Author
Listed:
- Guoye Guan
(Peking University
Harvard Medical School
Dana-Farber Cancer Institute)
- Zelin Li
(City University of Hong Kong
Hong Kong Science Park)
- Yiming Ma
(Hong Kong Baptist University)
- Pohao Ye
(Hong Kong Baptist University)
- Jianfeng Cao
(City University of Hong Kong
Hong Kong Science Park
Harbin Institute of Technology (Shenzhen))
- Ming-Kin Wong
(Hong Kong Baptist University
Western University)
- Vincy Wing Sze Ho
(Hong Kong Baptist University
Chinese University of Hong Kong)
- Lu-Yan Chan
(Hong Kong Baptist University
Chinese University of Hong Kong)
- Hong Yan
(City University of Hong Kong
Hong Kong Science Park)
- Chao Tang
(Peking University
Peking University
Peking University)
- Zhongying Zhao
(Hong Kong Baptist University)
Abstract
How cells change shape is crucial for the development of tissues, organs and embryos. However, studying these shape changes in detail is challenging. Here we present a comprehensive real-time cellular map that covers over 95% of the cells formed during Caenorhabditis elegans embryogenesis, featuring nearly 400,000 3D cell regions. This map includes information on each cell’s identity, lineage, fate, shape, volume, surface area, contact area, and gene expression profiles, all accessible through our user-friendly software and website. Our map allows for detailed analysis of key developmental processes, including dorsal intercalation, intestinal formation, and muscle assembly. We show how Notch and Wnt signaling pathways, along with mechanical forces from cell interactions, regulate cell fate decisions and size asymmetries. Our findings suggest that repeated Notch signaling drives size disparities in the large excretory cell, which functions like a kidney. This work sets the stage for in-depth studies of the mechanisms controlling cell fate differentiation and morphogenesis.
Suggested Citation
Guoye Guan & Zelin Li & Yiming Ma & Pohao Ye & Jianfeng Cao & Ming-Kin Wong & Vincy Wing Sze Ho & Lu-Yan Chan & Hong Yan & Chao Tang & Zhongying Zhao, 2025.
"Cell lineage-resolved embryonic morphological map reveals signaling associated with cell fate and size asymmetry,"
Nature Communications, Nature, vol. 16(1), pages 1-24, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58878-0
DOI: 10.1038/s41467-025-58878-0
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