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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)
Isolates (n = 94) of Corynebacterium
pseudotuberculosis
were obtained from sheep, goats, horses, and cattle from various parts of the world. The isolates were characterized biochemically and by restriction endonuclease analysis of DNA. We found near homogeneity in the ability of isolates to ferment carbohydrates and to produce
urease
. All isolates produced phospholipase D and catalase. The ability of isolates from horses to reduce nitrate, the inability of isolates from sheep and goats to do so, and the correlation of this characteristic with results of restriction endonuclease analyses confirmed the existence of 2 biovars of C
pseudotuberculosis
. We propose that these biovars be referred to as biovar equi for isolates that reduce nitrate and biovar ovis for isolates that fail to do so.
...
PMID:Biochemical and genetic characterization of Corynebacterium pseudotuberculosis. 283 63
The specific activity of
urease
, nitrogenase, hialuronidase and neuraminidase in Y.
pseudotuberculosis
grown in different culture media and at different temperature has been studied. These enzymes have been found capable of functioning at both relatively low (2-8 degrees C) and high (37 degrees C) temperatures. The thermoadaptive properties of Y.
pseudotuberculosis
within a wide range of temperatures are ensured by the constant presence of isoenzymes, functioning only at low temperatures or only at high temperatures, in the microbial cells. Low temperature in combination with a definite culture medium triggers the activity of certain enzymatic systems, which explains, to some extent, the biochemical mechanisms of the psychrophilic properties of Y.
pseudotuberculosis
.
...
PMID:[Fermentative mechanisms of the psychrophilicity of Yersinia tuberculosis]. 636 42
Twenty-five strains of Corynebacterium
pseudotuberculosis
isolated from lesions of caseous lymphadenitis in goats were examined for their biochemical characteristics, antimicrobial susceptibility, and phospholipase D activity. The strains were uniform in biochemical reactions, cultural characteristics, and susceptibility to antimicrobial agents. Presence of
urease
and phospholipase D and absence of pyrazinamidase were valuable criteria in the identification of C.
pseudotuberculosis
.
...
PMID:Characterization of strains of corynebacterium pseudotuberculosis. 709 13
Levels of genomic DNA relatedness were determined using a S1 nuclease procedure for reference bacteria identified as biotypes of Corynebacterium diphtheriae, biovars of Corynebacterium
pseudotuberculosis
, and 'Corynebacterium ulcerans'. These results showed that the three species are separate taxa at the genomospecies level whereas biotypes and biovars are closely related genomically within each species. Phylogenetic analyses of small-subunit rDNA sequences revealed that 'Corynebacterium ulcerans' forms a tight cluster with Corynebacterium
pseudotuberculosis
within the robust branch that groups all Corynebacterium sequenced to date. Therefore, we propose that the species incertae sedis 'C. ulcerans' should be conclusively recognized as a distinct species within the genus Corynebacterium with strain CCUG 2708 = NCTC 7910 as type strain. This species is characterized by
urease
production and fermentation of glycogen.
...
PMID:Taxonomy of Corynebacterium diphtheriae and related taxa, with recognition of Corynebacterium ulcerans sp. nov. nom. rev. 772 71
Corynebacterium
pseudotuberculosis
has been classified into two biotypes according to ability to breakdown nitrate (Biberstein et al., 1971). Restriction enzyme analysis (REA) has shown to reflect this differentiation, but numerous bands generated by this technique make interpretation difficult (Songer et al., 1988). Restriction fragment length polymorphism's (RFLP's) has become an accepted genetic tool and was used in this study to determine if differences in nitrate reduction and other phenotypic characteristics could be identified genetically. Thirteen C.
pseudotuberculosis
isolates from four species of domestic animals from different parts of the world were investigated for phenotypic and genetic differences. Three closely related bacteria, Corynebacterium ulcerans, Actinomyces pyogenes (previously C. pyogenes),and Rhodococcus equi (previously C. equi) were included in the study to determine if the RFLP bands were unique to C.
pseudotuberculosis
. All C.
pseudotuberculosis
isolates were positive for
urease
production. Some differences in maltose and sucrose fermentation ability and nitrate reduction were recorded. Genetic differences were identified between the nitrate-positive group and the nitrate-negative group using non-radioactive ribosomal RNA (rRNA) probes Southern blotted to restriction digests of ApaI, PstI, and SstI. A small number of bands were seen, with distinct differences between the nitrate-positive and the nitrate-negative strains. No genetic variations were seen between strains which reflected differences in carbohydrate fermentation. Strains isolated from different animal species and from different parts of the world could not be differentiated genetically using these three restriction enzymes.
...
