Genetically Encoded Functional Indicators

In the last decade, several different optical imaging techniques, either based on various voltage or calcium dyes, or more recently on modified fluorescent or bioluminescent proteins (genetically encoded) that are sensitive to calcium, have been developed to study neuronal activity, and especially groups of neurons, with the goal of mapping and deciphering the neural code underlying major neurophysiological functions.  Genetically Encoded Functional Indicators brings together expert contributors to present the development of recent genetic techniques that allow for generating genetically encoded activity sensors in order to investigate neuronal activity. Each chapter describes a specific sensor and its utilization to study neuronal activity in a particular way.  Written in the Neuromethods series style, chapters contain the kind of key description and implementation advice that guarantees successful results. Helpful and easy to use, Genetically Encoded Functional Indicators aims to inspire students and researchers and to serve as a useful guide to those who wish to start using these different brain imaging techniques and require a bit of guidance in how best to choose a technique to match the goal of their study.

Inhaltsangabe1. In Vivo Functional Brain Imaging Using a Genetically Encoded Ca2+-Sensitive Bioluminescence Reporter, GFP-Aequorin            Jean-René Martin 2. Ca2+ Imaging in Brain Slices Using Bioluminescent Reporters            Ludovic Tricoire, Estelle Drobac, and Bertrand Lambolez 3. Calcium Imaging of Neural Activity in the Olfactory System of Drosophila            Antonia Strutz, Thomas Völler, Thomas Riemensperger, André Fiala, and Silke Sachse 4. Functional Imaging of Antennal Lobe Neurons in Drosophila with Synapto-pHluorin            Dinghui Yu and Ronald L. Davis 5. Performing Electrophysiology and Two-Photon Calcium Imaging in the Adult Drosophila Central Brain During Walking Behavior            M. Eugenia Chiappe and Vivek Jayaraman 6. In Vivo Optical Recording of Brain Interneuron Activities from a Drosophila Male on a Treadmill            Soh Kohatsu, Masayuki Koganezawa, and Daisuke Yamamoto 7. Two-Photon Imaging of Population Activity with Genetically Encoded Calcium Indicators in Living Flies            Robert A.A. Campbell, Kyle S. Honegger, Eyal Gruntman, and Glenn C. Turner 8. Engineering and Application of Genetically Encoded Calcium Indicators            Jasper Akerboom, Lin Tian, Jonathan S. Marvin, and Loren L. Looger 9. Imaging cAMP Dynamics in the Drosophila Brain with the Genetically Encoded Sensor Epac1-Camps            Katherine R. Lelito and Orie T. Shafer 3. Calcium Imaging of Neural Activity in the Olfactory System of Drosophila            Antonia Strutz, Thomas Völler, Thomas Riemensperger, André Fiala, and Silke Sachse 4. Functional Imaging of Antennal Lobe Neurons in Drosophila with Synapto-pHluorin            Dinghui Yu and Ronald L. Davis 5. Performing Electrophysiology and Two-Photon Calcium Imaging in the Adult Drosophila Central Brain During Walking Behavior            M. Eugenia Chiappe and Vivek Jayaraman 6. In Vivo Optical Recording of Brain Interneuron Activities from a Drosophila Male on a Treadmill            Soh Kohatsu, Masayuki Koganezawa, and Daisuke Yamamoto 7. Two-Photon Imaging of Population Activity with Genetically Encoded Calcium Indicators in Living Flies            Robert A.A. Campbell, Kyle S. Honegger, Eyal Gruntman, and Glenn C. Turner 8. Engineering and Application of Genetically Encoded Calcium Indicators            Jasper Akerboom, Lin Tian, Jonathan S. Marvin, and Loren L. Looger 9. Imaging cAMP Dynamics in the Drosophila Brain with the Genetically Encoded Sensor Epac1-Camps            Katherine R. Lelito and Orie T. Shafer