Chain Compaction and Synergistic Destabilization of Globular Proteins by Mixture of Denaturants

Abstract: Characterization of unfolded states is essential to understand the mechanism of protein folding. This study examines the unfolded states of RNase A and α‐LA in the mixture of ′′structurally‐similar′′ chemical denaturants, arginine (Arg) and guanidinium chloride (Gdm). Thermal‐ and chemical‐unfolding experiments show that the mixture of denaturants synergistically destabilizes the proteins. Volumetric analysis shows that partial molar volume (V°) and adiabatic compressibility (Ks) of the proteins decreases with… Show more

“…Therefore, we propose that the preferential interaction of EG stabilizes the proteins against cold-induced denaturation. However, at higher temperatures, the preferential binding of EG might destabilize the proteins, as commonly observed in the case of chemical denaturants such as urea and arginine. ,, The preferential binding of EG around the hydrophobic residues could decrease the cost of hydrophobic exposure of the residues at higher temperatures, thus destabilizing the native conformations. These observations indicate that the effect of preferential binding of cosolvents on protein stability might change with temperature, particularly at sub-zero temperature conditions, and with the nature of interactions that they have with the proteins.…”

Cryo vs Thermo: Duality of Ethylene Glycol on the Stability of Proteins

“…Therefore, we propose that the preferential interaction of EG stabilizes the proteins against cold-induced denaturation. However, at higher temperatures, the preferential binding of EG might destabilize the proteins, as commonly observed in the case of chemical denaturants such as urea and arginine. ,, The preferential binding of EG around the hydrophobic residues could decrease the cost of hydrophobic exposure of the residues at higher temperatures, thus destabilizing the native conformations. These observations indicate that the effect of preferential binding of cosolvents on protein stability might change with temperature, particularly at sub-zero temperature conditions, and with the nature of interactions that they have with the proteins.…”

Cryo vs Thermo: Duality of Ethylene Glycol on the Stability of Proteins