Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely used to describe information processing occurring in natural cellular regulatory networks, and with upcoming advances in synthetic biology, CRNs are a promising programming language for the design of artificial molecular control circuitry. Due to a formal equivalence between CRNs and a model of distributed computing known as population protocols, results transfer readily between the two models. We show that if a CRN respects finite density (at most O(n) additional molecules can be produced from n initial molecules), then starting from any dense initial configuration (all molecular species initially present have initial count Ω(n), where n...
The contributions of this thesis are motivated by an exciting challenge at the intersection of comp...
The population protocols model describes a population of n finite-state computational agents, whose ...
AbstractStochastic evolution of Chemical Reactions Networks (CRNs) over time is usually analyzed thr...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. Assuming a fixe...
The computational power of stochastic chemical reaction networks (CRNs) varies significantly with th...
This paper studies the (discrete) chemical reaction network (CRN) computational model that emerged i...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
This paper answers an open question of Chen, Doty, and Soloveichik [5], who showed that a function f...
Coupled chemical interactions in a well-mixed solution are commonly formalized as chemical reaction ...
Stochastic Chemical Reaction Networks (CRNs) can be viewed as programs whose instructions are reacti...
Discrete chemical reaction networks formalize the interactions of molecular species in a well-mixed ...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
The contributions of this thesis are motivated by an exciting challenge at the intersection of comp...
The population protocols model describes a population of n finite-state computational agents, whose ...
AbstractStochastic evolution of Chemical Reactions Networks (CRNs) over time is usually analyzed thr...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. Assuming a fixe...
The computational power of stochastic chemical reaction networks (CRNs) varies significantly with th...
This paper studies the (discrete) chemical reaction network (CRN) computational model that emerged i...
Chemical reaction networks (CRNs) formally model chemistry in a well-mixed solution. CRNs are widely...
This paper answers an open question of Chen, Doty, and Soloveichik [5], who showed that a function f...
Coupled chemical interactions in a well-mixed solution are commonly formalized as chemical reaction ...
Stochastic Chemical Reaction Networks (CRNs) can be viewed as programs whose instructions are reacti...
Discrete chemical reaction networks formalize the interactions of molecular species in a well-mixed ...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
Understanding the algorithmic behaviors that are in princi-ple realizable in a chemical system is ne...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
The contributions of this thesis are motivated by an exciting challenge at the intersection of comp...
The population protocols model describes a population of n finite-state computational agents, whose ...
AbstractStochastic evolution of Chemical Reactions Networks (CRNs) over time is usually analyzed thr...