• Title of article

    Sequence-Specific Conformational Dynamics of Model Transmembrane Domains Determines Their Membrane Fusogenic Function

  • Author/Authors

    Bernhard C. Poschner، نويسنده , , Stefan Quint، نويسنده , , Mathias W. Hofmann، نويسنده , , Dieter Langosch، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    9
  • From page
    733
  • To page
    741
  • Abstract
    The transmembrane domains of fusion proteins are known to be functionally important and display an overabundance of helix-destabilizing Ile and Val residues. In an effort to systematically study the relationship of fusogenicity and helix stability, we previously designed LV peptides, a low-complexity model system whose hydrophobic core consists of Leu and Val residues at different ratios. The ability of LV peptides to fuse membranes increases with the content of helix-destabilizing residues. Here, we monitored the kinetics of amide deuterium/hydrogen exchange of LV-peptide helices to probe their conformational dynamics. The kinetics indeed increases strongly with the content of helix-destabilizing residues and is likely to reflect local fluctuations of the helix backbones as all peptides exhibit uncorrelated exchange and contain subpopulations of amide deuterium atoms that exchange with different velocities. Interestingly, helices whose amide deuterium atoms are shifted from slower to faster subpopulations are more fusogenic. Novel peptide variants in which Val residues are concentrated at peripheral or central domains of the hydrophobic core were designed to map functionally relevant helix subdomains. Their structural and functional analysis suggests that dynamic domains close to the helix termini are more relevant for fusogenicity than central domains but cooperate with the latter to achieve strong fusogenicity.
  • Keywords
    conformational flexibility , hydrogen/deuterium exchange , membrane fusion , transmembrane domain
  • Journal title
    Journal of Molecular Biology
  • Serial Year
    2009
  • Journal title
    Journal of Molecular Biology
  • Record number

    1258000