Tong Yufeng, Hughes David, Placanica Lisa, Buck Matthias
Department of Physiology and Biophysics, Case Western Reserve University School of Medicine, Cleveland, Ohio 44106, USA.
Structure. 2005 Jan;13(1):7-15. doi: 10.1016/j.str.2004.10.018.
Oligomerization is important for the structure and function of many proteins, but frequently complicates their characterization. It is often desirable to obtain the protein in monomeric form. Here, we report a strategy that allows the generation of monomers from weakly associated oligomers but does not require knowledge of the three-dimensional structure of the protein. The dynamics of protein association are used in solution NMR spectroscopy to identify regions of the polypeptide chain that are likely to be responsible for the interaction. Protein sequence analysis further refines the selection, as conserved sites with moderate hydrophobicity are targeted for modification. Gel filtration and activity assays straightforwardly reveal the consequences of the change and are used to screen for the desired mutants. The strategy is demonstrated for the Rac1 binding domain of plexin-B1. A monomeric variant is generated which preserves the Rac1 binding activity and the wild-type protein structure.
寡聚化对许多蛋白质的结构和功能很重要,但常常使它们的表征变得复杂。通常希望获得单体形式的蛋白质。在此,我们报告了一种策略,该策略能够从弱关联的寡聚物中生成单体,但不需要了解蛋白质的三维结构。溶液核磁共振波谱利用蛋白质缔合的动力学来识别多肽链中可能负责相互作用的区域。蛋白质序列分析进一步优化选择,因为具有适度疏水性的保守位点被作为修饰目标。凝胶过滤和活性测定直接揭示了变化的结果,并用于筛选所需的突变体。该策略已在丛状蛋白B1的Rac1结合域中得到验证。生成了一种单体变体,它保留了Rac1结合活性和野生型蛋白质结构。