Abstract

In the oxidative folding of onconase, the stabilization of intermediates early in the folding process gives rise to efficient formation of its biologically active form. To identify the residues responsible for the initial formation of structured intermediates, the transition from an ensemble of unstructured three-disulfide species, 3S(U), to a single structured three-disulfide intermediate species, des-[30-75] or 3S(F), at pH 8.0 and 25 °C was examined. This transition was first monitored by far-UV circular dichroism spectroscopy at pH 8.0 and 25 °C, showing that it occurs with the formation of secondary structure, presumably because of native interactions. The time dependence of formation of nativelike structure was then followed by nuclear magnetic resonance spectroscopy after we had arrested the transition at different times by lowering the pH to 3 and then acquiring (1)H-(15)N heteronuclear single-quantum coherence spectra at pH 3 and 16 °C to identify amide hydrogens that become part of nativelike structure. H/D exchange was utilized to reduce the intensity of resonances from backbone amide hydrogens not involved in structure, without allowing exchange of backbone amide hydrogens involved in initial structure. Six hydrogen-bonding residues, namely, Tyr38, Lys49, Ser82, Cys90, Glu91, and Ala94, were identified as being involved in the earliest detectable nativelike structure before complete formation of des-[30-75] and are further stabilized later in the formation of this intermediate through S-S/SH interchange. By observing the stabilization of the structures of these residues by their neighboring residues, we have identified the initial, nativelike structural elements formed in this transition, providing details of the initial events in the oxidative folding of onconase.

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