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W3164042745 abstract "Isothermal nucleic acid amplification strategies have been combined with nanotechnology for advanced biosensing, material design, and biomedical applications. However, merging phenomena and materials of different nanoscales with the aim of exploiting all their benefits at once has remained a challenging endeavor. Here, we exemplify the various problems one can encounter when combining the nanodimensions of lanthanide complexes (∼2 nm), Förster resonance energy transfer (FRET, ∼5 nm), quantum dots (QDs, ∼20 nm), and rolling circle amplification (RCA, ∼250 nm) into a single microRNA biosensor and how these challenges can be overcome. Six different approaches, including simple FRET-RCA, enzyme-digesting FRET-RCA, and FRET-hyperbranched-RCA were investigated. We demonstrated specific miR-21 detection with 80 fM limit of detection and multiplexing capability with FRET from a Tb complex to different QDs. The detailed view on the various complex multi-nanodimensional assay systems elucidated the limited clinical translation of such sophisticated multicomponent nanobiosensors." @default.
W3164042745 created "2021-06-07" @default.
W3164042745 creator A5019703669 @default.
W3164042745 creator A5069754539 @default.
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W3164042745 date "2021-05-27" @default.
W3164042745 modified "2023-10-17" @default.
W3164042745 title "When Nanoworlds Collide: Implementing DNA Amplification, Nanoparticles, Molecules, and FRET into a Single MicroRNA Biosensor" @default.
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W3164042745 doi "https://doi.org/10.1021/acs.nanolett.1c01351" @default.
W3164042745 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34041910" @default.
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