Effects of mutations on hydrogen exchange kinetics, structure, and stability suggest that the slow exchange core is a key element in protein folding. Single amino acid variants of bovine pancreatic trypsin inhibitor (BPTI) have been made with glycine or alanine replacement of residues Tyr 35, Gly 37, Asn 43, and Asn 44. The crystal structures of Y35G and N43G are reported [Housset, D., Kim, K.-S., Fuchs, J., & Woodward, C. (1991) J. Mol. Biol. 220, 757-770; Danishefsky, A. T., Housset, D., Kim, K.-S., Tao, F., Fuchs, J., Woodward, C., & Wlodawer, A. (1993) Protein Sci. 2, 577-587; Kim, K.-S., Tao, F., Fuchs, J. A., Danishefsky, A. T., Housset, D., Wlodawer, A., & Woodward, C. (1993a) Protein Sci. 2, 588-596]. NMR chemical shifts indicate few changes from the wild type (WT) in G37A and N44G. Stabilities of the four mutants were measured by calorimetry and by hydrogen exchange. Values of delta delta(WT-->mut), the difference in delta G of folding/unfolding between the wild type and mutant, estimated by both methods are in good agreement and are in the range 4.7-6.0 kcal/mol. There is no general correlation between stability and hydrogen exchange rates at pH 3.5 and 30 degrees C. Exchange occurs by two parallel pathways, one involving small noncooperative fluctuations of the native state, and the other involving cooperative, global unfolding. In the mutant proteins, the rates for exchange by the unfolding mechanism are accelerated by a factor corresponding to the increase in the unfolding/folding equilibrium constant.(ABSTRACT TRUNCATED AT 250 WORDS)
The hydrogen isotope exchange kinetics of buried NH protons in bovine pancreatic trypsin inhibitor (BPTI) was measured in 8 M urea at 30 degrees C and pH 3.5. The data were analyzed by the two-process model in which slower exchanging protons utilize an unfolding mechanism and more rapidly exchanging protons exchange from the folded state. Urea accelerates the set of protons exchanging by the unfolding mechanism, all of which have approximately the same exchange rate constants in urea. For protons in this set, the ratio of exchange rate constants in the presence and absence of urea is used to estimate delta delta G(0-->8M urea) = 6.6 kcal/mol. For the set of protons exchanging from the folded state, 8 M urea either has no effect or slows exchange. Slowing of exchange by urea implies binding of urea to sites at or near the exchanging proton. Some buried protons exchanging from the folded state have diminished rates in 8 M urea, meaning that urea is accessible to these buried sites. Several unassigned side-chain NH's of arginine or lysine are highly protected from exchange by urea, suggesting that they are the location of urea binding sites on the surface of the molecule.
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