Judith A Sharp, Emily Sparago, Rachael Thomas, Kaitlyn Alimenti, Wei Wang, Michael D Blower
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引用次数: 0
摘要
SAF-A在整个脊椎动物中都是保守的,它已成为调节多种核功能的重要因子,包括lncRNA定位、基因表达和剪接。SAF-A 有几个功能域,包括一个直接与 DNA 结合的 N 端 SAP 结构域。SAP结构域丝氨酸S14和S26的磷酸化对有丝分裂期间SAF-A的定位和功能非常重要,但这些丝氨酸是否参与了SAF-A的间期功能尚不清楚。在本研究中,我们检测了 SAP 结构域、SAP 结构域丝氨酸 S14 和 S26 在 X 染色体失活、蛋白质动力学、基因表达、剪接和细胞增殖中的作用。在这里,我们发现 SAP 结构域丝氨酸 S14 和 S26 是维持雌性细胞中无活性 X 染色体上 XIST RNA 定位和多聚酶依赖性组蛋白修饰所必需的。此外,我们还提出了Xi定位信号存在于SAP结构域的证据。我们发现,SAP结构域不是维持基因表达所必需的,而且在mRNA剪接过程中只起次要作用。与此相反,SAF-A 的 SAP 结构域,尤其是丝氨酸 S14 和 S26,是正常蛋白质动态和维持正常细胞增殖所必需的。我们提出了一个模型,根据该模型,SAF-A 丝氨酸 S14 和 S26 的动态磷酸化介导了 SAF-A 在间期与 DNA 相互作用的快速转换。
Role of the SAF-A SAP domain in X inactivation, transcription, splicing, and cell proliferation
SAF-A is conserved throughout vertebrates and has emerged as an important factor regulating a multitude of nuclear functions, including lncRNA localization, gene expression, and splicing. SAF-A has several functional domains, including an N-terminal SAP domain that binds directly to DNA. Phosphorylation of SAP domain serines S14 and S26 are important for SAF-A localization and function during mitosis, however whether these serines are involved in interphase functions of SAF-A is not known. In this study we tested for the role of the SAP domain, and SAP domain serines S14 and S26 in X chromosome inactivation, protein dynamics, gene expression, splicing, and cell proliferation. Here we show that the SAP domain serines S14 and S26 are required to maintain XIST RNA localization and polycomb-dependent histone modifications on the inactive X chromosome in female cells. In addition, we present evidence that an Xi localization signal resides in the SAP domain. We found that that the SAP domain is not required to maintain gene expression and plays only a minor role in mRNA splicing. In contrast, the SAF-A SAP domain, in particular serines S14 and S26, are required for normal protein dynamics, and to maintain normal cell proliferation. We propose a model whereby dynamic phosphorylation of SAF-A serines S14 and S26 mediates rapid turnover of SAF-A interactions with DNA during interphase.