Add to ORKGAccurate measurement of the quantitative aspects of enzyme-catalysed reactions is critical for a deeper understanding of their mechanisms, for their exploitation in biotechnology and for targeting enzymes by drug-like molecules. It is important to move beyond basic enzyme kinetics as encapsulated in the Michaelis-Menten equation. The type and magnitude of inhibition should be determined. Since the majority of enzyme-catalysed reactions involve more than one substrate, it is critical to understand how to treat these reactions quantitatively and how their kinetic behaviour depends on the type of mechanism occurring. Some reactions do not conform to “standard” Michaelis-Menten treatment and exhibit phenomena such as cooperativity. Again it is ...
Enzymes, like all positive catalysts, dramatically increase the rate of a given reaction. Enzyme kin...
The rate of product formation is an important measure of the speed of enzyme reactions. Classical st...
<p><i>S</i>, <i>E</i>, <i>C</i> and <i>P</i> denote the concentrations of the Substrate, Enzyme, sub...
Most general biochemistry textbooks present enzyme inhibition by showing how the basic Michaelis-Men...
The principal aim of studies of enzyme-mediated reactions has been to provide comparative and quanti...
The principal aim of studies of enzyme-mediated reactions has been to provide comparative and quanti...
The mechanism of the enzyme reactions is expressed usually as follows. (ER : Michaelis complex) Mich...
Enzyme action is the result of a large number of discrete steps involving a great variety of process...
Enzyme action is the result of a large number of discrete steps involving a great variety of process...
Enzyme action is the result of a large number of discrete steps involving a great variety of process...
The rate of enzyme-catalyzed reactions is a proportional function of the reaction affinity over a ra...
The Henry-Michaelis-Menten (HMM) mechanism of enzymatic reaction is studied by means of perturbation...
Assuming the in vitro conditions for the enzyme-catalyzed reactions, the basic Michaelis-Menten desc...
Assuming the in vitro conditions for the enzyme-catalyzed reactions, the basic Michaelis-Menten desc...
To achieve transition from lab scale enzyme studies to industrial applications, understanding of enz...
Enzymes, like all positive catalysts, dramatically increase the rate of a given reaction. Enzyme kin...
The rate of product formation is an important measure of the speed of enzyme reactions. Classical st...
<p><i>S</i>, <i>E</i>, <i>C</i> and <i>P</i> denote the concentrations of the Substrate, Enzyme, sub...
Most general biochemistry textbooks present enzyme inhibition by showing how the basic Michaelis-Men...
The principal aim of studies of enzyme-mediated reactions has been to provide comparative and quanti...
The principal aim of studies of enzyme-mediated reactions has been to provide comparative and quanti...
The mechanism of the enzyme reactions is expressed usually as follows. (ER : Michaelis complex) Mich...
Enzyme action is the result of a large number of discrete steps involving a great variety of process...
Enzyme action is the result of a large number of discrete steps involving a great variety of process...
Enzyme action is the result of a large number of discrete steps involving a great variety of process...
The rate of enzyme-catalyzed reactions is a proportional function of the reaction affinity over a ra...
The Henry-Michaelis-Menten (HMM) mechanism of enzymatic reaction is studied by means of perturbation...
Assuming the in vitro conditions for the enzyme-catalyzed reactions, the basic Michaelis-Menten desc...
Assuming the in vitro conditions for the enzyme-catalyzed reactions, the basic Michaelis-Menten desc...
To achieve transition from lab scale enzyme studies to industrial applications, understanding of enz...
Enzymes, like all positive catalysts, dramatically increase the rate of a given reaction. Enzyme kin...
The rate of product formation is an important measure of the speed of enzyme reactions. Classical st...
<p><i>S</i>, <i>E</i>, <i>C</i> and <i>P</i> denote the concentrations of the Substrate, Enzyme, sub...