Refolding of the integral membrane protein light-harvesting complex II monitored by pulse EPR

The major light-harvesting chlorophyll a/b complex (LHCII) of the photosynthetic apparatus in plants self-organizes in vitro. The recombinant apoprotein, denatured in dodecyl sulfate, spontaneously folds when it is mixed with its pigments, chlorophylls, and carotenoids in detergent solution, and assembles into structurally authentic LHCII in the course of several minutes. Pulse EPR techniques, specifically double-electron-electron resonance (DEER), have been used to analyze protein folding during this process. Pairs of nitroxide labels were introduced site-specifically into recombinant LHCII and shown not to affect the stability and function of the pigment-protein complex. Interspin distance distributions between two spin pairs were measured at various time points, one pair located on either end of the second transmembrane helix (helix 3), the other one located near the luminal ends of the intertwined transmembrane helices 1 and 4. In the dodecyl sulfate-solubilized apoprotein, both distance distributions were consistent with a random-coil protein structure. A rapid freeze-quench experiment on the latter spin pair indicated that 1 s after initiating reconstitution the protein structure is virtually unchanged. Subsequently, both distance distributions monitored protein folding in the same time range in which the assembly of chlorophylls into the complex had been observed. The positioning of the spin pair spanning the hydrophobic core of LHCII clearly preceded the juxtaposition of the spin pair on the luminal side of the complex. This indicates that superhelix formation of helices 1 and 4 is a late step in LHCII assembly.