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RESEARCH PRODUCT
Hydrophobic mismatch of mobile transmembrane helices: Merging theory and experiments
Erik StrandbergAnne S. UlrichJesus SalgadoSanti Esteban-martínsubject
BiophysicsAnchoringPeptideBiochemistryProtein Structure SecondaryHydrophobic mismatchXWALP peptide familyDynamics of transmembrane peptidesOrientation of transmembrane peptidesWALP peptide familyLipid bilayerPeptide sequencechemistry.chemical_classificationCell MembraneMembrane ProteinsCell BiologyTransmembrane proteinCrystallographyTransmembrane domainMembranechemistryModels ChemicalBiophysicsHydrophobic and Hydrophilic InteractionsPeptide tilt angleSolid-state 2H NMRdescription
Abstract Hydrophobic mismatch still represents a puzzle for transmembrane peptides, despite the apparent simplicity of this concept and its demonstrated validity in natural membranes. Using a wealth of available experimental 2 H NMR data, we provide here a comprehensive explanation of the orientation and dynamics of model peptides in lipid bilayers, which shows how they can adapt to membranes of different thickness. The orientational adjustment of transmembrane α-helices can be understood as the result of a competition between the thermodynamically unfavorable lipid repacking associated with peptide tilting and the optimization of peptide/membrane hydrophobic coupling. In the positive mismatch regime (long-peptide/thin-membrane) the helices adapt mainly via changing their tilt angle, as expected from simple geometrical predictions. However, the adaptation mechanism varies with the peptide sequence in the flanking regions, suggesting additional effects that modulate hydrophobic coupling. These originate from re-adjustments of the peptide hydrophobic length and they depend on the hydrophobicity of the flanking region, the strength of interfacial anchoring, the structural flexibility of anchoring side-chains and the presence of alternative anchoring residues.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-05-01 | Biochimica et Biophysica Acta (BBA) - Biomembranes |