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Stress fiber
Epithelial to Mesenchymal Transition
A Computational Study of Stress Fiber-Focal Adhesion Dynamics
Endothelial Cadherin Endothelium Is Regulated by Vascular Progenitor
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Ventral Stress Fibers Induce Plasma Membrane Deformation in Human Fibroblasts
Cell Mechanics and Mechanobiology
A Biomechanical Perspective on Stress Fiber Structure and Function
Citocinas Proinflamatorias: Participación En La Modulación De La Actividad Del Melanoma Experimental B16
Vinculin, and A-Actinin K.-L
Balance of Mechanical Forces Drives Endothelial Gap Formation And
Multiscale Model Predicts Increasing Focal Adhesion Size with Decreasing
Evidence of a Large-Scale Mechanosensing Mechanism for Cellular Adaptation to Substrate Stiffness
Actin Stress Fibers – Assembly, Dynamics and Biological Roles
1 Tractions and Stress Fibers Control Cell Shape and Rearrangements In
Cooperative Effects of Rho and Mechanical Stretch on Stress Fiber Organization
Biomechanical Properties of Cancer Cells
Cell Shape and Durotaxis Explained from Cell-Extracellular Matrix Forces and Focal Adhesion Dynamics
Endothelial Adherens Junctions and the Actin Cytoskeleton: an ‘Infinity Net’? Maria Grazia Lampugnani*
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Extracellular Matrix in Regulation of Contractile System in Cardiomyocytes
A Review of Mathematical Models of Biophysical Regulation of Cell Responses
From Microspikes to Stress Fibers: Actin Remodeling in Breast Acini Drives Myosin II-Mediated Basement Membrane Invasion
Badania Nad Modyfikacją Powierzchniową I Wpływem Włókien Na Materiał Polimerowy I Odpowiedź Komórkową
Cell Mechanics and Mechanobiology
Evolutionarily Diverse LIM Domain-Containing Proteins Bind Stressed Actin Filaments Through a Conserved Mechanism
Endothelial Adherens Junctions and the Actin Cytoskeleton: an ‘Infinity Net’? Maria Grazia Lampugnani*
The Inner Workings of Stress Fibers − from Contractile Machinery to Focal Adhesions and Back Ariel Livne and Benjamin Geiger*
Rho Gtpases and Signaling Networks
Focal Adhesions, Stress Fibers and Mechanical Tension Keith Burridge, Christophe Guilluy
A Minimal Mechanics Model for Mechanosensing of Substrate Rigidity Gradient in Durotaxis
Α-Catenin Facilitates Mechanosensing and Rigidity-Dependent Growth by Linking Integrin Adhesions to F-Actin
A Mechanical Model of Actin Stress Fiber Formation and Substrate Elasticity Sensing in Adherent Cells
Adherens Junctions Remain Dynamic BMC Biology Allows Cells to Modulate Direct Cell-To-Cell Communica- 2010, 8:34 Tion As Well As Physical Cell-Cell Coupling
Lysophosphatidic Acid Down-Regulates Stress Fibers and Up-Regulates Pro–Matrix Metalloproteinase-2 Activation in Ovarian Cancer Cells
RKI-1447, a Rho-Kinase Inhibitor Causes Ocular Hypotension, Actin Stress Fiber Disruption and Increased Phagocytosis
Mechanotransduction and Stiffness-Sensing
A Minimal Mechanics Model for Mechanosensing of Substrate Rigidity Gradient in Durotaxis
Adhesion Dynamics and Durotaxis in Migrating Cells
Identification of MAGI1 As a Tumor-Suppressor Protein Induced
A Feedback-Loop Extended Stress Fiber Growth Model with Focal Adhesion Formation
Effect of Allosteric Inhibition of Non-Muscle Myosin 2 on Its
Tom 24 1997 Mechanizmy Regulacji Ekspresji Genów
GWAS-Driven Pathway Analyses and Functional Validation Suggest GLIS1 As
Uni-Axial Stretch Induces Actin Stress Fiber Reorganization and Activates C
Band-Like Stress Fiber Propagation in a Continuum and Implications for Myosin Contractile Stresses