alexa Adapting DNA-encoded Library Technology For Fragment-based Drug Discovery | 66647
ISSN: 2161-0444

Medicinal Chemistry
Open Access

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6th World Congress on Medicinal Chemistry and Drug Design
June 07-08, 2017 Milan, Italy

Mike Thompson
DyNAbind GmbH, Germany
TU Dresden, Germany
Posters & Accepted Abstracts: Med Chem (Los Angeles)
DOI: 10.4172/2161-0444-C1-031
Abstract
DNA-encoded library (DEL) technology is a powerful method for rapid drug discovery. Combinatorial synthesis is used to generate large (up to billions of members) libraries of compounds, with each one tagged by a unique barcode made from DNA. A target protein is then screened with a small amount of the library. After non-binding members are washed off, hit compounds are identified by amplifying and sequencing their DNA tags. This method is becoming increasingly popular, but the core workflow has remained largely unchanged in many years. DyNAbind has developed key technologies to overhaul and modernize the DEL discovery process, while also adapting it for a fragment-based discovery approach. Our dynamic fragment libraries allow random pairing and reshuffling of library members in solution, until stabilized by protein binding, resulting in fewer but more reliable hits. Furthermore, our binding profiler technology allows validation and quantification of binding kinetics from fragment-based hits without the need for linker optimization. As a case study, these technologies were deployed to find and characterize new synergistic binders for human carbonic anhydrase 2.
Biography

Email: [email protected]

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