Protein 3° structure symmetry is a defining feature of nearly one-third of protein folds and is generally thought to result from a combination of gene duplication, fusion, and truncation events. Such events represent major replication errors, involving substantial alteration of protein 3° structure and causing regions of exact repeating 1° structure, both of which are generally considered deleterious to protein folding. Thus, the prevalence of symmetric protein folds is counterintuitive and suggests a specific, yet unexplained, robustness. Using a designed β-trefoil protein, we show that purely symmetric 1° structure enables utilization of alternative definitions of the critical folding nucleus in response to gross structural rearrangement. Thus, major replication errors producing 1° structure symmetry can conserve foldability. The results provide an explanation for the prevalence of symmetric protein folds and highlight a critical role for 1° structure symmetry in protein evolution.
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