A flexible rapid self-assembly scaffold-net DNA hydrogel exhibiting cell mobility control

Abstract

DNA hydrogels have unique properties, such as specific identifiable molecular structures, programmable self-assembly, and excellent biocompatibility, which have led to increasing researches in the field of nanomaterials and biomedical over the past two decades. However, effective methods to regulate the microstructure of DNA hydrogels still lack, which limits their applications in tissue engineering. By introducing DNA scaffolds into rolling circle amplification (RCA) products and implementing rapid self-assembly strategy, we can produce a regulable new type scaffold-net DNA hydrogel in a short time. Scaffolds concentration and RCA time can regulate the microcharacteristics and physical properties of hydrogels. Scaffold-net DNA hydrogels will be a promising bionic platform for the studies of cancer cell metastatic and microenvironment biophysics.