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Triaging of DNA-Encoded Library Selection Results by High-Throughput Resynthesis of DNA–Conjugate and Affinity Selection Mass Spectrometry

Wenji Su, Rui Ge, Duanchen Ding, Wen‐Hua Chen, Wenqing Wang, Hao Yan, Weikun Wang, Youlang Yuan, Huan Liu, Meng Zhang, Jiyuan Zhang, Qisheng Shu, Alexander L. Satz, Letian Kuai

2021Bioconjugate Chemistry41 citationsDOIOpen Access PDF

Abstract

DNA encoded library (DEL) technology allows for rapid identification of novel small-molecule ligands and thus enables early-stage drug discovery. DEL technology is well-established, numerous cases of discovered hit molecules have been published, and the technology is widely employed throughout the pharmaceutical industry. Nonetheless, DEL selection results can be difficult to interpret, as library member enrichment may derive from not only desired products, but also DNA-conjugated byproducts and starting materials. Note that DELs are generally produced using split-and-pool combinatorial chemistry, and DNA-conjugated byproducts and starting materials cannot be removed from the library mixture. Herein, we describe a method for high-throughput parallel resynthesis of DNA-conjugated molecules such that byproducts, starting materials, and desired products are produced in a single pot, using the same chemical reactions and reagents as during library production. The low-complexity mixtures of DNA-conjugate are then assessed for protein binding by affinity selection mass spectrometry and the molecular weights of the binding ligands ascertained. This workflow is demonstrated to be a practical tool to triage and validate potential hits from DEL selection data.

Topics & Concepts

ChemistryConjugateCombinatorial chemistrySelection (genetic algorithm)DNAMass spectrometryComputational biologyConjugated systemWorkflowDrug discoveryNanotechnologyChromatographyDatabaseComputer scienceBiochemistryOrganic chemistryPolymerMaterials scienceMathematical analysisArtificial intelligenceMathematicsBiologyChemical Synthesis and AnalysisMonoclonal and Polyclonal Antibodies ResearchClick Chemistry and Applications
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