42 / 2024-10-02 15:15:46
Cohesin ensures architectural coupling of replication forks
replication forks, fork coupling, genome stablity
Abstract Accepted
胡家志 / 北京大学
DNA replication encounters numerous chromatin metabolic activities during the elongation process, yet the organization of multiple replication forks in mammalian cells and the impact of chromatin structures on DNA replication remain poorly understood. To address this, we developed the replication-associated in situ HiC (Repli-HiC) method to capture chromatin interactions involving nascent DNA, identifying over 2,600 fountain-like chromatin contact structures, indicative of replication fork coupling in human cells. Here, our findings demonstrate that two replication forks can be tethered in various ways, including architectural tethering by Cohesin and functional tethering by AND1. Dysfunction in Cohesin results in the failure to couple adjacent replication forks, while increasing the coupling of distal replication forks. Moreover, perturbation of fork coupling leads to fork instability, failure to restart stalled forks, and an increase in DNA breaks and chromosomal translocations, particularly enriched in chromatin fountain regions. These findings reveal the molecular mechanisms and physiological roles of fork coupling, offering new insights into the role of 3D genomics in DNA replication progression within mammalian cells.
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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