突变和修饰支持α-晶状体蛋白的“凹坑-柔性球”模型。

Mutations and modifications support a 'pitted-flexiball' model for alpha-crystallin.

作者信息

Smulders R H, van Boekel M A, de Jong W W

机构信息

Department of Biochemistry, University of Nijmegen, The Netherlands.

出版信息

Int J Biol Macromol. 1998 May-Jun;22(3-4):187-96. doi: 10.1016/s0141-8130(98)00016-6.

DOI:10.1016/s0141-8130(98)00016-6

PMID:9650073

Abstract

alpha-Crystallin is renown for resisting crystallization and electron microscopic image analysis. The spatial conformation thus remaining elusive, the authors explored the structure and chaperone functioning by analyzing the effects of site-directed mutagenesis, the properties of naturally occurring aberrant forms of alpha-crystallin and the influence of chemical modifications. The authors observed that the globular multimeric structure, as well as the chaperoning capacity are remarkably tolerant towards changes and modifications in the primary structure. The essential features of the quaternary structure--globular shape, flexibility, highly polar exterior and accessible hydrophobic surface pockets--support a 'pitted-flexiball' model, which combines tetrameric subunit building blocks in an open micelle-like arrangement.

摘要

α-晶状体蛋白以其抗结晶性和电子显微镜图像分析而闻名。由于其空间构象仍然难以捉摸，作者通过分析定点诱变的影响、α-晶状体蛋白天然存在的异常形式的特性以及化学修饰的影响，探索了其结构和伴侣功能。作者观察到，球状多聚体结构以及伴侣能力对一级结构的变化和修饰具有显著的耐受性。四级结构的基本特征——球状形状、柔韧性、高度极性的外部和可及的疏水表面口袋——支持一种“坑状柔性球”模型，该模型以开放的胶束样排列组合四聚体亚基构建块。

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突变和修饰支持α-晶状体蛋白的“凹坑-柔性球”模型。

Mutations and modifications support a 'pitted-flexiball' model for alpha-crystallin.

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