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DNA nanotechnology for nucleic acid analysis: sensing of nucleic acids with DNA junction-probes.

Marcos V FoguelVictor ZamoraJulio OjedaMark ReedAlexander BennettPercy Calvo-MarzalYulia V GerasimovaDmitry M KolpashchikovKarin Y Chumbimuni-Torres
Published in: The Analyst (2024)
DNA nanotechnology deals with the design of non-naturally occurring DNA nanostructures that can be used in biotechnology, medicine, and diagnostics. In this study, we introduced a nucleic acid five-way junction (5WJ) structure for direct electrochemical analysis of full-length biological RNAs. To the best of our knowledge, this is the first report on the interrogation of such long nucleic acid sequences by hybridization probes attached to a solid support. A hairpin-shaped electrode-bound oligonucleotide hybridizes with three adaptor strands, one of which is labeled with methylene blue (MB). The four strands are combined into a 5WJ structure only in the presence of specific DNA or RNA analytes. Upon interrogation of a full-size 16S rRNA in the total RNA sample, the electrode-bound MB-labeled 5WJ association produces a higher signal-to-noise ratio than electrochemical nucleic acid biosensors of alternative design. This advantage was attributed to the favorable geometry on the 5WJ nanostructure formed on the electrode's surface. The 5WJ biosensor is a cost-efficient alternative to the traditional electrochemical biosensors for the analysis of nucleic acids due to the universal nature of both the electrode-bound and MB-labeled DNA components.
Keyphrases
  • nucleic acid
  • gold nanoparticles
  • label free
  • healthcare
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  • molecularly imprinted
  • data analysis