Huang Kexin, Ferrin-O'Connell Ian, Zhang Wei, Leonard Gordon A, O'Shea Erin K, Quiocho Florante A
Verna and Marrs McLean Department of Biochemistry and Molecular Biology, Baylor College of Medicine, Houston, TX 77030, USA.
Mol Cell. 2007 Nov 30;28(4):614-23. doi: 10.1016/j.molcel.2007.09.013.
The ability to sense and respond appropriately to environmental changes is a primary requirement of all living organisms. In response to phosphate limitation, Saccharomyces cerevisiae induces transcription of a set of genes involved in the regulation of phosphate acquisition from the ambient environment. A signal transduction pathway (the PHO pathway) mediates this response, with Pho85-Pho80 playing a vital role. Here we report the X-ray structure of Pho85-Pho80, a prototypic structure of a CDK-cyclin complex functioning in transcriptional regulation in response to environmental changes. The structure revealed a specific salt link between a Pho85 arginine and a Pho80 aspartate that makes phosphorylation of the Pho85 activation loop dispensable and that maintains a Pho80 loop conformation for possible substrate recognition. It further showed two sites on the Pho80 cyclin for high-affinity binding of the transcription factor substrate (Pho4) and the CDK inhibitor (Pho81) that are markedly distant to each other and the active site.
感知并对环境变化做出适当反应的能力是所有生物的一项基本要求。为应对磷酸盐限制,酿酒酵母会诱导一组参与从周围环境获取磷酸盐调控的基因转录。一条信号转导通路(PHO通路)介导这种反应,其中Pho85 - Pho80起着至关重要的作用。在此我们报告Pho85 - Pho80的X射线结构,这是一种在响应环境变化的转录调控中发挥作用的CDK - 细胞周期蛋白复合物的原型结构。该结构揭示了Pho85精氨酸与Pho80天冬氨酸之间的特定盐桥连接,这使得Pho85激活环的磷酸化变得不必要,并维持了Pho80环的构象以实现可能的底物识别。它还进一步显示了Pho80细胞周期蛋白上的两个位点,用于转录因子底物(Pho4)和CDK抑制剂(Pho81)的高亲和力结合,这两个位点彼此之间以及与活性位点都明显相距较远。