Virulence 2011, 2:413–421.PubMedCrossRef 48. Huang YY, Tanaka M, Vecchio D, Garcia-Diaz M, Chang J, Morimoto Y, Hamblin MR: Photodynamic therapy induces an immune response against a bacterial pathogen. Expert Rev Clin Immunol 2012, 8:479–494.PubMedCrossRef Authors’ contributions Conceived and designed the experiments: JCJr, CPS, AR-13324 price XT, BBF, MRH, EM. Performed the experiments: JCJr, CPS, XT, YW. Analyzed the data: JCJr, JCJ, AOCJ, GPT, MRH, EM. Contributed reagents/materials/analysis
tools: MRH, EM. Wrote the paper: JCJr, JCJ, MRH, GPT, EM. All authors read and approved the final manuscript.”
“Background Food-borne enteric viruses, particularly human noroviruses (NoV), rotaviruses (RV) JIB04 and hepatitis A virus (HAV), constitute a serious public BTK inhibitor health concern, since they are responsible for the vast majority of cases of non-bacterial gastroenteritis and infectious hepatitis, which may occasionally be fatal [1, 2]. These viruses are able to replicate in the human gastro-intestinal tract and are dispersed by shedding in high concentrations into the stools. The stability
of these viruses with regard to several physical conditions such as pH and temperature, and their resistance to different treatment systems, contribute significantly to their persistence in the environment [3, 4]. Transmission of these viruses occurs by the faecal-oral route, primarily through direct person-to-person contact, but they are also efficiently transmitted by ingestion of contaminated drinking water or contaminated foods such as raw shellfish, fresh fruits and vegetables [5]. To ensure the safety of these products, the development of sensitive, reliable techniques for the detection of enteric viruses in food and water samples is helpful. The cell culture system is the gold standard to examine Tau-protein kinase the infectivity of the isolated viruses. Currently, detection of the main enteric viruses on the basis
of their infectivity is complicated by the absence of a reliable cell culture method and the low contamination levels of food samples. Thus, molecular methods have been developed for the rapid detection of viral contamination of foods [6, 7]. In 2004, the European Committee for Standardisation (CEN) asked a technical advisory group (TAG4) to develop standard methods (qualitative / quantitative) for the detection of norovirus and HAV in foodstuffs. Standard methods have recently been elaborated for a range of risk foods including bottled water, soft fruits and vegetables. The CEN/ISO/TS 15216 standard was published in the first half of 2013 and within a year these proposed protocols will be validated and then published as ISO or CEN standard methods [8].