Add to ORKGThe principle of microscopic reversibility was formulated for elementary reactions at equilibrium. It follows from the principle that for any elementary reaction the favored reaction path in one direction must be the reverse of that in the opposite reaction, and that the ratio of rate constants is the equilibrium constant. The same is true for non-chain reactions occuring under steady-state conditions provided that the alternative paths are equivalent as far as kinetic order is concerned. For reactions occurring under non-steady-state conditions, for chain reactions even in the steady state, and for non-chain reactions in which the alternative paths are not kinetically equivalen, the preferred reaction path in one direction may be different...
A composite reaction is represented by a number of elementary reactions describing its mechanisms. B...
Abstract-The mass action kinetic model of the irreversible Michael&Menten reaction mechanism is ...
A composite reaction is represented by a number of elementary reactions describing its mechanisms. B...
AbstractIn a Michaelis-Menten type reversible enzyme reaction (one substrate, one product) the rapid...
AbstractIn a Michaelis-Menten type reversible enzyme reaction (one substrate, one product) the rapid...
The word ``reversible'' has two (apparently) distinct applications in statistical thermodynamics. A ...
The word ``reversible'' has two (apparently) distinct applications in statistical thermodynamics. A ...
The principle of microscopic reversibility is one of the few generalising principles used in organic...
The principle of microscopic reversibility is one of the few generalising principles used in organic...
The Principle of Microscopic Reversibility was formulated by Richard C. Tolman, who stated that, at ...
AbstractMost, but not all, ion channels appear to obey the law of microscopic reversibility (or deta...
The problem of enzyme catalysis is considered in terms of the behavior of a single hydrolytic enzyme
In recent years increasing use has been made of a new postulate which perhaps cannot yet be stated i...
The problem of enzyme catalysis is considered in terms of the behavior of a single hydrolytic enzyme
The elementary reaction sequence A ↔ I → P is the simplest mechanism for which the steady-state and ...
A composite reaction is represented by a number of elementary reactions describing its mechanisms. B...
Abstract-The mass action kinetic model of the irreversible Michael&Menten reaction mechanism is ...
A composite reaction is represented by a number of elementary reactions describing its mechanisms. B...
AbstractIn a Michaelis-Menten type reversible enzyme reaction (one substrate, one product) the rapid...
AbstractIn a Michaelis-Menten type reversible enzyme reaction (one substrate, one product) the rapid...
The word ``reversible'' has two (apparently) distinct applications in statistical thermodynamics. A ...
The word ``reversible'' has two (apparently) distinct applications in statistical thermodynamics. A ...
The principle of microscopic reversibility is one of the few generalising principles used in organic...
The principle of microscopic reversibility is one of the few generalising principles used in organic...
The Principle of Microscopic Reversibility was formulated by Richard C. Tolman, who stated that, at ...
AbstractMost, but not all, ion channels appear to obey the law of microscopic reversibility (or deta...
The problem of enzyme catalysis is considered in terms of the behavior of a single hydrolytic enzyme
In recent years increasing use has been made of a new postulate which perhaps cannot yet be stated i...
The problem of enzyme catalysis is considered in terms of the behavior of a single hydrolytic enzyme
The elementary reaction sequence A ↔ I → P is the simplest mechanism for which the steady-state and ...
A composite reaction is represented by a number of elementary reactions describing its mechanisms. B...
Abstract-The mass action kinetic model of the irreversible Michael&Menten reaction mechanism is ...
A composite reaction is represented by a number of elementary reactions describing its mechanisms. B...