Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is necessary for a rigorous understanding of the design principles of biological regula-tory networks. Further, advances in synthetic biology herald the time when we’ll be able to rationally engineer complex chemical systems, and when idealized formal models will be-come blueprints for engineering. Coupled chemical interactions in a well-mixed solution are commonly formalized as chemical reaction networks (CRNs). However, despite the widespread use of CRNs in the natural sciences, the range of computational behaviors exhibited by CRNs is not well understood. Here we study the following problem: what functions f: Rk → R can be computed by a chemica...
Formal methods have enabled breakthroughs in many fields, such as in hardware verification, machine ...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
Discrete chemical reaction networks formalize the interactions of molecular species in a well-mixed ...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
International audienceThe Turing completeness result for continuous chemical reaction networks (CRN)...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
The computational power of stochastic chemical reaction networks (CRNs) varies significantly with th...
International audienceThe Turing completeness of continuous chemical reaction networks (CRNs) states...
International audienceChemical Reaction Networks (CRNs) provide a useful abstraction of molecular in...
Motivated by the intriguing complexity of biochemical circuitry within individual cells we study Sto...
This paper answers an open question of Chen, Doty, and Soloveichik [5], who showed that a function f...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...
Best paper awardInternational audienceWhen seeking to understand how computation is carried out in t...
Formal methods have enabled breakthroughs in many fields, such as in hardware verification, machine ...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
Discrete chemical reaction networks formalize the interactions of molecular species in a well-mixed ...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
International audienceThe Turing completeness result for continuous chemical reaction networks (CRN)...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
The computational power of stochastic chemical reaction networks (CRNs) varies significantly with th...
International audienceThe Turing completeness of continuous chemical reaction networks (CRNs) states...
International audienceChemical Reaction Networks (CRNs) provide a useful abstraction of molecular in...
Motivated by the intriguing complexity of biochemical circuitry within individual cells we study Sto...
This paper answers an open question of Chen, Doty, and Soloveichik [5], who showed that a function f...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...
Best paper awardInternational audienceWhen seeking to understand how computation is carried out in t...
Formal methods have enabled breakthroughs in many fields, such as in hardware verification, machine ...
Recent advances in systems biology have uncovered detailed mechanisms of biological pro-cesses such ...
Discrete chemical reaction networks formalize the interactions of molecular species in a well-mixed ...