Decoding Neural Circuit Structure and Function (eBook, PDF)

Cellular Dissection Using Genetic Model Organisms
Redaktion: Çelik, Arzu; Wernet, Mathias F.

• Format: PDF

Produktbeschreibung

Focuses on the interdisciplinary nature of modern neural circuit dissection: high-resolution anatomy, cellular activity, and behavioral dissection, to assign specific functions to identified, single neurons

Compares the progress from vertebrate and invertebrate model systems, both of which provide important, and complementary insights into circuit function

Summarizes the most recent work in a very rapidly evolving field: the use of genetic model systems that allow for the manipulation of neural circuits in vivo

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Produktdetails

• Verlag: Springer International Publishing
• Seitenzahl: 518
• Erscheinungstermin: 24. Juli 2017
• Englisch
• ISBN-13: 9783319573632
• Artikelnr.: 53061776

Autorenporträt

Mathias Wernet is currently a professor of Neurobiology at the Freie University of Berlin. His current research deals with the neural circuitry underlying visual behaviors in Drosophila melanogaster and integrates studies spanning anatomy, behavior, and physiology. Arzu Celik is a professor of Developmental Neurobiology at Bogazici University in Istanbul, Turkey. Her research focuses on the generation of neuronal diversity and mechanisms of axon guidance in the visual and olfactory systems of Drosophila melanogaster.

Inhaltsangabe

1. Note from the editors.- 2. Overview: The current state of neural circuit dissection in genetic model organisms.- Part I: High-resultion Neuroanatomy using molecular-genetic tools.- 3. Neuroanatomical techniques in invertebrate model organisms (flies, worms).- 4. Neuroanatomical techniques in vertebrate model systems (mice, monkeys).- 5. The current state of whole-brain connectomics in invertebrates.- 6. The progress in large-scale connectomics in vertebrates.- 7. Establishing synaptic connection the invertebrate brain (neural superposition?).- 8. Target selection and synaptogenesis in vertebrate models.- Part II: The behavioral contributions of identified circuit elements.- 9. Behavioral paradigms for dissecting neural circuitry in invertebrates.- 10. Behavioral paradigms for dissecting neural circuitry in vertebrates.- 11. Targeted disruption of neuronal activity in behaving invertebrate models.- 12. Circuit breaking and optogenetics in vertebrates.- 13. Modeling of neural circuits in invertebrates.- 14. Modeling of neural circuits in vertebrates.- Part III: The functional contribution of identified cells to the circuit.- 15. The electrophysiological characterization of identified invertebrate circuit elements.- 16. Electrophysiology in combination with molecular genetic tools in vertebrates.- 17. Genetically encoded activity sensors in invertebrates.- 18. Genetically encoded activity sensors in vertebrates.- 19. Combining circuit breaking tools and the visualization of activity in invertebrates.- 20. Visualization of neuronal activity while circuit breaking in vertebrates.- Part IV: Molecular determinants of cell type diversity.- 21. The developmental origin of cell type diversity in invertebrate brains.- 22. The development of neuronal cell type diversity in the vertebrate brain.- 23. Transcriptional profiling of identified circuit elements in invertebrates.- 24. Transcriptional profiling in neural circuits in vertebrates.