Heterogenous organization in condensates of multiple transcription factors in embryonic stem cells

Azuki Mizutani, Cheng Tan, Yuji Sugita, Shoji Takada
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Abstract

Biomolecular condensates formed via liquid-liquid phase separation are ubiquitous in cells, especially in the nucleus. While condensates containing one or two kinds of biomolecules have been relatively well characterized, those with more hetero-genous biomolecular components and interactions between biomolecules inside are largely unknown. This study used resi-due-resolution molecular dynamics simulations to investigate heterogeneous protein assemblies that include four master tran-scription factors in mammalian embryonic stem cells: Oct4, Sox2, Klf4, and Nanog. Simulations of the mixture systems showed highly heterogeneous and dynamic behaviors; the condensates mainly contained Sox2, Klf4, and Nanog, while Oct4 was dissolved into the dilute phase. Condensates consisted of loosely interacting clusters in which Klf4 was the most abun-dant in the cores. We suggest that Klf4 serves as a scaffold of the condensate where Sox2 and Nanog are bound to stabilize the condensate, whereas Oct4 is moderately recruited to the condensate, serving as a client mainly via its interaction with Sox2.
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胚胎干细胞中多种转录因子凝聚体的异质组织
通过液-液相分离形成的生物分子凝聚物在细胞中无处不在,尤其是在细胞核中。虽然含有一种或两种生物分子的凝聚体已具有相对较好的特征,但那些含有更多异源生物分子成分的凝聚体以及内部生物分子之间的相互作用在很大程度上还不为人所知。本研究利用再分辨分子动力学模拟来研究哺乳动物胚胎干细胞中包含四种主转录因子的异质蛋白质组装:Oct4、Sox2、Klf4 和 Nanog。混合物系统的模拟显示出高度异质性和动态行为;凝聚物主要包含 Sox2、Klf4 和 Nanog,而 Oct4 则溶解在稀释相中。凝结物由松散的相互作用簇组成,其中 Klf4 在核心中的含量最高。我们认为,Klf4是凝集物的支架,Sox2和Nanog与之结合以稳定凝集物,而Oct4被适度招募到凝集物中,主要通过与Sox2的相互作用充当客户。
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