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Merck

Topological stability and self-association of a completely hydrophobic model transmembrane helix in lipid bilayers.

Biochemistry (2002-02-28)
Yoshiaki Yano, Tomokazu Takemoto, Satoe Kobayashi, Hiroyuki Yasui, Hiromu Sakurai, Wakana Ohashi, Miki Niwa, Shiroh Futaki, Yukio Sugiura, Katsumi Matsuzaki
ABSTRAKT

Investigation of interactions between hydrophobic model peptides and lipid bilayers is perhaps the only way to elucidate the principles of the folding and stability of membrane proteins (White, S. H., and Wimley, W. C. (1998) Biochim. Biophys. Acta 1367, 339-352). We designed the completely hydrophobic "inert" peptide modeling a transmembrane (TM) helix without any of the specific side-chain interactions expected, X-(LALAAAA)(3)-NH(2) [X = Ac (I), 7-nitro-2-1,3-benzoxadiazol-4-yl (II), or 5(6)-carboxytetramethylrhodamine (III)]. Fourier transform infrared-polarized attenuated total reflection measurements revealed that I as well as II assume a TM helix in hydrated 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine bilayers. Dithionite quenching experiments detected no topological change (flip-flop) in the helix II for at least 24 h. Thus, the TM helix itself is a highly stable structure, even in the absence of flanking hydrophilic or aromatic amino acids which are suggested to play important roles in stable TM positioning. Helix self-association in lipid bilayers was detected by fluorescence resonance energy transfer between II and III. The peptide was in a monomer-antiparallel dimer equilibrium with an association free energy of approximately -13 kJ/mol. Electron spin resonance spectra of 1-palmitoyl-2-stearoyl-(14-doxyl)-sn-glycero-3-phosphocholine demonstrated the presence of a motionally restricted component at lower temperatures.

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Sigma-Aldrich
5(6)-Carboxytetramethylrhodamine, BioReagent, suitable for fluorescence, ≥85% (sum of isomers, HPCE)
Sigma-Aldrich
5(6)-Carboxytetramethylrhodamine N-succinimidyl ester, BioReagent, suitable for fluorescence, ≥70% (coupling to amines)