@article{tung-thompson_escudero-abarca_outlaw_ganee_cassard_mabilat_jaykus_2017, title={Evaluation of a Surface Sampling Method for Recovery of Human Noroviruses Prior to Detection Using Reverse Transcription Quantitative PCR}, volume={80}, ISSN={["1944-9097"]}, DOI={10.4315/0362-028x.jfp-16-276}, abstractNote={Human noroviruses are the most common cause of acute viral gastroenteritis, and the environmental persistence of these viruses contributes to their transmissibility. Environmental sampling is thus an important tool for investigating norovirus outbreaks and for assessing the effectiveness of cleaning and decontamination regimens. The purpose of this study was to evaluate a sampling material (wipes) for their efficacy at recovering human norovirus from hard surfaces and foods. Dilutions of a human norovirus GII.4 stool specimen derived from an outbreak were applied to hard surfaces (stainless steel and ceramic) and the surfaces of representative foods (green pepper, apple, tomato, and cheese). The viruses were recovered at various times postinoculation using the wipes, followed by RNA extraction and reverse transcription quantitative PCR. Recovery efficiency ranged from 74% to almost 100% for all artificially inoculated hard surfaces and for most fresh produce surfaces. Less efficient recovery was observed for cheese. Viral RNA could be recovered from select surfaces for up to 7 days postinoculation, with a <1 log reduction in genome copy number. In field tests, 24 (11%) of 210 environmental samples collected during winter 2012 from restrooms in North Carolina were presumptively positive for human norovirus, and six of these samples were confirmed as GII.4 by sequencing. These wipes may be a valuable tool for investigations of norovirus outbreaks and studies of norovirus prevalence.}, number={2}, journal={JOURNAL OF FOOD PROTECTION}, author={Tung-Thompson, Grace and Escudero-Abarca, Blanca I. and Outlaw, Janie and Ganee, Arnaud and Cassard, Sylvanie and Mabilat, Claude and Jaykus, Lee-Ann}, year={2017}, month={Feb}, pages={231–236} }
 @article{almand_moore_outlaw_jaykus_2017, title={Human norovirus binding to select bacteria representative of the human gut microbiota}, volume={12}, ISSN={["1932-6203"]}, DOI={10.1371/journal.pone.0173124}, abstractNote={Recent reports describe the ability of select bacterial strains to bind human norovirus, although the specificity of such interactions is unknown. The purpose of this work was to determine if a select group of bacterial species representative of human gut microbiota bind to human norovirus, and if so, to characterize the intensity and location of that binding. The bacteria screened included naturally occurring strains isolated from human stool (Klebsiella spp., Citrobacter spp., Bacillus spp., Enterococcus faecium and Hafnia alvei) and select reference strains (Staphylococcus aureus and Enterobacter cloacae). Binding in PBS was evaluated to three human norovirus strains (GII.4 New Orleans 2009 and Sydney 2012, GI.6) and two surrogate viruses (Tulane virus and Turnip Crinkle Virus (TCV)) using a suspension assay format linked to RT-qPCR for quantification. The impact of different overnight culture media prior to washing on binding efficiency in PBS was also evaluated, and binding was visualized using transmission electron microscopy. All bacteria tested bound the representative human norovirus strains with high efficiency (<1 log10 of input virus remained unbound or <10% unbound and >90% binding efficiency) (p>0.05); there was selective binding for Tulane virus and no binding observed for TCV. Binding efficiency was highest when bacteria were cultured in minimal media (<1 log10 of input virus remained unbound, so >90% bound), but notably decreased when cultured in enriched media (1–3 log10 unbound or 0.01 –<90% bound)) (p<0.05). The norovirus-bacteria binding occurred around the outer cell surfaces and pili structures, without apparent localization. The findings reported here further elucidate and inform the dynamics between human noroviruses and enteric bacteria with implications for norovirus pathogenesis.}, number={3}, journal={PLOS ONE}, author={Almand, Erin A. and Moore, Matthew D. and Outlaw, Janie and Jaykus, Lee-Ann}, year={2017}, month={Mar} }