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Literature DB >> 31020752

Functionality-Independent DNA Encoding of Complex Natural Products.

Peixiang Ma¹, Hongtao Xu¹, Jie Li^1,2,3,4, Fengping Lu¹, Fei Ma¹, Shuyue Wang^1,2,3,4, Huan Xiong¹, Wei Wang¹, Damiano Buratto¹, Francesco Zonta¹, Nan Wang^1,2,3,4, Kaiwen Liu^2,3,4,5, Tian Hua⁵, Zhi-Jie Liu⁵, Guang Yang¹, Richard A Lerner⁶.

Abstract

DNA encoded chemical libraries (DELs) link the powers of genetics and chemical synthesis via combinatorial optimization. Through combinatorial chemistry, DELs can grow to the unprecedented size of billions to trillions. To take full advantage of the DEL approach, linking the power of genetics directly to chemical structures would offer even greater diversity in a finite chemical world. Natural products have evolved an incredible structural diversity along with their biological evolution. Herein, we used traditional Chinese medicines (TCMs) as examples in a late-stage modification toolbox approach to annotate these complex organic compounds with amplifiable DNA barcodes, which could be easily incorporated into a DEL. The method of end-products labeling also generates a cluster of isomers with a single DNA tag at different sites. These isomers provide an additional spatial diversity for multiple accessible pockets of targeted proteins. Notably, a novel PARP1 inhibitor from TCM has been identified from the natural products enriched DEL (nDEL).

Entities: Chemical Gene

Keywords: DNA-encoded libraries; combinatorial chemistry; drug discovery; natural products

Year: 2019 PMID： 31020752 DOI： 10.1002/anie.201901485

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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