Bioluminescent Intercalating Dyes for Ratiometric Nucleic Acid Detection

Yosta de Stigter, Harmen J. van der Veer, Bas J.H.M. Rosier, Maarten Merkx (Corresponding author)

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Abstract

Rapid and sensitive DNA detection methods that can be conducted at the point of need may aid in disease diagnosis and monitoring. However, translation of current assays has proven challenging, as they typically require specialized equipment or probe-specific modifications for every new target DNA. Here, we present Luminescent Multivalent Intercalating Dye (LUMID), off-the-shelf bioluminescent sensors consisting of intercalating dyes conjugated to a NanoLuc luciferase, which allow for nonspecific detection of double-stranded DNA through a blue-to-green color change. Through the incorporation of multiple, tandem-arranged dyes separated by positively charged linkers, DNA-binding affinities were improved by over 2 orders of magnitude, detecting nanomolar DNA concentrations with an 8-fold change in green/blue ratio. We show that LUMID is easily combined with loop-mediated isothermal amplification (LAMP), enabling sequence-specific detection of viral DNA with attomolar sensitivity and a smartphone-based readout. With LUMID, we have thus developed a tool for simple and sensitive DNA detection that is particularly attractive for point-of-need applications.

Original languageEnglish
Pages (from-to)575-583
Number of pages9
JournalACS Chemical Biology
Volume19
Issue number2
DOIs
Publication statusPublished - 16 Feb 2024

Funding

The authors would like to thank A. Lázaro Zaragozá and E. Ceballos Alcantarilla for performing initial, explorative experiments for this work. This work was supported by the Dutch research council | Nationaal Regieorgaan Praktijkgericht Onderzoek SIA (RAAK.PRO04.063), the Eindhoven University Fund (COVID-19 Engineering Fund), and by an ICMS-IBEC collaboration grant.

FundersFunder number
Dutch National Research CouncilRAAK.PRO04.063
Eindhoven University of Technology

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