EC:3.2.1.31 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.31 (beta-glucuronidase)
7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During 1987-1990, 62 infections with Shiga-like toxin (Verocytotoxin)-producing E. coli, other than O group 157, were identified. The isolates belonged to 26 serovars within 20 O groups; of them, 10 serovars belonged to 6 O groups of traditional enteropathogenic E. coli (EPEC). The serovars O2:H5 and O91:H14 were exclusively associated with ulcerative colitis. Eighteen patients (children under 4 years of age) developed a haemolytic uraemic syndrome. All together, 31 strains produced SLT I, 26 strains, SLT II, and 5 strains, both toxins. All strains produced beta-glucuronidase and fermented, with one exception, D-sorbitol. The phenotypic diversity of SLT-producing E. coli implies that the only means of their identification is by indirect (genetic) or direct (phenotypic) demonstration of toxin production.
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PMID:Serological and biochemical properties of Shiga-like toxin (verocytotoxin)-producing strains of Escherichia coli, other than O-group 157, from patients in Germany. 155 7

Shiga-like toxin-producing Escherichia coli strains of serogroup O157 were identified in 26 of 104 patients with hemolytic-uremic syndrome and in 18 of 668 patients with diarrhea. All strains were identified by colony hybridization with DNA probes complementary to Shiga-like toxin I and Shiga-like toxin II gene sequences and characterized by biochemical tests and serotyping. Seventeen of these 44 patients had E. coli O157 strains which were unusual because they fermented sorbitol within 24 h of incubation and were positive for beta-glucuronidase activity. Culture filtrates of these sorbitol-fermenting strains were highly toxic to Vero cells in culture. Serological tests and DNA analysis performed by restriction endonuclease digestion of B-subunit toxin genes revealed that all 17 isolates produced Shiga-like toxin II. Although by using molecular probes we established a high frequency of sorbitol-fermenting E. coli O157 strains in the patients we examined, further studies on the prevalence of such isolates in other areas of endemic disease are clearly warranted.
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PMID:Molecular detection of sorbitol-fermenting Escherichia coli O157 in patients with hemolytic-uremic syndrome. 162 38

Bernheimer, Alan W. (New York University School of Medicine, New York), and Lois L. Schwartz. Lysosomal disruption by bacterial toxins. J. Bacteriol. 87:1100-1104. 1964.-Seventeen bacterial toxins were examined for capacity (i) to disrupt rabbit leukocyte lysosomes as indicated by decrease in turbidity of lysosomal suspensions, and (ii) to alter rabbit liver lysosomes as measured by release of beta-glucuronidase and acid phosphatase. Staphylococcal alpha-toxin, Clostridium perfringens alpha-toxin, and streptolysins O and S affected lysosomes in both systems. Staphylococcal beta-toxin, leucocidin and enterotoxin, Shiga neurotoxin, Serratia endotoxin, diphtheria toxin, tetanus neurotoxin, C. botulinum type A toxin, and C. perfringens epsilon-toxin were not active in either system. Staphylococcal delta-toxin, C. histolyticum collagenase, crude C. perfringens beta-toxin, and crude anthrax toxin caused lysosomal damage in only one of the test systems. There is a substantial correlation between the hemolytic property of a toxin and its capacity to disrupt lysosomes, lending support to the concept that erythrocytes and lysosomes are bounded by similar membranes.
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PMID:Lysosomal disruption by bacterial toxins. 587 34

Escherichia coli O157:H7 is a foodborne pathogen distinguished from typical E. coli by the production of Shiga toxins (Stx) and the inability to ferment sorbitol (SOR) and to express beta-glucuronidase (GUD) activity. An allele-specific probe for the GUD gene (uidA) and multilocus enzyme electrophoresis were used to elucidate stages in the evolutionary emergence of E. coli O157: H7. A point mutation at +92 in uidA was found only in O157:H7 and its nonmotile relatives, including a SOR+ O157:H clone implicated in outbreaks of hemolytic-uremic syndrome in Germany. The results support a model in which O157:H7 evolved sequentially from an O55:H7 ancestor, first by acquiring the Stx2 gene and then by diverging into two branches; one became GUD- SOR- , resulting in the O157:H7 clone that spread worldwide, and the other lost motility, leading to the O157:H clone that is an increasing public health problem in Europe.
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PMID:Genotypic and phenotypic changes in the emergence of Escherichia coli O157:H7. 960 64

