74 / 2024-10-18 20:19:38
3D chromatin structures associated with ncRNA roX2 for hyperactivation and coactivation across the entire X chromosome
RDD,3D genome,noncoding RNA,roX2,dosage compensation
Abstract Accepted
TianSimon Zhongyuan / 南方科技大学
杨炀 / 南方科技大学
宁铎 / 南方科技大学
FangKe / 南方科技大学
荆凯 / 南方科技大学
黄光裕 / 南方科技大学
徐烨文 / 南方科技大学
殷鹏飞 / 南方科技大学
黄海波 / 中国农业科学院农业基因组研究所
陈庚展 / 南方科技大学
邓玉清 / 南方科技大学
ZhangShaohong / 南方科技大学
张智敏 / 南方科技大学
陈振夏 / 华中农业大学
高潼 / 南方科技大学
ChenWei / 南方科技大学
李国亮 / 华中农业大学
TianRuilin / 南方科技大学
阮一骏 / 浙江大学
LiYiming / 南方科技大学
郑梅珍 / 南方科技大学
The three-dimensional (3D) organization of chromatin within the nucleus is crucial for gene regulation. However, the 3D architectural features that coordinate the activation of an entire chromosome remain largely unknown. We introduce an omics method, RNA-associated chromatin DNA-DNA interactions, that integrates RNA polymerase II (RNAPII)–mediated regulome with stochastic optical reconstruction microscopy to investigate the landscape of noncoding RNA roX2-associated chromatin topology for gene equalization to achieve dosage compensation. Our findings reveal that roX2 anchors to the target gene transcription end sites (TESs) and spreads in a distinctive boot-shaped configuration, promoting a more open chromatin state for hyperactivation. Furthermore, roX2 arches TES to transcription start sites to enhance transcriptional loops, potentially facilitating RNAPII convoying and connecting proximal promoter-promoter transcriptional hubs for synergistic gene regulation. These TESs cluster as roX2 compartments, surrounded by inactive domains for coactivation of multiple genes within the roX2 territory. In addition, roX2 structures gradually form and scaffold for stepwise coactivation in dosage compensation.
Important Date
  • Conference Date

    Oct 31

    2024

    to

    Nov 03

    2024

  • Nov 03 2024

    Registration deadline

Sponsored By
崖州湾国家实验室
华中农业大学
浙江大学
中国遗传学会
中国遗传学会三维基因组学专委会
Organized By
中国生物信息学基因组信息学专委会
中国遗传学会表观遗传分会
中国细胞生物学学会染色质生物学分会
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