Programmable molecular signal transmission architecture and reactant regeneration strategy driven by EXO λ for DNA circuits
The characteristics of DNA hybridization enable molecular computing through strand
displacement reactions, facilitating the construction of complex DNA circuits, which is an …
displacement reactions, facilitating the construction of complex DNA circuits, which is an …
NeuralCRNs: A Natural Implementation of Learning in Chemical Reaction Networks
RT Nagipogu, JH Reif - arXiv preprint arXiv:2409.00034, 2024 - arxiv.org
The remarkable ability of single-celled organisms to sense and react to the dynamic
changes in their environment is a testament to the adaptive capabilities of their internal …
changes in their environment is a testament to the adaptive capabilities of their internal …
A signal transmission strategy driven by gap-regulated exonuclease hydrolysis for hierarchical molecular networks
Exonucleases serve as efficient tools for signal processing and play an important role in
biochemical reactions. Here, we identify the mechanism of cooperative exonuclease …
biochemical reactions. Here, we identify the mechanism of cooperative exonuclease …
Arbitrary Digital DNA Computing: A Programmable Molecular Perceptron Driven by Lambda Exonuclease for Lighting up Concatenated Circuits
DNA circuits, as a type of biochemical system, have the capability to synchronize the
perception of molecular information with a chemical reaction response and directly process …
perception of molecular information with a chemical reaction response and directly process …
Engineering a dual-loop molecular circuit with buffering capability to solve molecular information tasks
Molecular circuits, as an effective strategy for implementing artificial biochemical networks,
have been widely constructed to process molecular-level information tasks both in vivo and …
have been widely constructed to process molecular-level information tasks both in vivo and …
A nicking enzyme-assisted allosteric strategy for self-resetting DNA switching circuits
The self-regulation of biochemical reaction networks is crucial for maintaining balance,
stability, and adaptability within biological systems. DNA switching circuits, serving as basic …
stability, and adaptability within biological systems. DNA switching circuits, serving as basic …
G-quadruplex-regulated exonuclease cooperative hydrolysis signal transduction strategy for processing molecular temporal information
DNA circuits, as a crucial tool for processing molecular information, achieve precise control
of complex molecular reactions within biological systems, demonstrating significant potential …
of complex molecular reactions within biological systems, demonstrating significant potential …
Engineering Modular DNA Reaction Networks for Signal Processing
Diversified molecular information‐processing methods have significant implications for
nanoscale manipulation and control, monitoring and disease diagnosis of organisms, and …
nanoscale manipulation and control, monitoring and disease diagnosis of organisms, and …
DNA cascading circuits based on combinatorial strand displacement
Y Zhu, S Tan, X Zheng - Fourth International Conference on …, 2024 - spiedigitallibrary.org
Due to their high programmability and versatility, DNA circuits have been widely used for
molecular information processing at the nanoscale. The biocompatibility of DNA circuits …
molecular information processing at the nanoscale. The biocompatibility of DNA circuits …