Peptides on the Surface. PELDOR Data for Spin-Labeled Alamethicin F50/5 Analogues on Organic Sorbent

The PELDOR technique was used to obtain the spectra of distances between spin labels for mono and double TOAC substituted analogues of [Glu(OMe) 7,18,19] alamethicin F50/5 (Alm') peptaibiotic on the surface of the organic sorbent Oasis HLB and in ethanol solution at 77 K. For the double-labeled Alm', the free radical probes are at positions 1 and 16 (Alm'1,16). The intra- and intermolecular contributions to the PELDOR time traces were separated, with regard to the fractality of the system studied. We established that on HLB the labeled Alm' molecules are prone to aggregation. The distance spectra for Alm'1,16 show that, in both adsorbed state and in ethanol solution, the peptaibiotic is predominantly folded in the alpha-helix conformation. We assign the asymmetry of the distance spectrum in both cases to the occurrence of an admixture of more elongated alpha/3-10-helical conformers. The portion of these conformers is higher for the peptide adsorbed on HLB. We speculate that both the broadening of the basic spectrum line at r(max) = 2.0 nm and the increase in the contribution of elongated conformers might be associated with the spread of the peptaibiotic adsorption sites on HLB as compared with the more uniform Alm'1,16 trap structure in frozen ethanol solution. The aggregates of mono-labeled Alm'1 and Alm′16 also studied. The intermolecular distance spectrum for Alm'1 on HLB is shifted toward longer distances as compared with those of Alm'16. This result suggests that in the aggregates Alm' molecules are preferentially oriented with their C-terminal regions in the vicinity.