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Ramon Grima
Ramon Grima
Professor of Computational Biology, University of Edinburgh, UK
Verified email at ed.ac.uk - Homepage
Title
Cited by
Cited by
Year
Approximation and inference methods for stochastic biochemical kinetics—a tutorial review
D Schnoerr, G Sanguinetti, R Grima
Journal of Physics A: Mathematical and Theoretical 50 (9), 093001, 2017
3652017
Phenotypic switching in gene regulatory networks
P Thomas, N Popović, R Grima
Proceedings of the National Academy of Sciences 111 (19), 6994-6999, 2014
1842014
A systematic investigation of the rate laws valid in intracellular environments
R Grima, S Schnell
Biophysical chemistry 124 (1), 1-10, 2006
1542006
Linear mapping approximation of gene regulatory networks with stochastic dynamics
Z Cao, R Grima
Nature Communications 9 (1), 3305, 2018
1502018
An effective rate equation approach to reaction kinetics in small volumes: Theory and application to biochemical reactions in nonequilibrium steady-state conditions
R Grima
The Journal of chemical physics 133, 035101, 2010
1482010
Multiscale Modeling in Biology New insights into cancer illustrate how mathematical tools are enhancing the understanding of life from the smallest scale to the grandest
S Schnell, R Grima, P Maini
Am Sci 95 (2), 134-142, 2007
1472007
Analytical distributions for detailed models of stochastic gene expression in eukaryotic cells
Z Cao, R Grima
Proceedings of the National Academy of Sciences 117 (9), 4682-4692, 2020
1462020
How accurate are the nonlinear chemical Fokker-Planck and chemical Langevin equations?
R Grima, P Thomas, AV Straube
The Journal of chemical physics 135 (8), 084103, 2011
1462011
Steady-state fluctuations of a genetic feedback loop: An exact solution
R Grima, DR Schmidt, TJ Newman
Journal of Chemical Physics 137, 035104, 2012
1412012
A study of the accuracy of moment-closure approximations for stochastic chemical kinetics
R Grima
Journal of Chemical Physics 136, 154105, 2012
1362012
Many-body theory of chemotactic cell-cell interactions
TJ Newman, R Grima
Physical Review E 70 (5), 051916, 2004
1302004
The slow-scale linear noise approximation: an accurate, reduced stochastic description of biochemical networks under timescale separation conditions
P Thomas, AV Straube, R Grima
BMC systems biology 6 (1), 39, 2012
1292012
Comparison of different moment-closure approximations for stochastic chemical kinetics
D Schnoerr, G Sanguinetti, R Grima
The Journal of chemical physics 143, 185101, 2015
1232015
Spontaneous spatiotemporal waves of gene expression from biological clocks in the leaf
B Wenden, DLK Toner, SK Hodge, R Grima, AJ Millar
Proceedings of the National Academy of Sciences 109 (17), 6757-6762, 2012
1222012
Modelling reaction kinetics inside cells
R Grima, S Schnell
Essays in biochemistry 45, 41-56, 2008
1142008
Neural network aided approximation and parameter inference of non-Markovian models of gene expression
Q Jiang, X Fu, S Yan, R Li, W Du, Z Cao, F Qian, R Grima
Nature communications 12 (1), 1-12, 2021
1042021
Stochastic simulation of biomolecular networks in dynamic environments
M Voliotis, P Thomas, R Grima, CG Bowsher
PLoS computational biology 12 (6), e1004923, 2016
922016
Rigorous elimination of fast stochastic variables from the linear noise approximation using projection operators
P Thomas, R Grima, AV Straube
Physical Review E 86, 041110, 2012
892012
The complex chemical Langevin equation
D Schnoerr, G Sanguinetti, R Grima
The Journal of chemical physics 141, 024103, 2014
862014
Arabidopsis cell expansion is controlled by a photothermal switch
H Johansson, HJ Jones, J Foreman, JR Hemsted, K Stewart, R Grima, ...
Nature communications 5, 4848, 2014
852014
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