Cellular Mechanotransduction
Diverse Perspectives from Molecules to Tissues
Herausgeber: Kamm, Roger D.; Mofrad, Mohammad R. K.
Cellular Mechanotransduction
Diverse Perspectives from Molecules to Tissues
Herausgeber: Kamm, Roger D.; Mofrad, Mohammad R. K.
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This book focuses on the process of stress sensing and transducing mechanical force into biochemical signals.
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This book focuses on the process of stress sensing and transducing mechanical force into biochemical signals.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 494
- Erscheinungstermin: 13. März 2014
- Englisch
- Abmessung: 254mm x 178mm x 26mm
- Gewicht: 920g
- ISBN-13: 9781107682467
- ISBN-10: 1107682460
- Artikelnr.: 41239570
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Verlag: Cambridge University Press
- Seitenzahl: 494
- Erscheinungstermin: 13. März 2014
- Englisch
- Abmessung: 254mm x 178mm x 26mm
- Gewicht: 920g
- ISBN-13: 9781107682467
- ISBN-10: 1107682460
- Artikelnr.: 41239570
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
1. Introduction Roger D. Kamm and Mohammad R. K. Mofrad; 2. Endothelial
mechanotransduction Peter F. Davies and Brian P. Helmke; 3. Role of the
plasma membrane in endothelial cell mechanosensation of shear stress Peter
J. Butler and Shu Chien; 4. Mechanotransduction by membrane mediated
activation of G protein coupled receptors and G proteins Yan-Liang Zhang,
John A. Frangos and Mirianas Chachisvilis; 5. Cellular mechanotransduction:
interactions with the extracellular matrix Andrew D. Doyle and Kenneth M.
Yamada; 6. Role of ion channels in cellular mechanotransduction: lessons
from the vascular endothelium Abdul I. Barakat and Andrea Gojova; 7.
Towards a modular analysis of cell mechano-sensing and transduction: an
operations manual for cell mechanics Benjamin J. Dubin-Thaler and Michael
P. Sheetz; 8. Tensegrity as a mechanism for integrating molecular and
cellular mechanotransduction mechanisms Donald E. Ingber; 9. Nuclear
mechanics and mechanotransduction Shinji Deguchi and Masaaki Sato; 10.
Microtubule bending and breaking in cellular mechanotransduction Andrew D.
Bicek, Dominique Seetapun, and David J. Odde; 11. A molecular perspective
on mechanotransduction in focal adhesions Seung E. Lee, Roger D. Kamm and
Mohammad R. K. Mofrad; 12. Protein conformational change: a molecular basis
of mechanotransduction Gang Bao; 13. Translating mechanical force into
discrete biochemical signal changes: multimodularity imposes unique
properties to mechanotransductive proteins Vesa P. Hytönen, Michael L.
Smith and Viola Vogel; 14. Mechanotransduction through local autocrine
signaling Nikola Kojic and Daniel J. Tschumperlin; 15. The interaction
between fluid-wall shear stress and solid circumferential strain affects
endothelial cell mechanobiology John M. Tarbell; 16. Micro- and nanoscale
force techniques for mechanotransduction Nathan J. Sniadecki, Wesley R.
Legant and Christopher S. Chen; 17. Mechanical regulation of stem cells:
implications in tissue remodeling Kyle Kurpinski, Randall R. R. Janairo,
Shu Chien and Song Li; 18. Mechanotransduction: role of nuclear pore
mechanics and nucleocytoplasmic transport Christopher B. Wolf and Mohammad
R. K. Mofrad; 19. Summary and outlook Mohammad R. K. Mofrad and Roger D.
Kamm.
mechanotransduction Peter F. Davies and Brian P. Helmke; 3. Role of the
plasma membrane in endothelial cell mechanosensation of shear stress Peter
J. Butler and Shu Chien; 4. Mechanotransduction by membrane mediated
activation of G protein coupled receptors and G proteins Yan-Liang Zhang,
John A. Frangos and Mirianas Chachisvilis; 5. Cellular mechanotransduction:
interactions with the extracellular matrix Andrew D. Doyle and Kenneth M.
Yamada; 6. Role of ion channels in cellular mechanotransduction: lessons
from the vascular endothelium Abdul I. Barakat and Andrea Gojova; 7.
Towards a modular analysis of cell mechano-sensing and transduction: an
operations manual for cell mechanics Benjamin J. Dubin-Thaler and Michael
P. Sheetz; 8. Tensegrity as a mechanism for integrating molecular and
cellular mechanotransduction mechanisms Donald E. Ingber; 9. Nuclear
mechanics and mechanotransduction Shinji Deguchi and Masaaki Sato; 10.
Microtubule bending and breaking in cellular mechanotransduction Andrew D.
Bicek, Dominique Seetapun, and David J. Odde; 11. A molecular perspective
on mechanotransduction in focal adhesions Seung E. Lee, Roger D. Kamm and
Mohammad R. K. Mofrad; 12. Protein conformational change: a molecular basis
of mechanotransduction Gang Bao; 13. Translating mechanical force into
discrete biochemical signal changes: multimodularity imposes unique
properties to mechanotransductive proteins Vesa P. Hytönen, Michael L.
Smith and Viola Vogel; 14. Mechanotransduction through local autocrine
signaling Nikola Kojic and Daniel J. Tschumperlin; 15. The interaction
between fluid-wall shear stress and solid circumferential strain affects
endothelial cell mechanobiology John M. Tarbell; 16. Micro- and nanoscale
force techniques for mechanotransduction Nathan J. Sniadecki, Wesley R.
