Production of Encapsidated RNA Particles as a Working Standard in Detecting Foodborne Viruses in Oysters

Natural and Life Sciences Communications Pub Date : 2023-04-03 DOI:10.12982/nlsc.2023.034

Uraiwan Intamaso, P. Chutoam, Suthasinee Jinda, Supannee Lethochavalit

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引用次数: 0

Abstract

Monitoring foodborne viruses via nucleic acid amplification tests rely on stable RNA standards to obtain reliable testing. This study aimed to produce RNA-based standard reagents for hepatitis virus (HAV) or norovirus detections which relies on viral-like particle (VLP) technology. Using a plasmid packaging system, plasmids containing DNA encoding Qβcoat protein (CP) monomer and the VP1 gene of viruses were co-transformed into E. coli host cells. In cell lysates, expressed CP was characterized by western blot and the whole icosahedral formation of VLPs was proved by electron microscope analysis. Encapsidated RNAs were measured and assessed as a standard by a two-step reverse transcription recombinase polymerase amplification (RT-RPA). Our results showed that CP has a distinguished protein band with a molecular weight of 14.5 kDa but a few variabilities of particle size were visualized. When adjusting the pH of the lysate to lower than 6, a more intense protein band and substantial particles with homogenous particle size were observed. These VLPs were found to enclose HAV and norovirus RNA contents to 1.2×107 copies/ng and 1.9×107 copies/ng, respectively. When analyzed by RT-RPA, linear regression analysis confirmed the alternative application of RNAs enclosed in VLPs to naked RNA synthesized from in vitro transcription. Using the E. coli expression system to produce Qβ VLPs allows cost-effective production and, therefore, can be implemented in laboratories with basic equipment. These encapsidated RNAs may become an ideal “standard” for detecting foodborne viruses via a molecular test in food and clinical samples. Keywords: Molecular testing, Nanoparticles, Nucleic amplification, RNA standards, Viral-like particles

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壳载RNA颗粒的制备作为检测牡蛎食源性病毒的工作标准

通过核酸扩增检测监测食源性病毒依赖于稳定的RNA标准来获得可靠的检测。本研究旨在建立基于rna的病毒样颗粒(VLP)技术检测肝炎病毒(HAV)或诺如病毒的标准试剂。利用质粒包装系统，将编码q β外壳蛋白(CP)单体的DNA与病毒VP1基因的质粒共转化到大肠杆菌宿主细胞中。在细胞裂解物中，用western blot对表达的CP进行了表征，并用电镜分析证实了VLPs的完整二十面体结构。通过两步逆转录重组酶聚合酶扩增(RT-RPA)测量和评估封装的rna作为标准。结果表明，CP具有明显的蛋白带，分子量为14.5 kDa，但颗粒大小有一定的变化。当酶解液的pH值低于6时，酶解液的蛋白条带更强，颗粒更丰富，粒径均匀。发现这些VLPs将甲型肝炎病毒和诺如病毒的RNA含量分别包裹到1.2×107 copies/ng和1.9×107 copies/ng。在RT-RPA分析中，线性回归分析证实了VLPs中封闭RNA与体外转录合成的裸RNA的替代应用。使用大肠杆菌表达系统生产Qβ VLPs具有成本效益，因此可以在具有基本设备的实验室中实施。这些被封装的rna可能成为通过在食品和临床样本中进行分子测试来检测食源性病毒的理想“标准”。关键词:分子检测，纳米颗粒，核酸扩增，RNA标准，病毒样颗粒

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Natural and Life Sciences Communications

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0.20

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0.00%

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