Mingrui Ding, Danni Wang, Hui Chen, Barry Kesner, Niklas-Benedikt Grimm, Uri Weissbein, Anna Lappala, Jiying Jiang, Carlos Rivera, Jizhong Lou, Pilong Li, Jeannie T. Lee
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引用次数: 0
摘要
当它在染色体上顺式传播时,Xist RNA启动X的失活。在这里,我们揭示了其顺式有限扩散的生物物理基础。Xist RNA和HNRNPK一起驱动包裹染色体的液-液相分离(LLPS)。HNRNPK液滴拉住Xist并内化RNA。一旦内化,Xist诱导进一步的相变并“软化”HNRNPK液滴。Xist在体外改变冷凝物的变形性、黏附性和润湿性。其他与Xist相互作用的蛋白质被内化并被包裹在液滴中,从而在冷凝物中形成Xist和蛋白质伙伴的浓度。我们将LLPS归因于HNRNPK的RGG和Xist的repeat B (RepB)基序。这些基序的突变会导致Xist的扩散,破坏多梳的招募,并阻止Xist迁移所需的染色体区室混合。因此,我们假设HNRNPK凝聚体中的相变允许Xist局部集中沉默因子并通过HNRNPK包裹染色体的内部通道传播。
A biophysical basis for the spreading behavior and limited diffusion of Xist
Xist RNA initiates X inactivation as it spreads in cis across the chromosome. Here, we reveal a biophysical basis for its cis-limited diffusion. Xist RNA and HNRNPK together drive a liquid-liquid phase separation (LLPS) that encapsulates the chromosome. HNRNPK droplets pull on Xist and internalize the RNA. Once internalized, Xist induces a further phase transition and “softens” the HNRNPK droplet. Xist alters the condensate’s deformability, adhesiveness, and wetting properties in vitro. Other Xist-interacting proteins are internalized and entrapped within the droplet, resulting in a concentration of Xist and protein partners within the condensate. We attribute LLPS to HNRNPK’s RGG and Xist’s repeat B (RepB) motifs. Mutating these motifs causes Xist diffusion, disrupts polycomb recruitment, and precludes the required mixing of chromosomal compartments for Xist’s migration. Thus, we hypothesize that phase transitions in HNRNPK condensates allow Xist to locally concentrate silencing factors and to spread through internal channels of the HNRNPK-encapsulated chromosome.
期刊介绍:
Cells is an international, peer-reviewed, open access journal that focuses on cell biology, molecular biology, and biophysics. It is affiliated with several societies, including the Spanish Society for Biochemistry and Molecular Biology (SEBBM), Nordic Autophagy Society (NAS), Spanish Society of Hematology and Hemotherapy (SEHH), and Society for Regenerative Medicine (Russian Federation) (RPO).
The journal publishes research findings of significant importance in various areas of experimental biology, such as cell biology, molecular biology, neuroscience, immunology, virology, microbiology, cancer, human genetics, systems biology, signaling, and disease mechanisms and therapeutics. The primary criterion for considering papers is whether the results contribute to significant conceptual advances or raise thought-provoking questions and hypotheses related to interesting and important biological inquiries.
In addition to primary research articles presented in four formats, Cells also features review and opinion articles in its "leading edge" section, discussing recent research advancements and topics of interest to its wide readership.
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