Legant and Christopher S. Chen; 17. Mechanical regulation of stem cells:
implications in tissue remodeling Kyle Kurpinski, Randall R. R. Janairo,
Shu Chien and Song Li; 18. Mechanotransduction: role of nuclear pore
mechanics and nucleocytoplasmic transport Christopher B. Wolf and Mohammad
R. K. Mofrad; 19. Summary and outlook Mohammad R. K. Mofrad and Roger D.
Kamm.
1. Introduction Roger D. Kamm and Mohammad R. K. Mofrad; 2. Endothelial
mechanotransduction Peter F. Davies and Brian P. Helmke; 3. Role of the
plasma membrane in endothelial cell mechanosensation of shear stress Peter
J. Butler and Shu Chien; 4. Mechanotransduction by membrane mediated
activation of G protein coupled receptors and G proteins Yan-Liang Zhang,
John A. Frangos and Mirianas Chachisvilis; 5. Cellular mechanotransduction:
interactions with the extracellular matrix Andrew D. Doyle and Kenneth M.
Yamada; 6. Role of ion channels in cellular mechanotransduction: lessons
from the vascular endothelium Abdul I. Barakat and Andrea Gojova; 7.
Towards a modular analysis of cell mechano-sensing and transduction: an
operations manual for cell mechanics Benjamin J. Dubin-Thaler and Michael
P. Sheetz; 8. Tensegrity as a mechanism for integrating molecular and
cellular mechanotransduction mechanisms Donald E. Ingber; 9. Nuclear
mechanics and mechanotransduction Shinji Deguchi and Masaaki Sato; 10.
Microtubule bending and breaking in cellular mechanotransduction Andrew D.
Bicek, Dominique Seetapun, and David J. Odde; 11. A molecular perspective
on mechanotransduction in focal adhesions Seung E. Lee, Roger D. Kamm and
Mohammad R. K. Mofrad; 12. Protein conformational change: a molecular basis
of mechanotransduction Gang Bao; 13. Translating mechanical force into
discrete biochemical signal changes: multimodularity imposes unique
properties to mechanotransductive proteins Vesa P. Hytönen, Michael L.
Smith and Viola Vogel; 14. Mechanotransduction through local autocrine
signaling Nikola Kojic and Daniel J. Tschumperlin; 15. The interaction
between fluid-wall shear stress and solid circumferential strain affects
endothelial cell mechanobiology John M. Tarbell; 16. Micro- and nanoscale
force techniques for mechanotransduction Nathan J. Sniadecki, Wesley R.
Legant and Christopher S. Chen; 17. Mechanical regulation of stem cells:
implications in tissue remodeling Kyle Kurpinski, Randall R. R. Janairo,
Shu Chien and Song Li; 18. Mechanotransduction: role of nuclear pore
mechanics and nucleocytoplasmic transport Christopher B. Wolf and Mohammad
R. K. Mofrad; 19. Summary and outlook Mohammad R. K. Mofrad and Roger D.
Kamm.
mechanotransduction Peter F. Davies and Brian P. Helmke; 3. Role of the
plasma membrane in endothelial cell mechanosensation of shear stress Peter
J. Butler and Shu Chien; 4. Mechanotransduction by membrane mediated
activation of G protein coupled receptors and G proteins Yan-Liang Zhang,
John A. Frangos and Mirianas Chachisvilis; 5. Cellular mechanotransduction:
interactions with the extracellular matrix Andrew D. Doyle and Kenneth M.
Yamada; 6. Role of ion channels in cellular mechanotransduction: lessons
from the vascular endothelium Abdul I. Barakat and Andrea Gojova; 7.
Towards a modular analysis of cell mechano-sensing and transduction: an
operations manual for cell mechanics Benjamin J. Dubin-Thaler and Michael
P. Sheetz; 8. Tensegrity as a mechanism for integrating molecular and
cellular mechanotransduction mechanisms Donald E. Ingber; 9. Nuclear
mechanics and mechanotransduction Shinji Deguchi and Masaaki Sato; 10.
Microtubule bending and breaking in cellular mechanotransduction Andrew D.
Bicek, Dominique Seetapun, and David J. Odde; 11. A molecular perspective
on mechanotransduction in focal adhesions Seung E. Lee, Roger D. Kamm and
Mohammad R. K. Mofrad; 12. Protein conformational change: a molecular basis
of mechanotransduction Gang Bao; 13. Translating mechanical force into
discrete biochemical signal changes: multimodularity imposes unique
properties to mechanotransductive proteins Vesa P. Hytönen, Michael L.
Smith and Viola Vogel; 14. Mechanotransduction through local autocrine
signaling Nikola Kojic and Daniel J. Tschumperlin; 15. The interaction
between fluid-wall shear stress and solid circumferential strain affects
endothelial cell mechanobiology John M. Tarbell; 16. Micro- and nanoscale
force techniques for mechanotransduction Nathan J. Sniadecki, Wesley R.
Legant and Christopher S. Chen; 17. Mechanical regulation of stem cells:
implications in tissue remodeling Kyle Kurpinski, Randall R. R. Janairo,
Shu Chien and Song Li; 18. Mechanotransduction: role of nuclear pore
mechanics and nucleocytoplasmic transport Christopher B. Wolf and Mohammad
R. K. Mofrad; 19. Summary and outlook Mohammad R. K. Mofrad and Roger D.
Kamm.