Abstract
Oxidative protein folding describes the process by which disulfide-bond-containing proteins mature from their ribosomal, fully reduced and unfolded, origins. Over the past 40 years, a number of exemplar proteins including bovine pancreatic ribonuclease A (RNaseA), bovine pancreatic trypsin inhibitor (BPTI), and hen egg-white lysozyme (HEWL), among others, have provided rich insight into the nature of the intermolecular interactions that drive the formation of the native, biologically active fold. In this Review Article, we revisit the oxidative folding process of RNaseA with a focus on reconciling the role of non-native disulfide-bond-containing species that populate the oxidative folding landscape. Toward gaining such an understanding, we project the regeneration pathway onto a Cartesian coordinate system. This helps not only to recognize the magnitude of the seemingly "fruitless", non-native disulfide-bond-containing species that lie orthogonal to the "native-protein-forming" reaction progress but also to reconcile a role for their existence in the regenerative trajectory. Finally, we superimpose the folding funnel onto the regeneration trajectory to draw parallels between oxidative folders and conformational folders (proteins that lack disulfide bonds). The overall objective is to provide the reader with a semi-quantitative description of oxidative protein folding and the barriers to successful regeneration while underscoring a role of seemingly fruitless intermediates.
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