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Published August 1, 2001 | Supplemental Material
Journal Article Open

Self-Association and Membrane-Binding Behavior of Melittins Containing Trifluoroleucine

Abstract

We have investigated the effect of trifluoroleucine substitution on the membrane-binding and tetramerization behavior of melittin. Analogues were synthesized in which Leu 9, Leu 13, and all four intrinsic leucine residues of melittin were replaced by 5,5,5-trifluoroleucine. Both the mono- and tetra-substituted melittins were found to exhibit stronger self-association and enhanced affinity for lipid bilayer membranes, compared to the wild-type peptide. The extent of the observed effects depends on the site of introduction of trifluoroleucine and, in the case of substitution at position 13, on the stereochemistry of the trifluoroleucine side chain. Analysis of the membrane association isotherms is consistent with aggregation of fluorinated melittins within the lipid bilayer. These results suggest that fluorocarbon−hydrocarbon separation, in addition to an increase in hydrophobic character, contributes to enhanced membrane binding.

Additional Information

Copyright © 2001 American Chemical Society. Received December 27, 2000. Publication Date (Web): July 10, 2001. We would like to acknowledge Dr. Suzanna Horvath, Director of the Caltech Biopolymer Synthesis Center, and her staff for synthesis of the melittin peptides and for performing analytical HPLC measurements. We thank Catherine Sarisky and Dr. Scott Ross for help with the 2D NMR experiments. We are grateful to Yi Tang and Dr. Ilya Koltover for helpful discussions and for providing 5,5,5-trifluoroleucine and synthetic intermediates used in these studies. This work was supported by the U.S. Army Research Office and by a gift from the Dow Chemical Company. A.N. thanks the National Institutes of Health for a postdoctoral fellowship.

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August 19, 2023
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