Spence J, Gali R R, Dittmar G, Sherman F, Karin M, Finley D
Department of Cell Biology, Harvard Medical School, Boston, Massachusetts 02115, USA.
Cell. 2000 Jul 7;102(1):67-76. doi: 10.1016/s0092-8674(00)00011-8.
Ubiquitin is ligated to L28, a component of the large ribosomal subunit, to form the most abundant ubiquitin-protein conjugate in S. cerevisiae. The human ortholog of L28 is also ubiquitinated, indicating that this modification is highly conserved in evolution. During S phase of the yeast cell cycle, L28 is strongly ubiquitinated, while reduced levels of L28 ubiquitination are observed in G1 cells. L28 ubiquitination is inhibited by a Lys63 to Arg substitution in ubiquitin, indicating that L28 is modified by a variant, Lys63-linked multiubiquitin chain. The K63R mutant of ubiquitin displays defects in ribosomal function in vivo and in vitro, including a dramatic sensitivity to translational inhibitors. L28, like other ribosomal proteins, is metabolically stable. Therefore, these data suggest a regulatory role for multiubiquitin chains that is reversible and does not function to target the acceptor protein for degradation.
泛素与大核糖体亚基的一个组分L28连接,形成酿酒酵母中最丰富的泛素-蛋白质缀合物。L28的人类直系同源物也会发生泛素化,这表明这种修饰在进化过程中高度保守。在酵母细胞周期的S期,L28被强烈泛素化,而在G1期细胞中观察到L28泛素化水平降低。泛素中赖氨酸63突变为精氨酸会抑制L28泛素化,这表明L28被一种变体——赖氨酸63连接的多聚泛素链修饰。泛素的K63R突变体在体内和体外均表现出核糖体功能缺陷,包括对翻译抑制剂的显著敏感性。与其他核糖体蛋白一样,L28在代谢上是稳定的。因此,这些数据表明多聚泛素链具有可逆的调节作用,且其作用并非将受体蛋白靶向降解。