Description

Book Synopsis
A number of developments spanning a multitude of techniques makes this an exciting time for research in serotonin receptors. A comprehensive review of the subject from a multidisciplinary perspective, Serotonin Receptors in Neurobiology is among the first books to include information on serotonin receptor knockout studies. With contributions from leading experts in their fields, the book explores serotonin receptors from a broad-based, multidisciplinary approach. The approaches described vary from molecular biological techniques to fluorescence microscopy and imaging, to genetic manipulation in animal models, providing a wide range of tools to study serotonergic phenomena.

While each of these approaches has its own advantages and limitations, the synthesis of information and knowledge achieved from studies using multiple approaches will result in a comprehensive understanding of the underlying complex phenomena involved in serotonergic signaling and its implications in health a

Table of Contents
Quantitative Imaging of Serotonin Autofluorescence with Multiphoton Microscopy. Monitoring Receptor-Mediated Changes of Intracellular cAMP Level by Using Ion Channels and Fluorescent Proteins as Biosensors. Membrane Organization and Dynamics of the Serotonin1A Receptor Monitored Using Fluorescence Microscopic Approaches. Calmodulin Is a 5-HT Receptor-Interacting and Regulatory Protein. Identification of Novel Transcriptional Regulators in the Nervous System, F. Remes-Lenicov. Serotonin 2A (5-HT2A) Receptor Function: Ligand-Dependent Mechanisms and Pathways. The 5-HT1A Receptor: A Signaling Hub Linked to Emotional Balance. Do Limits of Neuronal Plasticity Represent an Opportunity for Mental Diseases, Such as Addiction to Food and Illegal Drugs? Use and Utilities of Serotonin Receptor Knock-Out Mice. Use of Mice with Targeted Genetic Inactivation in the Serotonergic System for the Study of Anxiety. Index.

Serotonin Receptors in Neurobiology

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    A Hardback by Amitabha Chattopadhyay

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      Publisher: Taylor & Francis Inc
      Publication Date: 17/05/2007
      ISBN13: 9780849339776, 978-0849339776
      ISBN10: 0849339774

      Description

      Book Synopsis
      A number of developments spanning a multitude of techniques makes this an exciting time for research in serotonin receptors. A comprehensive review of the subject from a multidisciplinary perspective, Serotonin Receptors in Neurobiology is among the first books to include information on serotonin receptor knockout studies. With contributions from leading experts in their fields, the book explores serotonin receptors from a broad-based, multidisciplinary approach. The approaches described vary from molecular biological techniques to fluorescence microscopy and imaging, to genetic manipulation in animal models, providing a wide range of tools to study serotonergic phenomena.

      While each of these approaches has its own advantages and limitations, the synthesis of information and knowledge achieved from studies using multiple approaches will result in a comprehensive understanding of the underlying complex phenomena involved in serotonergic signaling and its implications in health a

      Table of Contents
      Quantitative Imaging of Serotonin Autofluorescence with Multiphoton Microscopy. Monitoring Receptor-Mediated Changes of Intracellular cAMP Level by Using Ion Channels and Fluorescent Proteins as Biosensors. Membrane Organization and Dynamics of the Serotonin1A Receptor Monitored Using Fluorescence Microscopic Approaches. Calmodulin Is a 5-HT Receptor-Interacting and Regulatory Protein. Identification of Novel Transcriptional Regulators in the Nervous System, F. Remes-Lenicov. Serotonin 2A (5-HT2A) Receptor Function: Ligand-Dependent Mechanisms and Pathways. The 5-HT1A Receptor: A Signaling Hub Linked to Emotional Balance. Do Limits of Neuronal Plasticity Represent an Opportunity for Mental Diseases, Such as Addiction to Food and Illegal Drugs? Use and Utilities of Serotonin Receptor Knock-Out Mice. Use of Mice with Targeted Genetic Inactivation in the Serotonergic System for the Study of Anxiety. Index.

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