only found in autologous transformation. The major portion (50/63) of the strains belong to the BD4 genotype of A. calcoaceticus, but the taxonomic position of the 13 non-donors in respect to BD4 could not be evaluated by transformation because of lack of a competent recipient. The strains transforming BD4 belonged to both the glucose acidifyers and the non-acidifyers without genetic distinction. The results are consistent with recognition of both as belonging to the same species, but with their recognition as species variants: A calcoaceticus var, anitratum and A. calcoaceticus var. lwoffi.
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PMID:Taxonomic implications of quantitative transformation in Acinetobacter calcoaceticus. 658 37

During the summer of 1981, 3,887 sucrose-negative vibrios were isolated from seawater, sediment, plankton, and animal samples taken from 80 sites from Miami, Fla., to Portland, Maine. Of these, 4.2% were able to ferment lactose. The lactose-positive strains isolated from the various samples correlated positively with pH and turbidity of the water, vibrios in the sediment and oysters, and total bacterial counts in oysters. Negative correlations were obtained for water salinity. Numerical taxonomy was performed on 95 of the lactose-fermenting environmental isolates and 23 reference strains. Five clusters resulted, with the major cluster containing 33 of the environmental isolates and all of the Vibrio vulnificus reference strains. The 33 isolates, which produced an acid reaction in lactose broth within hours of initial inoculation, represented 20% of all lactose-fermenting vibrios studied. These isolates were nearly identical phenotypically to clinical strains of V. vulnificus studied by the Centers for Disease Control, Atlanta, Ga., and by our laboratory, and their identification was confirmed by DNA-DNA hybridization studies. V. vulnificus was isolated from all sample types and from Miami to Cape Cod, Mass., and comparison of the environmental parameters of the eight subsites yielding this species with those of all 80 subsites revealed no significant differences. The majority of the isolates were obtained from animals, with clams providing most (84%) of these. On injection into mice, 82% of the V. vulnificus isolates resulted in death. Members of the remaining four clusters contained strains which differed from V. vulnificus in such phenotypic traits as luminescence and in urease or H(2)S production. None of the other reference cultures, including nine other Vibrio species, were contained in the remaining clusters, and these isolates could not be identified. Most of these were also lethal for mice. Phenotypic differences, potential pathogenicity, and geographic distribution of the five clusters were examined. It is concluded that V. vulnificus is a ubiquitous organism, both geographically and in a variety of environmental sources, although it occurs in relatively low numbers. The public health significance of this organism and of the other unidentified lactose-fermenting Vibrio species is discussed.
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PMID:Distribution of Vibrio vulnificus and other lactose-fermenting vibrios in the marine environment. 684 90

A rapid and simple method is described by which colonies of Proteus can be distinguished from those of Salmonella and Shigella and other non-lactose-fermenting organisms growing on MacConkey's agar or desoxycholate citrate agar. The method is based on the ability of Proteus to produce urease constitutively. The enzyme was detected by the degradation of urea by the inoculum, thereby creating an alkaline reaction on pH-indicator paper.
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PMID:A rapid and simple method for distinguishing colonies of proteus from those of Salmonella and Shigella. 700 46

A membrane filter procedure for enumerating Escherichia coli was developed and evaluated. The method quantifies E. coli within 24 h without requiring subculture and identification of isolates. It incorporates a primary selective-differential medium for gram-negative, lactose-fermenting bacteria; resuscitation of weakened organisms by incubation for 2 h at 35 degrees C before incubation at 44.5 degrees C for 18 to 22 h; and an in situ urease test to differentiate E. coli from other thermotolerant, lactose-positive organisms. The recovery of E. coli from marine, estuarine, and freshwater samples exceeded 90%. Of the presumptively positive colonies, 91% were verified as E. coli. Less than 1% of all of the verified E. coli colonies failed to react typically.
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PMID:Membrane filter method for enumerating Escherichia coli. 702 May 92

The Enteric-Tek wheel (Flow Laboratories), consisting of 14 different biochemical parameters for rapidly identifying Enterobacteriaceae, was evaluated and compared with the conventional method for completely identifying 301 enteric cultures, representing 36 species. The Enteric-Tek system correctly identified 264 (97.8%) of the 270 common or typical strains and 26 (83.9%) of the 31 unusual or atypical strains tested, demonstrating an overall identification accuracy rate of 96.3%. There were 80 (26.6%) correctly identified strains requiring additional tests. Of the 11 (3.6%) misidentifications, 5 (3 Klebsiella and 2 Salmonella strains) were correctly identified at the genus level. When 4,228 individual tests in the Enteric-Tek wheel were compared with the conventional tubed media, 96.4% of the tests agreed; urease, citrate, adonitol, and lactose agreed less than 97%. The Enteric-Tek system was found to be reliable and accurate in producing identifications at the genus and species level within 18 to 24 h.
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PMID:Evaluation of the Enteric-Tek system for identifying Enterobacteriaceae. 704 44

