Coupling of side chain hydration and protonation to membrane protein structure: time-resolved FTIR and fluorescence studies of rhodopsin


Coupling of side chain hydration and protonation to membrane protein structure: time-resolved FTIR and fluorescence studies of rhodopsin

Fahmy, K.; Reeves, P.; Eichler, S.

Membrane proteins fulfil vital functions in cellular signalling and ion exchange across cell membranes. Their function originates in well defined structural transitions of transmembrane and extramembraneous protein domains. The latter experience aqueous and hydrophobic solvation forces, respectively. We have used time-resolved FTIR spectroscopy coupled to static fluorescence measurements to study how this solvation balance at the membrane water interface affects membrane protein structure. Transmembrane peptides derived from rhodopsin, a prototypical G protein-coupled receptor (GPCRs), exhibit solvent-accessible stretches which couple protonation and hydration to local helical structure: protonation of a conserved cytosolic site in helix 3 (Glu-134) causes side chain partitioning at the water lipid interface [1]. Vice versa, the side chain charge affects structural transitions that are induced by transients (seconds) of interfacial water potential. These local processes depend on the hydrophobic context of the amino acid sequence. Opsin mutants containing amino acid replacements of the same carboxyl side chain also exhibit altered responses of their structure to water potential. The data indicate that the conserved carboxyl in helix 3 of GPCRs is a protonation-controlled hydration site that regulates the partial entry of water at the protein lipid interface, thereby contributing to the free enthalpy difference between active and inactive structures of the receptor.

Keywords: GPCR; FTIR; membrane protein; rhodopsin

  • Invited lecture (Conferences)
    Meeting of the British and German Biophysical Society, 21.-23.03.2013, Hünfeld, Germany
  • Poster
    9th European Biophysics Congress, 13.-17.07.2013, Lissabon, Portugal
  • Open Access Logo Abstract in refereed journal
    European Biophysics Journal 42(2013)1, S149
    DOI: 10.1007/s00249-013-0917-x
    ISSN: 0175-7571

Permalink: https://www.hzdr.de/publications/Publ-18499
Publ.-Id: 18499