Approximate analytic solution of a simple system of kinetic equations describing the enzymatic synthesis of nucleic acids


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Abstract

Macroscopic kinetic models describing the process of polymerase chain reaction (PCR) are currently solved only by numerical methods, which hampers the development of effective software algorithms for processing the results of the reaction. This paper considers the application of the homotopy perturbation method for obtaining approximate analytical solution of the simplest system of enzymatic kinetic equations describing the synthesis of nucleic acid molecules during PCR. The resulting approximate analytic solution with high accuracy reproduces the results of a numerical solution of the system in a wide range of ratios of enzyme and substrate concentrations both for the case of a large excess of the substrate over the enzyme and vice versa.

About the authors

D. A. Varlamov

All-Russia Research Institute of Agricultural Biotechnology

Email: faa@bk.ru
Russian Federation, ul. Timiryazevskaya 42, Moscow, 127550

V. E. Kurochkin

Institute for Analytical Instrumentation

Email: faa@bk.ru
Russian Federation, ul. Ivana Chernykh 31–33A, St. Petersburg, 198095

R. V. Petrov

National Research Center, Institute of Immunology

Email: faa@bk.ru
Russian Federation, Kashirskoe sh. 24, Moscow, 115478

A. A. Fedorov

Institute for Analytical Instrumentation

Author for correspondence.
Email: faa@bk.ru
Russian Federation, ul. Ivana Chernykh 31–33A, St. Petersburg, 198095

A. S. Berdnikov

Institute for Analytical Instrumentation

Email: faa@bk.ru
Russian Federation, ul. Ivana Chernykh 31–33A, St. Petersburg, 198095

D. G. Sochivko

JSC Syntol

Email: faa@bk.ru
Russian Federation, Timiryazevskaya 42, Moscow, 127550

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