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Decoding Neural Circuit Structure and Function

Cellular Dissection Using Genetic Model Organisms

  • Book
  • © 2017

Overview

Editors:
  1. Arzu Çelik

    1. Department of Molecular Biology and Genetics, Boğaziçi University, Bebek, Turkey

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  2. Mathias F. Wernet

    1. Fachbereich Biologie, Chemie, Pharmazie, Institut für Biologie—Neurobiologie, Freie Universität Berlin, Berlin, Germany

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  • 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

  • Includes supplementary material: sn.pub/extras

  • Includes supplementary material: sn.pub/extras

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Table of contents (21 chapters)

  1. Front Matter

    Pages i-xiii
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  2. Anatomy: High-Resolution Neuroanatomy Using Molecular-Genetic Tools

    1. Front Matter

      Pages 1-1
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    2. The Current State of the Neuroanatomy Toolkit in the Fruit Fly Drosophila melanogaster

      • Daryl M. Gohl, Javier Morante, Koen J.T. Venken
      Pages 3-39

    3. Retinal Connectomics

      • Kevin L. Briggman
      Pages 41-62

    4. Recent Progress in the 3D Reconstruction of Drosophila Neural Circuits

      • Kazunori Shinomiya, Masayoshi Ito
      Pages 63-89

    5. Connectivity and Circuit Architecture Using Transsynaptic Tracing in Vertebrates

      • Kazunari Miyamichi, Lindsay A. Schwarz
      Pages 91-148

    6. Live Imaging of Connectivity in Developing Neural Circuits in Drosophila

      • Mehmet Neset Özel, Peter Robin Hiesinger
      Pages 149-167

  3. Behavior: The Behavioral Contributions of Identified Cell Types

    1. Front Matter

      Pages 169-169
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    2. Manipulation of Neural Circuits in Drosophila Larvae

      • Ibrahim Tastekin, Matthieu Louis
      Pages 171-189

    3. Targeted Manipulation of Neuronal Activity in Behaving Adult Flies

      • Stefanie Hampel, Andrew M. Seeds
      Pages 191-222

    4. Paradigms for the Quantification of Behavioral Responses in Zebrafish

      • Chiara Cianciolo Cosentino, Stephan C. F. Neuhauss
      Pages 223-239

    5. The Use of Computational Modeling to Link Sensory Processing with Behavior in Drosophila

      • Jan Clemens, Mala Murthy
      Pages 241-260

    6. Motor-Driven Modulation in Visual Neural Circuits

      • Terufumi Fujiwara, Eugenia Chiappe
      Pages 261-281

    7. Causal Circuit Explanations of Behavior: Are Necessity and Sufficiency Necessary and Sufficient?

      • Alex Gomez-Marin
      Pages 283-306

  4. Physiology: Visualizing the Activity of Identified Circuit Elements

    1. Front Matter

      Pages 307-307
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    2. Visualization of Synapses and Synaptic Plasticity in the Drosophila Brain

      • Thomas Riemensperger, Florian Bilz, André Fiala
      Pages 309-319

    3. Whole-Brain Imaging Using Genetically Encoded Activity Sensors in Vertebrates

      • Andreas M. Kist, Laura D. Knogler, Daniil A. Markov, Tugce Yildizoglu, Ruben Portugues
      Pages 321-341

    4. Understanding Mood Disorders Using Electrophysiology and Circuit Breaking

      • He Liu, Dipesh Chaudhury
      Pages 343-370

    5. Combining Anatomy, Measurements and Manipulation of Neuronal Activity to Interrogate Circuit Function in Drosophila

      • Yvette E. Fisher, Thomas R. Clandinin
      Pages 371-396

  5. Development: The Molecular Determinants of Cell Type Diversity

    1. Front Matter

      Pages 397-397
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Keywords

About this book

This book offers representative examples from fly and mouse models to illustrate the ongoing success of the synergistic, state-of-the-art strategy, focusing on the ways it enhances our understanding of sensory processing. The authors focus on sensory systems (vision, olfaction), which are particularly powerful models for probing the development, connectivity, and function of neural circuits, to answer this question: How do individual nerve cells functionally cooperate to guide behavioral responses? Two genetically tractable species, mice and flies, together significantly further our understanding of these processes.

Current efforts focus on integrating knowledge gained from three interrelated fields of research: (1) understanding how the fates of different cell types are specified during development, (2) revealing the synaptic connections between identified cell types (“connectomics”) using high-resolution three-dimensional circuit anatomy, and (3) causal testing of how iden

tified circuit elements contribute to visual perception and behavior.

Editors and Affiliations

  • Department of Molecular Biology and Genetics, Boğaziçi University, Bebek, Turkey

    Arzu Çelik

  • Fachbereich Biologie, Chemie, Pharmazie, Institut für Biologie—Neurobiologie, Freie Universität Berlin, Berlin, Germany

    Mathias F. Wernet

About the editors

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.

Bibliographic Information

  • Book Title: Decoding Neural Circuit Structure and Function

  • Book Subtitle: Cellular Dissection Using Genetic Model Organisms

  • Editors: Arzu Çelik, Mathias F. Wernet

  • DOI: https://doi.org/10.1007/978-3-319-57363-2

  • Publisher: Springer Cham

  • eBook Packages: Biomedical and Life Sciences, Biomedical and Life Sciences (R0)

  • Copyright Information: Springer International Publishing AG 2017

  • Hardcover ISBN: 978-3-319-57362-5Published: 09 August 2017

  • Softcover ISBN: 978-3-319-86143-2Published: 04 August 2018

  • eBook ISBN: 978-3-319-57363-2Published: 24 July 2017

  • Edition Number: 1

  • Number of Pages: XIII, 518

  • Number of Illustrations: 11 b/w illustrations, 81 illustrations in colour

  • Topics: Neurosciences, Human Genetics, Cell Biology

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