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DNA-Encoded Libraries

  • Book
  • © 2022

Overview

Editors:
  1. Andreas Brunschweiger

    1. Faculty of Chemistry and Chemical Biology, TU Dortmund University, Dortmund, Germany

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  2. Damian W. Young

    1. Department of Pharmacology and Chemical Biology, Department of Pathology and Immunology, Center for Drug Discovery, Baylor College of Medicine, Houston, USA

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  • Covers all aspects of DNA-Encoded Library (DEL) technology
  • Explores how DEL technology can contribute to hit validation
  • Discusses perspectives and challenges on DEL development

Part of the book series: Topics in Medicinal Chemistry (TMC, volume 40)

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Table of contents (8 chapters)

  1. Front Matter

    Pages i-ix
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  2. A History of Selection-Based High-Throughput Screening Technologies for Hit Identification

    • Thomas Kodadek, Alexander Satz
    Pages 1-39

  3. Barcoding Strategies for the Synthesis of Genetically Encoded Chemical Libraries

    • Alice Lessing, Elena Detta, Jörg Scheuermann, Andreas Brunschweiger
    Pages 41-64

  4. Advancements in DEL-Compatible Chemical Reactions

    • Matthew J. Anderson, Isaline F. S. F. Castan, Jessica S. Graham, Haitham Hassan, Jake Odger, Catherine L. A. Salvini et al.
    Pages 65-121

  5. Design Considerations in Constructing and Screening DNA-Encoded Libraries

    • Ying Zhang, Raphael M. Franzini
    Pages 123-143

  6. Cheminformatics Approaches Aiding the Design and Selection of DNA-Encoded Libraries

    • Hongyao Zhu, Justin I. Montgomery, Robert V. Stanton
    Pages 145-182

  7. Selection Strategies in DNA-Encoded Libraries

    • Yuhan Gui, Xiaoyu Li
    Pages 183-215

  8. From DEL Selections to Validated Hits to Clinical Leads

    • Lisa Marcaurelle, Westley Tear, Gang Yao
    Pages 217-257

  9. A Perspective on 30 Years of DNA-Encoded Chemistry

    • Barry A. Morgan
    Pages 259-276
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Keywords

About this book

This book deals with the recent advances in DNA-Encoded Library (DEL) technology that has emerged as an alternative to high throughput screening (HTS) over the last decade and has been heralded as a "disruptive" technology for drug discovery. 

The book aims to provide a comprehensive overview of all of the major components of the DEL process from conception to bench execution and clinical investigations. The contributions from experts in the field combine different perspectives from academia and industry. The book will be of interest to researchers in the drug discovery field as well as to graduate students and scholars who are interested in this rapidly improving technology.

Editors and Affiliations

  • Faculty of Chemistry and Chemical Biology, TU Dortmund University, Dortmund, Germany

    Andreas Brunschweiger

  • Department of Pharmacology and Chemical Biology, Department of Pathology and Immunology, Center for Drug Discovery, Baylor College of Medicine, Houston, USA

    Damian W. Young

About the editors

Andreas Brunschweiger studied Pharmacy at the University of Kiel. He obtained his Ph.D. in Medicinal Chemistry at the University of Bonn. Following postdoctoral stays at the University of Bonn, and at ETH Zurich, he is currently heading a group at TU Dortmund University. His research interests include DNA-encoded library technology, library design, screening, methods for data analysis, and medicinal chemistry.

Damian W. Young received a B.S. degree in chemistry (with ACS Certification) from Howard University. He then spent a year working as a process chemist on the anti-HIV drug Fuzeon at Trimeris Inc. before earning a Ph.D. in organic chemistry from North Carolina State University. Following this, he conducted a postdoctoral fellowship at Harvard University and the Broad Institute of MIT and Harvard.  He became a Group Leader within the Chemical Biology Program at the Broad. Dr Young is currently the Associate Director for the Center for Drug Discoveryat Baylor College of Medicine and a faculty member within the Department of Pharmacology and Chemical Biology. His research is focused on the application of diversity-oriented synthesis to DNA encoded chemistry technology and fragment-based drug discovery.


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