Folding of the firefly luciferase polypeptide chain with the immobilized C terminus

Refolding of firefly Photinus pyralis luciferase from a denatured state is a slow process; its rate and productivity depend on molecular chaperones of the Hsp70 family. In contrast, cotranslational folding of luciferase is fast and productive in the absence of chaperones. During cotranslational folding, the C termini of polypeptides are associated with ribosomes, massive particles. The question arises as to whether C-terminal immobilization on a massive particle promotes folding. To study this problem experimentally, luciferase was C-tagged with hexahistidine to allow its C-terminal immobilization of chelating Sepharose. Both immobilized and free chains of the urea-denatured enzyme refolded at the same rate. At the same time, immobilization led to a higher refolding yield owing to the prevention of intermolecular aggregation. Chaperones of the Hsp70 family promoted folding of both immobilized and free luciferase polypeptides. It was assumed that the high rate of cotranslational folding is not ensured by mere immobilization of the C terminus of the polypeptide, but is rather due to a favorable start conformation of the growing peptide in the peptidyltransferase center of the ribosome and/or the vectorial character of the folding, proceeding from the N to the C end during polypeptide synthesis.