9 research outputs found

    Quantification of helix–helix binding affinities in micelles and lipid bilayers

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    A theoretical approach for estimating association free energies of α-helices in nonpolar media has been developed. The parameters of energy functions have been derived from ΔΔG values of mutants in water-soluble proteins and partitioning of organic solutes between water and nonpolar solvents. The proposed approach was verified successfully against three sets of published data: (1) dissociation constants of α-helical oligomers formed by 27 hydrophobic peptides; (2) stabilities of 22 bacteriorhodopsin mutants, and (3) protein-ligand binding affinities in aqueous solution. It has been found that coalescence of helices is driven exclusively by van der Waals interactions and H-bonds, whereas the principal destabilizing contributions are represented by side-chain conformational entropy and transfer energy of atoms from a detergent or lipid to the protein interior. Electrostatic interactions of α-helices were relatively weak but important for reproducing the experimental data. Immobilization free energy, which originates from restricting rotational and translational rigid-body movements of molecules during their association, was found to be less than 1 kcal/mole. The energetics of amino acid substitutions in bacteriorhodopsin was complicated by specific binding of lipid and water molecules to cavities created in certain mutants

    Aryl Hydrocarbon Receptor: Its Regulation and Roles in Transformation and Tumorigenesis

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    Bibliographie

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    Free radical theory of aging: The “free radical” diseases

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