Abstract
It has been well established that in the oxidative folding of hen egg white lysozyme (HEL), which has four SS linkages in the native state (N), three des intermediates, i.e., des[76-94], des[64-80], and des [6-127], are populated at 20 °C and N is dominantly formed by the oxidation of des[64-80] and des[6-127]. To elucidate the temperature effects, the oxidative folding pathways of HEL were reinvestigated at 5-45 °C in the presence of 2 M urea at pH 8.0 by using a selenoxide reagent, DHSox. When reduced HEL was reacted with 1-4 equivalents of DHSox, 1S, 2S, 3S, and 4S intermediate ensembles with 1-4 SS linkages, respectively, were produced within 1 min. After the oxidation, 3S was slowly converted to the des intermediates with formation of the native structures through SS rearrangement. At 5 °C, des[76-94] was populated in the largest amount, but the oxidation to N was slower than that of des[64-80] and des[6-127]. At 35 °C, on the other hand, des[64-80] and des[6-127] were no longer stable, and only des[76-94] was populated. The results suggested that the major folding pathways of HEL can be switched from one to the other by temperature control.