6533b7d8fe1ef96bd126aeeb
RESEARCH PRODUCT
The dynamic orientation of membrane-bound peptides: bridging simulations and experiments.
Jesus SalgadoSanti Esteban-martínsubject
chemistry.chemical_classificationModels MolecularMembranesProtein ConformationLipid BilayersBiophysicsSupramolecular chemistryAnchoringMembrane ProteinsPeptideOrientation (graph theory)CrystallographyMolecular dynamicsMembraneProtein structurechemistryModels ChemicalChemical physicsComputer SimulationLipid bilayerDimyristoylphosphatidylcholinePeptidesdescription
AbstractThe structural organization in a peptide/membrane supramolecular complex is best described by knowledge of the peptide orientation plus its time-dependent and spatial fluctuations. The static orientation, defined by the peptide tilt and a rotation about its molecular axis, is accessible through a number of spectroscopic methods. However, peptide dynamics, although relevant to understand the functionality of these systems, remains largely unexplored. Here, we describe the orientation and dynamics of Trp-flanked and Lys-flanked hydrophobic peptides in a lipid bilayer from molecular dynamics simulations. A novel view is revealed, where collective nontrivial distributions of time-evolving and ensemble peptide orientations closely represent the systems as studied experimentally. Such global distributions are broad and unveil the existence of orientational states, which depend on the anchoring mode of interfacial residues. We show that this dynamics modulates 2H quadrupolar splittings and introduces ambiguity in the analysis of NMR data. These findings demonstrate that structural descriptions of peptide/membrane complexes are incomplete, and in cases even imprecise, without knowledge of dynamics.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2007-12-01 | Biophysical journal |