c -钙粘蛋白外结构域间链二聚体界面的强制解离。

M V Bayas, K Schulten, D Leckband
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引用次数: 0

摘要

利用定向分子动力学模拟研究了c -钙粘蛋白中链二聚体界面的力诱导解离。在从各自的疏水口袋中提取保守的色氨酸(Trp2)后,发生了解离,没有结构域解开。模拟结果显示,Trp2侧链在口袋内有两个稳定的位置。内部最稳定的位置是在Trp2的内环和Glu90的主羰基之间有一个氢键。在第二稳定位置,芳香环位于口袋入口处。将这两个色氨酸从它们的口袋中提取出来后,该复合物处于中间结合状态,其中色氨酸与两个结构域的残基Asp1和Asp27紧密结合。这种残基联系被破坏后,就发生了解离。用W2A突变体之间形成的复合物进行的模拟表明,突变型复合物比野生型复合物更容易解离。这些结果与先前由位点定向诱变提出的保守色氨酸的作用密切相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Forced dissociation of the strand dimer interface between C-cadherin ectodomains.

The force-induced dissociation of the strand dimer interface in C-cadherin has been studied using steered molecular dynamics simulations. The dissociation occurred, without domain unraveling, after the extraction of the conserved trypthophans (Trp2) from their respective hydrophobic pockets. The simulations revealed two stable positions for the Trp2 side chain inside the pocket. The most internal stable position involved a hydrogen bond between the ring Nepsilon of Trp2 and the backbone carbonyl of Glu90. In the second stable position, the aromatic ring is located at the pocket entrance. After extracting the two tryptophans from their pockets, the complex exists in an intermediate bound state that involves a close packing of the tryptophans with residues Asp1 and Asp27 from both domains. Dissociation occurred after this residue association was broken. Simulations carried out with a complex formed between W2A mutants showed that the mutant complex dissociates more easily than the wild type complex does. These results correlate closely with the role of the conserved tryptophans suggested previously by site directed mutagenesis.

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