Slightly modifying pseudoproline dipeptides incorporation strategy enables solid phase synthesis of a 54 AA fragment of caveolin-1 encompassing the intramembrane domain.

This work contributes to highlight the benefits of pseudoproline dipeptides introduction in difficult SPPS. We show how a slight modification in the positioning choice conditioned the synthesis achievement of a 54 amino acid long caveolin-1 peptide encompassing the intramembrane domain. Furthermore, we report a side reaction correlated with the coupling steps and generating truncated fragments with a mass deviation of + 42 Da.

Structural and dynamic properties of juxta-membrane segments of caveolin-1 and caveolin-2 at the membrane interface.

Caveolins (cav1-3) are essential membrane proteins found in caveolae. The caveolin scaffolding domain of cav-1 includes a short sequence containing a CRAC motif (V94TKYWFYR101) at its C-terminal end. To investigate the role of this motif in the caveolin-membrane interaction at the atomic level, we performed a detailed structural and dynamics characterization of a cav-1(V94-L102) nonapeptide encompassing this motif and including the first residue of cav-1 hydrophobic domain (L102), in dodecylmaltoside (DM) or dodecylphosphocholine (DPC) micelles, as membrane mimics.

Role of the membrane interface on the conformation of the caveolin scaffolding domain: a CD and NMR study.

Circular dichroism (CD) and NMR spectroscopy were used to study the conformational properties of two synthetic peptides, D82-R101 and D82-I109, encompassing the caveolin scaffolding domain (D82-R101), in the presence of dodecylphosphocholine (DPC) micelles. Our data show that a stable helical conformation of the caveolin scaffolding domain in a membrane mimicking system is only obtained for the peptide including the L102-I109 hydrophobic stretch, a part of the caveolin intra-membrane domain. Through chemical shift variations, an ensemble of six residues of the D82-L109 peptide, mainly located in the V(94)TKYWFYR(101) motif were found to detect the presence of phosphatidylserine solubilized in DPC micelles.