The virus is the smallest known replicative unit, usually in nanometer-range sizes. The most simple and sensitive detection assay involves molecular amplification of nucleic acids. This work shows a novel, straightforward detection based on the interaction of viral particles with fluorescent nanoconstructs without using enzymatic amplification, washing or separation steps. Fluorescent nanoconstructs are prepared with individual quantum dots of different emitting green and red fluorescence as a core. They are decorated with aptamers developed to recognise the receptor-binding region of the SARS-CoV-2 spike protein. Nanoconstructs can recognise SARS-CoV-2 viral particles fixed onto a coverglass generating aggregates. Meanwhile, SARS-CoV-2 viral particles/nanoconstructs complexes in solution yield aggregates and complexes, which a fluorescence microscope can visualise. The multiple molecular recognition allowed the detection of SARS-CoV-2 viral particles from a few microliters of patient swabs. This specific SARS-CoV-2/nanoconstructs interaction generates insoluble and precipitating aggregates. By using a mixture of green and red fluorescent nanoconstructs, upon the viral particle interaction, they yield heterochromatic green, red and yellow spectral fluorescence, easily identifiable by a fluorescence microscope. Washing and separation steps are not required, and aggregates allow one to easily recognise them, offering a sensitive, simple, and cheap alternative for viral detection.
Keywords: Aptamers; Multivalent; Nanoparticles; Quantum dots; SARS-CoV-2; Viral detection.
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