Bin Chen,
Kenneth Y. Kwan
Elsevier Science
e druk, 2020
9780128144053
Patterning and Cell Type Specification in the Developing CNS and PNS
Comprehensive Developmental Neuroscience
Specificaties
Gebonden, blz.
|
Engels
Elsevier Science |
e druk, 2020
ISBN13: 9780128144053
Rubricering
Levertijd ongeveer 8 werkdagen
Samenvatting
Patterning and Cell Type Specification in the Developing CNS and PNS, Second Edition, the latest release in the Comprehensive Developmental Neuroscience series, presents recent advances in genetic, molecular and cellular methods that have generated a massive increase in new information. The book provides a much-needed update to underscore the latest research in this rapidly evolving field, with new section editors discussing the technological advances that are enabling the pursuit of new research on brain development. This volume focuses on neural patterning and cell type specification in the developing central and peripheral nervous systems.
Specificaties
Inhoudsopgave
<p>I: INDUCTION AND PATTERNING OF THE CNS AND PNS</p> <p>1. Morphogens, Patterning Centers, and their Mechanisms of Action</p> <p>Edwin Shinichi Monuki</p> <p>2. Telencephalon Patterning</p> <p>Shubha Tole and Jean Hébert</p> <p>3. Area Patterning of the Mammalian Neocortex</p> <p>Elizabeth A. Grove</p> <p>4. Patterning of Thalamus</p> <p>Guillermina López-Bendito</p> <p>5. Midbrain Patterning: Polarity Formation of the Tectum, Midbrain Regionalization, and Isthmus Organizer</p> <p>Harukazu Nakamura</p> <p>6. Cerebellar Patterning</p> <p>Hitoshi Komuro</p> <p>7. Spinal Cord Patterning</p> <p>Catarina Catela</p> <p>8. The Formation and Maturation of Neuromuscular Junctions</p> <p>Gregorio Valdez</p> <p>9. Neural Induction of Embryonic Stem/Induced Pluripotent Stem Cells</p> <p>Anindita Sarkar, Maria Carol Marchetto and Fred H. Gage</p> <p>10. Cerebral organoids</p> <p>Orly Reiner and Eyal Karzburn</p> <p>11. Formation of gyri and sulci</p> <p>Katherine Long and Wieland B. Huttner</p> <p>II: GENERATION OF NEURONAL DIVERSITY</p> <p>12. Cell Biology of Neuronal Progenitor Cells </p> <p>Qin Shen</p> <p>13. Notch and Neural Development</p> <p>Joshua J. Breunig</p> <p>14. bHLH Factors in Neurogenesis and Neuronal Subtype Specification </p> <p>Jane Johnson</p> <p>15. The Specification and Generation of Neurons in the Ventral Spinal Cord </p> <p>Michael Matise and Kamal Sharma</p> <p>16. Neurogenesis in the Cerebellum</p> <p>Kathleen J Millen</p> <p>17. The Generation of Midbrain Dopaminergic Neurons </p> <p>Sandra Blaess and Siew-Lan Ang</p> <p>18. Neurogenesis in the Basal Ganglia</p> <p>Kenneth James Campbell</p> <p>19. Specification of Cortical Projection Neurons: Transcriptional Mechanisms</p> <p>Jeffrey D. Macklis</p> <p>20. The Generation of Cortical Interneurons </p> <p>Gordon Fishell and Renata Batista-Brito</p> <p>21. Specification of Retinal Cell Types </p> <p>Bernadett Bosze, Robert B. Hufnagel and Nadean L. Brown</p> <p>22. Neurogenesis in the Postnatal VZ-SVZ and the Origin of Interneuron Diversity </p> <p>Arturo Alvarez-Buylla</p> <p>23. Neurogenesis in the Damaged Mammalian Brain </p> <p>Masato Nakafuku</p> <p>24. Neurogenesis in the Nematode Caenorhabditis elegans </p> <p>Oliver Hobert</p> <p>25. Development of the Drosophila melanogaster embryonic CNS: From neuroectoderm to unique neurons and glia</p> <p>Stefan Thor</p> <p>26. Neurogenesis in Zebrafish </p> <p>Laure Bally-Cuif</p> <p>27. Gene regulatory networks controlling neuronal diversity: epigenetics/lncRNAs/enhancers </p> <p>Jason T. Lambert, Jessica Haigh and Alex S. Nord</p> <p>28. Post-transcriptional and translational control of neurogenesis </p> <p>Debra Silver</p> <p>29. Human neurogenesis: single cell sequencing and in vitro modeling (cerebral organoids) </p> <p>Arnold Kriegstein, Aparna Bhaduri and Madeline Andrews</p> <p>III: DEVELOPMENT OF GLIA, BLOOD VESSELS, CHOROID PLEXUS, IMMUNE CELLS IN THE NERVOUS SYSTEM</p> <p>30. ‘Glial’ Biology: Has it Come to the Beginning of the End?</p> <p>David Rowitch and Arturo Alvarez-Buylla</p> <p>31. Neural Stem Cells Among Glia</p> <p>Arnold Kriegstein and Arturo Alvarez-Buylla</p> <p>32. Structure and Function of Myelinated Axons</p> <p>Matthew Rasband</p> <p>33. Mechanisms of Astrocyte Development</p> <p>Debosmita Sardar, Anna Victoria Molofsky and Benjamin Deneen</p> <p>34. Specification of Macroglia by Transcription Factors: Oligodendrocytes</p> <p>Michael Wegner</p> <p>35. Specification of Macroglia by Transcription Factors: Schwann Cells</p> <p>John Svaren</p> <p>36. Signaling Pathways that Regulate Glial Development and Early Migration – Oligodendrocytes </p> <p>Stephen Fancy and Robert H. Miller</p> <p>37. Signaling Pathways that Regulate Glial Development and Early Migration – Schwann Cells</p> <p>Kristjan R. Jessen and Rhona Mirsky</p> <p>38. Microglia</p> <p>Astrid E. Cardona, Katerina Akassoglou and Dimitrios Davalos</p> <p>39. Ependymal cells</p> <p>Kazunobu Sawamoto and Nathalie Spassky</p> <p>40. Meninges and Vasculature</p> <p>Julie Siegenthaler and Samuel Pleasure</p> <p>41. Neuron–Glial Interactions: Neurotransmitter Signaling to Cells of the Oligodendrocyte Lineage</p> <p>Dwight Bergles</p> <p>42. Nonmammalian Model Systems: Zebrafish</p> <p>Bruce Appel and Kelly Monk</p> <p>43. Astrocyte-Synapse Interactions and Neural Circuit Regulation</p> <p>Nicola Allen</p> <p>in Glial Biology: Imaging Neuroglial Pathology In Vivo</p>