A determination-key is suggested, which can used for interpretation of "Bunte Reihe". In the first step seven reaction will tested (dextrose-gas-formation, acid-production from lactose, H2S-formation, urease-activity, indol-formation, motility, LDC-activity). The resulting pattern of reaction leads into a codenumber (Table 1). Table 2 shows a list with species/Genera for each pattern of reaction. Are two or more species in the ascertained codenumber, it is necessary to make further tests. They can have selected and interpreted by using table 3 (second step). The main advantages in use of this two-step determination-key for Enterobacteriaceae are: 1. By selection of a higher confidence level as used in most other determination-tables, together with coding the pattern of reaction, the interpretation of "Bunte Reihe" is easy. 2. Subjective and objective errors by interpretation of reactions will prevented. 3. For single reaction is fixed a time up to two days. In comparison with many other methods it brings a shortening of differentiation time in most cases. 4. It isn't necessary to buy an expensive commercial diagnostic-system. The usual "Bunte Reihe" media can used successfull. 5. Because of elimination of subjective interpretation it is possible to compare the results of laboratories, which works by using this determination-key.
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PMID:[A key for the determination of Enterobacteriaceae in routine- laboratories (author's transl)]. 704 9

A new yeast, Torulopsis ethanolitolerans and its variety minor, both isolated from industrial sulphite fodder yeast cultivated on synthetic ethanol as the only source of carbon, originally designated R 5, R 6 and the variety R 7, are described. This species differs from all recently accepted Torulopsis species (resp., Candida species), which do not assimilate nitrate, not ferment any sugars, not produce urease, by the assimilation of maltose, but not of sucrose, lactose and D-xylose.
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PMID:Torulopsis ethanolitolerans n. sp. and T. ethanolitolerans var. minor n. var. 719 87

A semisolid urea-motility-indole medium designed for detection in Enterobacteriaceae of urease activity, motility, and indole production in one tube was prepared and evaluated. The formulation of the medium was similar to that of Christensen urea agar, but the agar concentration was 0.2%, and 1% tryptone was added. Results with 687 strains of Enterobacteriaceae were the same as those obtained with standard test media (98% overall agreement). The urea-motility-indole medium was also used in combination with Kligler iron agar for the recognition and differentiation of Salmonella and Shigella species from colonies picked from plating media in fecal cultures. This combination was compared with the combination of Kligler iron agar and lysine iron agar with 507 strains of non-lactose-fermenting Enterobacteriaceae. Although both combinations enabled the presumptive recognition and differentiation of Salmonella and Shigella species, an analysis of data indicated that the combination of Kligler iron agar and urea-motility-indole medium performed better than the combination of Kligler iron agar and lysine iron agar in detecting Salmonella and Shigella species.
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PMID:Evaluation of Urea-motility-indole medium for recognition and differentiation of Salmonella and Shigella species in stool cultures. 721 32

Lactose-positive Vibrio is a recently recognized marine organism that has pathogenic potential for humans. An organism was isolated from the sputum and blood of a man who was resuscitated after drowning in the sea. The isolates from both sources had the characteristics of lactose-positive Vibrio, which include positive oxidase, citrate, indole, and o-nitrophenyl-beta-D-galactopyranoside reactions and negative Voges-Proskauer, urease, and sucrose reactions. Seawater samples from 21 sites around Galveston Island were cultured for lactose-positive Vibrio over a period of 4 weeks, and 36% of the samples yielded the organism. The environmental isolates were very similar to the clinical isolates in biochemical reactions and susceptibility to antimicrobial agents. The results indicate that lactose-positive Vibrio is a common organism in the marine environment and that it should be considered in the diagnosis of infections, including pneumonia, associated with exposure to the sea.
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PMID:Lactose-positive Vibrio in seawater: a cause of pneumonia and septicemia in a drowning victim. 738 Oct 3

A study was conducted to establish tests for the routine identification of Rochalimaea species. Strains used were reference strains of Rochalimaea vinsonii and Rochalimaea quintana, and a type strain and six human isolates of Rochalimaea henselae. Rochalimaea species were confirmed to be gram-negative, oxidase-negative, non-motile, urease-negative, indole-negative, catalase-negative, glucose-nonfermenting organisms which failed to grow on MacConkey agar. Further testing of the organisms in a commercial identification system with the addition of hemin (100 micrograms/ml) to the medium revealed biochemical reactivity of the organisms not previously observed. The Voges-Proskauer reaction, tests for hydrolysis of hippurate and esculin, leucine arylamidase activity and the lactose test allowed identification and differentiation of the three species. Rochalimaea henselae was the only species with a positive lactose test and Rochalimaea quintana was the only species with a positive Voges-Proskauer reaction. Further studies are needed to confirm the validity of these tests for identification of Rochalimaea species.
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PMID:Proposed tests for the routine identification of Rochalimaea species. 769 52

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