一种用于稳定相关β链末端的改进封端单元。
An improved capping unit for stabilizing the ends of associated β-strands.
作者信息
Anderson Jordan M, Kier Brandon L, Shcherbakov Alexander A, Andersen Niels H
机构信息
Department of Chemistry, University of Washington, Seattle, WA 98195, United States.
出版信息
FEBS Lett. 2014 Dec 20;588(24):4749-53. doi: 10.1016/j.febslet.2014.11.006. Epub 2014 Nov 15.
Abstract
Understanding protein beta structures has been hindered by the challenge of designing small, well-folded β-sheet systems. A β-capping motif was previously designed to help solve this problem, but not without limitations, as the termini of this β-cap were not fully available for chain extension. Combining Coulombic side chain attractions with a Trp/Trp edge-to-face interaction we produced a new capping motif that provided greater β-sheet stability. This stability was maintained even in systems lacking a turn locus with a high propensity for chain direction reversal. The Coulombic cap was shown to improve β-sheet stability in a number of difficult systems, hence providing an additional tool for protein structure and folding studies.
摘要
设计小型、折叠良好的β-折叠系统面临挑战,这阻碍了对蛋白质β结构的理解。先前设计了一种β-帽基序来帮助解决这个问题,但并非没有局限性,因为这个β-帽的末端不能完全用于链延伸。我们将库仑侧链吸引力与色氨酸/色氨酸面对面相互作用相结合,产生了一种新的帽基序,它能提供更高的β-折叠稳定性。即使在缺乏具有高链方向反转倾向的转角位点的系统中,这种稳定性也能得以维持。结果表明,库仑帽在许多困难的系统中都能提高β-折叠的稳定性,从而为蛋白质结构和折叠研究提供了一个额外的工具。
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