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Related Concept Videos

Cell Signaling in Plants01:25

Cell Signaling in Plants

Plant cells communicate to coordinate their cycle of growth, flowering and fruiting, and activities in roots, shoots, and leaves in response to the changing environmental conditions. Plant signaling is distinct from animal signaling. Plants primarily utilize enzyme-linked receptors, whereas the largest class of cell-surface receptors in animals are G-protein coupled receptors (GPCRs). Unlike animals, receptor tyrosine kinases are rare in plants. Instead, plants have a diverse class of...
Plant Hormones01:56

Plant Hormones

Plant hormones—or phytohormones—are chemical molecules that modulate one or more physiological processes of a plant. In animals, hormones are often produced in specific glands and circulated via the circulatory system. However, plants lack hormone-producing glands.
Plant Hormones01:56

Plant Hormones

Plant hormones—or phytohormones—are chemical molecules that modulate one or more physiological processes of a plant. In animals, hormones are often produced in specific glands and circulated via the circulatory system. However, plants lack hormone-producing glands.
Morphogenesis02:19

Morphogenesis

Plant morphogenesis—the development of a plant’s form and structure—involves several overlapping developmental processes, including growth and cell differentiation. Precursor cells differentiate into specific cell types, which are organized into the tissues and organ systems that make up the functional plant.
Chemical Signaling in the Endocrine System01:08

Chemical Signaling in the Endocrine System

A signaling cascade is a series of events that facilitates the transmission of information within or between cells, culminating in a targeted response in the recipient cell. As chemical messengers, hormones are pivotal in initiating and modulating these intricate signaling cascades based on their solubility.
Lipid-soluble hormones, such as steroid hormones, demonstrate an intracellular action. These hormones traverse cell membranes due to their lipid nature. Once inside the target cell, they...
Endocrine Signaling01:45

Endocrine Signaling

Endocrine cells produce hormones to communicate with remote target cells found in other organs. The hormone reaches these distant areas using the circulatory system. This exposes the whole organism to the hormone but only those cells expressing hormone receptors or target cells are affected. Thus, endocrine signaling induces slow responses from its target cells but these effects also last longer.

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Defects in meristem maintenance, cell division, and cytokinin signaling are early responses in the boron deficient maize mutant tassel-less1.

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Related Experiment Video

Updated: May 25, 2026

Identification of the Genes Involved in Stomatal Development via Epidermal Phenotype Scoring
05:22

Identification of the Genes Involved in Stomatal Development via Epidermal Phenotype Scoring

Published on: January 20, 2023

Hormone signaling in plant development.

Amanda Durbak1, Hong Yao, Paula McSteen

  • 1Division of Biological Sciences, Interdisciplinary Plant Group, Bond Life Sciences Center, University of Missouri, Columbia, MO 65211, United States.

Current Opinion in Plant Biology
|January 17, 2012
PubMed
Summary

Plant hormones like auxin and cytokinin are crucial for development, regulating meristem function for organ formation. New research clarifies their interactions and the roles of brassinosteroids and strigolactones in meristem regulation.

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Area of Science:

  • Plant biology
  • Developmental biology
  • Hormone signaling

Background:

  • Hormone signaling is vital for plant development, particularly in regulating meristem function.
  • Meristems control the formation of all plant organs.

Purpose of the Study:

  • To elucidate the roles and interactions of plant hormones in meristem regulation.
  • To understand the commonalities and differences in auxin and cytokinin signaling in shoot and root apical meristems.
  • To investigate the impact of brassinosteroids on root apical meristem size and the crosstalk between auxin, cytokinin, and strigolactone in axillary meristems.

Main Methods:

  • Comparative analysis of hormone signaling pathways.
  • Investigating hormone interactions in different meristem types (shoot apical, root apical, axillary).

Main Results:

  • Detailed understanding of auxin and cytokinin interactions in shoot and root apical meristems.
  • Discovery of brassinosteroid hormone regulation of root apical meristem size.
  • Elucidation of crosstalk mechanisms among auxin, cytokinin, and strigolactone in axillary meristems.

Conclusions:

  • Hormone interactions are key regulators of plant meristem function and organogenesis.
  • Specific hormones like brassinosteroids have distinct roles in meristem regulation.
  • Complex crosstalk among multiple hormones fine-tunes meristem activity.