Abstract
Foodborne viruses such as norovirus and hepatitis A virus cause frequent outbreaks associated with the consumption of raw or undercooked oysters. Viral particles are bioaccumulated in the oyster’s digestive glands, making RNA extraction and RT-PCR detection difficult due to the complex nature of the food matrix and the presence of RT-PCR inhibitors. Herein, we have developed a viral RNA extraction protocol from raw oysters using murine norovirus (MNV) as a surrogate for human noroviruses. The method combines lysis in Tri-Reagent reagent, followed by RNA extraction using Direct-Zol purification columns and lithium chloride precipitation. Viral load quantification was performed by both qRT-PCR and droplet-digital RT-PCR. We have demonstrated that this method can efficiently remove RT-PCR inhibitors, and is sensitive enough to reliably detect viral contamination at 25 PFU/0.2 g. We have also compared the efficiency of this method with the ISO 15216-1:2017 method and Method E developed by Quang and colleagues, and observed significantly higher efficiency compared with the ISO 15216-1 method and comparable efficiency with Method E, with less steps, and shorter hands-on time.
Highlights
Norovirus is the most common foodborne pathogen, causing 685 million cases of gastroenteritis and approximately 200,000 deaths globally [1]
QIAamp Viral RNA is not designed for the same purpose, the Trireagent extraction was completed as per manufacturer’s instruction the aqueous phase was mixed with ethanol and applied to the column
Oyster homogenates were inoculated with two different titers of murine norovirus (MNV): 1 × 104 Plaque-Forming Units (PFU)/0.2 g and 1 × 106 PFU/0.2 g in
Summary
Norovirus is the most common foodborne pathogen, causing 685 million cases of gastroenteritis and approximately 200,000 deaths globally [1]. In 2016, norovirus was responsible for 36% of foodborne outbreaks and 42% foodborne illnesses in the United. Norovirus infection has led to a total of $4.2 billion in direct health system costs and $60.3 billion in societal costs per year globally [3]. Norovirus is a non-enveloped, positive-sense, single-stranded RNA virus that belongs to Caliciviridae family [4]. Norovirus is divided into at least 10 genogroups (G), of which viruses from GI, GII, and GIV infect humans. Noroviruses are further categorized into 60 and 49 different genotypes, based on the sequence diversity in the polymerase and the capsid protein, respectively [5]
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