Santiago Schnell
Cited by
Cited by
Reaction kinetics in intracellular environments with macromolecular crowding: simulations and rate laws
S Schnell, TE Turner
Progress in Biophysics and Molecular Biology 85 (2-3), 235-260, 2004
Stochastic approaches for modelling in vivo reactions
TE Turner, S Schnell, K Burrage
Computational Biology and Chemistry 28 (3), 165-178, 2004
Closed form solution for time-dependent enzyme kinetics
S Schnell, C Mendoza
Journal of theoretical Biology 187 (2), 207-212, 1997
A multiscale mathematical model of cancer, and its use in analyzing irradiation therapies
B Ribba, T Colin, S Schnell
Theoretical Biology and Medical Modelling 3, 7, 2006
Mathematical and computational techniques to deduce complex biochemical reaction mechanisms
EJ Crampin, S Schnell, PE McSharry
Progress in Biophysics and Molecular Biology 86 (1), 77-112, 2004
A century of enzyme kinetics: Reliability of the KM and vmax estimates
S Schnell, PK Maini
Comm. Theoret. Biol 8, 169-187, 2003
Enzyme kinetics at high enzyme concentration
S Schnell, PK Maini
Bulletin of Mathematical Biology 62 (3), 483-499, 2000
A systematic investigation of the rate laws valid in intracellular environments
R Grima, S Schnell
Biophysical Chemistry 124 (1), 1-10, 2006
A clock and wavefront mechanism for somite formation
RE Baker, S Schnell, PK Maini
Developmental Biology 293 (1), 116-126, 2006
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
American Scientist 95, 134-42, 2007
Connecting the dots: The effects of macromolecular crowding on cell physiology
MA Mouro, JB Hakim, S Schnell
Biophysical Journal 107 (12), 2761-2766, 2014
Hedgehog-responsive mesenchymal clusters direct patterning and emergence of intestinal villi
KD Walton, Kolterud, MJ Czerwinski, MJ Bell, A Prakash, J Kushwaha, ...
Proceedings of the National Academy of Sciences 109 (39), 15817-15822, 2012
Logic-based models in systems biology: a predictive and parameter-free network analysis method
ML Wynn, N Consul, SD Merajver, S Schnell
Integrative Biology 4 (11), 1323-1337, 2012
Validity of the Michaelis‐Menten equation–steady‐state, or reactant stationary assumption: that is the question
S Schnell
FEBS Journal 281 (2), 464–472, 2014
Modelling reaction kinetics inside cells
R Grima, S Schnell
Essays in Biochemistry 45, 41-56, 2008
Villification in the mouse: Bmp signals control intestinal villus patterning
KD Walton, M Whidden, Kolterud, SK Shoffner, MJ Czerwinski, ...
Development 143 (3), 427-436, 2016
Use and abuse of the quasi-steady-state approximation
EH Flach, S Schnell
IEE Proceedings Systems Biology 153 (4), 187-191, 2006
Enzymological considerations for the theoretical description of the quantitative competitive polymerase chain reaction (QC-PCR)
S Schnell, C Mendoza
Journal of Theoretical Biology 184 (4), 433-440, 1997
Unraveling intestinal stem cell behavior with models of crypt dynamics
AJ Carulli, LC Samuelson, S Schnell
Integrative Biology 6 (3), 243-257, 2014
Theoretical description of the polymerase chain reaction
S Schnell, C Mendoza
Journal of Theoretical Biology 188 (3), 313-318, 1997
The system can't perform the operation now. Try again later.
Articles 1–20