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Interactions Between Signaling Pathways01:19

Interactions Between Signaling Pathways

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Signaling cascades usually lack linearity. Multiple pathways interact and regulate one another, allowing cells to integrate and respond to diverse environmental stimuli.
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Cells respond to many types of information, often through receptor proteins positioned on the membrane. They respond to chemical signals, such as hormones, neurotransmitters, and other signaling molecules, initiating a series of molecular reactions to produce an appropriate response. This is called signal transduction. Cells also coordinate different responses elicited by the same signaling molecule via mediators, allowing molecular cross-talk.
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The physiological function of a cell and cellular communication are outcomes of a range of extrinsic signals, intracellular signaling pathways, and cellular responses. No two cell types express the same repertoire of signaling components. Receptors are highly selective for their cognate ligands, but once activated, they can alter multiple cellular processes such as DNA transcription, protein synthesis, and metabolic activity. 
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Once a ligand binds to a receptor, the signal is transmitted through the membrane and into the cytoplasm. The continuation of a signal in this manner is called signal transduction. Signal transduction only occurs with cell-surface receptors, which cannot interact with most components of the cell, such as DNA. Only internal receptors can interact directly with DNA in the nucleus to initiate protein synthesis. When a ligand binds to its receptor, conformational changes occur that affect the...
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The Hedgehog gene (Hh) was first discovered due to its control of the growth of disorganized, hair-like bristles phenotype in Drosophila, much like hedgehog spines. Hh plays a crucial role in the development of organs and the maintenance of homeostasis in both invertebrates and vertebrates. However, while Drosophila has only one Hh protein, mammals have multiple functional Hedgehog proteins - Sonic (Shh), Desert (Dhh), and Indian Hedgehog (Ihh). All of these homologous proteins have adapted to...
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Related Experiment Video

Updated: Apr 26, 2026

The Power of Simplicity: Sea Urchin Embryos as in Vivo Developmental Models for Studying Complex Cell-to-cell Signaling Network Interactions
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The low energy signaling network.

Filipa Tomé1, Thomas Nägele2, Mattia Adamo3

  • 1Bayer CropScience NV, Innovation Center Ghent, Belgium.

Frontiers in Plant Science
|August 8, 2014
PubMed
Summary
This summary is machine-generated.

Plants facing stress activate energy-saving responses, a low energy syndrome (LES). The kinases sucrose-non-fermenting-1-related protein kinase-1 (SnRK1) and target of rapamycin (TOR) are key regulators of this crucial plant adaptation process.

Keywords:
SnRK1T6PTORbZIPenergy signalingmetabolismstress

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Area of Science:

  • Plant Physiology
  • Molecular Biology
  • Stress Responses

Background:

  • Plant stress negatively impacts growth and agricultural productivity.
  • Plants activate energy-saving responses, known as low energy syndrome (LES), under stress.
  • LES involves transcriptional, translational, and metabolic reprogramming for adaptation.

Purpose of the Study:

  • To review the roles of SnRK1 and TOR kinases in regulating plant responses to low energy conditions.
  • To discuss the involvement of TOR and SnRK1 in cellular processes, metabolic reprogramming, and phenotypic outcomes under stress.

Main Methods:

  • Literature review of current research on SnRK1 and TOR in plant stress response.
  • Analysis of the regulatory mechanisms of these kinases in LES.
  • Discussion of phenotypic consequences and future research directions.

Main Results:

  • SnRK1 and TOR are conserved kinases central to LES regulation.
  • These kinases modulate cellular processes, metabolism, and growth arrest.
  • Their activity is essential for plant adaptation to various stress conditions.

Conclusions:

  • TOR and SnRK1 are critical regulators of plant adaptation to stress-induced low energy.
  • Understanding their roles provides insights into improving crop resilience.
  • Further research can explore therapeutic strategies targeting these kinases for agricultural benefits.