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Notch Signaling Pathway03:14

Notch Signaling Pathway

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The Notch signaling pathway is a major intracellular signaling pathway that is highly conserved over a broad spectrum of metazoan species. It stands unique from other intracellular signaling mechanisms in animals because notch protein itself acts as the receptor as well as the primary signaling molecule.
The Notch gene came into the limelight in 1914 after the discovery that its mutation in Drosophila melanogaster leads to a serrated (or "notched") wing margin phenotype. It was not...
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Neuroplasticity reflects the brain's remarkable capacity to adapt and evolve, responding dynamically to learning, experiences, or injury by reorganizing its neural circuitry. This reorganization involves creating new neural connections and refining old ones through a series of biological processes that contribute to the brain's lifelong development and adaptability.
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Synaptic integration mainly includes the summation of graded potentials. Graded potentials, regardless of their type, cause subtle alterations in membrane voltage, resulting in either depolarization or hyperpolarization. These incremental changes, when combined or summed, can propel the neuron toward its threshold. Consider, for example, a membrane experiencing a +15 mV shift, causing it to depolarize from -70 mV to -55 mV. In this scenario, graded potentials govern the membrane's ability to...
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Neurotransmitters are essential chemical messengers within the nervous system, facilitating the communication between neurons. These chemical messengers, varying in function and effect, are critical for sustaining various aspects of neurological health and emotional well-being.
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In the CNS, neurogenesis, the birth of new neurons from stem cells, is limited to the hippocampus in adults. In other regions of the brain and spinal cord, neurogenesis is almost non-existent due to inhibitory influences from neuroglia, especially oligodendrocytes, and the absence of growth-stimulating cues. The myelin produced by oligodendrocytes in the CNS inhibits neuronal regeneration. Furthermore, astrocytes proliferate rapidly after neuronal damage, forming scar tissue that physically...
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Cell Polarization by Rho Proteins01:21

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Cell polarity is the asymmetric distribution of cellular and membrane components, making one side of the cell different from the other. This polarity is essential to many processes such as embryogenesis, axon migration, glucose transport across epithelial cells, and directional cell migration. A migrating cell responds to intracellular or extracellular signals via molecular cascades that reorganize the actin cytoskeleton to establish this polarity. In these cells, the Rho family proteins Cdc42,...
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Related Experiment Video

Updated: Nov 30, 2025

Ex utero Electroporation and Whole Hemisphere Explants: A Simple Experimental Method for Studies of Early Cortical Development
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Ex utero Electroporation and Whole Hemisphere Explants: A Simple Experimental Method for Studies of Early Cortical Development

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Reelin functions beyond neuronal migration: from synaptogenesis to network activity modulation.

Giulia Faini1, Filippo Del Bene1, Shahad Albadri1

  • 1Institut de la Vision, Sorbonne Université, INSERM, CNRS, Paris, France.

Current Opinion in Neurobiology
|November 16, 2020
PubMed
Summary
This summary is machine-generated.

Reelin, an extracellular matrix glycoprotein, is crucial for neural development. This study reveals its role in post-mitotic neurons, impacting neural circuit assembly, synaptic function, and potentially neurodevelopmental disorders.

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Last Updated: Nov 30, 2025

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Ex Utero Electroporation and Organotypic Slice Cultures of Embryonic Mouse Brains for Live-Imaging of Migrating GABAergic Interneurons
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Area of Science:

  • Neuroscience
  • Molecular Biology
  • Developmental Biology

Background:

  • Reelin is an extracellular matrix glycoprotein primarily studied for its role in cell migration.
  • Evidence suggests Reelin is involved in axonal guidance, synaptogenesis, and dendritic spine formation.

Purpose of the Study:

  • To investigate the role of Reelin and its downstream pathways in post-mitotic neurons.
  • To understand Reelin's contribution to neural circuit assembly, refinement, and function.

Main Methods:

  • The study focuses on analyzing the functions of Reelin in post-mitotic neurons.
  • Investigated downstream pathways and their impact on neural development.

Main Results:

  • Reelin plays a direct role in axonal targeting and refinement at the target site.
  • Reelin modulates synaptic activity, plasticity, and behavior.
  • Reelin directly regulates GABA receptors expression and stability.

Conclusions:

  • Reelin is essential for neural circuit assembly and function in post-mitotic neurons.
  • Reelin's multifaceted roles extend to synaptic modulation and GABA receptor regulation.
  • Understanding Reelin's function is critical for insights into neurodevelopmental disorders.