A signal transmission strategy driven by gap-regulated exonuclease hydrolysis for hierarchical molecular networks

Author:

Liu XinORCID,Zhang XunORCID,Cui ShuangORCID,Xu Shujuan,Liu RongmingORCID,Wang BinORCID,Wei Xiaopeng,Zhang QiangORCID

Abstract

AbstractExonucleases serve as efficient tools for signal processing and play an important role in biochemical reactions. Here, we identify the mechanism of cooperative exonuclease hydrolysis, offering a method to regulate the cooperative hydrolysis driven by exonucleases through the modulation of the number of bases in gap region. A signal transmission strategy capable of producing amplified orthogonal DNA signal is proposed to resolve the polarity of signals and byproducts, which provides a solution to overcome the signal attenuation. The gap-regulated mechanism combined with DNA strand displacement (DSD) reduces the unpredictable secondary structures, allowing for the coexistence of similar structures in hierarchical molecular networks. For the application of the strategy, a molecular computing model is constructed to solve the maximum weight clique problems (MWCP). This work enhances for our knowledge of these important enzymes and promises application prospects in molecular computing, signal detection, and nanomachines.

Publisher

Springer Science and Business Media LLC

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