Mechanosensitive ion channels: B
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2007
|
| Schriftenreihe: | Current topics in membranes
59 |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXI, 588 S., [12] Bl. Ill., graph. Darst. |
| ISBN: | 9780121533595 012153359X |
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| 245 | 1 | 0 | |a Mechanosensitive ion channels |n B |c ed. by Owen P. Hamill |
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier |c 2007 | |
| 300 | |a XXI, 588 S., [12] Bl. |b Ill., graph. Darst. | ||
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Datensatz im Suchindex
| _version_ | 1804136465418944512 |
|---|---|
| adam_text | Contents
Contributors
Foreword
Previous Volumes in Series
xix
CHAPTER
Mechanical Coupling, Electrophysiology, and
Synaptic Modulation
Andrew S. French and
I. Overview
II. Introduction
III. Types of Spider Mechanoreceptors
IV. Mechanical Coupling
V. Mechanotransduction in Slit Sensilla
VI. Dynamic Properties of Mechanotransduction
and Action Potential Encoding
VII.
Spider Mechanoreceptors
VIII.
Spider Mechanoreceptors
IX. Conclusions
References
CHAPTER
Crayfish Stretch Receptor
Bo Rydqvist
I. Overview
II. Introduction
III. Morphology of the SRO
IV. Functional Properties
V. Summary and Discussion of Future
Research Directions
References
Contents
CHAPTŁR
Caenorhabditis
Dafne
I. Overview
II. Introduction
III. C. elegans Mechanosensitive
IV.
V. C. elegans
VI. Concluding Remarks
References
51
CHAPTER
CHAPTER
CHAPTER
Properties and Mechanism of the Mechanosensitive
Ion Channel Inhibitor GsMTx4, a Therapeutic
Peptide
Philip A. Gottlieb, Thomas M. Suchyna, and Frederick Sachs
I. Overview
II. Introduction
III. Properties and Specificity of GsMTx4
IV. Cellular Sites for GsMTx4
V. Potential Therapeutic Uses for GsMTx4
VI. Conclusions
References
Mechanosensitive Channels in Neurite Outgrowth
Mario Pellegrino
I. Overview 111
II. Introduction
III. Encoding of Guidance Cues in
Axon Pathfinding
IV. Requirement of
Calcium-Dependent Axon Pathfinding
V. Physical Guidance Cues and Role of
Mechanosensitive Ion Channels
VI. Ion Channels as Molecular Integrators
VII.
References
ENaC Proteins in Vascular Smooth
Muscle Mechanotransduction
Heather A.
I. Overview
II. Introduction
Contents
vu
III. DEG/ENaC/ASIC
Diverse Protein Family Involved in
Mechanotransduction
IV. Involvement of ENaC Proteins in Vascular
Smooth Muscle Mechanotransduction
V. Summary and Future Directions
References
CHAPTER
TREK-
Jean Chemin,
Lazáunski,
I. Overview
II. Introduction
III. TREK-1 Stimulation by Membrane
Phospholipids
IV. TREK-1 Inhibition by Membrane
Phospholipids
References
CHAPTER
Andrew J. Castiglioni and Jaime
I. Overview
II. MechanoTRP Channels
III. Characteristics of TRPAl Gene
and Protein
IV. TRPAl Expression in
Mechanosensory Organs
V. Function of TRPAl
VI. Proposed Biological Roles for TRPAl
References
185
CHAPTER
Owen P. Hamill and
I. Overview
II. Introduction
III. Practical Aspects of Recording
MS Channels
Contents
IV. Distinguishing Direct vs Indirect
MS Channels
V. Extrinsic Regulation of Stretch Sensitivity
VI. Strategies to Identify MS Channel Proteins
VII.
VIII.
