c端螺旋在精氨酸结合蛋白构象转变中的作用

IF 3.5 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Vinothini Santhakumar, Nahren Manuel Mascarenhas
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引用次数: 0

摘要

海洋热藻精氨酸结合蛋白(TmArgBP)是一种外质结合蛋白,其c端(CTH)有一个短螺旋,在两条链之间交换。我们应用粗粒度结构模型(SBM)和全原子MD模拟来了解CTH在该蛋白构象转变中的机制和作用。当比较存在和不存在CTH时TmArgBP的SBM模拟结果时,我们发现CTH策略性地位于结合口袋的后部,限制了开放状态构象,从而分离了对封闭状态的访问。我们还对开放态TmArgBP进行了含CTH和不含CTH的全原子MD模拟,发现在没有CTH的情况下,该蛋白可以在250 ns内达到关闭态,而在CTH存在的情况下,该蛋白主要保持其开放态构象。从没有CTH的无配体封闭构象开始的模拟中,蛋白质在两种状态之间表现出多次转变,表明CTH是稳定开放构象的必要结构元件。在另一种模拟中,以CTH的非配体封闭状态构象开始,蛋白质能够进入开放状态。在这个模拟中,观察到CTH重新定位自身以与蛋白质相互作用,强调其在协助构象变化中的作用。基于我们的发现,我们认为CTH不仅作为一种结构元件,限制了蛋白质的开放状态,而且还可以在配体解结合时引导蛋白质回到开放状态构象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The role of C-terminal helix in the conformational transition of an arginine binding protein

The role of C-terminal helix in the conformational transition of an arginine binding protein

The role of C-terminal helix in the conformational transition of an arginine binding protein

The role of C-terminal helix in the conformational transition of an arginine binding protein

The thermotoga maritima arginine binding protein (TmArgBP) is a periplasmic binding protein that has a short helix at the C-terminal end (CTH), which is swapped between the two chains. We apply a coarse-grained structure-based model (SBM) and all-atom MD simulation on this protein to understand the mechanism and the role of CTH in the conformational transition. When the results of SBM simulations of TmArgBP in the presence and absence of CTH are compared, we find that CTH is strategically located at the back of the binding pocket restraining the open-state conformation thereby disengaging access to the closed-state. We also ran all-atom MD simulations of open-state TmArgBP with and without CTH and discovered that in the absence of CTH the protein could reach the closed-state within 250 ns, while in its presence, the protein remained predominantly in its open-state conformation. In the simulation started from unliganded closed-state conformation without CTH, the protein exhibited multiple transitions between the two states, suggesting CTH as an essential structural element to stabilize the open-state conformation. In another simulation that began with an unliganded closed-state conformation with CTH, the protein was able to access the open-state. In this simulation the CTH was observed to reorient itself to interact with the protein emphasizing its role in assisting the conformational change. Based on our findings, we believe that CTH not only acts as a structural element that constraints the protein in its open-state but it may also guide the protein back to its open-state conformation upon ligand unbinding.

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来源期刊
Journal of Structural Biology: X
Journal of Structural Biology: X Biochemistry, Genetics and Molecular Biology-Structural Biology
CiteScore
6.50
自引率
0.00%
发文量
20
审稿时长
62 days
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