丁香实验_LOGO
登录
提问
我要登录
|免费注册
点赞
收藏
wx-share
分享

Detecting Respiratory Syncytial Virus Using Nanoparticle-Amplified Immuno-PCR

互联网

567
Early-stage detection is essential for effective treatment of pediatric virus infections. In traditional �immuno-PCR, a single antibody recognition event is associated with one to three DNA tags, which are subsequently amplified by PCR. In this protocol, we describe a nanoparticle-amplified immuno-PCR assay that combines antibody recognition of traditional ELISA with a 50-fold nanoparticle valence amplification step followed by amplification by traditional PCR. The assay detects a respiratory syncytial virus (RSV) surface fusion protein using a Synagis antibody bound to a 15 nm gold nanoparticle co-functionalized with thiolated DNA complementary to a hybridized 76-base Tag DNA. The Tag DNA to Synagis ratio is 50 to 1. The presence of virus particles triggers the formation of a “sandwich” complex comprised of the gold nanoparticle construct, virus, and a 1 μm antibody-functionalized magnetic particle used for extraction. Virus-containing complexes are isolated using a magnet, DNA tags released by heating to 95 �C, and detected via real-time PCR. The limit of detection of the nanoparticle-amplified immuno-PCR assay was compared to traditional ELISA and traditional RT-PCR using RSV-infected HEp-2 cell extracts. Nanoparticle-amplified immuno-PCR showed a ∼4,000-fold improvement in the limit of detection compared to ELISA and a fourfold improvement in the limit of detection compared to traditional RT-PCR. Nanoparticle-amplified immuno-PCR offers a viable platform for the development of an early-stage diagnostics requiring an exceptionally low limit of detection.
提问
扫一扫
丁香实验小程序二维码
实验小助手
丁香实验公众号二维码
扫码领资料
反馈
TOP
打开小程序