Capping Strategies for Covalent Template-Directed Synthesis of Linear Oligomers Using CuAAC.

Covalent templating provides an attractive solution to the controlled synthesis of linear oligomers because a template oligomer can be used to define the precise length and sequence of the product. If the monomer units are attached to the template using kinetically inert covalent bonds it should be possible to operate at high dilution to favor intramolecular over intermolecular reaction. However, for oligomerization reactions using copper-catalyzed azide alkyne cycloaddition (CuAAC) this is not the case. The rate-limiting step is formation of an activated copper complex, so any alkyne that is activated by copper reacts rapidly with the nearest available azide. As a result, every time a chain end alkyne is activated, rapid intermolecular reaction takes place with a different oligomer leading to the formation of higher order products. It proved possible to block these intermolecular reactions by adding an excess of an azide capping agent that intercepts the chain end of the growing oligomer on the template. By adjusting the concentration of the capping agent to compete effectively with the unwanted intermolecular reactions without interfering with the desired intramolecular reactions, it was possible to obtain quantitative yields of copy strands from covalent template-directed oligomerization reactions. Remarkably, the capping agent could also be used to control the stereochemistry of the duplex formed in the templated oligomerization reaction to give exclusively the antiparallel product.