CAJ | 학술논문

虽然海藻糖已经广泛用于蛋白质稳定性研究，但海藻糖稳定蛋白质的作用机理尚不清晰。本文利用全原子分子动力学模拟研究了20种常见氨基酸和海藻糖之间的分子机理。结果表明，所有氨基酸，尤其是极性和带电氨基酸，均优先与水分子结合。相反，仅有疏水性氨基酸与海藻糖发生相互作用，尤其是芳香族和疏水性氨基酸的侧链更易于和海藻糖接触。所有氨基酸的主链与水分子接触的趋势一致。虽然氨基酸和海藻糖与水之间均形成氢键，但氨基酸和海藻糖之间的氢键相互作用要弱于氨基酸和水之间的氢键相互作用。上述分子模拟的结果对于海藻糖稳定蛋白质作用机理的解析及高效蛋白质稳定剂的理性设计具有非常重要的理论指导意义。
수연해조당이경엄범용우단백질은정성연구，단해조당은정단백질적작용궤리상불청석。본문이용전원자분자동역학모의연구료20충상견안기산화해조당지간적분자궤리。결과표명，소유안기산，우기시겁성화대전안기산，균우선여수분자결합。상반，부유소수성안기산여해조당발생상호작용，우기시방향족화소수성안기산적측련경역우화해조당접촉。소유안기산적주련여수분자접촉적추세일치。수연안기산화해조당여수지간균형성경건，단안기산화해조당지간적경건상호작용요약우안기산화수지간적경건상호작용。상술분자모의적결과대우해조당은정단백질작용궤리적해석급고효단백질은정제적이성설계구유비상중요적이론지도의의。
Although trehalose is used as a protein stabilizer, the mechanism by which this stability is induced is not ful y understood at present. In this study, we investigated the interactions between trehalose and al 20 common amino acids using al-atom molecular dynamics simulations. It is found that al the amino acids exhibit a preference for contact with water, especial y the polar and charged amino acids. Conversely, only the hydrophobic amino acids were found to have a slight preference for contact with trehalose molecules. This tendency is most pronounced in the case of contact between trehalose and aromatic or hydrophobic side chains, whereas the backbones of each amino acids al show similar propensities for contact with water. Furthermore, hydrogen bonds between amino acids and trehalose were found to be significantly weaker than those between amino acids and water, although both trehalose and water can interact with the amino acids via hydrogen bonds. These findings are important with regard to the exploration of the molecular mechanism of protein stability induced by trehalose and the rational design of highly efficient protein stabilizers.