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Updated: May 26, 2026

A Method for Characterizing Embryogenesis in Arabidopsis
10:24

A Method for Characterizing Embryogenesis in Arabidopsis

Published on: August 4, 2017

Early embryogenesis in flowering plants: setting up the basic body pattern.

Steffen Lau1, Daniel Slane, Ole Herud

  • 1Department of Cell Biology, Max Planck Institute for Developmental Biology, Tübingen, Germany.

Annual Review of Plant Biology
|January 10, 2012
PubMed
Summary
This summary is machine-generated.

Early plant embryo development establishes key body axes and tissue layers. This involves transcription factors and auxin transport, crucial for apical-basal patterning and shoot pole initiation.

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Published on: June 9, 2015

Area of Science:

  • Plant developmental biology
  • Molecular genetics

Background:

  • Early embryogenesis is critical for establishing plant body plan, including apical-basal polarity and tissue layers.
  • Zygote polarization initiates distinct cell fates, but mechanisms remain largely unknown.
  • WOX transcription factors, auxin transport, and cell signaling mediate early patterning.

Purpose of the Study:

  • To review essential patterning processes in early plant embryogenesis.
  • To highlight the roles of transcription factors and auxin in establishing polarity and tissue organization.
  • To synthesize data primarily from Arabidopsis thaliana, incorporating other species where relevant.

Main Methods:

  • Review of existing literature on plant embryogenesis.
  • Analysis of gene expression patterns (e.g., WOX family).
  • Examination of auxin transport and signaling pathways.

Main Results:

  • Apical-basal polarity is established through zygote polarization and involves WOX factors and auxin.
  • Radial patterning relies on cell-cell communication via peptide signals and transcription factor movement.
  • Shoot pole initiation and cotyledon development depend on transcription factor domains and auxin flow.

Conclusions:

  • Early embryogenesis involves complex interactions of genetic and hormonal factors.
  • Understanding these patterning mechanisms is key to plant development.
  • Arabidopsis thaliana serves as a model for studying conserved embryogenic processes.