Litcius/Paper detail

Nanopore sequencing of DNA-barcoded probes for highly multiplexed detection of microRNA, proteins and small biomarkers

Caroline Koch, Benedict Reilly-O’Donnell, Richard Gutierrez, Carla Lucarelli, Fu Siong Ng, Julia Gorelik, Aleksandar P. Ivanov, Joshua B. Edel

2023Nature Nanotechnology94 citationsDOIOpen Access PDF

Abstract

There is an unmet need to develop low-cost, rapid and highly multiplexed diagnostic technology platforms for quantitatively detecting blood biomarkers to advance clinical diagnostics beyond the single biomarker model. Here we perform nanopore sequencing of DNA-barcoded molecular probes engineered to recognize a panel of analytes. This allows for highly multiplexed and simultaneous quantitative detection of at least 40 targets, such as microRNAs, proteins and neurotransmitters, on the basis of the translocation dynamics of each probe as it passes through a nanopore. Our workflow is built around a commercially available MinION sequencing device, offering a one-hour turnaround time from sample preparation to results. We also demonstrate that the strategy can directly detect cardiovascular disease-associated microRNA from human serum without extraction or amplification. Due to the modularity of barcoded probes, the number and type of targets detected can be significantly expanded.

Topics & Concepts

Nanopore sequencingMinionComputational biologyNanoporeMolecular diagnosticsAnalyteTurnaround timeNanotechnologyComputer scienceBiomarkerDNA sequencingDNABiologyBioinformaticsChemistryMaterials scienceChromatographyGeneticsOperating systemAdvanced biosensing and bioanalysis techniquesNanopore and Nanochannel Transport StudiesMicroRNA in disease regulation