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The Henry-Michaelis-Menten (HMM) mechanism of enzymatic reaction is studied by means of perturbation theory in the reaction rate constant k (2) of product formation. We present analytical solutions that provide the concentrations of the enzyme (E), the substrate (S), as well as those of the enzyme-substrate complex (C), and the product (P) as functions of time. For k (2) small compared to k (-1), we properly describe the entire enzymatic activity from the beginning of the reaction up to longer times without imposing extra conditions on the initial concentrations E ( o ) and S ( o ), which can be comparable or much different.
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
April 1955,
Hoppe-Seyler's Zeitschrift fur physiologische Chemie,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
January 2012,
Biochemical and biophysical research communications,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
October 2011,
Biochemistry,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
March 2016,
Analytical biochemistry,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
June 1996,
Biochemistry,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
January 2022,
Science progress,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
March 1970,
Indian journal of biochemistry,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
April 2011,
The Journal of chemical physics,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
May 2008,
Analytical chemistry,
Evangelos Bakalis, and
Marios Kosmas, and
Emmanouel M Papamichael
March 2014,
Proceedings of the National Academy of Sciences of the United States of America,
