Mechanosensing Biology (eBook, PDF)
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Mechanosensing Biology (eBook, PDF)
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Produktdetails
- Produktdetails
- Verlag: Springer Tokyo
- Erscheinungstermin: 28. Dezember 2010
- Englisch
- ISBN-13: 9784431897576
- Artikelnr.: 37411151
- Verlag: Springer Tokyo
- Erscheinungstermin: 28. Dezember 2010
- Englisch
- ISBN-13: 9784431897576
- Artikelnr.: 37411151
-Part I Cells and Signals. -1. Nanotechnology in Mechanobiology: Mechanical Manipulation of Cells and Organelle While Monitoring Intracellular Signaling. -2.Molecular Mechanisms Underlying Mechanosensing in Vascular Biology. 3.Mechanobiology During Vertebrate Organ Development.
-Part II Tissue and Gravity. -4. Mechanobiology in Skeletal Muscle: Conversion of Mechanical Information into Molecular Signal. -5. Mechanobiology in Space. -6. Mechanical Stress and Bone. -7. TRP Channels and Mechanical Signals.
-Part III Skeletal Response. -8. Osteoblast Biology and Mechanosensing. -9. Osteocytes in Mechanosensing: Insights from Mouse Models and Human Patients. -10. Osteocyte Mechanosensation and Transduction. -11. Mechanosensing and Signaling Crosstalks. -12.Osteoblast Development in Bone Loss Due to Skeletal Unloading.
-Part IV Bone Signaling. -13. Mechanosensing in Bone and the Role of Glutamate Signalling. -14. Osteoclast Biology and Mechanosensing
-Part III Skeletal Response. -8. Osteoblast Biology and Mechanosensing. -9. Osteocytes in Mechanosensing: Insights from Mouse Models and Human Patients. -10. Osteocyte Mechanosensation and Transduction. -11. Mechanosensing and Signaling Crosstalks. -12.Osteoblast Development in Bone Loss Due to Skeletal Unloading.
-Part IV Bone Signaling. -13. Mechanosensing in Bone and the Role of Glutamate Signalling. -14. Osteoclast Biology and Mechanosensing
-Part II Tissue and Gravity. -4. Mechanobiology in Skeletal Muscle: Conversion of Mechanical Information into Molecular Signal. -5. Mechanobiology in Space. -6. Mechanical Stress and Bone. -7. TRP Channels and Mechanical Signals.
-Part III Skeletal Response. -8. Osteoblast Biology and Mechanosensing. -9. Osteocytes in Mechanosensing: Insights from Mouse Models and Human Patients. -10. Osteocyte Mechanosensation and Transduction. -11. Mechanosensing and Signaling Crosstalks. -12.Osteoblast Development in Bone Loss Due to Skeletal Unloading.
-Part IV Bone Signaling. -13. Mechanosensing in Bone and the Role of Glutamate Signalling. -14. Osteoclast Biology and Mechanosensing
-Part III Skeletal Response. -8. Osteoblast Biology and Mechanosensing. -9. Osteocytes in Mechanosensing: Insights from Mouse Models and Human Patients. -10. Osteocyte Mechanosensation and Transduction. -11. Mechanosensing and Signaling Crosstalks. -12.Osteoblast Development in Bone Loss Due to Skeletal Unloading.
-Part IV Bone Signaling. -13. Mechanosensing in Bone and the Role of Glutamate Signalling. -14. Osteoclast Biology and Mechanosensing
-Part I Cells and Signals. -1. Nanotechnology in Mechanobiology: Mechanical Manipulation of Cells and Organelle While Monitoring Intracellular Signaling. -2.Molecular Mechanisms Underlying Mechanosensing in Vascular Biology. 3.Mechanobiology During Vertebrate Organ Development.
-Part II Tissue and Gravity. -4. Mechanobiology in Skeletal Muscle: Conversion of Mechanical Information into Molecular Signal. -5. Mechanobiology in Space. -6. Mechanical Stress and Bone. -7. TRP Channels and Mechanical Signals.
-Part III Skeletal Response. -8. Osteoblast Biology and Mechanosensing. -9. Osteocytes in Mechanosensing: Insights from Mouse Models and Human Patients. -10. Osteocyte Mechanosensation and Transduction. -11. Mechanosensing and Signaling Crosstalks. -12.Osteoblast Development in Bone Loss Due to Skeletal Unloading.
-Part IV Bone Signaling. -13. Mechanosensing in Bone and the Role of Glutamate Signalling. -14. Osteoclast Biology and Mechanosensing
-Part III Skeletal Response. -8. Osteoblast Biology and Mechanosensing. -9. Osteocytes in Mechanosensing: Insights from Mouse Models and Human Patients. -10. Osteocyte Mechanosensation and Transduction. -11. Mechanosensing and Signaling Crosstalks. -12.Osteoblast Development in Bone Loss Due to Skeletal Unloading.
-Part IV Bone Signaling. -13. Mechanosensing in Bone and the Role of Glutamate Signalling. -14. Osteoclast Biology and Mechanosensing
-Part II Tissue and Gravity. -4. Mechanobiology in Skeletal Muscle: Conversion of Mechanical Information into Molecular Signal. -5. Mechanobiology in Space. -6. Mechanical Stress and Bone. -7. TRP Channels and Mechanical Signals.
-Part III Skeletal Response. -8. Osteoblast Biology and Mechanosensing. -9. Osteocytes in Mechanosensing: Insights from Mouse Models and Human Patients. -10. Osteocyte Mechanosensation and Transduction. -11. Mechanosensing and Signaling Crosstalks. -12.Osteoblast Development in Bone Loss Due to Skeletal Unloading.
-Part IV Bone Signaling. -13. Mechanosensing in Bone and the Role of Glutamate Signalling. -14. Osteoclast Biology and Mechanosensing
-Part III Skeletal Response. -8. Osteoblast Biology and Mechanosensing. -9. Osteocytes in Mechanosensing: Insights from Mouse Models and Human Patients. -10. Osteocyte Mechanosensation and Transduction. -11. Mechanosensing and Signaling Crosstalks. -12.Osteoblast Development in Bone Loss Due to Skeletal Unloading.
-Part IV Bone Signaling. -13. Mechanosensing in Bone and the Role of Glutamate Signalling. -14. Osteoclast Biology and Mechanosensing