数字 3D 参考图谱揭示了塑造胚珠的细胞生长模式。

A digital 3D reference atlas reveals cellular growth patterns shaping the ovule.

机构信息

Plant Developmental Biology, School of Life Sciences, Technical University of Munich, Freising, Germany.

Department of Comparative Development and Genetics, Max Planck Institute for Plant Breeding Research, Cologne, Germany.

出版信息

Elife. 2021 Jan 6;10:e63262. doi: 10.7554/eLife.63262.

DOI:10.7554/eLife.63262

PMID:33404501

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7787667/

Abstract

A fundamental question in biology is how morphogenesis integrates the multitude of processes that act at different scales, ranging from the molecular control of gene expression to cellular coordination in a tissue. Using machine-learning-based digital image analysis, we generated a three-dimensional atlas of ovule development in , enabling the quantitative spatio-temporal analysis of cellular and gene expression patterns with cell and tissue resolution. We discovered novel morphological manifestations of ovule polarity, a new mode of cell layer formation, and previously unrecognized subepidermal cell populations that initiate ovule curvature. The data suggest an irregular cellular build-up of expression in the primordium and new functions for in restricting nucellar cell proliferation and the organization of the interior chalaza. Our work demonstrates the analytical power of a three-dimensional digital representation when studying the morphogenesis of an organ of complex architecture that eventually consists of 1900 cells.

摘要

生物学中的一个基本问题是形态发生如何整合在不同尺度上起作用的众多过程，这些过程的范围从基因表达的分子控制到组织中的细胞协调。我们使用基于机器学习的数字图像分析，生成了的胚珠发育的三维图谱，实现了对细胞和基因表达模式的定量时空分析，具有细胞和组织分辨率。我们发现胚珠极性的新的形态表现形式、细胞层形成的新模式以及以前未被识别的起始胚珠弯曲的表皮下细胞群体。这些数据表明，在原基中表达的不规则细胞构建以及在限制珠心细胞增殖和内部合点组织方面的新功能。我们的工作表明，在研究一个最终由 1900 个细胞组成的复杂结构器官的形态发生时，三维数字表示具有分析能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9265/7787667/0d643f2fe5cd/elife-63262-fig1.jpg

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数字 3D 参考图谱揭示了塑造胚珠的细胞生长模式。

A digital 3D reference atlas reveals cellular growth patterns shaping the ovule.

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