ABSTRACT We report here a novel strategy to achieve enzyme‐mediated dissipative control over hybridization chain reaction (HCR). To achieve this, we have rationally re‐engineered a reversible HCR approach so that the assembly and disassembly of DNA polymers can be transiently regulated by RNA/DNA fuel strands in combination with specific enzymatic fuel‐consuming units. This strategy enables regulation over multiple cycles with precisely programmable lifetimes. Finally, we demonstrate two applications: a multi‐input dissipative HCR simultaneously controlled by two different enzymes, and the transient control of a DNA‐based polymeric scaffold functionalized with a light‐up aptamer.
Pedrini et al. (Wed,) studied this question.