Department of Chemistry and Biochemistry, San Francisco State University, San Francisco, CA 94132, USA.
J Mol Model. 2012 Nov;18(11):4941-54. doi: 10.1007/s00894-012-1541-x. Epub 2012 Aug 8.
Replacing the catalytic serine in trypsin with threonine (S195T variant) leads to a nearly complete loss of catalytic activity, which can be partially restored by eliminating the C42-C58 disulfide bond. The 0.69 μs of combined explicit solvent molecular dynamics (MD) simulations revealed continuous rearrangement of T195 with different conformational preferences between five trypsin variants tested. Among three conformational families observed for the T195 residue, one showed the T195 hydroxyl in a conformation analogous to that of the serine residue in wild-type trypsin, positioning the hydroxyl oxygen atom for attack on the carbonyl carbon of the peptide substrate. MD simulations demonstrated that this conformation was more populated for the C42A/C58V/S195T and C42A/C58A/S195T triple variants than for the catalytically inactive S195T variant and correlated with restored enzymatic activities for triple variants. In addition, observation of the increased motion of the S214-G219 segment in the S195T substituted variants suggested an existence of open and closed conformations for the substrate binding pocket. The closed conformation precludes access to the S1 binding site and could further reduce enzymatic activities for triple variants. Double variants with intact serine residues (C42A/C58A/S195 and C42A/C58V/S195) also showed interchange between closed and open conformations for the S214-G219 segment, but to a lesser extent than the triple variants. The increased conformational flexibility of the S1 subsite, which was not observed for the wild-type, correlated with reduced enzymatic activities and suggested a possible mode of substrate regulation for the trypsin variants tested.
将胰蛋白酶中的催化丝氨酸突变为苏氨酸(S195T 变体)会导致催化活性几乎完全丧失,但消除 C42-C58 二硫键可以部分恢复其活性。经过 0.69 μs 的组合显式溶剂分子动力学(MD)模拟,发现五种测试的胰蛋白酶变体之间,T195 连续不断地重新排列,并呈现出不同的构象偏好。在所观察到的 T195 残基的三个构象家族中,有一种表现出 T195 羟基的构象类似于野生型胰蛋白酶中丝氨酸残基的构象,使羟基氧原子定位在肽底物的羰基碳上进行攻击。MD 模拟表明,这种构象在 C42A/C58V/S195T 和 C42A/C58A/S195T 三重变体中更为常见,而在无活性的 S195T 变体中则更为常见,这与三重变体恢复的酶活性相关。此外,观察到 S214-G219 片段在 S195T 取代变体中的运动增加,表明底物结合口袋存在开放和关闭构象。封闭构象会阻止 S1 结合位点的进入,进一步降低三重变体的酶活性。具有完整丝氨酸残基的双变体(C42A/C58A/S195 和 C42A/C58V/S195)也表现出 S214-G219 片段的开闭构象之间的转换,但程度小于三重变体。S1 亚位点的构象灵活性增加,这在野生型中没有观察到,与酶活性降低相关,并提示了所测试的胰蛋白酶变体的底物调节可能模式。
