Molecular typing of Bluetongue virus using the nCounter® analysis system platform.

Bluetongue virus (BTV) is a segmented double-stranded RNA virus, existing in multiple serotypes, belonging to the genus Orbivirus of the family Reoviridae. BTV causes Bluetongue (BT), a major OIE-listed disease of ruminants. Identification of BTV serotype is accomplished using multiple typing assays and tends to be executed based on the known epidemiological situation within a given country. Samples containing multiple serotypes, particularly those containing novel introductions, may therefore be missed. The aim of this work was to optimize the nCounter® Analysis System Microarray platform (NanoString technologies), that would simultaneously identify all BTV serotypes and co-infections in analyzed samples. Probes were designed according to all Seg-2 sequences, coding for VP2 proteins which determine serotype specificity, available on line. A specific BTV CodeSet of probes was optimized. Experiments were performed with 30 BTV isolates and with 46 field samples previously shown to be infected with BTV by classical molecular assays. All BTV isolates were correctly identified and the expected BTV serotype was recognized in 35 field samples with CT values between 22.0-33.0. In turn, it was unable to identify 11 samples with CT values between 29.0-38.0. Although specificity of the assay needs to be further investigated against a larger panel of BTVs collected worldwide, RNA loads, which are normally detected in blood samples during the acute phase of infection, are within the range of CT values detectable by the BTV CodeSet. We propose the NanoString RNA microarray as a first-line molecular diagnostic tool for identification and typing of BTV. Once identification of the index cases is performed, diagnosis of the following samples may be performed by specific, more sensitive and cheaper PCR-based tools.

Virulence gene profiles of rabbit enteropathogenic Escherichia coli strains isolated in Northern Italy.

The virulence gene profile of 26 rabbit enteropathogenic Escherichia coli strains, isolated from 17 colibacillosis outbreaks located in two regions of Northern Italy, was determined using an Echerichia coli virulence DNA microarray. All strains were classified according to their determined biotype, sero- and phylo-group. The distribution of virulence genes encoding for the Locus of enterocyte effacement (LEE), LEE type III secretion system (T3SS), non-LEE T3SS translocated proteins and adherence factors was also determined. All strains but one belonged to phylogroups A and B1. A prevalent association between the O103 serogroup with the rhamnose-negative phenotype (biotype 12 or 14) was found. The most prevalent LEE profile found in tested strains was ler/cesT/espA-1/espB-3/tir-1/eae(beta)/espD-2/escN/eprJ. All strains possessed either the adhesive factor rabbit-2 (afr/2) or the plasmid Rabbit adherence locus (ral) gene and 24 of them an additional individual or combined set of colonization factors efa1/lifA, lpfA and paa genes. Finally, the combined or single presence of a set of LEE and/or non-LEE effector proteins encoding genes, namely espG, cif, map and nle family genes, attested to the genetic potential of investigated strains to induce pathologic lesions to the host. The application of microarray-based technologies in assessing the genetic profile of rabbit E. coli is a reliable, cost-effective candidate for large scale investigations in monitoring programs aimed to survey the circulation of pathogenic strains within rabbit production units, their zoonotic genetic potential and to select E. coli strains eligible for vaccinal prophylaxis in fattening rabbit production.

Identification and characterization of Yersinia enterocolitica strains isolated from pig tonsils at slaughterhouse in Central Italy.

Yersinia enterocolitica causes foodborne disease in humans and infections are usually acquired from contaminated raw or undercooked pork. Pigs are considered the primary reservoir of human pathogenic bio-serotypes. A total of 376 tonsil tissue samples collected after evisceration and cutting from pig carcasses were tested for Yersinia enterocolitica. Animals came from an abattoir located in the Abruzzo region, Italy. Yersinia enterocolitica was isolated from 35 out of 376 (9.31%) samples. A total of 47 strains were isolated, the prevalent bio-serotype was 4÷O:3 (95.74%), followed by bio-serotype 4÷O:9 (2.13%), and 3÷O:9 (2.13%). When characterized by DNA microarray, all strains clustered into 2 main groups. The bigger group was characterised by the presence of plasmid genes of the secretion apparatus as well as by the genes for the agellum transport machinery, while the smaller group was characterised only by genes for the agellum transport machinery. The high frequency of the pathogenic biotype 4÷O:3 able to infect humans and considered an emerging zoonotic pathogen con rms the role of pigs as natural reservoir. Since there is no official data on Yersinia enterocolitica, it is difficult to assess the implications of this food pathogen for public health. A monitoring program should be implemented for contamination in food in order to assess the risk for the consumer linked to raw or undercooked pork products.

Pathotyping of diarrhoeagenic cattle Escherichia coli strains isolated in the Province of Tehran, Iran.

