Commemorating the 1913 Michaelis–Menten paper <i>Die Kinetik der Invertinwirkung</i>: three perspectives

Deichmann, Ute; Schuster, Stefan; Mazat, Jean-Pierre; Cornish‐Bowden, Athel

doi:10.1111/febs.12598

Cited by 67 publications

(57 citation statements)

References 77 publications

(134 reference statements)

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“…The following reaction scheme of a simple enzyme-substrate dynamics where two fractions of the enzyme (free and bound) are involved has been proposed by Victor Henri [7,13,14]:…”

Section: Henri's Reaction Schemementioning

confidence: 99%

See 1 more Smart Citation

Metabolic rate constants: Some computational aspects

Dimitrov¹,

Markov

2017

Mathematics and Computers in Simulation

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“…The following reaction scheme of a simple enzyme-substrate dynamics where two fractions of the enzyme (free and bound) are involved has been proposed by Victor Henri [7,13,14]:…”

Section: Henri's Reaction Schemementioning

confidence: 99%

“…In addition Michaelis and Menten proposed a protocol for the practical calculation of the constant V max and K m in (4). The constant K m is known as Michaelis constant [7,30].…”

Section: Michaelis-menten Equationmentioning

confidence: 99%

Metabolic rate constants: Some computational aspects

Dimitrov¹,

Markov

2017

Mathematics and Computers in Simulation

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“…In addition, Michaelis and Menten proposed a protocol for the practical calculation of the constants V max and K m in ODE (4). The constant K m is known as Michaelis constant [8], [27].…”

Section: Michaelis-menten Equationmentioning

confidence: 99%

“…The following reaction scheme of simple enzyme-substrate dynamics, where two fractions of the enzyme (free and bound) are involved, has been proposed by Victor Henri [8], [13]- [14]:…”

Section: Introductionmentioning

confidence: 99%

A modeling approach for cell growth based on enzyme kinetics

Dimitrov¹

2017

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The enzyme kinetics reaction scheme of single enzyme-substrate dynamics, originally proposed by V. Henri, is considered. The system of ODEs induced by the reaction scheme is compared to two approximate models, namely the MichaelisMenten model and the model of exponential decay. Validity conditions for the Michaelis-Menten model are briefly reviewed. A case specific for "superefficient enzymes" is used as a setting for a comparison between the three models via computational experiments. The case study proves the importance of validating the applicability of the approximate model.A novel cell growth model is proposed and analyzed. The approach of model development is to make use of the original Henri enzyme kinetics law in the context of metabolic processes in living cells, namely cell growth. Two approximations corresponding to different cell growth phases are introduced in order to study the model analytically.The presented work is a University of Sofia student Master Thesis.Citation: Stanko Dimitrov, A modeling approach for cell growth based on enzyme kinetics, http://dx

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“…Case study 3: growth models using Henri's reaction scheme Biochemical processes involve functional proteins. The simplest reaction network involving a protein has been first formulated by Victor Henri [9], [14], [15], [16]. The Henri reaction network involves two fractions of the enzyme (free and bound) denoted E and C, resp.…”

Section: Lag Timementioning

confidence: 99%

Building reaction kinetic models for amiloid fibril growth

Markov

2016

BIOMATH

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Abstract-In this work we discuss some methodological aspects of the creation and formulation of mathematical models describing the growth of species from the point of view of reaction kinetics. Our discussion is based on familiar examples of growth models such as logistic growth and enzyme kinetics. We propose several reaction network models for the amiloid fibrillation processes in the citoplasm. The solutions of the models are sigmoidal functions graphically visualized using the computer algebra system Mathematica.

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Commemorating the 1913 Michaelis–Menten paper Die Kinetik der Invertinwirkung: three perspectives

Cited by 67 publications

References 77 publications

Metabolic rate constants: Some computational aspects

Metabolic rate constants: Some computational aspects

A modeling approach for cell growth based on enzyme kinetics

Building reaction kinetic models for amiloid fibril growth

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