8-hydroxyquinoline-beta-D-glucuronide (HQG) was used to improve the presumptive identification of Shiga toxin-producing Escherichia coli O157 (STEC O157) on sorbitol MacConkey agars (SMAC). Advantages of HQG are (i) that it is less expensive than 5-bromo-4-chloro-3-indoxyl-glucuronide; (ii) that it is visible in normal daylight and (iii) that it does not diffuse into the agar like 4-methylumbelliferryl-beta-D-glucuronide (MUG). Sixteen STEC O157 isolates, 91 bovine mastitis-associated E. coli isolates and 222 faecal E. coli isolates from apparently healthy cattle were used in this study. 4-methylumbelliferryl-beta-D-glucuronide detected beta-glucuronidase activity in more isolates than HQG (P < 0.05). On SMAC with HQG, cefixime and tellurite all STEC O157 isolates grew as cream-coloured colonies (100% sensitivity), whereas all non-STEC O157 E. coli except one grew either not at all or as purple or black colonies (99.7% specificity). No difference was found between faecal and mastitis isolates for the proportion of isolates that hydrolysed HQG or MUG or fermented sorbitol. However, significantly more mastitis isolates were able to grow in the presence of the cefixime-tellurite supplement. 8-Hydroxyquinoline-beta-D-glucuronide is a useful substrate for the identification of STEC O157 on SMAC.
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PMID:Use of 8-hydroxyquinoline-beta-D-glucuronide for presumptive identification of Shiga toxin-producing Escherichia coli O157. 1079 73

An Escherichia coli O157:H7 strain isolated from a patient with hemorrhagic colitis was found to exhibit two slightly different colony morphology types on differential medium. Each morphological type, designated TT12A and TT12B, was isolated, and serological testing using various assays confirmed that both strains carried the O157 and the H7 antigens. Biochemical testing showed that the strains had identical profiles on AP120E analysis and, like typical O157:H7 strains, did not ferment sorbitol or exhibit beta-glucuronidase activity. Analysis with a multiplex PCR assay showed that TT12B did not carry the gene for either Shiga toxin 1 (Stx1) or Stx2, whereas these genes were present in TT12A and the toxins were produced. Apart from that, both strains carried the +93 gusA mutation, the cluster I ehxA gene for enterohemolysin, and the eae gene for gamma-intimin, which are all characteristics of the O157:H7 serotype. Phenotypic assays confirmed that both strains exhibited enterohemolysin activity and the attachment and effacing lesion on HeLa cells. Multilocus enzyme electrophoresis analysis showed that the strains are closely related genetically and belong in the same clonal group. Pulsed-field gel electrophoresis (PFGE) typing of XbaI-digested genomic DNA revealed that the two strains differed by two bands but shared 90% similarity and clustered in the same clade. All other non-Stx-producing O157:H7 strains examined clustered in a major clade that was distinct from that of Stx-producing O157:H7 strains. The findings that TT12B was identical to TT12A, except for Stx production, and its PFGE profile is also more closely related to that of Stx-producing O157:H7 strains suggest that TT12B was derived from TT12A by the loss of both stx genes.
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PMID:Isogenic strain of Escherichia coli O157:H7 that has lost both Shiga toxin 1 and 2 genes. 1142 16

Enrichment, colony isolation and confirmation are three general phases of a standard diagnostic method. E. coli O 157 (the main member of EHEC group) differs metabolically from other strains of E. coli in a number of ways. Most isolates are slow- or non-fermenters of sorbitol and lack the enzyme beta-glucuronidase (GUD). But, a variety of atypical strains of E. coli O157 (sorbitol-fermenting variants, nonmotile and GUD-positive) have been reported. The discovery of these atypical pathogenic strains brings into question the validity of testing for the pathogen only by biotyping. Using classical cultivation and immunomagnetic separation, we have isolated from food a few atypical E. coli O157 (sorbitol-fermenting strains, GUD positive, nonmotile O157 strain which does not agglutinate with O157 latex and does not produce Shiga toxin). On the other hand, non-O157 VTEC (O26 serotype) producing Shiga toxin was isolated from meat. Molecular markers of E. coli O157 and virulence-associated factors of strains with aberrant biochemical properties were studied by PCR. This method helped us in the final identification of isolates. Since it was suggested that the production of verotoxins (VT) is accompanied by the production of enterohemolysin (Ehly) such correlation has also been evaluated in respect to the collection of VTEC of human, animal and food origin.
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PMID:Phenotypic and molecular characteristics of typical and atypical Escherichia coli O157, clinical and food isolates. 1459 2

