Conformation and stability of two recombinant human interferon‐α analogs

Abstract

Structural features of a recombinant E. coli derived interferon‐α analog, interferon consensus₁, was studied by circular dichroism and fluorescence spectroscopy. Circular dichroic spectra of the purified protein showed that it has about 70% α‐helix and a distinct tertiary structure. These structural features are similar to those for a natural interferon‐α subtype, interferon‐α₂, indicating that the amino acid substitutions in interferon consensus₁ apparently did not alter the protein structure. Another analog, interferon consensus₅, which has Ser instead of Cys at residues 1 and 99 but is otherwise identical to interferon consensus₁, was prepared to study the role of the disulfide bond between Cys 1 and 99. Circular dichroic and fluorescence spectra indicated similarity in the structure of these two analogs. However, interferon consensus₁ was significantly more stable than interferon consensus₅ against denaturation. pH unfolding experiments indicated that the former protein is more stable in the transition region by about 1.6 kcal/mol, which was interpreted in terms of the increased free energy of the denatured state due to an extra disulfide bond in interferon consensus₁.