The Resource Structure to function of G protein-gated inwardly rectifying (GIRK) channels, volume editors, Paul A. Slesinger, Kevin Wickman
Structure to function of G protein-gated inwardly rectifying (GIRK) channels, volume editors, Paul A. Slesinger, Kevin Wickman
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The item Structure to function of G protein-gated inwardly rectifying (GIRK) channels, volume editors, Paul A. Slesinger, Kevin Wickman represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.This item is available to borrow from 1 library branch.
Resource Information
The item Structure to function of G protein-gated inwardly rectifying (GIRK) channels, volume editors, Paul A. Slesinger, Kevin Wickman represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Missouri University of Science & Technology Library.
This item is available to borrow from 1 library branch.
- Summary
- Annotation
- Language
- eng
- Extent
- 1 online resource
- Contents
-
- Title page -- Table of Contents -- Copyright -- Contributors -- Preface -- Chapter One: Unifying Mechanism of Controlling Kir3 Channel Activity by G Proteins and Phosphoinositides -- Abstract -- 1 Introduction -- 2 Regulation of KACh by G Proteins -- 3 Molecular Constituents of Kir3 Channels and Physiological Roles -- 4 Dependence of KACh Channel Activity on PIPs -- 5 Physiological Significance of Distinct Membrane-Delimited Signaling Mechanisms -- 6 Molecular Mechanism of PIP2 Control of Kir Channel Gating
- 7 Posttranslational Modification Can Control Activity Through Changes in Channelâ€"PIP2 Interactions8 The Kir3 Channel Site of GÎ2Î3 Action -- Chapter Two: The Roles of GÎ2Î3 and Gα in Gating and Regulation of GIRK Channels -- Abstract -- 1 Introduction -- 2 Interaction of Gα and GÎ2Î3 With GIRK -- 3 Roles of GÎ2Î3 and Gα in GIRK's Evoked and Basal Activity -- 4 Basal Activity of GIRKs -- 5 Multimolecular Signaling Complex and the Mechanism of GIRK Activation -- Acknowledgments -- Chapter Three: RGS Redundancy and Implications in GPCRâ€"GIRK Signaling
- 2 Selectivity and Permeation3 Rectification -- 4 Gating -- 5 Conclusions -- Acknowledgments -- Chapter Five: Localization and Targeting of GIRK Channels in Mammalian Central Neurons -- Abstract -- 1 Introduction -- 2 Molecular Organization and Heterogeneity of GIRK Channels -- 3 Neuroanatomical Approaches to the Study of GIRK Channel Distribution -- 4 Regional Distribution of GIRK Channel Subunits in the CNS -- 5 Cellular Distribution of GIRK Channel Subunits -- 6 Subcellular Distribution of GIRK Channel Subunits
- 7 Developmental Aspects of GIRK Channel Distribution8 Conclusions and Future Perspectives -- Acknowledgments -- Chapter Six: GIRK Channel Plasticity and Implications for Drug Addiction -- Abstract -- 1 Introduction -- 2 GIRK Channels in the Mesocorticolimbic System -- 3 Drug-Dependent Plasticity of GIRK Channel-Dependent Signaling -- 4 Mechanisms Underlying the Plasticity of GIRK Channel-Dependent Signaling -- 5 Concluding Thoughts and Future Directions -- Acknowledgments -- Chapter Seven: GIRK Channels: A Potential Link Between Learning and Addiction -- Abstract
- Isbn
- 9780128026311
- Label
- Structure to function of G protein-gated inwardly rectifying (GIRK) channels
- Title
- Structure to function of G protein-gated inwardly rectifying (GIRK) channels
- Statement of responsibility
- volume editors, Paul A. Slesinger, Kevin Wickman
- Language
- eng
- Summary
- Annotation
- Cataloging source
- NLE
- Dewey number
- 572.3
- Index
- index present
- LC call number
- QP552.G16
- Literary form
- non fiction
- Nature of contents
-
- dictionaries
- bibliography
- NLM call number
- QU 55.7
- http://library.link/vocab/relatedWorkOrContributorName
-
- Slesinger, Paul A.
- Wickman, Kevin D.
