独特的双重对称血红素结合位点的结构

Structure of a unique twofold symmetric haem-binding site.

作者信息

Frolow F, Kalb A J, Yariv J

机构信息

Department of Chemical Services, Weizmann Institute of Science, Rehovot, Israel.

出版信息

Nat Struct Biol. 1994 Jul;1(7):453-60. doi: 10.1038/nsb0794-453.

DOI:10.1038/nsb0794-453

PMID:7664064

Abstract

Bacterioferritin of Escherichia coli, also known as cytochrome b1, is a hollow, nearly spherical shell made up of 24 identical protein subunits and 12 haems. We have solved this structure in a tetragonal crystal form at 2.9 A resolution. We find that each haem is bound in a pocket formed by the interface between a pair of symmetry-related subunits. The quasi-twofold axis of the haem is closely aligned with the local twofold axis relating these subunits. The axial ligands of the haem are sulphurs of two equivalent methionyl residues (Met 52) from the symmetry-related subunits. A cluster of four water molecules is trapped in the gap between the upper edge of the haem and two extended protein loops which close off the haem from the outer aqueous environment. This is the first structure of a bis-methionine ligated haem-binding site and the first case of a twofold symmetric haem-binding site.

摘要

大肠杆菌的细菌铁蛋白，也被称为细胞色素b1，是一个由24个相同蛋白质亚基和12个血红素组成的中空、近乎球形的外壳。我们已以四方晶型在2.9埃分辨率下解析了该结构。我们发现每个血红素都结合在由一对对称相关亚基之间的界面形成的口袋中。血红素的准二重轴与连接这些亚基的局部二重轴紧密对齐。血红素的轴向配体是来自对称相关亚基的两个等效甲硫氨酰残基（甲硫氨酸52）的硫原子。四个水分子簇被困在血红素上边缘与两个延伸的蛋白质环之间的间隙中，这两个蛋白质环将血红素与外部水环境隔离开。这是双甲硫氨酸连接的血红素结合位点的首个结构，也是二重对称血红素结合位点的首个实例。

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独特的双重对称血红素结合位点的结构

Structure of a unique twofold symmetric haem-binding site.

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