The quasi-steady-state approximations revisited: timescales, small parameters, singularities, and normal forms in enzyme kinetics

DOI10.1016/j.mbs.2020.108339zbMath1448.92093arXiv1911.03445OpenAlexW3011658201WikidataQ90405823 ScholiaQ90405823MaRDI QIDQ2197737

Justin S. Eilertsen, Santiago Schnell

Publication date: 1 September 2020

Published in: Mathematical Biosciences (Search for Journal in Brave)

Full work available at URL: https://arxiv.org/abs/1911.03445

zbMATH Keywords

singular perturbation singularity normal hyperbolicity transcritical bifurcation enzyme kinetics quasi-steady-state

Mathematics Subject Classification ID

Kinetics in biochemical problems (pharmacokinetics, enzyme kinetics, etc.) (92C45)

Related Items (12)

On the quasi-steady-state approximation in an open Michaelis-Menten reaction mechanism ⋮ Stochastic enzyme kinetics and the quasi-steady-state reductions: application of the slow scale linear noise approximation à la Fenichel ⋮ Stationary and Time-Dependent Molecular Distributions in Slow-Fast Feedback Circuits ⋮ Natural parameter conditions for singular perturbations of chemical and biochemical reaction networks ⋮ Reduction of Chemical Reaction Networks with Approximate Conservation Laws ⋮ On the reduction of nonlinear electromechanical systems ⋮ Analysis of Dynamics of a Biphasic Isothermal DNA Amplification Reaction ⋮ Unnamed Item ⋮ On the validity of the stochastic quasi-steady-state approximation in open enzyme catalyzed reactions: timescale separation or singular perturbation? ⋮ Least-squares finite element method for ordinary differential equations ⋮ On an optimal setting of constant delays for the D-QSSA model reduction method applied to a class of chemical reaction networks. ⋮ Hunting $\varepsilon$: The Origin and Validity of Quasi-Steady-State Reductions in Enzyme Kinetics

Cites Work

This page was built for publication: The quasi-steady-state approximations revisited: timescales, small parameters, singularities, and normal forms in enzyme kinetics