Compartmentalized Self-Tagging for In Vitro-Directed Evolution of XNA Polymerases
- PMID: 24961724
- DOI: 10.1002/0471142700.nc0909s57
Compartmentalized Self-Tagging for In Vitro-Directed Evolution of XNA Polymerases
Abstract
Template-dependent synthesis of xenobiotic nucleic acids (XNAs) is an essential step for the development of functional XNA molecules, as it enables Darwinian evolution to be carried out with novel genetic polymers. The extraordinary substrate specificity of natural DNA polymerases greatly restricts the spectrum of XNAs available, thus making it necessary to identify DNA polymerase variants capable of incorporating a wider range of substrates. This unit summarizes compartmentalized self-tagging (CST), a directed evolution strategy developed for the selection of DNA polymerase variants capable of XNA synthesis.
Keywords: CST; DNA polymerases; XNA; compartmentalized self-tagging; in vitro-directed evolution; synthetic nucleic acids.
Copyright © 2014 John Wiley & Sons, Inc.
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