Litcius/Paper detail

Isothermal digital detection of microRNAs using background-free molecular circuit

Guillaume Gines, Roberta Menezes, Kaori Nara, Anne-Sophie Kirstetter, Valérie Taly, Yannick Rondelez

2020Science Advances114 citationsDOIOpen Access PDF

Abstract

MicroRNAs, a class of transcripts involved in the regulation of gene expression, are emerging as promising disease-specific biomarkers accessible from tissues or bodily fluids. However, their accurate quantification from biological samples remains challenging. We report a sensitive and quantitative microRNA detection method using an isothermal amplification chemistry adapted to a droplet digital readout. Building on molecular programming concepts, we design a DNA circuit that converts, thresholds, amplifies, and reports the presence of a specific microRNA, down to the femtomolar concentration. Using a leak absorption mechanism, we were able to suppress nonspecific amplification, classically encountered in other exponential amplification reactions. As a result, we demonstrate that this isothermal amplification scheme is adapted to digital counting of microRNAs: By partitioning the reaction mixture into water-in-oil droplets, resulting in single microRNA encapsulation and amplification, the method provides absolute target quantification. The modularity of our approach enables to repurpose the assay for various microRNA sequences.

Topics & Concepts

Loop-mediated isothermal amplificationmicroRNAComputational biologyDigital polymerase chain reactionChemistryIsothermal processDNANanotechnologyPolymerase chain reactionBiophysicsBiological systemComputer scienceGeneBiologyMaterials scienceBiochemistryPhysicsThermodynamicsAdvanced biosensing and bioanalysis techniquesBiosensors and Analytical DetectionRNA Interference and Gene Delivery