6533b82dfe1ef96bd1291d65

RESEARCH PRODUCT

A supramolecular system that strictly follows the binding mechanism of conformational selection

Yan-long MaMao QuanJas S. WardLi ZhangHang ZhouKari RissanenWei JiangLiu-pan Yang

subject

Models Molecularconformational selectionProtein ConformationScienceSupramolecular chemistrybiological systemsGeneral Physics and Astronomy010402 general chemistryLigands01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyBiophysical PhenomenaArticlesupramolecular chemistryMolecular recognitionProtein structureProtein DomainsComputational chemistryHeterocyclic Compoundsmechanisms in biologysupramolekulaarinen kemialcsh:ScienceSelection (genetic algorithm)Multidisciplinary010405 organic chemistryMechanism (biology)QProteinsGeneral ChemistryModels Theoretical0104 chemical sciencesKineticsPhysical chemistryKinetic equationsProteins metabolismsynthetic systemsThermodynamicslcsh:Qmolecular recognitionSupramolecular chemistryProtein Binding

description

Induced fit and conformational selection are two dominant binding mechanisms in biology. Although induced fit has been widely accepted by supramolecular chemists, conformational selection is rarely studied with synthetic systems. In the present research, we report a macrocyclic host whose binding mechanism is unambiguously assigned to conformational selection. The kinetic and thermodynamic aspects of this system are studied in great detail. It reveals that the kinetic equation commonly used for conformational selection is strictly followed here. In addition, two mathematical models are developed to determine the association constants of the same guest to the two host conformations. A “conformational selectivity factor” is defined to quantify the fidelity of conformational selection. Many details about the kinetic and thermodynamic aspects of conformational selection are revealed by this synthetic system. The conclusion and the mathematical models reported here should be helpful in understanding complex molecular recognition in both biological and synthetic systems.

yearjournalcountryeditionlanguage
2020-06-01
http://urn.fi/URN:NBN:fi:jyu-202006043953