Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.1 (Mg2+-ATPase)
 1,484 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Escherichia coli associated with outbreaks of gastroenteritis and hemolytic uremic syndrome include clones with O antigens O157 and O111. However, O26 has emerged as an O antigen present in pathogenic strains, particularly those implicated in cases of infantile gastroenteritis worldwide. The O26 O antigen gene cluster was sequenced. It was found to contain the genes expected for biosynthesis of nucleotide sugars L-rhamnose, N-acetyl-L-fucosamine and N-acetyl-glucosamine, as well genes for O unit flippase, O antigen polymerase and potential transferase genes. By polymerase chain reaction testing against representative strains for the 166 Escherichia coli O serogroups and some randomly selected Gram-negative bacteria, we identified three O antigen genes that are highly specific to O26. This work provides the basis for a sensitive test for the rapid detection of pathogenic clones with the O26 antigen, which has implications for public health, especially in the control of food-borne outbreaks.
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PMID:Sequence of the Escherichia coli O26 O antigen gene cluster and identification of O26 specific genes. 1238 93

Escherichia coli serogroup O103 has been associated with gastrointestinal illness and hemolytic uremic syndrome. To develop PCR-based methods for detection and identification of this serogroup, the DNA sequence of the 12,033-bp region containing the O antigen gene cluster of Escherichia coli O103 was determined. Of the 12 open reading frames identified, the E. coli O103 wzx (O antigen flippase) and wzy (O antigen polymerase) genes were selected as targets for development of both conventional and real-time PCR assays specific for this serogroup. In addition, a multiplex PCR targeting the Shiga toxin (Stx) 1 (stx1), Shiga toxin 2 (stx2), wzx, and wzy genes was developed to differentiate Stx-producing E. coli O103 from non-toxigenic strains. The PCR assays can be employed to identify E. coli serogroup O103, replacing antigen-based serotyping, and to potentially detect the organism in food, fecal, or environmental samples.
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PMID:DNA sequence of the Escherichia coli O103 O antigen gene cluster and detection of enterohemorrhagic E. coli O103 by PCR amplification of the wzx and wzy genes. 1612 Dec 32

Shiga toxin-producing Escherichia coli (STEC) strains belonging to serogroup O145 are an important cause of hemorrhagic colitis and hemolytic uremic syndrome worldwide. Cattle and other animals are potential reservoirs for this pathogen. To develop PCR assays for detection and identification of E. coli O145, the wzx (O-antigen flippase) and wzy (O-antigen polymerase) genes in the O145 O-antigen gene cluster that are specific for this serogroup were selected as targets. Oligonucleotide primers complementary to regions in the E. coli O145 wzx and wzy genes were designed to perform PCR assays with DNA from strains of E. coli O145, non-O145 E. coli serogroups, and other bacterial genera. The assays were highly specific for E. coli O145. A multiplex PCR assay targeting the E. coli O145 wzx and wzy genes and the Shiga toxin 1 (stx(1)) and Shiga toxin 2 (stx(2)) genes and a real-time multiplex PCR assay targeting the O145 wzy, stx(1), and stx(2) genes were developed for detection of STEC O145. The assays were used for detecting STEC O145 in seeded ground beef, lettuce, and raw milk initially inoculated with ca. 2, 20, or 200 CFU/25 g or 25 mL after 8 or 20 h of enrichment at 42 degrees C in modified EC broth containing 20 mg/L of novobiocin. STEC O145 was detected in all samples inoculated with 2 CFU/25 g or 25 mL. The detection limit of the multiplex PCR assays was <or=7.9 x 10(4) CFU/mL, which corresponded to <or=400 CFU/PCR reaction. The PCR assays can be employed to identify enterohemorrhagic E. coli serogroup O145 and to detect low levels of the pathogen in food.
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PMID:PCR detection of enterohemorrhagic Escherichia coli O145 in food by targeting genes in the E. coli O145 O-antigen gene cluster and the shiga toxin 1 and shiga toxin 2 genes. 1943 8