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研究领域生物科学遗传学基因组结构和调节
伪胚胎中的形态生成和转录程序的尺寸依赖时间解

伪胚胎中的形态生成和转录程序的尺寸依赖时间解

Isma Bennabi ¹, Pauline Hansen ², Melody Merle ¹, Judith Pineau ¹, Lucille Lopez-Delisle ³, Dominique Kolly ³, Denis Duboule ^3,4, Alexandre Mayran ³, Thomas Gregor ^1,2,5

Isma Bennabi ¹, Pauline Hansen ², Melody Merle ¹

¹Department of Developmental and Stem Cell Biology, CNRS UMR3738 Paris Cité, Institut Pasteur, Paris, France.
²Lewis-Sigler Institute for Integrative Genomics, Princeton University, Princeton, NJ, USA.
³School of Life Sciences, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.
⁴Center for Interdisciplinary Research in Biology (CIRB), Collège de France, Paris, France.
⁵Joseph Henry Laboratories of Physics, Princeton University, Princeton, NJ, USA.

⁰Department of Developmental and Stem Cell Biology, CNRS UMR3738 Paris Cité, Institut Pasteur, Paris, France.

Science Advances +

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2025年八月22日

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在PubMed上查看摘要

概括

此摘要是机器生成的。

系统大小会影响胃状体的发育时间和形状. 基因表达随大小而变大,但极端大小显示出独特的模式,突出显示了哺乳动物发育模型中的物理约束.

科学领域

发育生物学
干细胞生物学
生物物理

背景情况

了解细胞命运规范和形态发生在发育生物学中至关重要.
植入后哺乳动物发育的干细胞模型提供了一个独特的平台来研究这些过程.
物理参数对发育时间和结果的影响尚未完全理解.

研究的目的

研究物理参数,特别是系统大小,如何影响胃类动物的形态遗传时间和结果.
确定转录程序和细胞命运组成是否受到胃体大小变化的影响.
探索胃类模型对不同系统大小的适应性.

主要方法

对胃状体发育的定量实时成像.
对基因表达模式进行分析.
大小扰动实验以评估系统大小的影响.

主要成果

系统大小显著影响形态遗传时间,包括对称性破坏,多极性和轴延长.
转录程序和细胞命运组成在很大程度上保持稳定.
极端大小表现出不同的转录模块和基因表达转移,可以通过大小扰动来挽救.
形态发生是由系统大小驱动的,在某些条件下表明基因表达与形态发生的脱.

结论

胃类动物是研究哺乳动物发育的时空协调的多功能模型.
物理约束,特别是系统大小,在调节形态遗传进展方面发挥着关键作用.
这些发现揭示了物理参数如何将基因表达程序与形态遗传结果脱,为发育可塑性提供了洞察力.

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