Porcine reproductive and respiratory syndrome virus (PRRSV) has been a significant pathogen towards global swine industry upon its emergence in the late 1980s and since then has exemplified a rapidly evolving, widely spreading pathogen. It is urgently important to develop a simple, rapid and cost effective method to detect this pathogen when virus outbreaks. In the present work, it was found that virus antibody modified platinum nanotubes (Pt-Ab) could act as a superquencher to CdTe:Zn(2+) quantum dots (CdTe:Zn(2+) QDs) fluorescence by Stern-Volmer constants nearly 10(9) M(-1) without any aggregation, the CdTe:Zn(2+) QDs fluorescence will recover as the Pt-Ab goes away by antibody and antigen interaction when virus was added into the probe solution, releasing CdTe:Zn(2+) QDs from the surface of Pt-Ab. By the recovery fluorescence intensity, it can realize qualitative and quantitative detection of PRRSV. This method gives a fast response to PRRSV concentration and provides a sensitive detection limit (2.4 ng/mL). Moreover, it can be applied in infected porcine serum samples and obtain satisfied results.
Keywords: Fluorescence; PRRSV detection; PtNTs; Quantum dot.
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