Effect of alkyl alcohols on partially unfolded state of Proteinase K: Differential stability of α-helix and β-sheet rich regions of the enzyme

摘要

Proteinase K (E.C. 3.4.21.64), a serine proteinase from fungus Tritirachium album, has been used as a model system to investigate the conformational changes induced by monohydric alcohols at low pH. Proteinase K belongs to α/β class of proteins and maintains structural integrity in the range of pH 7.0-3.0. Enzyme acquires partially unfolded conformation (Up) at pH 2.5 with lower activity, partial loss of tertiary structure and exposure of some hydrophobic patches. Proteinase K in stressed state at pH 2.5 is chosen and the conformational changes induced by alkyl alcohols (methanol/ethanol/isopropanol) are studied. At critical concentration of alcohol, conformational switch occurs in the protein structure from α/β to β-sheet driving the protein into O-state. Complete loss of tertiary contacts and proteolytic activity in O-sate emphasize the involvement of alpha regions in maintaining the active site of the enzyme. Moreover, isopropanol induced unfolding of proteinase K in Up state occurred in two steps with the formation of β state at low alcohol concentration followed by stabilization of β state at high alcohol concentration. GuHCl and temperature induced unfolding of proteinase K in O-state (in 50% isopropanol) is non-cooperative as the transition curves are biphasic. This suggests that the structure of proteinase K in O-state has melted alpha regions and stabilized beta regions and that these differentially stabilized regions unfold sequentially. Further, the O-state of proteinase K can be attained from complete unfolded protein by the addition of 50% isopropanol. Hence the alcohol-induced O-state is different from native state or completely unfolded state and shows characteristics of the molten globule-like state. Thus, this state may be functioning as an intermediary in the folding pathway of proteinase K.