In silico study of osmolytic effects of choline-O-sulfate on urea induced unfolding of Trp-cage mini-protein: An atomistic view from replica exchange molecular dynamics simulation

Abstract

The event of protein folding is associated with essential biological functionalities and unfolding of protein native state can cause intra-cellular toxicity leading to biological dysfunctions and even cell death. The present study discusses the folding-unfolding equilibrium of the small globular protein Trp-cage in presence of denaturing and protecting osmolytes urea and choline-O-sulfate (COS), respectively, employing Replica Exchange Molecular Dynamics (REMD), extensive free energy calculations and temperature scanned free energy landscapes. It is shown that, while 6 M urea quite easily denatures the protein, 0.5 M and 1 M COS is able to protect the protein from urea induced denaturation at room temperature. However, REMD simulations reveal that while the protein in pure water can withstand a simulation temperature as high as 420 K without melting, the protecting effect of 0.5 M and 1 M COS is operative up to 300 and 340 K respectively. This study furnishes evidences to shed light into the protecting mechanism of COS regarding urea induced protein unfolding, thereby putting forward the use of COS as a proper protecting osmolyte towards different types of proteins.