Embryogenesis: pattern formation from a single cell.

The arabidopsis book Pub Date : 2009-01-01 Epub Date: 2009-11-12 DOI:10.1199/tab.0126

Arnaud Capron, Steven Chatfield, Nicholas Provart, Thomas Berleth

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引用次数: 147

Abstract

During embryogenesis a single cell gives rise to a functional multicellular organism. In higher plants, as in many other multicellular systems, essential architectural features, such as body axes and major tissue layers are established early in embryogenesis and serve as a positional framework for subsequent pattern elaboration. In Arabidopsis, the apicalbasal axis and the radial pattern of tissues wrapped around it are already recognizable in young embryos of only about a hundred cells in size. This early axial pattern seems to provide a coordinate system for the embryonic initiation of shoot and root. Findings from genetic studies in Arabidopsis are revealing molecular mechanisms underlying the initial establishment of the axial core pattern and its subsequent elaboration into functional shoots and roots. The genetic programs operating in the early embryo organize functional cell patterns rapidly and reproducibly from minimal cell numbers. Understanding their molecular details could therefore greatly expand our ability to generate plant body patterns de novo, with important implications for plant breeding and biotechnology.

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胚胎发生:由单个细胞形成的模式。

在胚胎发生过程中，一个单细胞形成一个功能齐全的多细胞生物。在高等植物中，就像在许多其他多细胞系统中一样，基本的结构特征，如体轴和主要组织层，在胚胎发生的早期就已经建立起来，并作为随后模式形成的位置框架。在拟南芥中，在只有大约100个细胞大小的年轻胚胎中，就已经可以辨认出顶基轴和围绕着它的径向组织。这种早期的轴向模式似乎为芽和根的萌芽提供了一个坐标系统。来自拟南芥基因研究的发现揭示了轴核模式最初建立及其随后发育为功能性芽和根的分子机制。在早期胚胎中运作的遗传程序从最小的细胞数量迅速和可复制地组织功能细胞模式。因此，了解它们的分子细节可以极大地扩展我们从头生成植物体模式的能力，对植物育种和生物技术具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The arabidopsis book

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