PMID:Genetic differences between nitrate-negative and nitrate-positive C. pseudotuberculosis strains using restriction fragment length polymorphisms. 886 38
A chromosomal locus (ure) involved in the production of
urease
activity in the bacterial pathogen Yersinia
pseudotuberculosis
was characterized. The genetic organization of the Y.
pseudotuberculosis
ure locus closely resembles that of the related ureolytic Yersinia species Y. enterocolitica. This locus encompasses seven open reading frames encoding polypeptides with predicted molecular weights of 10,894 (UreA), 15,820 (UreB), 61,001 (UreC), 25,801 (UreE), 24,551 (UreF), 20,330 (UreG), and 31,308 (UreD). The polypeptides have 85 to 96% identity with the corresponding Ure polypeptides of Y. enterocolitica serotype 0:8. Restriction fragment length polymorphisms of the ure loci from 12 unrelated Y.
pseudotuberculosis
strains produced by HaeIII and MboI indicate a low level of genetic variability of this locus in this species. The role of
urease
in the pathogenicity of Y.
pseudotuberculosis
was studied by constructing an isogenic
urease
-negative mutant obtained by disruption of structural gene ureB by aphA-3', which encodes kanamycin resistance. Experimental infection of mice with this mutant demonstrates that
urease
is not essential for Y.
pseudotuberculosis
virulence. Urease might be required mostly during the saprophytic life of this pathogen.
...
PMID:Urease is not involved in the virulence of Yersinia pseudotuberculosis in mice. 912 94
Urea uptake in eukaryotes and prokaryotes occurs via diffusion or active transport across the cell membrane. Facilitated diffusion of urea in both types of organisms requires a single-component channel. In bacteria, these transport systems allow rapid access of
urease
to its substrate, resulting in ammonia production, which is needed either for resistance to acidity or as a nitrogen source. In Yersinia
pseudotuberculosis
, a ureolytic enteropathogenic bacterium, a gene of unknown function (yut) located near the
urease
locus was found to encode a putative membrane protein with weak homology to single-component eukaryotic urea transporters. When expressed in Xenopus oocytes, Yut greatly increases cellular permeability to urea. Inactivation of yut in Y.
pseudotuberculosis
results in diminished apparent
urease
activity and reduced resistance to acidity in vitro when urea is present in the medium. In the mouse model, bacterial colonization of the intestine mucosa is delayed with the Yut-deficient mutant. Although structurally unrelated, Yut and the Helicobacter pylori UreI urea channel were shown to be functionally interchangeable in vitro and are sufficient to allow urea uptake in both bacteria, thereby confirming their function in the respective parent organisms. Homologues of Yut were found in other yersiniae, Actinobacillus pleuropneumoniae, Brucella melitensis, Pseudomonas aeruginosa and Staphylococcus aureus. The Y.
pseudotuberculosis
Yut protein is therefore the first member of a novel class of bacterial urea permeases related to eukaryotic transporters.
...
PMID:The Yersinia pseudotuberculosis Yut protein, a new type of urea transporter homologous to eukaryotic channels and functionally interchangeable in vitro with the Helicobacter pylori UreI protein. 1218 Sep 33
The transition metal nickel is an essential cofactor for a number of bacterial enzymes, one of which is
urease
. Prior to its incorporation into metalloenzyme active sites, nickel must be imported into the cell. Here, we report identification of two loci corresponding to nickel-specific transport systems in the gram-negative, ureolytic bacterium Yersinia
pseudotuberculosis
. The loci are located on each side of the chromosomal
urease
gene cluster ureABCEFGD and have the same orientation as the latter. The yntABCDE locus upstream of the ure genes encodes five predicted products with sequence homology to ATP-binding cassette nickel permeases present in several gram-negative bacteria. The ureH gene, located downstream of ure, encodes a single-component carrier which displays homology to polypeptides of the nickel-cobalt transporter family. Transporters with homology to these two classes are also present (again in proximity to the
urease
locus) in the other two pathogenic yersiniae, Y. pestis and Y. enterocolitica. An Escherichia coli nikA insertion mutant recovered nickel uptake ability following heterologous complementation with either the ynt or the ureH plasmid-borne gene of Y.
pseudotuberculosis
, demonstrating that each carrier is necessary and sufficient for nickel transport. Deletion of ynt in Y.
pseudotuberculosis
almost completely abolished bacterial
urease
activity, whereas deletion of ureH had no effect. Nevertheless, rates of nickel transport were significantly altered in both ynt and ureH mutants. Furthermore, the ynt ureH double mutant was totally devoid of nickel uptake ability, thus indicating that Ynt and UreH constitute the only routes for nickel entry. Both Ynt and UreH show selectivity for Ni(2+) ions. This is the first reported identification of genes coding for both kinds of nickel-specific permeases situated adjacent to the
urease
gene cluster in the genome of a microorganism.
