Quantitative cell morphology inC. elegansembryos reveals regulations of cell volume asymmetry

Guoye Guan; Zelin Li; Yiming Ma; Jianfeng Cao; Ming-Kin Wong; Lu-Yan Chan; Hong Yan; Chao Tang; Zhongying Zhao

doi:10.1101/2023.11.20.567849

Quantitative cell morphology inC. elegansembryos reveals regulations of cell volume asymmetry

Guoye Guan, Zelin Li, Yiming Ma, Jianfeng Cao, Ming-Kin Wong, Lu-Yan Chan, Hong Yan^*, Chao Tang^*, Zhongying Zhao^*

^*Corresponding author for this work

Research output: Working paper › Preprint

Abstract

The dynamics of cellular morphology throughout development are crucial for morphogenesis and organogenesis, yet their systematic characterization remains a significant challenge. By integrating both nuclear position and advanced cell membrane labeling, we develop a novel method that enables the segmentation of surfaces for over 95% of cells produced during Caenorhabditis elegans embryogenesis. With this method, we segment eight wild-type and four perturbed embryos. The output, including cell identity, shape, volume, surface and contact area, can be visualized using our custom software. We demonstrate that signaling interactions, such as Notch and Wnt, regulate not only the asymmetry of cell fate but also the asymmetry of cell volume in conjunction with mechanical compression. Furthermore, we find that the asymmetries of fate and volume are generally interconnected.

Original language	English
Publisher	Cold Spring Harbor Laboratory Press
DOIs	https://doi.org/10.1101/2023.11.20.567849
Publication status	Published - 20 Nov 2023

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Name	bioRxiv

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10.1101/2023.11.20.567849

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abstract = "The dynamics of cellular morphology throughout development are crucial for morphogenesis and organogenesis, yet their systematic characterization remains a significant challenge. By integrating both nuclear position and advanced cell membrane labeling, we develop a novel method that enables the segmentation of surfaces for over 95% of cells produced during Caenorhabditis elegans embryogenesis. With this method, we segment eight wild-type and four perturbed embryos. The output, including cell identity, shape, volume, surface and contact area, can be visualized using our custom software. We demonstrate that signaling interactions, such as Notch and Wnt, regulate not only the asymmetry of cell fate but also the asymmetry of cell volume in conjunction with mechanical compression. Furthermore, we find that the asymmetries of fate and volume are generally interconnected.",

author = "Guoye Guan and Zelin Li and Yiming Ma and Jianfeng Cao and Ming-Kin Wong and Lu-Yan Chan and Hong Yan and Chao Tang and Zhongying Zhao",

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AU - Guan, Guoye

AU - Li, Zelin

AU - Ma, Yiming

AU - Cao, Jianfeng

AU - Wong, Ming-Kin

AU - Chan, Lu-Yan

AU - Yan, Hong

AU - Tang, Chao

AU - Zhao, Zhongying

PY - 2023/11/20

Y1 - 2023/11/20

N2 - The dynamics of cellular morphology throughout development are crucial for morphogenesis and organogenesis, yet their systematic characterization remains a significant challenge. By integrating both nuclear position and advanced cell membrane labeling, we develop a novel method that enables the segmentation of surfaces for over 95% of cells produced during Caenorhabditis elegans embryogenesis. With this method, we segment eight wild-type and four perturbed embryos. The output, including cell identity, shape, volume, surface and contact area, can be visualized using our custom software. We demonstrate that signaling interactions, such as Notch and Wnt, regulate not only the asymmetry of cell fate but also the asymmetry of cell volume in conjunction with mechanical compression. Furthermore, we find that the asymmetries of fate and volume are generally interconnected.

AB - The dynamics of cellular morphology throughout development are crucial for morphogenesis and organogenesis, yet their systematic characterization remains a significant challenge. By integrating both nuclear position and advanced cell membrane labeling, we develop a novel method that enables the segmentation of surfaces for over 95% of cells produced during Caenorhabditis elegans embryogenesis. With this method, we segment eight wild-type and four perturbed embryos. The output, including cell identity, shape, volume, surface and contact area, can be visualized using our custom software. We demonstrate that signaling interactions, such as Notch and Wnt, regulate not only the asymmetry of cell fate but also the asymmetry of cell volume in conjunction with mechanical compression. Furthermore, we find that the asymmetries of fate and volume are generally interconnected.

U2 - 10.1101/2023.11.20.567849

DO - 10.1101/2023.11.20.567849

M3 - Preprint

T3 - bioRxiv

BT - Quantitative cell morphology inC. elegansembryos reveals regulations of cell volume asymmetry

PB - Cold Spring Harbor Laboratory Press

ER -

Quantitative cell morphology inC. elegansembryos reveals regulations of cell volume asymmetry

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