一种新型的螺旋肽多层结构。
A novel, multilayer structure of a helical peptide.
作者信息
Taylor K S, Lou M Z, Chin T M, Yang N C, Garavito R M
机构信息
Department of Biochemistry and Molecular Biology, University of Chicago, Illinois 60637, USA.
出版信息
Protein Sci. 1996 Mar;5(3):414-21. doi: 10.1002/pro.5560050302.
Abstract
X-ray diffraction analysis at 1.5 A resolution has confirmed the helical conformation of a de novo designed 18-residue peptide. However, the crystal structure reveals the formation of continuous molecular layers of parallel-packed amphiphilic helices as a result of much more extensive helix-helix interactions than predicted. The crystal packing arrangement, by virtue of distinct antiparallel packing interactions, segregates the polar and apolar surfaces of the helices into discrete and well-defined interfacial regions. An extensive "ridges-into-grooves" interdigitation characterizes the hydrophobic interface, whereas an extensive network of salt bridges and hydrogen bonds dominates the corresponding hydrophilic interface.
摘要
1.5埃分辨率的X射线衍射分析证实了一个从头设计的18残基肽的螺旋构象。然而,晶体结构揭示,由于螺旋-螺旋相互作用比预期的更为广泛,形成了平行堆积的两亲性螺旋的连续分子层。借助独特的反平行堆积相互作用,晶体堆积排列将螺旋的极性和非极性表面分隔到离散且明确的界面区域。疏水界面的特征是广泛的“脊-槽”相互交错,而盐桥和氢键的广泛网络则主导着相应的亲水界面。
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