淀粉样蛋白原纤维的结构

K. Marshall, L. Serpell
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引用次数: 17

摘要

各种蛋白质和多肽能够自我组装成与疾病相关的淀粉样蛋白原纤维。这些纤维的结构特性受其不溶性和非均质性的限制。然而,包括x射线衍射、冷冻电子显微镜和固态核磁共振在内的各种技术的进步已经提供了各种淀粉样蛋白原纤维的详细信息,从远程顺序和大分子结构到促进淀粉样蛋白核心组装和稳定的原子相互作用。交叉模型已被广泛接受为大多数淀粉样蛋白原纤维的一般结构,并被详细讨论。然而,很明显,多态性是存在的,甚至在由相同的前体蛋白形成的原纤维中也是如此,这可能代表了分子水平上的包装差异。为了充分了解特定残基在淀粉样蛋白形成和结构中的作用,可以将短肽与诱变研究结合使用,以评估其作用。如果要在理解这些纤维形成的原因和如何防止它们形成方面取得进展,那么使用综合技术研究全长、疾病相关肽和短片段所获得的结构见解是必不可少的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Insights into the Structure of Amyloid Fibrils
Various proteins and peptides are able to self assemble into amyloid fibrils that are associated with disease. Structural characterisation of these fibres is limited by their insoluble and heterogeneous nature. However, advances in various techniques including X-ray diffraction, cryo-electron microscopy and solid state NMR have provided detailed information on various amyloid fibrils, from the long range order and macromolecular structure to the atomic interactions that promote assembly and stabilise the amyloid core. The cross- model has been widely accepted as a generic structure for most amyloid fibrils and is discussed in detail. It is clear, however, that polymorphisms are present, even in fibrils formed from the same precursor protein, and that these may represent differences in packing at a molecular level. To fully understand the roles of particular residues in amyloid formation and structure, short peptides can be used in conjunction with mutagenesis studies to assess their effects. The structural insights gained using a combination of techniques to study both full-length, disease related peptides and short fragments are essential if progress is to be made towards understanding why these fibres form and how to prevent their formation.
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