Rapid detection of norovirus from fresh lettuce using immunomagnetic separation and a quantum dots assay.

Current molecular methods that include PCR have been used to detect norovirus in many food samples. However, the protocols require removing PCR inhibitors and incorporate time-consuming concentration steps to separate virus from analyte for rapid and sensitive detection of norovirus. We developed an immunomagnetic separation (IMS) and a quantum dots (QDs) assay to detect norovirus eluted from fresh lettuce with Tris buffer containing 1% beef extract (pH 9.5). IMS facilitated viral precipitation with a 10-min incubation, whereas virus concentration using polyethylene glycol (PEG) requires more than 3 h and an additional high-speed centrifugation step to precipitate virus before reverse transcription PCR (RT-PCR) analysis. The fluorescence intensity of QDs was detected qualitatively on norovirus dilutions of 10(-1) to 10(-3) in a stool suspension (100 RT-PCR units/ml). The results suggest that a fluorescence assay based on IMS and QDs is valid for detecting norovirus qualitatively according to fluorescent signal intensity within the same virus detection limit produced by IMS-RT-PCR and PEG-RT-PCR.

Molecular characteristics of human coxsackievirus B1 infection in Korea, 2008-2009.

This study was performed to analyze epidemiological and molecular characteristics of coxsakievirus (CV) B1 infection associated with severe neonatal illness cases and death in Korea during 2008-2009. Through a nationwide surveillance program, specimens were collected from 104 patients infected with CVB1. The detection of enteroviruses (EVs) from specimens was subjected to a diagnostic real-time polymerase chain reaction (RT-PCR) in the 5'-non-coding region (NCR). A semi-nested PCR was conducted to amplify sequences from the VP1 region and sequence comparison was performed with reference strains registered in Genbank. Male-to-female ratio confirmed approximately 5:4. The major clinical manifestation of patients infected with CVB1 was aseptic meningitis (55.8%). The other clinical symptoms were herpangina or hand-foot-mouth disease (22.1%) and neonatal sepsis (7.7%). The sequences of CVB1 isolates were divided into four genetic clusters (A-D) with at least 15% diversity between the clusters. Almost all the CVB1 isolates in Korea from 2008 to 2009 were in cluster D (except for 2 cases). The homology relationship was also similar between the Korean CVB1 strains and US strain (above 93%). It is possible that Korean CVB1 isolates found during 2008-2009 originated from the US strains found during 2006-2008. The identification of CVB1 in South Korea shows the potential of EVs to cause serious disease in an unpredictable fashion.

Detection of cytolethal distending toxin and other virulence characteristics of enteropathogenic Escherichia coli isolates from diarrheal patients in Republic of Korea.

Cytolethal distending toxins (CDTs) represent an emerging family of newly described bacterial products that are produced by a number of pathogens. The genes encoding these toxins have been identified as a cluster of three adjacent genes, cdtA, cdtB, and cdtC, plus 5 cdt genetic variants, designated as cdt-I, cdt-II, cdt-III, cdt-IV, and cdt- V, have been identified to date. In this study, a general multiplex PCR system designed to detect Escherichia coli cdts was applied to investigate the presence of cdt genes among isolates. As a result, among 366 E. coli strains, 2.7% were found to carry the cdtB gene. In addition, the use of type-specific primers revealed the presence of cdt-I, cdtIV, and cdt-V types of the cdt gene, yet no cdt-II or cdt- III strains. The presence of other virulence genes (stx1, stx2, eae, bfp, espA, espB, and espD) was also investigated using a PCR assay. Among the 10 cdtB gene-positive strains, 8 were identified as CDT-producing typical enteropathogenic E. coli (EPEC) strains (eae(+), bfp(+)), whereas 2 were identified as CDT-producing atypical EPEC strains (eae(+), bfp(-)). When comparing the cytotoxic activity of the CDT-producing typical and atypical EPEC strains, the CDT-producing atypical EPEC strains appeared to be less toxic than the CDT-producing typical EPEC strains.