Abstract

GWALP23 (acetyl-GGALW5LALALALALALALW19LAGA-amide) provides a favorable host framework for investigations of the influence of guest amino acids, for example a third, centrally located, Trp residue, within the hydrophobic core of a well characterized transmembrane helix. It is crucial to note that the orientation and rotation of GWALP23 are sensitive to single-residue replacements, in part because the membrane-spanning helix exhibits only limited dynamic averaging of solid-state NMR observables such as the 2H quadrupolar splitting (Biophys. J. 101, 2939). We introduced a Trp residue into position 12 or 13 of GWALP23 (replacing either L12 or A13) and incorporated specific 2H-Ala labels within the helical core sequence. Solid-state 2H NMR spectra of GWALP23-W12 reveal that the peptide remains helical and retains a dominant preferred tilted transmembrane orientation with only a low extent of dynamic averaging, comparable to GWALP23 itself. Indeed, the tilt and dynamics of GWALP23-W12 are quite similar to the values observed for GWALP23 in DMPC bilayer membranes. We have analyzed the dynamics of the peptide helices using a modified Gaussian treatment as well as a semi-static treatment. The results indicate that a central Trp residue at position 12 does not appreciably perturb the properties of bilayer-spanning GWALP23. (By contrast, Arg-12 or Lys-12, when charged, induces multi-state behavior for GWALP23 in bilayer membranes [PNAS 110, 1692].) Additionally, we are investigating the influence of cholesterol upon the properties of membrane-spanning GWALP23, GWALP23-W12 and GWALP23-K12.

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