细菌蛋白酶体和 PafA（衔接酶）相互作用形成一个模块化的蛋白标记和降解机器。

Bacterial proteasome and PafA, the pup ligase, interact to form a modular protein tagging and degradation machine.

机构信息

Department of Life Sciences and ‡The National Institute for Biotechnology in the Negev, Ben-Gurion University of the Negev , Beer-Sheva 84105, Israel.

出版信息

Biochemistry. 2013 Dec 17;52(50):9029-35. doi: 10.1021/bi401017b. Epub 2013 Nov 20.

DOI:10.1021/bi401017b

PMID:24228735

Abstract

Proteasome-containing bacteria possess a tagging system that directs proteins to proteasomal degradation by conjugating them to a prokaryotic ubiquitin-like protein (Pup). A single ligating enzyme, PafA, is responsible for Pup conjugation to lysine side chains of protein substrates. As Pup is recognized by the regulatory subunit of the proteasome, Pup functions as a degradation tag. Pup presents overlapping regions for binding of the proteasome and PafA. It was, therefore, unclear whether Pup binding by the proteasome regulatory subunit, Mpa, and by PafA are mutually exclusive events. The work presented here provides evidence for the simultaneous interaction of Pup with both Mpa and PafA. Surprisingly, we found that PafA and Mpa can form a complex both in vitro and in vivo. Our results thus suggest that PafA and the proteasome can function as a modular machine for the tagging and degradation of cytoplasmic proteins.

摘要

含蛋白酶体的细菌拥有一种标记系统，通过将蛋白与一种原核类泛素蛋白（Pup）连接，将蛋白定向到蛋白酶体降解。一种单一的连接酶 PafA，负责将 Pup 连接到蛋白底物的赖氨酸侧链上。由于 Pup 被蛋白酶体的调节亚基识别，因此 Pup 可以作为降解标签。Pup 呈现出与蛋白酶体和 PafA 结合的重叠区域。因此，尚不清楚蛋白酶体调节亚基 Mpa 和 PafA 是否对 Pup 的结合是相互排斥的事件。这里呈现的工作为 Pup 与 Mpa 和 PafA 的同时相互作用提供了证据。令人惊讶的是，我们发现 PafA 和 Mpa 可以在体外和体内形成复合物。因此，我们的结果表明，PafA 和蛋白酶体可以作为细胞质蛋白标记和降解的模块化机器发挥作用。

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细菌蛋白酶体和 PafA（衔接酶）相互作用形成一个模块化的蛋白标记和降解机器。

Bacterial proteasome and PafA, the pup ligase, interact to form a modular protein tagging and degradation machine.

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