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Lecture 10

Outline of Lecture 10 Central Nervous System

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Department
Biology
Course
BIOL 130
Professor
Barry Mc Clinchey
Semester
Fall

Description
Outline of Lecture 10 Central Nervous System: Development and Molecular Mechanisms I. Regionalization of neural epithelium A) From neural plate to neural tube - Rehash of previous lectures (neural plate, retinoic acid, Hox, Shh, notochord, floor plate, neural tube) - Neural tube defects (e.g. spina bifida) associated with folic acid deficiency B) Regional structure of neural tube - A to P structures: telencephalon (ant. forebrain), diencephalons (post. forebrain), mesencephalon (midbrain), rhombencephalon (hindbrain), spinal cord (see fates on p. 3) - D to V structures: alar plate (dorsal, sensory info) and basal plate (ventral, motor/hormonal control nerves) - These features combine: spinal cord and brain have alar and basal divisions II. Growth and differentiation A) Neural epithelium - Neural tube is a single layer of epithelium; lumen = ventricular, outer = pial - Neural precursor cell’s nucleus moves up and down during cell cycle; division gives rise to neurons and glial cells - Cerebral cortex develops by waves of cells that migrate from ventricular to pial surface - Lissencephaly develops if LIS1 or DCX genes involved in migration are mutated - Some cells migrate anteriorly, e.g. olfactory neurons (and continue in adult) B) Neurons and glial cells - Classic neuron features: axon, synapse, dendrites, neurotransmitters - 5 basic neuron cell types: purkinje, golgi, basket, granule, stellate - Glial cells provide scaffold for neurons and may regulate their activity - 2 basic glial cells: astrocytes (metabolic func.), oligodendrocytes (insulation) - Glial cells far outnumber neurons; glial cells can divide but neurons cannot C) Some CNS cells derive from committed precursors but most cell types arise from postmitotic commitment D) Role of Notch and Delta in commitment to differentiation - Committed neural cells express surface
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