Ste11转录因子的Cdk磷酸化将分化特异性转录限制在G1期。
Cdk phosphorylation of the Ste11 transcription factor constrains differentiation-specific transcription to G1.
作者信息
Kjaerulff Søren, Andersen Nicoline Resen, Borup Mia Trolle, Nielsen Olaf
机构信息
Institute of Molecular Biology and Physiology, University of Copenhagen, DK-1353 Copenhagen K, Denmark.
出版信息
Genes Dev. 2007 Feb 1;21(3):347-59. doi: 10.1101/gad.407107.
Abstract
Eukaryotic cells normally differentiate from G(1); here we investigate the mechanism preventing expression of differentiation-specific genes outside G(1). In fission yeast, induction of the transcription factor Ste11 triggers sexual differentiation. We find that Ste11 is only active in G(1) when Cdk activity is low. In the remaining part of the cell cycle, Ste11 becomes Cdk-phosphorylated at Thr 82 (T82), which inhibits its DNA-binding activity. Since the ste11 gene is autoregulated and the Ste11 protein is highly unstable, this Cdk switch rapidly extinguishes Ste11 activity when cells enter S phase. When we mutated T82 to aspartic acid, mimicking constant phosphorylation, cells no longer underwent differentiation. Conversely, changing T82 to alanine rendered Ste11-controlled transcription constitutive through the cell cycle, and allowed mating from S phase with increased frequency. Thus, Cdk phosphorylation mediates periodic expression of Ste11 and its target genes, and we suggest this to be part of the mechanism restricting differentiation to G(1).
摘要
真核细胞通常从G1期开始分化;在此我们研究阻止分化特异性基因在G1期之外表达的机制。在裂殖酵母中,转录因子Ste11的诱导会触发有性分化。我们发现,当细胞周期蛋白依赖性激酶(Cdk)活性较低时,Ste11仅在G1期具有活性。在细胞周期的其余阶段,Ste11在苏氨酸82(T82)位点被Cdk磷酸化,这会抑制其DNA结合活性。由于ste11基因是自我调节的,且Ste11蛋白高度不稳定,当细胞进入S期时,这种Cdk开关会迅速消除Ste11的活性。当我们将T82突变为天冬氨酸,模拟持续磷酸化时,细胞不再进行分化。相反,将T82变为丙氨酸使Ste11控制的转录在整个细胞周期中组成性表达,并使细胞从S期开始交配的频率增加。因此,Cdk磷酸化介导了Ste11及其靶基因的周期性表达,我们认为这是将分化限制在G1期的机制的一部分。
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