Structural fluctuations of a helical polypeptide traversing a lipid bilayer.
- 1 July 1988
- journal article
- research article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 85 (14), 5067-5071
- https://doi.org/10.1073/pnas.85.14.5067
Abstract
Time-resolved fluorescence anisotropy (FA) measurements are reported for five helical bilayer-spanning henicosapeptides, each containing one tryptophan at sequence position 1, 6, 11, 16, or 21. The FA decay reflects two molecular processes in all cases: local internal fluctuations of the tryptophan side chain with a relaxation time of 200-500 ps, and motions of the whole polypeptide molecule with a relaxation time of 9-10 ns. The amplitudes of the fast fluctuation are largest at the helix ends and decrease toward the center of the helix. A similar observation was made for the helical polypeptides dissolved in organic solvents showing that the mobility gradient along the polypeptide sequence is an inherent property of the polypeptide helix and not due to the lipid bilayer. However, the amplitudes of the fast fluctuations can be modulated by the physical state of the lipid bilayer. With decreasing temperature, the internal mobility of the tryptophan in all positions decreases with an abrupt change at the lipid-phase transition. Concomitant molecular dynamics calculations indicate a correlation between the fast FA decay and conformational fluctuations within the helix. According to the simulation, the conformation of the polypeptide is on average predominantly helical, but actually the molecule can fluctuate between a variety of different substructures. The conformational fluctuations are largest at the helix ends and provide the free space required for rotation of the indole ring around the tryptophan side chain bonds.Keywords
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