- Series statement
- International Review of Neurobiology
- Series volume
- v. Volume 123
- http://library.link/vocab/subjectName
-
- Potassium channels
- G proteins
- Substance abuse
- Receptors, G-Protein-Coupled
- Potassium Channels
- SCIENCE
- Substance abuse
- Potassium channels
- Summary expansion
- A comprehensive overview of state-of-the-art research into GIRK potassium channels. It reviews current knowledge and understanding, providing a starting point for researchers and practitioners entering the field
- Label
- Structure to function of G protein-gated inwardly rectifying (GIRK) channels, volume editors, Paul A. Slesinger, Kevin Wickman
- Bibliography note
- Includes bibliographical references and index
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Title page -- Table of Contents -- Copyright -- Contributors -- Preface -- Chapter One: Unifying Mechanism of Controlling Kir3 Channel Activity by G Proteins and Phosphoinositides -- Abstract -- 1 Introduction -- 2 Regulation of KACh by G Proteins -- 3 Molecular Constituents of Kir3 Channels and Physiological Roles -- 4 Dependence of KACh Channel Activity on PIPs -- 5 Physiological Significance of Distinct Membrane-Delimited Signaling Mechanisms -- 6 Molecular Mechanism of PIP2 Control of Kir Channel Gating
- 7 Posttranslational Modification Can Control Activity Through Changes in Channelâ€"PIP2 Interactions8 The Kir3 Channel Site of GÎ2Î3 Action -- Chapter Two: The Roles of GÎ2Î3 and Gα in Gating and Regulation of GIRK Channels -- Abstract -- 1 Introduction -- 2 Interaction of Gα and GÎ2Î3 With GIRK -- 3 Roles of GÎ2Î3 and Gα in GIRK's Evoked and Basal Activity -- 4 Basal Activity of GIRKs -- 5 Multimolecular Signaling Complex and the Mechanism of GIRK Activation -- Acknowledgments -- Chapter Three: RGS Redundancy and Implications in GPCRâ€"GIRK Signaling
- 2 Selectivity and Permeation3 Rectification -- 4 Gating -- 5 Conclusions -- Acknowledgments -- Chapter Five: Localization and Targeting of GIRK Channels in Mammalian Central Neurons -- Abstract -- 1 Introduction -- 2 Molecular Organization and Heterogeneity of GIRK Channels -- 3 Neuroanatomical Approaches to the Study of GIRK Channel Distribution -- 4 Regional Distribution of GIRK Channel Subunits in the CNS -- 5 Cellular Distribution of GIRK Channel Subunits -- 6 Subcellular Distribution of GIRK Channel Subunits
- 7 Developmental Aspects of GIRK Channel Distribution8 Conclusions and Future Perspectives -- Acknowledgments -- Chapter Six: GIRK Channel Plasticity and Implications for Drug Addiction -- Abstract -- 1 Introduction -- 2 GIRK Channels in the Mesocorticolimbic System -- 3 Drug-Dependent Plasticity of GIRK Channel-Dependent Signaling -- 4 Mechanisms Underlying the Plasticity of GIRK Channel-Dependent Signaling -- 5 Concluding Thoughts and Future Directions -- Acknowledgments -- Chapter Seven: GIRK Channels: A Potential Link Between Learning and Addiction -- Abstract
- Control code
- 932055312
- Extent
- 1 online resource
- Form of item
- online
- Isbn
- 9780128026311
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- http://library.link/vocab/ext/overdrive/overdriveId
- 9780128026311
- Specific material designation
- remote
- System control number
- (OCoLC)932055312
- Label
- Structure to function of G protein-gated inwardly rectifying (GIRK) channels, volume editors, Paul A. Slesinger, Kevin Wickman
- Bibliography note
- Includes bibliographical references and index
- Carrier category
- online resource
- Carrier category code
-
- cr
- Carrier MARC source
- rdacarrier
- Content category
- text
- Content type code
-
- txt
- Content type MARC source
- rdacontent
- Contents
-
- Title page -- Table of Contents -- Copyright -- Contributors -- Preface -- Chapter One: Unifying Mechanism of Controlling Kir3 Channel Activity by G Proteins and Phosphoinositides -- Abstract -- 1 Introduction -- 2 Regulation of KACh by G Proteins -- 3 Molecular Constituents of Kir3 Channels and Physiological Roles -- 4 Dependence of KACh Channel Activity on PIPs -- 5 Physiological Significance of Distinct Membrane-Delimited Signaling Mechanisms -- 6 Molecular Mechanism of PIP2 Control of Kir Channel Gating
- 7 Posttranslational Modification Can Control Activity Through Changes in Channelâ€"PIP2 Interactions8 The Kir3 Channel Site of GÎ2Î3 Action -- Chapter Two: The Roles of GÎ2Î3 and Gα in Gating and Regulation of GIRK Channels -- Abstract -- 1 Introduction -- 2 Interaction of Gα and GÎ2Î3 With GIRK -- 3 Roles of GÎ2Î3 and Gα in GIRK's Evoked and Basal Activity -- 4 Basal Activity of GIRKs -- 5 Multimolecular Signaling Complex and the Mechanism of GIRK Activation -- Acknowledgments -- Chapter Three: RGS Redundancy and Implications in GPCRâ€"GIRK Signaling
- 2 Selectivity and Permeation3 Rectification -- 4 Gating -- 5 Conclusions -- Acknowledgments -- Chapter Five: Localization and Targeting of GIRK Channels in Mammalian Central Neurons -- Abstract -- 1 Introduction -- 2 Molecular Organization and Heterogeneity of GIRK Channels -- 3 Neuroanatomical Approaches to the Study of GIRK Channel Distribution -- 4 Regional Distribution of GIRK Channel Subunits in the CNS -- 5 Cellular Distribution of GIRK Channel Subunits -- 6 Subcellular Distribution of GIRK Channel Subunits
- 7 Developmental Aspects of GIRK Channel Distribution8 Conclusions and Future Perspectives -- Acknowledgments -- Chapter Six: GIRK Channel Plasticity and Implications for Drug Addiction -- Abstract -- 1 Introduction -- 2 GIRK Channels in the Mesocorticolimbic System -- 3 Drug-Dependent Plasticity of GIRK Channel-Dependent Signaling -- 4 Mechanisms Underlying the Plasticity of GIRK Channel-Dependent Signaling -- 5 Concluding Thoughts and Future Directions -- Acknowledgments -- Chapter Seven: GIRK Channels: A Potential Link Between Learning and Addiction -- Abstract
- Control code
- 932055312
- Extent
- 1 online resource
- Form of item
- online
- Isbn
- 9780128026311
- Media category
- computer
- Media MARC source
- rdamedia
- Media type code
-
- c
- http://library.link/vocab/ext/overdrive/overdriveId
- 9780128026311
- Specific material designation
- remote
- System control number
- (OCoLC)932055312
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