Early formation of a beta hairpin during folding of staphylococcal nuclease H124L as detected by pulsed hydrogen exchange

Pulsed hydrogen exchange methods were used to follow the formation of structure during the refolding of acid-denatured staphylococcal nuclease containing a stabilizing Leu substitution at position 124 (H124L SNase). The protection of more than 60 backbone amide protons in uniformly (15)N-labeled H124L SNase was monitored as a function of refolding time by heteronuclear two-dimensional NMR spectroscopy. As found in previous studies of staphylococcal nuclease, partial protection was observed for a subset of amide protons even at the earliest folding time point (10 msec). Protection indicative of marginally stable hydrogen-bonded structure in an early folding intermediate was observed at over 30 amide positions located primarily in the beta-barrel and to a lesser degree in the alpha-helical domain of H124L SNase. To further characterize the folding intermediate, protection factors for individual amide sites were measured by varying the pH of the labeling pulse at a fixed refolding time of 16 msec. Protection factors >5.0 were observed only for amide positions in a beta-hairpin formed by strands 2 and 3 of the beta-barrel domain and a single site near the C-terminus. The results indicate that formation of stable hydrogen-bonded structure in a core region of the beta-sheet is among the earliest structural events in the folding of SNase and may serve as a nucleation site for further structure formation.