Cook W J, Jeffrey L C, Kasperek E, Pickart C M
Department of Pathology, University of Alabama at Birmingham 35294.
J Mol Biol. 1994 Feb 18;236(2):601-9. doi: 10.1006/jmbi.1994.1169.
Eukaryotic proteins are targeted for degradation by covalent ligation of multiubiquitin chains. In these multiubiquitin chains, successive ubiquitins are linked by an isopeptide bond involving the side chain of Lys48 and the carboxyl group of the C-terminus (Gly76). The crystal structure of a tetraubiquitin chain (Ub4) has been determined and refined at 2.4 A resolution. The molecule exhibits both translational and 2-fold rotational symmetry; each pair of (rotationally symmetric) ubiquitin molecules in Ub4 is related to the next pair by a simple translation. The 2-fold symmetry in each pair of ubiquitin molecules is quite different from the 2-fold symmetry observed in the previously determined structure of isolated diubiquitin. There are multiple hydrophilic contacts among the four ubiquitin molecules, but the hydrophobic surface formed in the middle of diubiquitin is not seen. The structure of the tetraubiquitin chain demonstrates how a multiubiquitin chain of any length can be formed.
真核生物蛋白质通过多聚泛素链的共价连接而被靶向降解。在这些多聚泛素链中,连续的泛素通过涉及赖氨酸48侧链和C末端(甘氨酸76)羧基的异肽键相连。已确定并以2.4埃分辨率精修了四聚泛素链(Ub4)的晶体结构。该分子呈现平移对称性和二重旋转对称性;Ub4中每一对(旋转对称的)泛素分子与下一对通过简单平移相关。每一对泛素分子中的二重对称性与先前确定的分离双聚泛素结构中观察到的二重对称性有很大不同。四个泛素分子之间存在多个亲水接触,但在双聚泛素中间形成的疏水表面未出现。四聚泛素链的结构展示了任何长度的多聚泛素链是如何形成的。