IX. Conclusions
References
CHAPTER
as a Potential Mechanosensory Mechanism:
Lessons from Polycystin-2 (TRPP2)
Horacio
and Xing-Zhen Chen
I. Overview
II. Introduction
III. Role of Actin Cytoskeletal Dynamics in
PŒ-Mediated
IV. Identification of Actin-Binding Protein
Interactions with Polycystin-2
V. Effect of Hydroosmotic Pressure on PC2
Channel Function: Role of the Cytoskeleton
in Osmosensory Function
VI. The Channel-Cytoskeleton Interface:
Structural-Functional Correlates
VII.
References
CHAPTER
Voltage-Gated Channels
Catherine E. Morris and Peter F. Juranka
I. Overview
II. The System Components
III. Big Picture Issues
IV. Reversible Stretch-Induced Changes in
Particular VGCs
V. Irreversible Stretch-Induced Gating
Changes in VGCs
VI. Technical Issues
VII.
References
Contents
CHAPTER
Interplay Between Structure and Function
Anthony J.
I. Overview
II. Auditory System
III. Hair Bundle Structure
IV. MET Involves Mechanically Gated Channels
V. Where are These Channels?
VI. The Gating Spring Theory
VII.
VIII.
IX. Characterizing Channel Properties?
X. MET Channel Pore
XI. Adaptation
XII.
XIII.
References
341
CHAPTER
Channel from Experiments with Permeant
Sietse M. van
I. Overview
II. Introduction
III. Ionic Selectivity of the Transducer Channel
IV. Permeation and Block of Mechanoreceptor
Channels by
V. Permeation and Block of the Hair Cell Transducer
Channel by Aminoglycoside Antibiotics
VI. Transducer Channel Block by Amiloride
and Its Derivatives
VII.
References
CHAPTER
Susanne Bechstedt
I. Overview
II. Introduction
III. Transduction Channel Properties
IV. Gating
V. Active Hair Bundle Motility
VI. Conclusions
References
x
CHAPTER
Liam
I. Overview
II. Introduction
III. Structure of Skin and Touch Receptors
IV. Physiology of Mechanoreceptive
Nerve Fibers
V. Quantitating Mechanical Responses in
Animal Models
VI. Electrophysiological Approaches to
Mechanosensation in Rodents
VII. Mechanosensitive
Sensory Neurons
VIII.
IX. Candidate Ion Channels
X. Voltage-Gated Channels and
Mechanosensation
XI. Indirect Signaling Between Sensory Neurons and
Nonneuronal
XII.
References
CHAPTER
Dystrophie
Je f
I. Overview
II. Introduction
HI. MS Channel Expression During Myogenesis
IV. Permeabilty Properties of MS Channels in
Skeletal Muscle
V. Gating
VI. Pharmacology
VII.
References
CHAPTER
and Metastasis
Rosario
I. Overview
II. Introduction
Contents xi
III. Different Modes of Migration
IV. Ca2+ Dependence of Cell Migration
V. The Role of MscCa in Cell Migration
VI. Can Extrinsic Mechanical Forces Acting on MscCa
Switch on Cell Migration?
References
CHAPTER
Kenton M. Sanders and Sang Don Koh
I. Overview
II. Introduction
III. Mechanosensitive Conductances that Generate
Inward Currents
IV. Mechanosensitive Conductances that Generate
Outward Currents
References
CHAPTER
Pressure-Sensing Baroreceptor Neurons
Mark W. Chapleau, Yongjim
I. Overview
II. Introduction
III. BR
IV. Mechanosensitive Channels in BR Neurons
V. Methodological Limitations and Challenges
VI. Summary and Future Directions
References
index
|
| adam_txt |
Contents
Contributors
Foreword
Previous Volumes in Series
xix
CHAPTER
Mechanical Coupling, Electrophysiology, and
Synaptic Modulation
Andrew S. French and
I. Overview
II. Introduction
III. Types of Spider Mechanoreceptors
IV. Mechanical Coupling
V. Mechanotransduction in Slit Sensilla
VI. Dynamic Properties of Mechanotransduction
and Action Potential Encoding
VII.
