Ghent University, Faculty of Bioscience Engineering, Department of Food Safety and Food Quality, Ghent, Belgium.
Food Microbiol. 2011 Feb;28(1):52-8. doi: 10.1016/j.fm.2010.08.004. Epub 2010 Aug 14.
In the present study, a proposed methodology for detection of GI and GII noroviruses (NoV) in soft red fruits was evaluated. The murine norovirus-1 (MNV-1), a recently described cultivable NoV surrogate was integrated in the detection methodology as full process control, reverse transcription control and real-time PCR internal amplification control. Both the performance and robustness of the proposed methodology were analyzed. Firstly, the performance of the method was examined by analysis of the recovery of MNV-1, GI and/or GII NoV inoculated on frozen raspberry crum samples. Results showed that the recovery of MNV-1 was not significantly influenced by the inoculum incubation time (30 min or overnight incubation) or the inoculum level (10(6) or 10(8) genomic MNV-1 copies/10 g of frozen raspberry crum sample). In contrast, a significant influence of the GI and GII NoV inoculum level (10(4) or 10(6) genomic MNV-1 copies/10 g of frozen raspberry crum sample) was noticed on the recovery of respectively GI and GII NoV from frozen raspberry crum samples. Secondly, the robustness of the methodology was evaluated by subjecting three types of artificially MNV-1, GI and/or GII NoV contaminated soft red fruit products (deepfrozen forest fruit mix, fresh raspberries and fresh strawberry puree) to the method. Results showed a significant influence of the soft red fruit product type on the recovery efficiency of GI NoV and MNV-1, while no significant differences could be shown for GII NoV. In general, the recovery of GI and GII NoV in strawberry puree was more efficient from the strawberry puree compared to the two other soft red fruit types. In conclusion, results show that this methodology can be used for detection of NoV in different soft red fruits, although NoV recovery efficiencies can be influenced by (1) the NoV concentration on the soft red fruit type and (2) the tested soft red fruit type.
在本研究中,评估了一种用于检测软红果中 GI 和 GII 诺如病毒(NoV)的方法。最近描述的可培养 NoV 替代物鼠诺如病毒 1(MNV-1)被整合到检测方法中,作为全过程控制、逆转录控制和实时 PCR 内部扩增控制。分析了所提出方法的性能和稳健性。首先,通过分析冷冻覆盆子碎屑样品中接种的 MNV-1、GI 和/或 GII NoV 的回收率来检查该方法的性能。结果表明,MNV-1 的回收率不受接种物孵育时间(30 分钟或过夜孵育)或接种物水平(10(6)或 10(8)基因组 MNV-1 拷贝/10 g 冷冻覆盆子碎屑样品)的显著影响。相比之下,GI 和 GII NoV 的接种物水平(10(4)或 10(6)基因组 MNV-1 拷贝/10 g 冷冻覆盆子碎屑样品)对分别从冷冻覆盆子碎屑样品中回收 GI 和 GII NoV 有显著影响。其次,通过对三种人工 MNV-1、GI 和/或 GII NoV 污染的软红果产品(深冻森林水果混合物、新鲜覆盆子和新鲜草莓泥)进行该方法,评估了该方法的稳健性。结果表明,软红果产品类型对 GI NoV 和 MNV-1 的回收率有显著影响,而 GII NoV 则没有显著差异。一般来说,与另外两种软红果类型相比,草莓泥中 GI 和 GII NoV 的回收率更高。总之,该方法可用于检测不同软红果中的 NoV,但 NoV 回收率可能受到(1)软红果类型上 NoV 浓度和(2)测试软红果类型的影响。
