Prevalent conformations and subunit exchange in the biologically active apoptin protein multimer.

European journal of biochemistry Pub Date : 2003-09-01 DOI:10.1046/j.1432-1033.2003.03750.x

Sirik R Leliveld, Mathieu H M Noteborn, Jan Pieter Abrahams

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引用次数: 13

Abstract

Recombinant, bacterially expressed apoptin protein induces apoptosis in human tumour cell lines but not in normal cells, mimicking the behaviour of ectopically expressed apoptin. Recombinant apoptin is isolated exclusively as a highly stable multimeric complex of 30-40 monomers, with little, if any, alpha-helical and beta-sheet structure. Despite its apparent disorder, multimeric apoptin is biologically active. Here, we present evidence that most of the apoptin moieties within the complex may well share a similar conformation. Furthermore, the multimer has extensive and uniform hydrophobic patches and conformationally stable domains. Only a small fraction of apoptin subunits can exchange between multimers under physiologically relevant conditions. These results prompt a model in which the apoptin multimer has a highly stable core of nonexchangeable subunits to which exchangeable subunits are attached through hydrophobic interactions. In combination with previous findings, our results lead us to propose that the stable core of apoptin is the biologically relevant structure.

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生物活性凋亡蛋白多聚体的普遍构象和亚基交换。

重组，细菌表达的凋亡蛋白诱导人肿瘤细胞系凋亡，而不是正常细胞，模仿异位表达的凋亡蛋白的行为。重组细胞凋亡素是一种高度稳定的多聚复合物，由30-40个单体组成，几乎没有α -螺旋和β -片结构。尽管多聚体细胞凋亡蛋白明显紊乱，但它具有生物活性。在这里，我们提出的证据表明，复合体内的大多数凋亡蛋白片段可能具有相似的构象。此外，多聚体具有广泛而均匀的疏水斑块和构象稳定的结构域。在生理相关条件下，只有一小部分凋亡素亚基可以在多聚体之间交换。这些结果提示了一个模型，其中凋亡蛋白多聚体具有高度稳定的不可交换亚基核心，可交换亚基通过疏水相互作用附着在核心上。结合先前的研究结果，我们的结果使我们提出凋亡蛋白的稳定核心是生物学相关结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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European journal of biochemistry

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