Sims Joshua J, Cohen Robert E
Department of Biochemistry and Molecular Biology, Bloomberg School of Public Health, Johns Hopkins University, Baltimore, MD 21205, USA.
Mol Cell. 2009 Mar 27;33(6):775-83. doi: 10.1016/j.molcel.2009.02.011.
Linkage-specific polyubiquitin recognition is thought to make possible the diverse set of functional outcomes associated with ubiquitination. Thus far, mechanistic insight into this selectivity has been largely limited to single domains that preferentially bind to lysine 48-linked polyubiquitin (K48-polyUb) in isolation. Here, we propose a mechanism, linkage-specific avidity, in which multiple ubiquitin-binding domains are arranged in space so that simultaneous, high-affinity interactions are optimum with one polyUb linkage but unfavorable or impossible with other polyUb topologies and monoUb. Our model is human Rap80, which contains tandem ubiquitin interacting motifs (UIMs) that bind to K63-polyUb at DNA double-strand breaks. We show how the sequence between the Rap80 UIMs positions the domains for efficient avid binding across a single K63 linkage, thus defining selectivity. We also demonstrate K48-specific avidity in a different protein, ataxin-3. Using tandem UIMs, we establish the general principles governing polyUb linkage selectivity and affinity in multivalent ubiquitin receptors.
特异性连接的多聚泛素识别被认为使得与泛素化相关的各种功能结果成为可能。到目前为止,对这种选择性的机制性理解在很大程度上仅限于那些在孤立状态下优先结合赖氨酸48连接的多聚泛素(K48-多聚泛素,K48-polyUb)的单个结构域。在此,我们提出一种机制,即连接特异性亲和力,其中多个泛素结合结构域在空间上排列,使得同时发生的高亲和力相互作用与一种多聚泛素连接方式最为适配,但与其他多聚泛素拓扑结构和单泛素则不利或不可能。我们的模型是人类Rap80,它包含串联的泛素相互作用基序(UIMs),这些基序在DNA双链断裂处与K63-多聚泛素结合。我们展示了Rap80 UIMs之间的序列如何定位这些结构域,以便在单个K63连接上进行有效的亲和力结合,从而确定选择性。我们还在另一种蛋白质ataxin-3中证明了K48特异性亲和力。使用串联UIMs,我们确立了多价泛素受体中多聚泛素连接选择性和亲和力的一般原则。