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Bulletin of Mathematical Biology
|
January 25, 2011
Oscillations in biochemical reaction networks arising from pairs of subnetworks
Maya Mincheva
Journal of the Royal Society, Interface
|
March 21, 2014
Catalytic constants enable the emergence of bistability in dual phosphorylation
Carsten Conradi, Maya Mincheva
Journal of Mathematical Biology
|
June 25, 2024
In distributive phosphorylation catalytic constants enable non-trivial dynamics
Carsten Conradi, Maya Mincheva
Mathematical Biosciences and Engineering : MBE
|
August 3, 2013
Graph-theoretic conditions for zero-eigenvalue Turing instability in general chemical reaction networks
Maya Mincheva, Gheorghe Craciun
Mathematical Biosciences
|
June 16, 2012
Turing-Hopf instability in biochemical reaction networks arising from pairs of subnetworks
Maya Mincheva, Marc R Roussel
Journal of Mathematical Biology
|
June 2, 2007
Graph-theoretic methods for the analysis of chemical and biochemical networks. I. Multistability and oscillations in ordinary differential equation models
Maya Mincheva, Marc R Roussel
The Journal of Chemical Physics
|
December 6, 2006
A graph-theoretic method for detecting potential Turing bifurcations
Maya Mincheva, Marc R Roussel
Journal of Mathematical Biology
|
June 2, 2007
Graph-theoretic methods for the analysis of chemical and biochemical networks. II. Oscillations in networks with delays
Maya Mincheva, Marc R Roussel
Mathematical Biosciences and Engineering : MBE
|
November 17, 2019
On the existence of Hopf bifurcations in the sequential and distributive double phosphorylation cycle
Carsten Conradi, Elisenda Feliu, Maya Mincheva
Bulletin of Mathematical Biology
|
March 6, 2019
Emergence of Oscillations in a Mixed-Mechanism Phosphorylation System
Carsten Conradi, Maya Mincheva, Anne Shiu
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of 2
Search research articles
Search
Showing results (1-10 of 15) with videos related to
Sort By:
Page
of 2
Bulletin of Mathematical Biology
|
January 25, 2011
Oscillations in biochemical reaction networks arising from pairs of subnetworks
Maya Mincheva
Journal of the Royal Society, Interface
|
March 21, 2014
Catalytic constants enable the emergence of bistability in dual phosphorylation
Carsten Conradi, Maya Mincheva
Journal of Mathematical Biology
|
June 25, 2024
In distributive phosphorylation catalytic constants enable non-trivial dynamics
Carsten Conradi, Maya Mincheva
Mathematical Biosciences and Engineering : MBE
|
August 3, 2013
Graph-theoretic conditions for zero-eigenvalue Turing instability in general chemical reaction networks
Maya Mincheva, Gheorghe Craciun
Mathematical Biosciences
|
June 16, 2012
Turing-Hopf instability in biochemical reaction networks arising from pairs of subnetworks
Maya Mincheva, Marc R Roussel
Journal of Mathematical Biology
|
June 2, 2007
Graph-theoretic methods for the analysis of chemical and biochemical networks. I. Multistability and oscillations in ordinary differential equation models
Maya Mincheva, Marc R Roussel
The Journal of Chemical Physics
|
December 6, 2006
A graph-theoretic method for detecting potential Turing bifurcations
Maya Mincheva, Marc R Roussel
Journal of Mathematical Biology
|
June 2, 2007
Graph-theoretic methods for the analysis of chemical and biochemical networks. II. Oscillations in networks with delays
Maya Mincheva, Marc R Roussel
Mathematical Biosciences and Engineering : MBE
|
November 17, 2019
On the existence of Hopf bifurcations in the sequential and distributive double phosphorylation cycle
Carsten Conradi, Elisenda Feliu, Maya Mincheva
Bulletin of Mathematical Biology
|
March 6, 2019
Emergence of Oscillations in a Mixed-Mechanism Phosphorylation System
Carsten Conradi, Maya Mincheva, Anne Shiu
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of 2