Marcoux Julien, Politis Argyris, Rinehart Dennis, Marshall David P, Wallace Mark I, Tamm Lukas K, Robinson Carol V
Chemistry Research Laboratory, University of Oxford, Oxford OX1 3TA, UK.
Department of Molecular Physiology and Biological Physics, University of Virginia, Charlottesville, VA 22908, USA.
Structure. 2014 May 6;22(5):781-90. doi: 10.1016/j.str.2014.03.004. Epub 2014 Apr 17.
The transmembrane domain of the outer membrane protein A (OmpA) from Escherichia coli is an excellent model for structural and folding studies of β-barrel membrane proteins. However, full-length OmpA resists crystallographic efforts, and the link between its function and tertiary structure remains controversial. Here we use site-directed mutagenesis and mass spectrometry of different constructs of OmpA, released in the gas phase from detergent micelles, to define the minimal region encompassing the C-terminal dimer interface. Combining knowledge of the location of the dimeric interface with molecular modeling and ion mobility data allows us to propose a low-resolution model for the full-length OmpA dimer. Our model of the dimer is in remarkable agreement with experimental ion mobility data, with none of the unfolding or collapse observed for full-length monomeric OmpA, implying that dimer formation stabilizes the overall structure and prevents collapse of the flexible linker that connects the two domains.
大肠杆菌外膜蛋白A(OmpA)的跨膜结构域是β-桶状膜蛋白结构和折叠研究的优秀模型。然而,全长OmpA难以结晶,其功能与三级结构之间的联系仍存在争议。在这里,我们使用定点诱变和对从去污剂胶束中气相释放的不同OmpA构建体进行质谱分析,来确定包含C端二聚体界面的最小区域。将二聚体界面位置的知识与分子建模和离子迁移数据相结合,使我们能够提出全长OmpA二聚体的低分辨率模型。我们的二聚体模型与实验离子迁移数据高度一致,全长单体OmpA未观察到任何展开或塌陷现象,这意味着二聚体的形成稳定了整体结构,并防止了连接两个结构域的柔性接头塌陷。