Department of Biophysics and Biophysical Chemistry, Johns Hopkins University School of Medicine, 725 N. Wolfe Street, WBSB 706, Baltimore, MD 21205, USA.
Department of Physiology and Biophysics, University of California, Irvine, 825 Health Sciences Road, Irvine, CA 92697, USA.
Structure. 2023 Jul 6;31(7):884-890.e2. doi: 10.1016/j.str.2023.05.006. Epub 2023 Jun 1.
Ubiquitin phosphorylation at Ser65 increases the population of a rare C-terminally retracted (CR) conformation. Transition between the Major and CR ubiquitin conformations is critical for promoting mitochondrial degradation. The mechanisms by which the Major and CR conformations of Ser65-phosphorylated (pSer65) ubiquitin interconvert, however, remain unresolved. Here, we perform all-atom molecular dynamics simulations using the string method with swarms of trajectories to calculate the lowest free-energy path between these two conformers. Our analysis reveals the existence of a Bent intermediate in which the C-terminal residues of the β5 strand shift to resemble the CR conformation, while pSer65 retains contacts resembling the Major conformation. This stable intermediate was reproduced in well-tempered metadynamics calculations but was less stable for a Gln2Ala mutant that disrupts contacts with pSer65. Lastly, dynamical network modeling reveals that the transition from the Major to CR conformations involves a decoupling of residues near pSer65 from the adjacent β1 strand.
丝氨酸 65 位的泛素磷酸化增加了一种罕见的 C 端回缩(CR)构象的比例。主要构象和 CR 构象之间的转换对于促进线粒体降解至关重要。然而,Ser65 磷酸化(pSer65)泛素的主要构象和 CR 构象之间相互转换的机制仍未解决。在这里,我们使用带有轨迹群的串方法进行全原子分子动力学模拟,以计算这两种构象之间的最低自由能路径。我们的分析表明,存在一种弯曲的中间状态,其中β5 链的 C 末端残基移动,类似于 CR 构象,而 pSer65 保留与主要构象相似的接触。这种稳定的中间状态在经过良好调整的元动力学计算中得到了重现,但对于 Gln2Ala 突变体来说,这种中间状态不太稳定,因为它破坏了与 pSer65 的接触。最后,动态网络建模表明,从主要构象到 CR 构象的转变涉及到 pSer65 附近的残基与相邻的β1 链的解耦。