Patel Sunita, Taimni Richa, Sasidhar Yellamraju U
Department of Chemistry, Indian Institute of Technology Bombay, Powai, Mumbai 400 076, India.
Protein Pept Lett. 2007;14(6):581-9. doi: 10.2174/092986607780989886.
It is important to understand the conformational biases that are present in unfolded states to understand protein folding. In this context, it is surprising that even a short tripeptide like AFA samples folded/ordered conformation as demonstrated recently by NMR experiments of the peptide in aqueous solution at 280 K. In this paper, we present molecular dynamics simulation of the peptide in explicit water using OPLS-AA/L all-atom force field. The results are in overall agreement with NMR results and provide some further insights. The peptide samples turn and extended conformational forms corresponding to minima in free energy landscape. Frequent transitions between the minima are observed due to modest free energy barriers. The turn conformation seems to be stabilized by hydrophobic interactions and possibly by bridging water molecules between backbone donors and acceptors. Thus the peptide does not sample conformations randomly, but samples well defined conformations. The peptide served as a model for folding-unfolding equilibrium in the context of peptide folding. Further, implications for drug design are also discussed.
理解未折叠状态下存在的构象偏差对于理解蛋白质折叠很重要。在这种情况下,令人惊讶的是,即使是像AFA这样的短三肽,在280K的水溶液中对该肽进行的核磁共振实验最近也证明其呈现出折叠/有序构象。在本文中,我们使用OPLS-AA/L全原子力场对该肽在显式水中进行了分子动力学模拟。结果与核磁共振结果总体一致,并提供了一些进一步的见解。该肽呈现出与自由能景观中的最小值相对应的转角和伸展构象形式。由于适度的自由能垒,观察到最小值之间频繁的转变。转角构象似乎通过疏水相互作用以及可能通过主链供体和受体之间的桥连水分子而得以稳定。因此,该肽并非随机采样构象,而是采样定义明确的构象。在肽折叠的背景下,该肽作为折叠-去折叠平衡的模型。此外,还讨论了对药物设计的影响。