High populations of non-native structures in the denatured state are compatible with the formation of the native folded state.

The structures of the denatured states of the spectrin SH3 domain and a mutant designed to have a non-native helical tendency at the N terminus have been analyzed under mild acidic denaturing conditions by nuclear magnetic resonance methods with improved resolution. The wild-type denatured state has little residual structure. However, the denatured state of the mutant has an approximately 50% populated helical structure from residues 2 to 14, a region that forms part of the beta-sheet structure in the folded state. Comparison with a peptide corresponding to the same sequence shows that the helix is stabilized in the whole domain, likely by non-local interactions with other parts of the protein as suggested by changes in a region far from the mutated sequence. These results demonstrate that high populations of non-native secondary structure elements in the denatured state are compatible with the formation of the native folded structure. Copyright 1998 Academic Press.