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Surface Functionalization and Reversible Disassembly of DNA-Assembly Nanoparticles for Sensitive and Multiplexed Detection of DNA Targets Without Enzymatic and Catalytic Amplification.

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Recently, DNA-assembly nanoparticles based on DNA-metal ion interactions are emerging as new building blocks for drug delivery and metal nanostructure synthesis. However, the surface modification of DNA-assembly nanoparticles using functional… Click to show full abstract

Recently, DNA-assembly nanoparticles based on DNA-metal ion interactions are emerging as new building blocks for drug delivery and metal nanostructure synthesis. However, the surface modification of DNA-assembly nanoparticles using functional biomolecules that can identify specific targets has rarely been explored. In this study, we developed a new immobilization chemical strategy to efficiently functionalize the barcode DNA-assembly nanoparticles (bcDNA NPs) with thiolated probe DNA (pDNA) for synthesizing pDNA-functionalized bcDNA NPs (pDNA-bcDNA NPs). We used them as nanoprobes to successfully demonstrate the sensitive and selective detection of multiple DNA targets. Importantly, Au ions played an essential role as anchoring sites via their conjugation with both thiolated pDNA and bcDNA NPs. In addition, we could reversibly and rapidly disassemble the pDNA-bcDNA NPs into the initial bcDNA strands with a recovery rate of 91%; this process significantly amplified the signal by releasing a million bcDNA strands, which enabled DNA quantification from a single pDNA-bcDNA NP. The Au3+ concentration, pH, and surface passivation conditions were carefully investigated to maximize the pDNA loading to 8500 strands/bcDNA NP. The limit of detection was determined to be 221 fM, which is the most sensitive among the absorbance-based methods without polymerase chain reaction, hybridization chain reactions, catalytic hairpin assembly, and other reactions involving enzymes and catalysts. The reversible disassembly of DNA strands and Au ion-mediated conjugation chemistry could be extended for the detection of other types of targets, such as proteins, metal ions, and small molecules, using other organic functionalities that are or can be thiolated, including polypeptides, aptamers, and antibodies.

Keywords: assembly nanoparticles; dna; bcdna; detection; dna assembly; assembly

Journal Title: Bioconjugate chemistry
Year Published: 2023

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