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Merck

Complex Nucleic Acid Hybridization Reactions inside Capillary-Driven Microfluidic Chips.

Small (Weinheim an der Bergstrasse, Germany) (2020-11-18)
Marie L Salva, Marco Rocca, Yong Hu, Emmanuel Delamarche, Christof M Niemeyer
RESUMEN

Nucleic acid hybridization reactions play an important role in many (bio)chemical fields, for example, for the development of portable point-of-care diagnostics, and often such applications require nucleic acid-based reaction systems that ideally run without enzymes under isothermal conditions. The use of novel capillary-driven microfluidic chips to perform two isothermal nucleic acid hybridization reactions, the simple opening of molecular beacon structures and the complex reaction cascade of a clamped-hybridization chain reaction (C-HCR), is reported here. For this purpose, reagents are arranged in a self-coalescence module (SCM) of a passive silicon microfluidic chip using inkjet spotting. The SCM occupies a footprint of ≈7 mm2 of a ≈0.4 × 2 cm2 microfluidic chip. By means of fluorophore-labeled DNA probes, the hybridization reactions can be analyzed in just ≈2 min and using only ≈3 µL of the sample. Furthermore, the SCM chip offers a variety of reagent delivery options, allowing, for example, the influence of the initiator concentration on the kinetics of C-HCR to be investigated systematically with minimal sample and time requirements. These results suggest that self-powered microfluidic chips equipped with a SCM provide a powerful platform for performing and investigating complex reaction systems.

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Magnesium acetate tetrahydrate, ACS reagent, ≥98%