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Nanoparticle Encapsidation of Flock House Virus by Auto Assembly of Tobacco Mosaic Virus Coat Protein

机译:烟草花叶病毒外壳蛋白自动组装对鸡舍病毒的纳米衣壳化作用

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Tobacco Mosaic virus (TMV) coat protein is well known for its ability to self-assemble into supramolecular nanoparticles, either as protein discs or as rods originating from the ~300 bp genomic RNA origin-of-assembly (OA). We have utilized TMV self-assembly characteristics to create a novel Flock House virus (FHV) RNA nanoparticle. FHV encodes a viral polymerase supporting autonomous replication of the FHV genome, which makes it an attractive candidate for viral transgene expression studies and targeted RNA delivery into host cells. However, FHV viral genome size is strictly limited by native FHV capsid. To determine if this packaging restriction could be eliminated, FHV was adapted to express enhanced green fluorescent protein (GFP), to allow for monitoring of functional FHV RNA activity. Then TMV OA was introduced in six 3' insertion sites, with only site one supporting functional FHV GFP expression. To create nanoparticles, FHV GFP-OA modified genomic RNA was mixed in vitro with TMV coat protein and monitored for encapsidation by agarose electrophoresis and electron microscopy. The production of TMV-like rod shaped nanoparticles indicated that modified FHV RNA can be encapsidated by purified TMV coat protein by self-assembly. This is the first demonstration of replication-independent packaging of the FHV genome by protein self-assembly.
机译:烟草花叶病毒(TMV)外壳蛋白以其自组装为超分子纳米颗粒的能力而闻名,该蛋白既可以是蛋白质圆盘,也可以是源自〜300 bp基因组RNA组装起点(OA)的杆。我们已经利用TMV的自组装特性来创建新型的羊群病毒(FHV)RNA纳米颗粒。 FHV编码一种病毒聚合酶,支持FHV基因组的自主复制,这使其成为病毒转基因表达研究和将RNA靶向递送至宿主细胞的诱人候选物。但是,FHV病毒基因组的大小受到天然FHV衣壳的严格限制。为了确定是否可以消除这种包装限制,将FHV适配为表达增强的绿色荧光蛋白(GFP),以监控功能性FHV RNA活性。然后将TMV OA引入六个3'插入位点,只有一个位点支持功能性FHV GFP表达。为了创建纳米粒子,将FHV GFP-OA修饰的基因组RNA与TMV外壳蛋白进行体外混合,并通过琼脂糖电泳和电子显微镜监测衣壳化。 TMV状棒状纳米颗粒的产生表明修饰的FHV RNA可通过自组装被纯化的TMV外壳蛋白包裹。这是通过蛋白自组装的FHV基因组复制非依赖性包装的首次证明。

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