Title of article
Allostery in the lac operon: Population selection or induced dissociation? Original Research Article
Author/Authors
Kim A. Sharp، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
7
From page
66
To page
72
Abstract
Allostery, the modulation of function of a protein at one site by the binding of a ligand at a different site, is a property of many proteins. Two kinetically distinct models have been proposed: i) The induced fit model in which the ligand binds to the protein and then induces the conformational change. ii) The population selection model, in which the protein spontaneously undergoes a conformational change, which is then ‘captured’ by the ligand. Using measured kinetic constants for the lac repressor the contribution of population selection vs. induced dissociation is quantified by simulating the kinetics of allostery. At very low inducer concentration, both mechanisms contribute significantly. Total induction, though, is small under these conditions. At increasing levels of induction the induced dissociation mechanism soon dominates, first due to binding of one inducer, and then from two inducers binding.
Keywords
Lac repressor , Induced fit , Population selection , Kinetics of allostery , Tertiary capture , allostery
Journal title
Biophysical Chemistry
Serial Year
2011
Journal title
Biophysical Chemistry
Record number
1120501
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