Additive stimulatory effect of extracellular calcium and potassium on non-transferrin ferric iron uptake by HeLa and K562 cells

Elongation factor Ts (EF-Ts) from Thermus thermophilus forms a stable, functionally active homodimer in solution. Its monomer is composed of two domains: amino-terminal domain containing 50 amino acid residues and a larger, 146 residues long, C-domain which participates in dimerization of EF-Ts. Effect of removal of the N-domain on the conformational stability of EF-Ts has been studied. For comparison, the stabilities of both the full-length EF-Ts and its C-domain were studied by differential scanning calorimetry, electronic absorption and fluorescence spectroscopies over a pH range from 4 to approximately 13. Thermal denaturation of EF-Ts and of C-domain, followed by circular dichroism at 222 nm, at pH 7.0, and the pH dependence of the fluorescence of the single tryptophan 30 residue indicate a conformational instability of the N-domain. While N-domain does not affect the stability of full-length EF-Ts at acidic pH, its removal leads to stabilization of the rest of the protein at basic pH. This is reflected by higher values of transition temperatures and calorimetric enthalpies of C-domain as compared to the full-length EF-Ts. High mobility of the N-domain in alkaline pH conditions decreased the thermal stability of covalently linked C-domain of EF-Ts. An increase in intramolecular interactions at acidic pH together with a decrease of conformational entropies of the thermally denatured proteins most likely diminishes this destabilization effect.