Spider Mechanoreceptors
VIII.
Spider Mechanoreceptors
IX. Conclusions
References
CHAPTER
Crayfish Stretch Receptor
Bo Rydqvist
I. Overview
II. Introduction
III. Morphology of the SRO
IV. Functional Properties
V. Summary and Discussion of Future
Research Directions
References
Contents
CHAPTŁR
Caenorhabditis
Dafne
I. Overview
II. Introduction
III. C. elegans Mechanosensitive
IV.
V. C. elegans
VI. Concluding Remarks
References
51
CHAPTER
CHAPTER
CHAPTER
Properties and Mechanism of the Mechanosensitive
Ion Channel Inhibitor GsMTx4, a Therapeutic
Peptide
Philip A. Gottlieb, Thomas M. Suchyna, and Frederick Sachs
I. Overview
II. Introduction
III. Properties and Specificity of GsMTx4
IV. Cellular Sites for GsMTx4
V. Potential Therapeutic Uses for GsMTx4
VI. Conclusions
References
Mechanosensitive Channels in Neurite Outgrowth
Mario Pellegrino
I. Overview 111
II. Introduction
III. Encoding of Guidance Cues in
Axon Pathfinding
IV. Requirement of
Calcium-Dependent Axon Pathfinding
V. Physical Guidance Cues and Role of
Mechanosensitive Ion Channels
VI. Ion Channels as Molecular Integrators
VII.
References
ENaC Proteins in Vascular Smooth
Muscle Mechanotransduction
Heather A.
I. Overview
II. Introduction
Contents
vu
III. DEG/ENaC/ASIC
Diverse Protein Family Involved in
Mechanotransduction
IV. Involvement of ENaC Proteins in Vascular
Smooth Muscle Mechanotransduction
V. Summary and Future Directions
References
CHAPTER
TREK-
Jean Chemin,
Lazáunski,
I. Overview
II. Introduction
III. TREK-1 Stimulation by Membrane
Phospholipids
IV. TREK-1 Inhibition by Membrane
Phospholipids
References
CHAPTER
Andrew J. Castiglioni and Jaime
I. Overview
II. MechanoTRP Channels
III. Characteristics of TRPAl Gene
and Protein
IV. TRPAl Expression in
Mechanosensory Organs
V. Function of TRPAl
VI. Proposed Biological Roles for TRPAl
References
185
CHAPTER
Owen P. Hamill and
I. Overview
II. Introduction
III. Practical Aspects of Recording
MS Channels
Contents
IV. Distinguishing Direct vs Indirect
MS Channels
V. Extrinsic Regulation of Stretch Sensitivity
VI. Strategies to Identify MS Channel Proteins
VII.
VIII.
IX. Conclusions
References
CHAPTER
as a Potential Mechanosensory Mechanism:
Lessons from Polycystin-2 (TRPP2)
Horacio
and Xing-Zhen Chen
I. Overview
II. Introduction
III. Role of Actin Cytoskeletal Dynamics in
PŒ-Mediated
IV. Identification of Actin-Binding Protein
Interactions with Polycystin-2
V. Effect of Hydroosmotic Pressure on PC2
Channel Function: Role of the Cytoskeleton
in Osmosensory Function
VI. The Channel-Cytoskeleton Interface:
Structural-Functional Correlates
VII.
References
CHAPTER
Voltage-Gated Channels
Catherine E. Morris and Peter F. Juranka
I. Overview
II. The System Components
III. Big Picture Issues
IV. Reversible Stretch-Induced Changes in
Particular VGCs
V. Irreversible Stretch-Induced Gating
Changes in VGCs
VI. Technical Issues
VII.
References
Contents
CHAPTER
Interplay Between Structure and Function
Anthony J.
I. Overview
II. Auditory System
III. Hair Bundle Structure
IV. MET Involves Mechanically Gated Channels
V. Where are These Channels?
VI. The Gating Spring Theory
VII.
