AAA+ Lon 蛋白酶的不同四级结构控制底物降解。
Distinct quaternary structures of the AAA+ Lon protease control substrate degradation.
机构信息
Department of Biology, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.
出版信息
Proc Natl Acad Sci U S A. 2013 May 28;110(22):E2002-8. doi: 10.1073/pnas.1307066110. Epub 2013 May 14.
Abstract
Lon is an ATPase associated with cellular activities (AAA+) protease that controls cell division in response to stress and also degrades misfolded and damaged proteins. Subunits of Lon are known to assemble into ring-shaped homohexamers that enclose an internal degradation chamber. Here, we demonstrate that hexamers of Escherichia coli Lon also interact to form a dodecamer at physiological protein concentrations. Electron microscopy of this dodecamer reveals a prolate structure with the protease chambers at the distal ends and a matrix of N domains forming an equatorial hexamer-hexamer interface, with portals of ∼45 Å providing access to the enzyme lumen. Compared with hexamers, Lon dodecamers are much less active in degrading large substrates but equally active in degrading small substrates. Our results support a unique gating mechanism that allows the repertoire of Lon substrates to be tuned by its assembly state.
摘要
Lon 是一种与细胞活动相关的 ATP 酶(AAA+)蛋白酶,它可以控制细胞分裂以响应应激,还可以降解错误折叠和受损的蛋白质。Lon 的亚基已知会组装成环形同六聚体,将内部降解腔封闭起来。在这里,我们证明大肠杆菌 Lon 的六聚体也可以在生理蛋白浓度下相互作用形成十二聚体。这种十二聚体的电子显微镜显示出一个拉长的结构,蛋白酶腔位于远端,N 结构域的基质形成一个赤道六聚体-六聚体界面,直径约为 45Å 的孔提供了进入酶腔的通道。与六聚体相比,Lon 十二聚体在降解大底物时的活性要低得多,但在降解小底物时的活性相当。我们的结果支持一种独特的门控机制,该机制允许 Lon 底物的范围通过其组装状态进行调整。
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