Jemc Jennifer, Rebay Ilaria
Department of Biology, Massachusetts Institute of Technology, Cambridge, Massachusetts 02142, USA.
Annu Rev Biochem. 2007;76:513-38. doi: 10.1146/annurev.biochem.76.052705.164916.
Integration of multiple signaling pathways at the level of their transcriptional effectors provides an important strategy for fine-tuning gene expression and ensuring a proper program of development. Posttranslational modifications, such as phosphorylation, play important roles in modulating transcription factor activity. The discovery that the transcription factor Eyes absent (Eya) possesses protein phosphatase activity provides an interesting new paradigm. Eya may regulate the phosphorylation state of either itself or its transcriptional cofactors, thereby directly affecting transcriptional output. The identification of a growing number of transcription factors with enzymic activity suggests that such dual-function proteins exert greater control of signaling events than previously imagined. Given the conservation of both its phosphatase and transcription factor activity across mammalian species, Eya provides an excellent model for studying how a single protein integrates these two functions under the influence of multiple signaling pathways to promote development.
在转录效应因子水平上整合多个信号通路,为精确调节基因表达和确保正常发育程序提供了重要策略。翻译后修饰,如磷酸化,在调节转录因子活性方面发挥重要作用。转录因子无眼(Eya)具有蛋白磷酸酶活性这一发现提供了一个有趣的新范例。Eya可能调节自身或其转录辅因子的磷酸化状态,从而直接影响转录输出。越来越多具有酶活性的转录因子的鉴定表明,这类双功能蛋白对信号事件的控制比以前想象的更大。鉴于其磷酸酶和转录因子活性在哺乳动物物种中的保守性,Eya为研究单个蛋白如何在多个信号通路的影响下整合这两种功能以促进发育提供了一个极佳的模型。