Escherichia coli O157:H7, a Shiga toxin-producing E. coli, has been the causative agent of many cases of severe, often life-threatening foodborne illness. Because of the importance of E. coli O157:H7 to public health, many molecular typing methods have been developed to determine its transmission routes and source of infection during epidemiological investigations. Pulsed-field gel electrophoresis (PFGE) is currently used by public health organizations to track infections of E. coli O157:H7 and other foodborne pathogens. In this study, we compared the ability of PFGE, multilocus sequence typing (MLST), and repetitive-element PCR (Rep-PCR) to distinguish among 92 E. coli O157:H7 isolates from cattle, food, and infected humans. Several virulence genes, including the intimin gene (eaeA), the hemolysin gene (hlyA), and the H7 fimbrial gene (fliC), and a housekeeping gene for beta-glucuronidase (uidA) were included in MLST. Rep-PCR reactions were performed using a commercially available typing kit (Bacterial Barcodes Inc., Houston, Tex.) with the provided Uprime-RI primer set. Results of the study indicated that PFGE provided the most discrimination among the techniques, identifying 72 distinct PFGE profiles for the isolates; Rep-PCR elucidated 14 different profiles, whereas MLST generated five profiles. Additionally, there did not appear to be any correlation among the typing methods examined in this study. Therefore, to date, PFGE remains the technique of choice for molecular subtyping of E. coli O157:H7.
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PMID:Evaluation of molecular typing methods for Escherichia coli O157:H7 isolates from cattle, food, and humans. 1508 14

Enterohemorrhagic Escherichia coli (EHEC) is a major foodborne pathogen capable of causing diarrhea and vomiting, but more serious complications such as hemorrhagic colitis and hemolytic-uremic syndrome (HUS) can result. A real-time PCR method to detect the presence of Shiga toxin producing E. coli (STEC) and E. coli O157:H7 was investigated using SYBR Green I (SG). Primers were designed to target the Shiga toxin genes (stx1 and stx2) and a highly conserved base substitution at +93 of the beta-glucuronidase gene (uidA) unique to E. coli O157:H7. An initial test panel of five E. coli and non-E. coli isolates was tested with individual primer sets (simplex assay) and all primer sets including stx1, stx2, and uidA (multiplex assay). All strains were correctly identified in both assays. Average melt temperatures (Tm's, degrees C) for PCR products were 85.42--stx1, 81.93--stx2, and 88.25--uidA in simplex assays and 85.20--stx1, 81.20--stx2, and 88.16--uidA when multiplexed. Each of the three gene targets in one multiplex reaction could be distinguished by melt curve data with significantly different Tm's. The assay was expanded to a panel of 138 isolates consisting of STEC, E. coli O157:H7, non-toxigenic E. coli, and non-E. coli isolates with melt peaks consistent with those stated above.
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PMID:Detection of Shiga toxin genes stx1, stx2, and the +93 uidA mutation of E. coli O157:H7/H-using SYBR Green I in a real-time multiplex PCR. 1627 48

Infections by Shiga toxin-producing Escherichia coli O157:H7 (STEC O157) are the predominant cause of bloody diarrhea and hemolytic uremic syndrome in the United States. In silico comparison of the two complete STEC O157 genomes (Sakai and EDL933) revealed a strikingly high level of sequence identity in orthologous protein-coding genes, limiting the use of nucleotide sequences to study the evolution and epidemiology of this bacterial pathogen. To systematically examine single nucleotide polymorphisms (SNPs) at a genome scale, we designed comparative genome sequencing microarrays and analyzed 1199 chromosomal genes (a total of 1,167,948 bp) and 92,721 bp of the large virulence plasmid (pO157) of eleven outbreak-associated STEC O157 strains. We discovered 906 SNPs in 523 chromosomal genes and observed a high level of DNA polymorphisms among the pO157 plasmids. Based on a uniform rate of synonymous substitution for Escherichia coli and Salmonella enterica (4.7x10(-9) per site per year), we estimate that the most recent common ancestor of the contemporary beta-glucuronidase-negative, non-sorbitolfermenting STEC O157 strains existed ca. 40 thousand years ago. The phylogeny of the STEC O157 strains based on the informative synonymous SNPs was compared to the maximum parsimony trees inferred from pulsed-field gel electrophoresis and multilocus variable numbers of tandem repeats analysis. The topological discrepancies indicate that, in contrast to the synonymous mutations, parts of STEC O157 genomes have evolved through different mechanisms with highly variable divergence rates. The SNP loci reported here will provide useful genetic markers for developing high-throughput methods for fine-resolution genotyping of STEC O157. Functional characterization of nucleotide polymorphisms should shed new insights on the evolution, epidemiology, and pathogenesis of STEC O157 and related pathogens.
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PMID:Probing genomic diversity and evolution of Escherichia coli O157 by single nucleotide polymorphisms. 1660

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