Alumni
Phosphoproteomics of cellular mechanosensing reveals NFATC4 as a regulator of myofibroblast activity
Selected by
Rob Hynds
Mechanical forces across compartments coordinate cell shape and fate transitions to generate tissue architecture
Selected by
Sudeepa Nandi
Vesicles driven by dynein and kinesin exhibit directional reversals without external regulators
Selected by
Divya Pathak
Nuclear myosin VI maintains replication fork stability
Selected by
Pierre Caron
Proteolysis-free cell migration through crowded environments via mechanical worrying
Selected by
Jade Chan
Actin-driven protrusions generate rapid long-range membrane tension propagation in cells
Selected by
Nicolaes Hyun-Kee Min
Mechanosensitive dynamics of lysosomes regulates the emergence of leader cells during collective cell migration
Selected by
Jade Chan
Morphodynamic Atlas for Drosophila Development
Selected by
Andrew Montequin
Dissecting β-Cardiac myosin and Cardiac myosin-Binding Protein C Interactions using a Nanosurf Assay
Selected by
Neha Nandwani
Using polyacrylamide hydrogels to model physiological aortic stiffness reveals that microtubules are critical regulators of isolated smooth muscle cell morphology and contractility
Selected by
Laura Alonso-Herranz
Cephalopod Retinal Development Shows Vertebrate-like Mechanisms of Neurogenesis
Selected by
Niveda Udaykumar
Extracellular mechanical forces drive endocardial cell volume decrease during cardiac valve morphogenesis
Selected by
Julia Grzymkowski