工程化荧光蛋白底物用于 AAA+ Lon 蛋白酶。

Engineering fluorescent protein substrates for the AAA+ Lon protease.

机构信息

Department of Biology, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.

出版信息

Protein Eng Des Sel. 2013 Apr;26(4):299-305. doi: 10.1093/protein/gzs105. Epub 2013 Jan 28.

DOI:10.1093/protein/gzs105

PMID:23359718

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3716333/

Abstract

AAA+ proteases, such as Escherichia coli Lon, recognize protein substrates by binding to specific peptide degrons and then unfold and translocate the protein into an internal degradation chamber for proteolysis. For some AAA+ proteases, attaching specific degrons to the N- or C-terminus of green fluorescent protein (GFP) generates useful substrates, whose unfolding and degradation can be monitored by loss of fluorescence, but Lon fails to degrade appropriately tagged GFP variants at a significant rate. Here, we demonstrate that Lon catalyzes robust unfolding and degradation of circularly permuted variants of GFP with a β20 degron appended to the N terminus or a sul20 degron appended to the C terminus. Lon degradation of non-permuted GFP-sul20 is very slow, in part because the enzyme cannot efficiently extract the degron-proximal C-terminal β-strand to initiate denaturation. The circularly permuted GFP substrates described here allow convenient high-throughput assays of the kinetics of Lon degradation in vitro and also permit assays of Lon proteolysis in vivo.

摘要

AAA+ 蛋白酶，如大肠杆菌 Lon，通过结合特定的肽降解基团来识别蛋白质底物，然后将蛋白质展开并转移到内部降解室进行蛋白水解。对于一些 AAA+ 蛋白酶，将特定的降解基团连接到绿色荧光蛋白 (GFP) 的 N-或 C-末端可产生有用的底物，其展开和降解可通过荧光损失来监测，但 Lon 并不能以显著的速度降解适当标记的 GFP 变体。在这里，我们证明 Lon 可以催化具有 N 末端附加 β20 降解基团或 C 末端附加 sul20 降解基团的环形排列 GFP 变体的强大展开和降解。Lon 对非排列 GFP-sul20 的降解非常缓慢，部分原因是酶不能有效地提取降解基团近端的 C 末端 β-链来启动变性。这里描述的环形排列 GFP 底物允许方便地进行体外 Lon 降解动力学的高通量测定，并且还允许进行体内 Lon 蛋白水解的测定。

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