Analytical Reduction of Nonlinear Metabolic Networks Accounting for Dynamics in Enzymatic Reactions

Zazueta, Claudia López; Bernard, Olivier; Gouzé, Jean‐Luc

doi:10.1155/2018/2342650

Cited by 4 publications

(7 citation statements)

References 19 publications

(32 reference statements)

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“…In this section, Kolmogorov conditions are applied to ensure that there is a unique nontrivial equilibrium point for model (1). In addition, Kolmogorov conditions are used to obtain the persistence and extinction conditions and validate the model.…”

Section: Kolmogorov Conditionsmentioning

confidence: 99%

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Predator Interference in a Predator–Prey Model with Mixed Functional and Numerical Responses

Alebraheem

2023

Journal of Mathematics

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Predator interference refers to the competition effect on individuals of the same species through preventing or limiting access to a resource. In this paper, a novel predator–prey model that includes predator interference is considered. In the novel model, a high prey density is taken into consideration by investigating Crowley–Martin as a numerical response, while the growth rate of prey is logistically described and Holling type II is used as a functional response. In contrast to literature, this model has distinct and notable features: predator and prey species have an intraspecific competition, and this model has a numerical response that generalizes several of the commonly utilized depictions of predator interference. The boundedness of the model is proved. Predator interference effects are theoretically and numerically studied in terms of stability, coexistence, and extinction. Theoretical results show that the system has no effect on coexistence or extinction in these types of models. Numerical simulations present two different dynamics with identical results on the theoretical side of model stabilization for both dynamics. Moreover, the numerical simulations show that there is a change from periodic to steady state dynamics as the value of predator interference increases. This means that the coexistence probability of the model increases. The attained results are explained from both a mathematical and an ecological points of view.

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Section: Kolmogorov Conditionsmentioning

confidence: 99%

“…Recent studies have used diferential equations to describe a variety of applications, such as [1][2][3][4][5][6][7][8]. Population models, a central topic in many sciences due to their signifcance, study population change over time.…”

Section: Introductionmentioning

confidence: 99%

Predator Interference in a Predator–Prey Model with Mixed Functional and Numerical Responses

Alebraheem

2023

Journal of Mathematics

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“…D.4). In addition, following the method proposed in [33,17], we analyzed the predicted concentration of sugars in both intracellular compartments, for all genotypes. The concentration of the hexose phosphate (x 5 ) was systematically lower than the concentrations of the other variables in the system, as expected for the fast components of the system (Fig.…”

Section: Strategy 3: Time-scale Analysis and Qssamentioning

confidence: 99%

Reducing a model of sugar metabolism in peach to catch different patterns among genotypes

Kanso¹,

Quilot-Turion²,

Memah³

et al. 2020

Mathematical Biosciences

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Several studies have been conducted to understand the dynamic of primary metabolisms in fruit by translating them into mathematics models. An ODE kinetic model of sugar metabolism has been developed by Desnoues et al. [1] to simulate the accumulation of dierent sugars during peach fruit development. Two major drawbacks of this model are (a) the number of parameters to calibrate and (b) its integration time that can be long due to non-linearity and time-dependent input functions. Together, these issues hamper the use

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“…Modeling metabolic networks coupled with gene expression has been a subject of active research during the last decade [4,14,23,24,25,45]. Yet faced problems in metabolic modeling are large scale of models [2,10,26,27,35], nonlinear kinetics [16,39,44] and stochasticity [21,36].…”

mentioning

confidence: 99%

“…Time-scale separation and the Quasi Steady State Assumption (QSSA) have been proposed as useful approaches to reduce deterministic models of metabolic networks [11,26,27], as well as for stochastic models of biochemical reactions and genetic networks [6,21,36]. Also, the reduction through time-scale separation and QSSA has been applied to deterministic models of metabolic-genetic networks [4,23,45].…”

mentioning

confidence: 99%

Qualitative Behavior of a Metabolic Pathway with Hybrid Feedback

Lopez-Zazueta¹,

Fromion²

2022

Preprint

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Analytical Reduction of Nonlinear Metabolic Networks Accounting for Dynamics in Enzymatic Reactions

Cited by 4 publications

References 19 publications

Predator Interference in a Predator–Prey Model with Mixed Functional and Numerical Responses

Predator Interference in a Predator–Prey Model with Mixed Functional and Numerical Responses

Reducing a model of sugar metabolism in peach to catch different patterns among genotypes

Qualitative Behavior of a Metabolic Pathway with Hybrid Feedback

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