Department of Biochemistry, University of Western Ontario, London, Ontario, Canada N6A 5C1.
J Mol Biol. 2011 Apr 1;407(3):425-38. doi: 10.1016/j.jmb.2011.01.047. Epub 2011 Feb 4.
Cell division cycle protein 34 (CDC34) is a key E2 ubiquitin (Ub)-conjugating enzyme responsible for the polyubiquitination of proteins controlling the G1/S stages of cell division. The acidic C-terminus of the enzyme is required for this function, although there is little structural information providing details for a mechanism. One logical time point involving the C-terminus is the CDC34-Ub thiolester complex that precedes Ub transfer to a substrate. To examine this, we used a CDC34-Ub disulfide complex that structurally mimics the thiolester intermediate. NMR spectroscopy was used to show that the CDC34 C-terminus is disordered but can intramolecularly interact with the catalytically bound Ub. Using chemical shift perturbation analysis, we mapped two interacting regions on the surface of Ub in the CDC34-Ub complex. The first site comprises a hydrophobic patch (typical of other Ub complexes) that associates with the CDC34 catalytic domain. A novel second site, dependent on the C-terminus of CDC34, comprises a lysine-rich surface (K6, K11, K29, and K33) on the opposite face of Ub. Further, NMR experiments show that this interaction is described by two slowly exchanging states-a compact conformation where the C-terminus of CDC34 interacts with bound Ub and an extended structure where the C-terminus is released. This work provides the first structural details that show how the C-terminus of CDC34 might direct a thiolester-bound Ub to control polyubiquitin chain formation.
细胞分裂周期蛋白 34(CDC34)是一种关键的 E2 泛素(Ub)连接酶,负责控制细胞分裂 G1/S 期的蛋白质多泛素化。该酶的酸性 C 末端对于该功能是必需的,尽管几乎没有结构信息提供有关机制的详细信息。涉及 C 末端的一个合乎逻辑的时间点是 CDC34-Ub 硫酯酶复合物,该复合物先于 Ub 转移至底物。为了检查这一点,我们使用了一种结构上模拟硫酯中间产物的 CDC34-Ub 二硫键复合物。NMR 光谱用于表明 CDC34 C 末端无序,但可以与催化结合的 Ub 进行分子内相互作用。使用化学位移扰动分析,我们在 CDC34-Ub 复合物中定位了 Ub 表面的两个相互作用区域。第一个位点包含一个疏水面(与其他 Ub 复合物典型),与 CDC34 催化结构域结合。第二个新位点,依赖于 CDC34 的 C 末端,包含 Ub 反面的富含赖氨酸的表面(K6、K11、K29 和 K33)。此外,NMR 实验表明,这种相互作用由两个缓慢交换的状态来描述-一种紧凑的构象,其中 CDC34 的 C 末端与结合的 Ub 相互作用,以及一种扩展的结构,其中 C 末端被释放。这项工作提供了第一个结构细节,表明 CDC34 的 C 末端如何指导硫酯酶结合的 Ub 来控制多泛素链形成。
