Issue 8, 2004

High-throughput proteincrystallography and drug discovery

Abstract

Single crystal X-ray diffraction is the technique of choice for studying the interactions of small organic molecules with proteins by determining their three-dimensional structures; however the requirement for highly purified protein and lack of process automation have traditionally limited its use in this field. Despite these shortcomings, the use of crystal structures of therapeutically relevant drug targets in pharmaceutical research has increased significantly over the last decade. The application of structure-based drug design has resulted in several marketed drugs and is now an established discipline in most pharmaceutical companies. Furthermore, the recently published full genome sequences of Homo sapiens and a number of micro-organisms have provided a plethora of new potential drug targets that could be utilised in structure-based drug design programs. In order to take maximum advantage of this explosion of information, techniques have been developed to automate and speed up the various procedures required to obtain protein crystals of suitable quality, to collect and process the raw X-ray diffraction data into usable structural information, and to use three-dimensional protein structure as a basis for drug discovery and lead optimisation.

This tutorial review covers the various technologies involved in the process pipeline for high-throughput protein crystallography as it is currently being applied to drug discovery. It is aimed at synthetic and computational chemists, as well as structural biologists, in both academia and industry, who are interested in structure-based drug design.

Graphical abstract: High-throughput protein crystallography and drug discovery

Article information

Article type
Tutorial Review
Submitted
30 Jan 2004
First published
20 Sep 2004

Chem. Soc. Rev., 2004,33, 558-565

High-throughput protein crystallography and drug discovery

I. Tickle, A. Sharff, M. Vinković, J. Yon and H. Jhoti, Chem. Soc. Rev., 2004, 33, 558 DOI: 10.1039/B314510G

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