大肠杆菌 IgG 结合蛋白 D 的结构为三聚体自转运黏附素的弯曲和结合提供了一个通用模型。

The structure of E. coli IgG-binding protein D suggests a general model for bending and binding in trimeric autotransporter adhesins.

机构信息

Macromolecular Crystallography Group, Institute of Biotechnology, University of Helsinki, 00014 Helsinki, Finland.

出版信息

Structure. 2011 Jul 13;19(7):1021-30. doi: 10.1016/j.str.2011.03.021.

DOI:10.1016/j.str.2011.03.021

Abstract

The Escherichia coli Ig-binding (Eib) proteins are trimeric autotransporter adhesins (TAAs) and receptors for IgG Fc. We present the structure of a large fragment of the passenger domain of EibD, the first TAA structure to have both a YadA-like head domain and the entire coiled-coil stalk. The stalk begins as a right-handed superhelix, but switches handedness halfway down. An unexpected β-minidomain joins the two and inserts a ∼120° rotation such that there is no net twist between the beginning and end of the stalk. This may be important in folding and autotransport. The surprisingly large cavities we found in EibD and other TAAs may explain how TAAs bend to bind their ligands. We identified how IgA and IgG bind and modeled the EibD-IgG Fc complex. We further show that EibD promotes autoagglutination and biofilm formation and forms a fibrillar layer covering the cell surface making zipper-like contacts between cells.

摘要

大肠杆菌免疫球蛋白结合（Eib）蛋白是三聚体自转运黏附素（TAAs）和 IgG Fc 的受体。我们呈现了 EibD 载体结构域的一个大片段的结构，这是第一个具有 YadA 样头部结构域和整个卷曲螺旋柄的 TAA 结构。柄部开始时是右手超螺旋，但在中间部分切换手性。一个意想不到的β-微结构域连接两者，并插入一个约 120°的旋转，使得柄部的起始端和末端之间没有净扭转。这在折叠和自转运中可能很重要。我们在 EibD 和其他 TAAs 中发现的令人惊讶的大空腔可能解释了 TAAs 如何弯曲以结合它们的配体。我们确定了 IgA 和 IgG 的结合方式，并对 EibD-IgG Fc 复合物进行了建模。我们进一步表明，EibD 促进自身聚集和生物膜形成，并形成覆盖细胞表面的纤维状层，在细胞之间形成拉链状接触。

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大肠杆菌 IgG 结合蛋白 D 的结构为三聚体自转运黏附素的弯曲和结合提供了一个通用模型。

The structure of E. coli IgG-binding protein D suggests a general model for bending and binding in trimeric autotransporter adhesins.

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