Remodeling of Three-Dimensional Genome Architecture in Cardiac Development and Senescence
ID:104 View Protection:ATTENDEE Updated Time:2024-10-27 17:31:26 Hits:1527 Invited speech

Start Time:2024-11-02 17:45(Asia/Shanghai)

Duration:15min

Session:S6 分会场三:三维基因组成像 / 三维基因组调控 » s6-1分会场三:三维基因组成像 / 三维基因组调控

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Abstract
Better understanding of heart development and aging could help reveal the mechanisms of heart-associated diseases. We used the Tibetan pig, a miniature swine breed, as a human heart model. We applied in situ Hi-C and single nuclei RNA-seq, and examined changes in higher-order chromatin structure and transcription regulation from the fetal period (late development) to sexual maturity (young adult) and early senescence to understand their roles in physiological development and aging. We observed structural changes of the three-dimensional genome at multiple scales from territories to loops/PEIs.
  1. Von Neumann entropy and compartmentalization strength indexes indicated higher plasticity and disorganization of chromatin structure in fetal and senescent stages, respectively, compared with that of the young adults.
  2. Changes in intensity of B-B interactions and correlation between sequence features and A/B compartment switches revealed that heterochromatin gradually stacked and relaxed during development and senescence, respectively.
  3. A finer examination of TADs and loops/PEIs showed higher correlation of gene expression and TAD connectivity, more space between dynamic boundaries and their targeted genes, and stronger ‘loop skew’ towards A compartments indicating that young adults tend to have more accurate regulation of transcription through finer control of chromatin structure dynamics.
  4. Monotonic increases in long-range interactions and decreases in short-range interactions throughout development and senescence also indicate the gradual loss of chromatin conformation plasticity.
  5. We also observed dynamic changes of expression profiles for functional relevant genes, accompanying the structural changes of the three-dimensional genome at multiple scales.
This study investigated 3D chromatin conformation in the heart in vivo across periods of development and senescence, and we observed similar features in fetal and senescent individuals compared with young adults. Additionally, by focusing on the late stage of development and the early stage of aging, this study expands our understanding of development and senescence in a broader temporal dimension because previous studies have mainly examined early stages of development or late stages of aging independently. Interestingly, the late stage of development showed similar chromatin structure features compared with early development, and the early stage of aging showed similar characteristics compared with late senescence. In summary, our study delivers a comprehensive view of in vivo chromatin structure dynamics during both development and aging, and provides novel insights into 3D chromatin conformation characteristics of late development and early senescence.
Keywords
Hi-C,heart development,RNA_-seq,heart aging
Speaker
唐茜子 (Qianzi Tang)
四川农业大学 (Sichuan Agricultural University)

Submission Author
唐茜子 四川农业大学
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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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