潜在的ClpX识别信号确保DNA损伤后LexA的降解。
Latent ClpX-recognition signals ensure LexA destruction after DNA damage.
作者信息
Neher Saskia B, Flynn Julia M, Sauer Robert T, Baker Tania A
机构信息
Department of Biology and Howard Hughes Medical Institute, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA.
出版信息
Genes Dev. 2003 May 1;17(9):1084-9. doi: 10.1101/gad.1078003.
Abstract
The DNA-damage response genes in bacteria are up-regulated when LexA repressor undergoes autocatalytic cleavage stimulated by activated RecA protein. Intact LexA is stable to intracellular degradation but its auto-cleavage fragments are degraded rapidly. Here, both fragments of LexA are shown to be substrates for the ClpXP protease. ClpXP recognizes these fragments using sequence motifs that flank the auto-cleavage site but are dormant in intact LexA. Furthermore, ClpXP degradation of the LexA-DNA-binding fragment is important to cell survival after DNA damage. These results demonstrate how one protein-processing event can activate latent protease recognition signals, triggering a cascade of protein turnover in response to environmental stress.
摘要
当LexA阻遏物在活化的RecA蛋白刺激下进行自催化切割时,细菌中的DNA损伤反应基因会上调。完整的LexA对细胞内降解具有稳定性,但其自切割片段会迅速降解。在这里,LexA的两个片段都被证明是ClpXP蛋白酶的底物。ClpXP利用位于自切割位点两侧但在完整LexA中处于休眠状态的序列基序识别这些片段。此外,LexA-DNA结合片段的ClpXP降解对DNA损伤后的细胞存活很重要。这些结果表明了一个蛋白质加工事件如何激活潜在的蛋白酶识别信号,从而触发一系列蛋白质周转以应对环境压力。
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