35 / 2026-03-21 20:36:05
Physical theory of epigenetic memory and its biological implications
Epigenetic memory,Histone modifications,Cellular senescence,Induced pluripotent stem cells
Abstract Pending
杰 林 / 北京大学
Epigenetic marks are essential for maintaining cell identity, yet how epigenetic memory is robustly preserved across cell divisions while remaining plastic during cell-state transitions remains unclear. Here, we develop a theory of epigenetic memory that incorporates chromatin compartmentalization and mark modifications, including long-range spreading, writing, and erasing. The spreading-writing-erasing model generates self-sustaining epigenetic mark patterns across multiple cell generations. The model also reveals that to induce or remove a heterochromatic compartment, the writing or erasing strength must exceed a finite threshold, which depends on the long-distance scaling of the contact probability between two chromatin loci. Intriguingly, the scaling exponent for human cells appears to be evolutionarily selected for robustness and plasticity in epigenetic memory. We demonstrate that adding noise in parental histone partitioning during DNA replication and accelerating cell proliferation enhance reprogramming efficiency in induced pluripotent stem cells. Finally, our theory also predicts cellular senescence arising from chromatin reorganization after many cell generations.
Important Date
  • Conference Date

    Apr 16

    2026

    to

    Apr 19

    2026

  • Apr 06 2026

    Draft paper submission deadline

Sponsored By
西北农林科技大学
西安交通大学
浙江大学
华中农业大学
中国遗传学会三维基因组学专委会
Organized By
西北农林科技大学
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