Bird T H, Du S, Bauer C E
Department of Biology, Indiana University, Bloomington, Indiana 47405, USA.
J Biol Chem. 1999 Jun 4;274(23):16343-8. doi: 10.1074/jbc.274.23.16343.
In the purple, photosynthetic bacterium, Rhodobacter capsulatus, the RegB/RegA two-component system is required for activation of several anaerobic processes, such as synthesis of the photosynthetic apparatus and assimilation of CO2 and N2. It is believed that RegB is an integral membrane histidine kinase that monitors the external environment. Under anaerobic growth conditions, it transduces a signal through phosphorylation of the response regulator, RegA, which then induces target gene expression. We used an in vitro assay to characterize the phosphorylation of wild-type RegA and a mutant variant (RegA*) that is responsible for abnormally high photosynthesis gene expression under both aerobic and anaerobic growth conditions. Phosphorylation assays indicate that phosphorylated RegA* (RegA* approximately P) is much more stable than RegA approximately P, indicating that it may be locked in a conformation that is resistant to dephosphorylation. DNase I footprint assays also indicate that unphosphorylated RegA* has a much higher affinity for specific DNA binding sites than the wild-type protein. Phosphorylation of RegA* increases DNA binding 2. 5-fold, whereas phosphorylation of RegA increases DNA binding more than 16-fold. Collectively, these results support the hypothesis that RegA* is a constitutively active variant that does not require phosphorylation to assume a structural conformation required to bind DNA.
在紫色光合细菌荚膜红细菌(Rhodobacter capsulatus)中,RegB/RegA双组分系统是激活多种厌氧过程所必需的,如光合装置的合成以及二氧化碳和氮气的同化。据信RegB是一种监测外部环境的整合膜组氨酸激酶。在厌氧生长条件下,它通过响应调节因子RegA的磷酸化来转导信号,然后RegA诱导靶基因表达。我们使用体外试验来表征野生型RegA和一种突变变体(RegA*)的磷酸化情况,该突变变体在有氧和厌氧生长条件下均导致光合作用基因异常高表达。磷酸化试验表明,磷酸化的RegA*(RegA*P)比RegAP稳定得多,这表明它可能锁定在一种抗去磷酸化的构象中。DNase I足迹试验还表明,未磷酸化的RegA对特定DNA结合位点的亲和力比野生型蛋白高得多。RegA的磷酸化使DNA结合增加2.5倍,而RegA的磷酸化使DNA结合增加超过16倍。总体而言,这些结果支持以下假设:RegA*是一种组成型活性变体,不需要磷酸化就能呈现出结合DNA所需的结构构象。
