细菌细胞表面层蛋白SbsC的结构与结合行为

The structure and binding behavior of the bacterial cell surface layer protein SbsC.

作者信息

Pavkov Tea, Egelseer Eva M, Tesarz Manfred, Svergun Dmitri I, Sleytr Uwe B, Keller Walter

机构信息

Institute of Molecular Biosciences, Structural Biology, University of Graz, Humboldtsrasse 50/3, 8010 Graz, Austria.

出版信息

Structure. 2008 Aug 6;16(8):1226-37. doi: 10.1016/j.str.2008.05.012.

DOI:10.1016/j.str.2008.05.012

PMID:18682224

Abstract

Surface layers (S-layers) comprise the outermost cell envelope component of most archaea and many bacteria. Here we present the structure of the bacterial S-layer protein SbsC from Geobacillus stearothermophilus, showing a very elongated and flexible molecule, with strong and specific binding to the secondary cell wall polymer (SCWP). The crystal structure of rSbsC((31-844)) revealed a novel fold, consisting of six separate domains, which are connected by short flexible linkers. The N-terminal domain exhibits positively charged residues regularly spaced along the putative ligand binding site matching the distance of the negative charges on the extended SCWP. Upon SCWP binding, a considerable stabilization of the N-terminal domain occurs. These findings provide insight into the processes of S-layer attachment to the underlying cell wall and self-assembly, and also accommodate the observed mechanical strength, the polarity of the S-layer, and the pronounced requirement for surface flexibility inherent to cell growth and division.

摘要

表层（S层）是大多数古细菌和许多细菌最外层的细胞包膜成分。在此，我们展示了嗜热栖热放线菌的细菌S层蛋白SbsC的结构，该蛋白呈现出非常细长且灵活的分子结构，能与次生细胞壁聚合物（SCWP）发生强烈且特异性的结合。重组SbsC（(31 - 844)）的晶体结构揭示了一种新的折叠方式，由六个独立的结构域组成，这些结构域通过短的柔性连接子相连。N端结构域沿着假定的配体结合位点呈现出规则间隔的带正电残基，其间距与延伸的SCWP上的负电荷距离相匹配。在SCWP结合后，N端结构域会发生显著的稳定化。这些发现为S层附着于下层细胞壁以及自我组装的过程提供了见解，同时也解释了所观察到的机械强度、S层的极性以及细胞生长和分裂所固有的对表面灵活性的显著需求。

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细菌细胞表面层蛋白SbsC的结构与结合行为

The structure and binding behavior of the bacterial cell surface layer protein SbsC.

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