Chemical and biochemical strategies for the randomization of protein encoding DNA sequences: library construction methods for directed evolution

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Published online 27 February 2004

Nucleic Acids Research, 2004, Vol. 32, No. 4 1448-1459
© 2004 Oxford University Press

Chemical and biochemical strategies for the randomization of protein encoding DNA sequences: library construction methods for directed evolution

Cameron Neylon^*

School of Chemistry, University of Southampton, Highfield SO17 1BJ, UK

*Tel: +44 23 8059 4164; Fax: +44 23 8059 6805; Email: D.C.Neylon{at}soton.ac.uk

Directed molecular evolution and combinatorial methodologiesare playing an increasingly important role in the field of proteinengineering. The general approach of generating a library ofpartially randomized genes, expressing the gene library to generatethe proteins the library encodes and then screening the proteinsfor improved or modified characteristics has successfully beenapplied in the areas of protein–ligand binding, improvingprotein stability and modifying enzyme selectivity. A wide rangeof techniques are now available for generating gene librarieswith different characteristics. This review will discuss thesedifferent methodologies, their accessibility and applicabilityto non-expert laboratories and the characteristics of the librariesthey produce. The aim is to provide an up to date resource toallow groups interested in using directed evolution to identifythe most appropriate methods for their purposes and to guidethose moving on from initial experiments to more ambitious targetsin the selection of library construction techniques. Referencesare provided to original methodology papers and other recentexamples from the primary literature that provide details ofexperimental methods.

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