染色质
生物
后转座子
CTCF公司
同源盒
遗传学
基因组
内源性逆转录病毒
染色质重塑
轨迹控制区
细胞生物学
抄写(语言学)
人类基因组
转录因子
斑马鱼
基因表达调控
母子转换
转座因子
面肩肱型肌营养不良
基因
计算生物学
胚胎干细胞
人类遗传学
发育生物学
表观遗传学
基因组进化
转录调控
嘉雅宠物
细胞分化
组蛋白
Cas9
流动遗传元素
作者
Leilei Gao,Qifeng Gao,Na Hai,Ziqiang Wu,Penghui Li,Han Kang,Xiaohui Song,Jinlian Hua,Shiqiang Zhang,Gang Ren,Jihong Yang,Leqian Yu,Yulei Wei,Junjun Ding,Fan Yang
出处
期刊:Protein & Cell
[Springer Science+Business Media]
日期:2026-03-10
被引量:1
标识
DOI:10.1093/procel/pwag014
摘要
The acquisition of totipotency requires transcriptional activation of endogenous retroviruses (MERVL/HERVL) and zygotic genome activation (ZGA) related genes, yet the molecular mechanisms linking chromatin architecture to this process remain elusive. Here, we demonstrate that mouse Dux and human DUX4, double homeobox transcription factors essential for totipotency, form liquid-liquid phase-separated (LLPS) condensates through conserved arginine residues within intrinsically disordered regions (IDRs) in the Homeobox domain. These condensates recruit CBP/p300 and CTCF to establish super-enhancers (SEs) at MERVL/MT2 loci, enabling H3K27ac deposition and chromatin accessibility. Hi-C analysis revealed that DUX-driven phase separation facilitates 3D genome reorganization, including de novo formation of enhancer-promoter loops and TAD boundary shifts. Disruption of LLPS (DUXR70A) abolished SE assembly, transcriptional activation, and embryonic chimerism. Strikingly, human DUX4 required phase separation for both myotoxic gene activation and cytotoxicity in facioscapulohumeral muscular dystrophy (FSHD) models. Our study establishes a paradigm wherein phase separation integrates transcriptional control with 3D genome remodeling to license totipotency, with direct implications for developmental biology and disease therapy.
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