Abstract
Chemically modified aptamers have recently emerged as important materials for nucleic acid based therapeutics and diagnostic tools. Here, we report in vitro evolution of azobenzene-modified DNA aptamers by capillary electrophoresis (CE)-SELEX method. Azobenzene has been considered to be a fascinating functional group due to its trans–cis photo-isomerization property. We harnessed C5-azobenzene-modified 2′-deoxyuridine (dUAz) as a azobenzene-tethered unit and subjected it to CE-SELEX with human thrombin. The obtained dUAz-modified aptamer showed strong binding affinity toward human thrombin and could be reversibly photo-isomerized by different wavelengths of light. This work demonstrates that CE-SELEX is a powerful method to obtain chemically modified aptamers and dUAz is an excellent photo-responsive nucleoside for nucleic acid photo-switches.
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