Programming the self-assembly of amphiphilic DNA frameworks for sequential boolean logic functions†
Abstract
Herein we examined the utilization of the orthogonal noncovalent interaction to program the self-assembly of amphiphilic DNA frameworks (am-FNAs). By finely controlling reaction parameters such as ionic strength, the length of amphiphilic DNA, and mechanical agitation, we constructed a series of amphiphilic DNA-based primary logic gates (NOT, AND, OR and INH) and a secondary logic gate (NOT-OR).