| Abstract: | Proline residues are commonly found in putative transbilayerhelices of many integral membrane proteins which act as transporters,channels and receptors. Intramembranous prolines are often conservedbetween homologous proteins. It has been suggested that suchintrahelical prolines provide liganding sites for cations viaexposure of the backbone carbonyl oxygen atoms of residues i-3and i-4 (relative to the proline). Molecular modelling studieshave been carried out to evaluate this proposal. Bundles ofparallel proline-kinked helices are considered as simplifiedmodels of ion channels. The energetics of K+ ion-helix bundleinteractions are explored. It is shown that carbonyl oxygensexposed by the proline-induced kink and at the C-terminus ofthe helices may provide cation-liganding sites. ‘Hybrid’bundles of antiparallel helices, only some of which containproline residues, are considered as models of transport proteins.Again, praline-exposed carbonyi oxygens are shown to be capableof liganding cations. The roles of  -helix dipoles and of thegeometry of helix packing are considered in relation to cation-bundleinteractions. Implications with respect to modelling of ionchannel and transport proteins are discussed |
