kinetics$42470$ - meaning and definition. What is kinetics$42470$
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What (who) is kinetics$42470$ - definition

BRANCH OF CHEMICAL KINETICS IN WHICH THE KINETIC SPECIES ARE DEFINED BY DIFFERENT NON-COVALENT BINDINGS AND/OR CONFORMATIONS OF THE MOLECULES INVOLVED, WHICH ARE DENOTED AS RECEPTOR(S) AND LIGAND
Receptor kinetics; Receptor-ligand kinetics

Chemical kinetics         
STUDY OF THE RATES OF CHEMICAL REACTIONS
Reaction kinetics; Chemical Kinetics; Reaction Kinetics; Kinetics (chemistry); Mass-averaged velocity; Chemical reaction kinetics; Chemical dynamics; Mass averaged velocity
Chemical kinetics, also known as reaction kinetics, is the branch of physical chemistry that is concerned with understanding the rates of chemical reactions. It is to be contrasted with chemical thermodynamics, which deals with the direction in which a reaction occurs but in itself tells nothing about its rate.
Kinetics         
WIKIMEDIA DISAMBIGUATION PAGE
Kinetics (disambiguation)
·noun ·see Dynamics.
kinetics         
WIKIMEDIA DISAMBIGUATION PAGE
Kinetics (disambiguation)
[k?'n?t?ks, k??-]
¦ plural noun [treated as sing.]
1. the branch of chemistry concerned with the rates of chemical reactions.
2. Physics another term for dynamics (in sense 1).

Wikipedia

Receptor–ligand kinetics

In biochemistry, receptor–ligand kinetics is a branch of chemical kinetics in which the kinetic species are defined by different non-covalent bindings and/or conformations of the molecules involved, which are denoted as receptor(s) and ligand(s). Receptor–ligand binding kinetics also involves the on- and off-rates of binding.

A main goal of receptor–ligand kinetics is to determine the concentrations of the various kinetic species (i.e., the states of the receptor and ligand) at all times, from a given set of initial concentrations and a given set of rate constants. In a few cases, an analytical solution of the rate equations may be determined, but this is relatively rare. However, most rate equations can be integrated numerically, or approximately, using the steady-state approximation. A less ambitious goal is to determine the final equilibrium concentrations of the kinetic species, which is adequate for the interpretation of equilibrium binding data.

A converse goal of receptor–ligand kinetics is to estimate the rate constants and/or dissociation constants of the receptors and ligands from experimental kinetic or equilibrium data. The total concentrations of receptor and ligands are sometimes varied systematically to estimate these constants.