Integrins

Chapter 1: Quantitative Measurements of Integrin-Mediated Adhesion to Extracellular Matrix<br><br>Chapter 2: Investigating Integrin regulation and signaling events in three dimensional systems<br><br>Chapter 3: Integrins in Cell Migration<br><br>Chapter 4: Imtegrin Cytoskeletal Interacions<br><br>Chapter 5: Cell Survival in a 3D Matrix<br><br>Chapter 6: Platelet Integrin Adhesive Functions and Signaling<br><br>Chapter 7: Development of Monoclonal Antibodies to Integrin Receptors<br><br>Chapter 8: Cell adhesion, cellular tension, and cell cycle control<br><br>Chapter 9: Analysis of Integrin Signaling by Fluorescence Resonance Energy Transfer<br><br>Chapter 10: Studies on integrins in the nervous system<br><br>Chapter 11: Methods for identifying novel integrin ligands<br><br>Chapter 12: Analysis of integrin functions in peri-implantation embryos, hematopoietic system and skin<br><br>Chapter 13: Identification and molecular characterization of multiple phenotypes in integrin knockout mice<br><br>Chapter 14: Purification, Analysis and Crystal Structure of Integrins<br><br>Chapter 15: Electron Microscopy of Integrins<br><br>Chapter 16: Intravital Imaging and Cell Invasion<br><br>Chapter 17: Using Xenopus Embryos to Investigate Integrin Function<br><br>Chapter 18: Methods to Study Lymphatic Vessel Integrins<br><br>Chapter 19: Analysis of Integrin Signaling in Genetically Engineered Mouse Models of Mammary Tumor Progression<br><br>Chapter 20: Design and Chemical Synthesis of Integrin Ligands