SLOW AND FAST SUBSYSTEMS FOR COMPLEX UNCOMPETITIVE INHIBITOR MECHANISMS

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Published: Jun 28, 2023
DOI: https://doi.org/10.22452/mjs.vol42no2.4
Keywords:
Mathematical modeling enzymatic reactions slow and fast sub- systems model reductions

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Honar Hamad
Department of Mathematics, Soran University, Soran, Kurdistan Region of IRAQ.
https://orcid.org/0000-0001-6519-1205
Sarbaz Hamza Abdullah Khoshnaw
Department of Mathematics, University of Raparin Ranya, Kurdistan Region of IRAQ.
https://orcid.org/0000-0002-9176-8108
Muhammad Shahzad
Department of Mathematics and Statistics, The University of Haripur, Haripur, PAKISTAN.

Abstract

To fully understand intricate enzyme reaction models, one must explore beyond the confines of chemical and biological tools and look toward mathematical modeling and model reduction techniques. Mathematical modeling and model reduction techniques have the potential to provide a vast array of analysis tools for such models. This piece of work entails a review and discussion of a complex noncompetitive inhibitor model. This model is composed of seven non-linear differential equations with constant rates. We propose two efficient model reduction techniques: quasi- steady-state approximation (QSSA) and quasi-equilibrium approximation (QEA). By utilizing the suggested methods, the model equations are segregated into slow and fast subsystems, leading to the attainment of reduced models and slow manifolds with fewer variables and parameters. The outcomes manifest some analytical approximate solutions for the proposed model and establish a profound agreement between model dynamics for both the original and the reduced models. Observing that the reduced models can accurately identify certain critical model parameters is intriguing.

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How to Cite
Hamad, H. ., Sarbaz Hamza Abdullah Khoshnaw, & Shahzad, M. . (2023). SLOW AND FAST SUBSYSTEMS FOR COMPLEX UNCOMPETITIVE INHIBITOR MECHANISMS. Malaysian Journal of Science, 42(2), 22–32. https://doi.org/10.22452/mjs.vol42no2.4
Issue
Vol 42 No 2 (2023): June
Section
Original Articles

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