OMP肽通过与活性和非活性构象的差异结合来调节DegS蛋白酶的活性。
OMP peptides modulate the activity of DegS protease by differential binding to active and inactive conformations.
作者信息
Sohn Jungsan, Sauer Robert T
机构信息
Department of Biology, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.
出版信息
Mol Cell. 2009 Jan 16;33(1):64-74. doi: 10.1016/j.molcel.2008.12.017.
Abstract
Upon sensing misfolded outer-membrane porins (OMPs) in the periplasm, the E. coli DegS protease cleaves RseA, a transmembrane regulator, transmitting a signal to activate cytoplasmic gene expression. Misfolding is detected by binding of normally inaccessible OMP sequences to the DegS-PDZ domain, which relieves allosteric inhibition and activates proteolysis. Here we show that DegS stimulation can be regulated by OMP peptide affinity for the active and for the inactive protease conformations, as well as by preferential substrate binding to active DegS. Based on the effects of mutations in the peptide-binding pocket of the PDZ domain and elsewhere, we suggest an allosteric pathway that links peptide binding to DegS activation. These results explain fast responses to envelope stress; demonstrate that the protein-unfolding response, even under catastrophic conditions, can be tailored by the peptide sequences that become accessible to DegS; and suggest strategies for control of related PDZ proteases by allosteric effectors.
摘要
当在周质中检测到错误折叠的外膜孔蛋白(OMP)时,大肠杆菌DegS蛋白酶会切割跨膜调节因子RseA,从而传递激活细胞质基因表达的信号。通过正常情况下无法接近的OMP序列与DegS-PDZ结构域结合来检测错误折叠,这会解除变构抑制并激活蛋白水解作用。在此我们表明,DegS刺激可通过OMP肽对活性和非活性蛋白酶构象的亲和力以及优先底物与活性DegS的结合来调节。基于PDZ结构域和其他位置肽结合口袋中突变的影响,我们提出了一条将肽结合与DegS激活联系起来的变构途径。这些结果解释了对包膜应激的快速反应;证明即使在灾难性条件下,蛋白质错误折叠反应也可由DegS可接近的肽序列进行调整;并提出了通过变构效应物控制相关PDZ蛋白酶的策略。
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