#### Filter Results:

- Full text PDF available (9)

#### Publication Year

2007

2018

- This year (2)
- Last 5 years (9)
- Last 10 years (11)

#### Publication Type

#### Co-author

#### Journals and Conferences

Learn More

- David F. Anderson, Germán A. Enciso, Matthew D. Johnston
- Journal of the Royal Society, Interface
- 2014

It has recently been shown that structural conditions on the reaction network, rather than a 'fine-tuning' of system parameters, often suffice to impart 'absolute concentration robustness' (ACR) on a… (More)

- Monica-Gabriela Cojocaru, Chris T. Bauch, Matthew D. Johnston
- Bulletin of mathematical biology
- 2007

Previous game theoretical analyses of vaccinating behaviour have underscored the strategic interaction between individuals attempting to maximise their health states, in situations where an… (More)

- Matthew D. Johnston, David Siegel, Gábor Szederkényi
- Mathematical biosciences
- 2013

Mass-action kinetics is frequently used in systems biology to model the behavior of interacting chemical species. Many important dynamical properties are known to hold for such systems if their… (More)

- Matthew D. Johnston, Casian Pantea, Pete Donnell
- Journal of mathematical biology
- 2016

We introduce a mixed-integer linear programming (MILP) framework capable of determining whether a chemical reaction network possesses the property of being endotactic or strongly endotactic. The… (More)

We provide a short supplement to the paper “MAPK networks and their capacity for multistationarity due to toric steady states” by Pérez Millán and Turjanski. We show that the capacity for toric… (More)

- Elisa Tonello, Matthew D. Johnston
- Bulletin of mathematical biology
- 2018

Network translation has recently been used to establish steady-state properties of mass action systems by corresponding the given system to a generalized one which is either dynamically or… (More)

- Matthew D. Johnston
- Bulletin of mathematical biology
- 2014

Many biochemical and industrial applications involve complicated networks of simultaneously occurring chemical reactions. Under the assumption of mass action kinetics, the dynamics of these chemical… (More)

- Matthew D. Johnston
- Bulletin of mathematical biology
- 2015

It has been recently observed that the dynamical properties of mass action systems arising from many models of biochemical reaction networks can be characterized by considering the corresponding… (More)

3 Main Results 8 3.1 Mixed-Integer Linear Programming Framework . . . . . . . . . . . . . . . . . . . . . 9 3.2 Initialization of Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .… (More)