Synchronously Sensitive Immunoassay and Efficient Inactivation of Living Zika Virus via DNAzyme Catalytic Amplification and In Situ Aggregation-Induced Emission Photosensitizer Generation.
Ling-Hong XiongJiao WangFan YangBen-Zhong TangXuewen HePublished in: Analytical chemistry (2024)
Sensitive identification and effective inactivation of the virus are paramount for the early diagnosis and treatment of viral infections to prevent the risk of secondary transmission of viruses in the environment. Herein, we developed a novel two-step fluorescence immunoassay using antibody/streptavidin dual-labeled polystyrene nanobeads and biotin-labeled G-quadruplex/hemin DNAzymes with peroxidase-mimicking activity for sensitive quantitation and efficient inactivation of living Zika virus (ZIKV). The dual-labeled nanobeads can specifically bind ZIKV through E protein targeting and simultaneously accumulate DNAzymes, leading to the catalytic oxidation of Amplex Red indicators and generation of intensified aggregation-induced emission fluorescence signals, with a detection limit down to 66.3 PFU/mL and 100% accuracy. Furthermore, robust reactive oxygen species generated in situ by oxidized Amplex Red upon irradiation can completely kill the virus. This sensitive and efficient detection-inactivation integrated system will expand the viral diagnostic tools and reduce the risk of virus transmission in the environment.
Keyphrases
- zika virus
- label free
- dengue virus
- aedes aegypti
- reactive oxygen species
- pet imaging
- sars cov
- sensitive detection
- single molecule
- hydrogen peroxide
- mass spectrometry
- loop mediated isothermal amplification
- ms ms
- energy transfer
- high performance liquid chromatography
- cancer therapy
- liquid chromatography tandem mass spectrometry
- radiation induced
- binding protein
- crystal structure
- high resolution
- solid state
- fluorescent probe
- pet ct