Programmable CRISPR-responsive smart materials

Programmable CRISPR-responsive smart materials

Stimuli-responsive materials activated by biological signals play an increasingly important role in biotechnology applications. We exploit the programmability of CRISPR-associated nucleases to actuate hydrogels containing DNA as a structural element or as an anchor for pendant groups. After activati...

Full description

Bibliographic Details
Main Authors: English, Max A., Soenksen Martinez, Luis Ruben, Gayet, Raphael V., de Puig Guixe, Helena, Angenent-Mari, Nicolaas M., Mao, Angelo S., Nguyen, Peter Q., Collins, James J.
Other Authors: Massachusetts Institute of Technology. Department of Biological Engineering
Format: Article
Language:English
Published: American Association for the Advancement of Science (AAAS) 2020
Online Access:https://hdl.handle.net/1721.1/125920
Description
Summary:Stimuli-responsive materials activated by biological signals play an increasingly important role in biotechnology applications. We exploit the programmability of CRISPR-associated nucleases to actuate hydrogels containing DNA as a structural element or as an anchor for pendant groups. After activation by guide RNA–defined inputs, Cas12a cleaves DNA in the gels, thereby converting biological information into changes in material properties. We report four applications: (i) branched poly(ethylene glycol) hydrogels releasing DNA-anchored compounds, (ii) degradable polyacrylamide-DNA hydrogels encapsulating nanoparticles and live cells, (iii) conductive carbon-black–DNA hydrogels acting as degradable electrical fuses, and (iv) a polyacrylamide-DNA hydrogel operating as a fluidic valve with an electrical readout for remote signaling. These materials allow for a range of in vitro applications in tissue engineering, bioelectronics, and diagnostics.

Similar Items