ETH Zurich, Institute of Molecular Biology & Biophysics, Zurich, Switzerland.
Mol Microbiol. 2010 Feb;75(3):744-54. doi: 10.1111/j.1365-2958.2009.07013.x. Epub 2009 Dec 16.
Proteasome-bearing bacteria make use of a ubiquitin-like modification pathway to target proteins for proteasomal turnover. In a process termed pupylation, proteasomal substrates are covalently modified with the small protein Pup that serves as a degradation signal. Pup is attached to substrate proteins by action of PafA. Prior to its attachment, Pup needs to undergo deamidation at its C-terminal residue, converting glutamine to glutamate. This step is catalysed in vitro by Dop. In order to characterize Dop activity in vivo, we generated a dop deletion mutant in Mycobacterium smegmatis. In the Deltadop strain, pupylation is severely impaired and the steady-state levels of two known proteasomal substrates are drastically increased. Pupylation can be re-established by complementing the mutant with either DopWt or a Pup variant carrying a glutamate at its ultimate C-terminal position (PupGGE). Our data show that Pup is deamidated by Dop in vivo and that likely Dop alone is responsible for this activity. Furthermore, we demonstrate that a putative N-terminal ATP-binding motif is crucial for catalysis, as a single point mutation (E10A) in this motif abolishes Dop activity both in vivo and in vitro.
带有蛋白酶体的细菌利用泛素样修饰途径将蛋白质靶向蛋白酶体进行降解。在被称为泛素化的过程中,蛋白酶体底物通过小蛋白 Pup 的共价修饰作为降解信号。Pup 通过 PafA 的作用连接到底物蛋白上。在附着之前,Pup 需要在其 C 末端残基上经历脱酰胺作用,将谷氨酰胺转化为谷氨酸。这一步在体外由 Dop 催化。为了在体内表征 Dop 的活性,我们在耻垢分枝杆菌中生成了 dop 缺失突变体。在 Deltadop 菌株中,泛素化严重受损,两种已知的蛋白酶体底物的稳态水平显著增加。通过用 DopWt 或在其最终 C 末端位置带有谷氨酸的 Pup 变体(PupGGE)互补突变体,可以重新建立泛素化。我们的数据表明,Pup 在体内被 Dop 脱酰胺,可能 Dop 单独负责此活性。此外,我们证明了一个假定的 N 端 ATP 结合基序对于催化至关重要,因为该基序中的单点突变(E10A)在体内和体外均使 Dop 失活。