...
PMID:Genes encoding specific nickel transport systems flank the chromosomal urease locus of pathogenic yersiniae. 1227 Aug 29
We check by polymerase chain reaction (PCR) the presence of gene ureC and myfA, encoding subunits of
urease
and Myf fimbriae, among clinical and food-originated strains of Yersinia to determine their usefulness as molecular virulence markers of Y. enterocolitica. The examinations were done on 130 clinical strains of Y. enterocolitica O:3/4 isolated in Poland from humans. All strains were obtained from stool and possessed the virulence plasmid pYV. In addition 40 isogenic, plasmid-cured strains were tested. The 52 strains including Y. enterocolitica (biotype 1A, 4, 2 and 1B), Y.
pseudotuberculosis
, Y. intermedia, Y. frederiksenii, Y. kristensenii, E. coli, Citrobatcer, Shigella and Salmonella were used as controls. The PCR assay resulted in detection of genes: ureC and myfA in genomic DNA of all 130 tested clinical strains of Y. enterocolitica pYV+, as well as in plasmid cured strains. Furthermore, ureC was found in all tested strains of Y. enterocolitica biotype A1 and in one strain of Y. intermedia and Y. kristensenii. In contrast to ureC, myfA was detected only in strains of Y. enterocolitica considered as pathogenic. Obtained results show, gene myfA seems to be the reliable virulence marker of Y. enterocolitica, whereas ureC is not recommended for identification of pathogenic strains of this species.
...
PMID:[Evaluation of usefulness for selected virulence markers for identifying pathogenic Yersinia enterocolitica strains. IV. Genes myfA and ureC]. 1265 57
Latent corynebactenai infection occurs naturally in many strains of mice. It can be evoked into the active disease,
pseudotuberculosis
, by a single injection of 10 mg of cortisone. The cortisone effect was tested in 21 colonies, representing 11 genetically different strains of mice. Animals of the C57B1/6, DBA/2, and RIII strains were shown to be latently infected with Corynebacterium kutscheri by the fact that they developed fatal
pseudotuberculosis
following cortisone treatment. Virulent C. kutscheri could not be isolated from homogenates of organs obtained from latently infected animals before cortisone administration; however, these homogenates yielded small translucent colonies of avirulent organisms. Recovery of these atypical colonies was facilitated by preincubating the organ homogenates before plating. The organisms constituting such colonies differed morphologically and immunologically from C. kutscheri, but had similar biochemical properties with the exception that they lacked
urease
and catalase activity. Mice treated with cortisone yielded both the avirulent bacteria and virulent C. kutscheri. The latter was the predominant organism present in the organs at the height of infection. Injection of avirulent organisms into Swiss Lynch mice, which are normally free of latent corynebacteria, occasionally established a latent infection which could be converted into corynebacterial
pseudotuberculosis
by cortisone. Cultures of fully virulent C. kutscheri were then obtained from the lesions. Latency was produced experimentally with a streptomycin-resistant strain of virulent C. kutscheri (CKsr) derived from the stock culture. When sublethal doses of CKsr were injected into NCS mice (Institut Pasteur colony), they induced a latent infection characterized by the presence of avirulent organisms possessing the streptomycin resistance marker. These were isolated in the form of small translucent colonies from the livers of the infected animals. Administration of cortisone to these animals subsequently evoked active infection from which virulent CKsr could be obtained. Injection of the avirulent streptomycin-resistant organisms into normal NCS mice established a latent infection which could be uniformly converted into corynebacterial
pseudotuberculosis
by cortisone. The virulent C. kutscheri obtained from the lesions bore the genetic marker of streptomycin resistance, thus being identical with CKsr. Except for streptomycin resistance, the avirulent organisms isolated from the experimentally induced latent infections were identical with those found in the naturally occurring latent infections. These results suggest that C. kutscheri can persist in vitro in an avirulent form which is resistant to the defense mechanisms of the host, and can thus establish a latent infection. Treatment of the animal with cortisone results in the conversion of the avirulent form into virulent C. kutscheri, and of the latent infection into active corynebacterial
pseudotuberculosis
. The findings are discussed with regard to their relevance to infection immunity, and to the conversion of latent infection into overt disease.
...
PMID:CORYNEBACTERIAL PSEUDOTUBERCULOSIS IN MICE. II. ACTIVATION OF NATURAL AND EXPERIMENTAL LATENT INFECTIONS. 1420 50
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