抗毒素Phd的内在无序结构域陪伴毒素Doc,防止其不可逆失活和错误折叠。
The intrinsically disordered domain of the antitoxin Phd chaperones the toxin Doc against irreversible inactivation and misfolding.
作者信息
De Gieter Steven, Konijnenberg Albert, Talavera Ariel, Butterer Annika, Haesaerts Sarah, De Greve Henri, Sobott Frank, Loris Remy, Garcia-Pino Abel
机构信息
From Structural Biology Brussels, Department of Biotechnology (DBIT), Vrije Universiteit Brussel, Pleinlaan 2, B-1050 Brussels, Belgium, Molecular Recognition Unit (MoRe).
Biomolecular and Analytical Mass Spectrometry group, Department of Chemistry and.
出版信息
J Biol Chem. 2014 Dec 5;289(49):34013-23. doi: 10.1074/jbc.M114.572396. Epub 2014 Oct 16.
Abstract
The toxin Doc from the phd/doc toxin-antitoxin module targets the cellular translation machinery and is inhibited by its antitoxin partner Phd. Here we show that Phd also functions as a chaperone, keeping Doc in an active, correctly folded conformation. In the absence of Phd, Doc exists in a relatively expanded state that is prone to dimerization through domain swapping with its active site loop acting as hinge region. The domain-swapped dimer is not capable of arresting protein synthesis in vitro, whereas the Doc monomer is. Upon binding to Phd, Doc becomes more compact and is secured in its monomeric state with a neutralized active site.
摘要
来自phd/doc毒素-抗毒素模块的毒素Doc靶向细胞翻译机制,并被其抗毒素伴侣Phd抑制。我们在此表明,Phd还起着伴侣蛋白的作用,使Doc保持在活性、正确折叠的构象。在没有Phd的情况下,Doc以相对伸展的状态存在,易于通过结构域交换发生二聚化,其活性位点环充当铰链区。这种结构域交换的二聚体在体外不能阻止蛋白质合成,而Doc单体则可以。与Phd结合后,Doc变得更加紧凑,并以中和的活性位点稳定在单体状态。
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