Pages that link to "Item:Q714677"

The following pages link to A perturbation solution of Michaelis-Menten kinetics in a ``total'' framework (Q714677):

Displaying 32 items.

• Solving linear unbranched pathways with Michaelis-Menten kinetics using the Lambert \(W\)-function (Q335908) (← links)
• Is there anything left to say on enzyme kinetic constants and quasi-steady state approximation? (Q431971) (← links)
• On the appropriate use of asymptotic expansions in enzyme kinetics (Q500685) (← links)
• Extending the kinetic solution of the classic Michaelis--Menten model of enzyme action (Q652730) (← links)
• Analytical bounding functions for diffusion problems with Michaelis- Menten kinetics (Q760352) (← links)
• Upper and lower bounds from the maximum principle. Intercellular diffusion with Michaelis-Menten kinetics (Q1119508) (← links)
• Computation of solutions to the generalized Michaelis-Menton equation (Q1334822) (← links)
• On the simple Michaelis-Menten mechanism for chemical reactions (Q1360646) (← links)
• An alternative approach to Michaelis-Menten kinetics that is based on the renormalization group (Q1642113) (← links)
• Stability analysis of the Michaelis-Menten approximation of a mixed mechanism of a phosphorylation system (Q1644718) (← links)
• Michaelis-Menten equation for degradation of insoluble substrate (Q1698530) (← links)
• Theory on the rate equation of Michaelis-Menten type single-substrate enzyme catalyzed reactions (Q1708501) (← links)
• Ramp approximations of Michaelis-Menten functions in a model of plant metabolism (Q2104205) (← links)
• The total quasi-steady-state for multiple alternative substrate reactions (Q2143462) (← links)
• Heineken, Tsuchiya and Aris: ``On the mathematical status of the pseudo-steady state hypothesis''. A classic from Volume 1 of \textit{Mathematical Biosciences} (Q2173880) (← links)
• The quasi-steady-state approximations revisited: timescales, small parameters, singularities, and normal forms in enzyme kinetics (Q2197737) (← links)
• On a stochastic approach to model the double phosphorylation/dephosphorylation cycle (Q2245650) (← links)
• A study case for the analysis of asymptotic expansions beyond the tQSSA for inhibitory mechanisms in enzyme kinetics. (Q2274586) (← links)
• Tihonov theory and center manifolds for inhibitory mechanisms in enzyme kinetics (Q2364830) (← links)
• Quasi-steady-state approximations derived from the stochastic model of enzyme kinetics (Q2417511) (← links)
• Partial equilibrium approximations in apoptosis. I: The intracellular-signaling subsystem (Q2439162) (← links)
• A simplified perturbation solution of Michaelis-Menten kinetics equations in a ``total'' framework (Q2443858) (← links)
• Leading order asymptotics in the Goldbeter-Koshland switch (Q2517598) (← links)
• New trends and perspectives in nonlinear intracellular dynamics: one century from Michaelis-Menten paper (Q2629039) (← links)
• Approximation of enzyme kinetics for high enzyme concentration by a first order perturbation approach (Q2636422) (← links)
• Asymptotic expansions in enzyme reactions with high enzyme concentrations (Q3095571) (← links)
• A much better replacement of the Michaelis–Menten equation and its application (Q4616895) (← links)
• Singular Perturbation Techniques and Asymptotic Expansions for Some Complex Enzyme Reactions (Q5013644) (← links)
• Uniform Asymptotic Expansions beyond the tQSSA for the Goldbeter--Koshland Switch (Q5110574) (← links)
• (Q5408332) (← links)
• Algorithmic criteria for the validity of quasi-steady state and partial equilibrium models: the Michaelis-Menten reaction mechanism (Q6116338) (← links)
• On the qualitative behaviour of oscillating biochemical systems: the stochastic approach (Q6644446) (← links)