由相同半桶结构设计而成的人工（βα）8桶状蛋白质的高分辨率晶体结构。

High-resolution crystal structure of an artificial (betaalpha)(8)-barrel protein designed from identical half-barrels.

作者信息

Höcker Birte, Lochner Adriane, Seitz Tobias, Claren Jörg, Sterner Reinhard

机构信息

Max Planck Institute for Developmental Biology, Spemannstrasse 35, D-72076 Tubingen, Germany.

出版信息

Biochemistry. 2009 Feb 17;48(6):1145-7. doi: 10.1021/bi802125b.

DOI:10.1021/bi802125b

PMID:19166324

Abstract

Ample evidence suggests that the ubiquitous (betaalpha)(8)-barrel enzyme fold has evolved by the duplication and fusion of an ancestral (betaalpha)(4)-half-barrel. To reconstruct this process in the laboratory with a model protein, we earlier fused two copies of the C-terminal half-barrel HisF-C of imidazole glycerol phosphate synthase (HisF) and stepwise stabilized the resulting HisF-CC construct. We now further increased its stability and solubility by introducing two additional amino acid exchanges, which allowed us to crystallize the resulting artificial (betaalpha)(8)-barrel protein HisF-C***C. The analysis of its X-ray structure at 2.1 A resolution reveals a striking similarity to wild-type HisF, helps us to understand its improved stability, and provides further insights into the evolution of (betaalpha)(8)-barrel proteins.

摘要

大量证据表明，普遍存在的（βα）8桶状酶折叠结构是由祖先的（βα）4半桶状结构的复制和融合进化而来的。为了在实验室中用模型蛋白重建这一过程，我们之前将咪唑甘油磷酸合酶（HisF）的C端半桶状结构HisF-C的两个拷贝融合，并逐步稳定所得的HisF-CC构建体。现在，我们通过引入另外两个氨基酸置换进一步提高了其稳定性和溶解性，这使我们能够结晶出所得的人工（βα）8桶状蛋白HisF-C***C。对其2.1埃分辨率的X射线结构分析显示，它与野生型HisF有着惊人的相似性，有助于我们理解其提高的稳定性，并为（βα）8桶状蛋白的进化提供进一步的见解。

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High-resolution crystal structure of an artificial (betaalpha)(8)-barrel protein designed from identical half-barrels.由相同半桶结构设计而成的人工（βα）8桶状蛋白质的高分辨率晶体结构。

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由相同半桶结构设计而成的人工（βα）8桶状蛋白质的高分辨率晶体结构。

High-resolution crystal structure of an artificial (betaalpha)(8)-barrel protein designed from identical half-barrels.

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