Conformational characterization of human eukaryotic initiation factor 2α: A single tryptophan protein

The α-subunit of the human eukaryotic initiation factor 2 (heIF2α), a GTP binding protein, plays a major role in the initiation of protein synthesis. During various cytoplasmic stresses, eIF2α gets phosphorylated by eIF2α-specific kinases resulting in inhibition of protein synthesis. The cloned and over expressed heIF2α, a protein with a single tryptophan (trp) residue was examined for its conformational characteristics using steady-state and time-resolved tryptophan fluorescence, circular dichroism (CD) and hydrophobic dye binding. The steady-state fluorescence spectrum, fluorescence lifetimes (τ1 = 1.13 ns and τ2 = 4.74 ns) and solute quenching studies revealed the presence of trp conformers in hydrophobic and differential polar environment at any given time. Estimation of the α-helix and β-sheet content showed: (i) more compact structure at pH 2.0, (ii) distorted α-helix and rearranged β-sheet in presence of 4 M guanidine hydrochloride and (iii) retention of more than 50% ordered structure at 95 °C. Hydrophobic dye binding to the protein with loosened tertiary structure was observed at pH 2.0 indicating the existence of a molten globule-like structure. These observations indicate the inherent structural stability of the protein under various denaturing conditions.