文摘
Neutron reflectometry (NR) is uniquely suited for studying protein interaction with phospholipid bilayers along the bilayer normal on an angstrom scale. However, NR on its own cannot discern specific membrane-bound regions due to a lack of scattering contrast within a protein. Here we report the successful coupling of native chemical ligation (NCL) and NR to study α-synuclein (α-syn), a membrane-binding neuronal protein central in Parkinson’s disease. Two α-syn variants were generated where either the first 86 or last 54 residues are deuterated, allowing for region-specific contrast within the protein and the identification of membrane interacting residues by NR. Residues 1–86 are positioned at the hydrocarbon/headgroup interface of the outer leaflet, whereas the density distribution of the 54 C-terminal residues ranges from the hydrocarbon region to the aqueous environment. Coupling of NCL and NR should have broad utility in studies of membrane protein folding.