| Abstract: | RNase-(1–118) containing native disulfide bonds is similar in fold to native RNase A but not of lowest Gibbs energy as compared with the isomers containing non-native disulfide bonds. The present n.m.r. studies have indicated a dramatic increase in the exchange rate of all of the ‘protected’ amide protons of RNase-(1–118) over RNase A. A calculation shows a large increase in the rate of ‘opening’ of the structure. The exchange rate of the protected amide protons of RNase-(1–120) is slower than RNase-(1–118) but much faster than RNase A. Binding with a synthetic complementing fragment (114–124) markedly reduces the exchange rate of 20 to 25 amide protons of RNase-(1–118). It has previously been shown that binding with a complementing fragment of RNase-(1–118) generates a lowest Gibbs energy state. Thus, using available thermodynamic information for interpretation, we suggest that a) removal of six carboxy terminal residues of RNase A would disrupt coupling between these residues and those distant in the structure (loss of extra stabilizing energy), b) this would, in turn, alter the enthalpy-entropy compensation in such a way that the magnitude of Gibbs energy change favoring folding is significantly reduced without a large change of fold and c) in this activated state the molecule would be highly motile. |
