Location of the myristoylated alanine-rich C-kinase substrate (MARCKS) effector domain in negatively charged phospholipid bicelles

The effector domain of the myristoylated alanine-rich C-kinase substrate (MARCKS-ED) is a highly basic, unstructured protein segment that is responsible for attaching MARCKS reversibly to the membrane interface. When attached to the interface, it also has the capacity to sequester phosphoinosities, such as PI(4,5)P-2, within the plane of the bilayer. Here, the position of the MARCKS-ED was determined when bound to phospholipid bicelles using high-resolution NMR methods. Two sets of data indicate that the phenylalanine residues of the MARCKS-ED are positioned within the membrane hydrocarbon a few angstroms from the aqueous-hydrocarbon interface. First, short-range nuclear Overhauser effects are detected between the aromatic side chains and the lipid acyl chain methylenes. Second, paramagnetic enhancements of nuclear relaxation, produced by molecular oxygen, are similar for the phenylalanine aromatic protons and those observed for protons in the upper portion of the acyl chain. The rates of amide-water proton exchange are fast and only slightly hindered when the peptide is bound to bicelles, indicating that the backbone does not lie within the membrane hydrocarbon. These results indicate that highly charged peptides such as the MARCKS-ED penetrate the membrane interface with aromatic amino acid side chains inserted into the hydrocarbon and the peptide backbone lying within the bilayer interface. This position may serve to enhance the electrostatic fields produced by this basic domain at the membrane interface and may play a role in the ability of the MARCKS-ED to sequester polyphosphoinositides.