VIII.
IX. Characterizing Channel Properties?
X. MET Channel Pore
XI. Adaptation
XII.
XIII.
References
341
CHAPTER
Channel from Experiments with Permeant
Sietse M. van
I. Overview
II. Introduction
III. Ionic Selectivity of the Transducer Channel
IV. Permeation and Block of Mechanoreceptor
Channels by
V. Permeation and Block of the Hair Cell Transducer
Channel by Aminoglycoside Antibiotics
VI. Transducer Channel Block by Amiloride
and Its Derivatives
VII.
References
CHAPTER
Susanne Bechstedt
I. Overview
II. Introduction
III. Transduction Channel Properties
IV. Gating
V. Active Hair Bundle Motility
VI. Conclusions
References
x
CHAPTER
Liam
I. Overview
II. Introduction
III. Structure of Skin and Touch Receptors
IV. Physiology of Mechanoreceptive
Nerve Fibers
V. Quantitating Mechanical Responses in
Animal Models
VI. Electrophysiological Approaches to
Mechanosensation in Rodents
VII. Mechanosensitive
Sensory Neurons
VIII.
IX. Candidate Ion Channels
X. Voltage-Gated Channels and
Mechanosensation
XI. Indirect Signaling Between Sensory Neurons and
Nonneuronal
XII.
References
CHAPTER
Dystrophie
Je f
I. Overview
II. Introduction
HI. MS Channel Expression During Myogenesis
IV. Permeabilty Properties of MS Channels in
Skeletal Muscle
V. Gating
VI. Pharmacology
VII.
References
CHAPTER
and Metastasis
Rosario
I. Overview
II. Introduction
Contents xi
III. Different Modes of Migration
IV. Ca2+ Dependence of Cell Migration
V. The Role of MscCa in Cell Migration
VI. Can Extrinsic Mechanical Forces Acting on MscCa
Switch on Cell Migration?
References
CHAPTER
Kenton M. Sanders and Sang Don Koh
I. Overview
II. Introduction
III. Mechanosensitive Conductances that Generate
Inward Currents
IV. Mechanosensitive Conductances that Generate
Outward Currents
References
CHAPTER
Pressure-Sensing Baroreceptor Neurons
Mark W. Chapleau, Yongjim
I. Overview
II. Introduction
III. BR
IV. Mechanosensitive Channels in BR Neurons
V. Methodological Limitations and Challenges
VI. Summary and Future Directions
References
index |
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| illustrated | Illustrated |
| index_date | 2024-07-02T17:19:04Z |
| indexdate | 2024-07-09T20:56:50Z |
| institution | BVB |
| isbn | 9780121533595 012153359X |
| language | English |
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| publisher | Elsevier |
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| series | Current topics in membranes |
| series2 | Current topics in membranes |
| spelling | Mechanosensitive ion channels B ed. by Owen P. Hamill Amsterdam [u.a.] Elsevier 2007 XXI, 588 S., [12] Bl. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Current topics in membranes 59 Current topics in membranes ... Hamill, Owen P. Sonstige oth (DE-604)BV022394353 B Current topics in membranes 59 (DE-604)BV036839511 59 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015611669&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Mechanosensitive ion channels Current topics in membranes |
| title | Mechanosensitive ion channels |
| title_auth | Mechanosensitive ion channels |
| title_exact_search | Mechanosensitive ion channels |
| title_exact_search_txtP | Mechanosensitive ion channels |
| title_full | Mechanosensitive ion channels B ed. by Owen P. Hamill |
| title_fullStr | Mechanosensitive ion channels B ed. by Owen P. Hamill |
| title_full_unstemmed | Mechanosensitive ion channels B ed. by Owen P. Hamill |
| title_short | Mechanosensitive ion channels |
| title_sort | mechanosensitive ion channels |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015611669&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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