Litcius/Paper detail

Highly pure DNA-encoded chemical libraries by dual-linker solid-phase synthesis

Michelle Keller, Dimitar Petrov, Andreas Gloger, Bastien Dietschi, Kilian Jobin, T.B. Gradinger, Adriano Martinelli, Louise Plais, Yuichi Onda, Dario Neri, Jörg Scheuermann

2024Science34 citationsDOI

Abstract

The first drugs discovered using DNA-encoded chemical library (DEL) screens have entered late-stage clinical development. However, DEL technology as a whole still suffers from poor chemical purity resulting in suboptimal performance. In this work, we report a technique to overcome this issue through self-purifying release of the DEL after magnetic bead-based synthesis. Both the first and last building blocks of each assembled library member were linked to the beads by tethers that could be cleaved by mutually orthogonal chemistry. Sequential cleavage of the first and last tether, with washing in between, ensured that the final library comprises only the fully complete compounds. The outstanding purity attained by this approach enables a direct correlation of chemical display and encoding, allows for an increased chemical reaction scope, and facilitates the use of more diversity elements while achieving greatly improved signal-to-noise ratios in selections.

Topics & Concepts

LinkerCombinatorial chemistryDNAChemical libraryChemical synthesisCleavage (geology)Chemical reactionNanotechnologyChemistryDNA synthesisScope (computer science)OligonucleotideDual (grammatical number)Chemical processSolid-phase synthesisComputer scienceMaterials scienceSmall moleculeBiochemistryOrganic chemistryFracture (geology)Programming languagePeptideComposite materialIn vitroLiteratureArtOperating systemChemical Synthesis and AnalysisInnovative Microfluidic and Catalytic Techniques InnovationAdvanced biosensing and bioanalysis techniques