An oligonucleotide DNA microarray targeting 348 virulence factors and genetic markers was used in the pathotyping, serotyping and phylogrouping of 51 Escherichia coli strains isolated from faecal samples. The samples were collected from diarrhoeic 1 to 30 days old calves located at 14 farms in the Tehran province, Iran. Positive microarray signals for genes encoding the Locus of Enterocyte E acement (LEE), the Type III Secretion System (TTSS), and the absence of EPEC adherence factor (EAF) permitted the pathotyping of 25 strains as atypical Enteropathogenic (aEPEC) or Enterohaemorrhagic Escherichia coli (EHEC). The lack of LEE and TTSS-associated genes distinguished the remaining 26 strains, which were classi ed as Extraintestinal pathogenic E. coli (ExPEC). Atypical EPEC belonged to phylogroup B1 and possessed a LEE pro le tir-1, eae(beta), espA-1, espB-3. The EHEC strains primarily belonged to the B1 phylogroup type-O26 and possessed either a LEE pro le tir-1, eae(beta), espA-1, espB-3, or a B1 type-O111, LEE tir-3, eae(gamma), espA-1, espB-2. ExPEC-typed strains generally harboured genes localised to the constant region of Colicin V plasmid (pColV), including increased serum survival factor (iss), complement resistance protein (traT), aerobactin operon (iucD), and the siderophore receptor (iroN). The microarray platform used in this study is well suited to accurately and rapidly type attaching and e acing E. coli (AEEC-types), thus providing a database for the meta-analysis of ExPEC-typed strains.

Distribution of Shiga toxin genes subtypes in B1 phylotypes of Escherichia coli isolated from calves suffering from diarrhea in Tehran suburb using DNA oligonucleotide arrays.

BACKGROUND AND OBJECTIVES: Shiga toxin-producing Escherichia coli (STEC) have emerged as human pathogens and contamination via animal origin has been a major public health concern. We compared the distribution of phylogenetic groups and prevalence of stx gene variants among the pathogenic strains of Escherichia coli isolated from feces of diarrheatic calves in Tehran suburb farms. MATERIALS AND METHODS: In this study we screened 140 diarrheatic calves (1-15 days old) for E. coli strains during a 3 months period of time. The isolated strains were grouped into different phylotypes according to the presence of chuA, yjaA and TSPE4.C2 genes. Then, the prevalence of stx gene subtypes was evaluated in the B1 phylotypes. RESULTS: From diarrheatic calves, 51 bacterial isolates were biochemically identified as E. coli and 31 isolates out of 51 were considered B1 phylotype using DNA Microarray technology. Of these isolates, 20 contained stx1a and stx1b and one harbored all mentioned variants of stx genes except stx2b2 . CONCLUSION: This study showed that in Tehran suburb, the B1 phylotype of E. coli is prevalent as a causative agent of diarrhea in calves and the prevalence of stx1 gene subtypes is dominant in comparison with other subtypes. Considering the possibility that these stx genes can be spread to other strains, bovine E. coli strains are an important source of stx genes for other strains and further study and surveillance seems to be required for the exact identification of virulence profile of E. coli phylotypes in different hosts.

Detection and genotyping of Campylobacter jejuni and Campylobacter coli by use of DNA oligonucleotide arrays.

Campylobacter have emerged as the most common bacterial food-borne illness in the developed world. The ability to reduce Campylobacter infections in humans is linked to the full comprehension of the principal key aspects of its infection cycle. A microbial diagnostic microarray detecting Campylobacter housekeeping, structural, and virulence associated genes was designed and validated using genomic DNA from reference and field strains of Campylobacter jejuni and coli isolated from human, chicken, and raw milk. This microarray was confirmed to be a powerful diagnostic tool for monitoring emerging Campylobacter pathotypes as well as for epidemiological, environmental, and phylogenetic studies including the evaluation of genome plasticity.

Genetic characterization of Escherichia coli O157:H7 strains isolated from the one-humped camel (Camelus dromedarius) by using microarray DNA technology.

From the Camelidae family members, several serotypes of Escherichia coli (E. coli) have recently been isolated from diarrhoeic and non-diarrhoeic faecal samples. To date Shiga toxin-producing E. coli (STEC) strains have never been typed in one-humped camel (Camelus dromedarius). In the present study, two E. coli O157:H7 strains isolated from sick dromedaries were investigated. Virulence gene profiles were determined using a custom E. coli virulence DNA microarray, composed of 70-mer oligonucleotide probes targeting 264 virulence or related genes of known E. coli pathotypes. Both strains displayed positive hybridization signals for the Locus of enterocyte effacement (LEE) gene probes (ler, eae, espA, espB, tir genes), two Shiga toxin probes (stx1 and stx2), the O157 O-antigen specific probe, various virulence plasmid (pO157) probes like katP in addition to other accessory virulence genes characterized in STEC.

Characterisation of Staphylococcus aureus strains isolated from food for human consumption.

An investigation was conducted to evaluate Staphylococcus aureus contamination in various types of food of animal origin. Of the 350 samples examined, 14.0% were found to be contaminated with S. aureus. Prevalence rates varied according to type, namely: 19.3% for fresh meat products, 13.3% for fresh cheeses, 3.6% for bakery products and 7.7% for deli products. The isolated S. aureus strains then underwent 16S rDNA polymerase chain reaction (PCR) followed by reverse latex agglutination tests to identify enterotoxigenic strains. The results were compared with data obtained by subjecting the same strains to tests for the genes coding for the S. aureus enterotoxins (SEs) sea, seb, sec, sed, see, seg, seh, sei and toxic shock syndrome toxin 1 (TSST 1). Reversed passive latex agglutination (RPLA) testing revealed that 16.3% of strains (8/49) produced enterotoxins, while on PCR, 48.97% (24/49) were found to carry one or more genes for the production of SEs, and were therefore potentially enterotoxigenic.