Nonrandom Distribution of the One-Disulfide Intermediates in the Regeneration of Ribonuclease A

Abstract

The one-disulfide intermediates formed during the oxidative refolding of ribonuclease A (RNase A) have been characterized. This information is important for understanding the folding pathways of RNase A. The one-disulfide intermediates were blocked with 2-aminoethyl methanethiosulfonate, fractionated using ion-exchange chromatography, and digested with trypsin and chymotrypsin. The resulting peptide fragments were fractionated using reversed phase high-performance liquid chromatography, and identified using mass spectrometry. The relative population of each one-disulfide intermediate was determined from its disulfide bond concentration using a postcolumn disulfide detection system. A total of 24 out of 28 possible one-disulfide intermediates were found to be populated (greater than 0.3%) in the one-disulfide mixture. The population of one-disulfide intermediates displays a nonrandom distribution. All four native disulfide pairings have populations greater than those predicted by loop entropy calculations, suggesting the presence of enthalpic contributions stabilizing these species. The one-disulfide intermediate [65, 72], containing the disulfide bond between cysteines 65 and 72, comprises 40% of the entire one-disulfide population. The interactions that stabilize this intermediate may play an important role in the regeneration pathways of RNase A.