Epithelial Tissues as Active Solids: From Nonlinear Contraction Pulses to Rupture Resistance
Selected by
Mariana De Niz
Physical constraints on early blastomere packings
Selected by
Sundar Naganathan
Tension causes structural unfolding of intracellular intermediate filaments
Selected by
Mariana De Niz
mechanics regulate human embryonic stem cell self-organization to specify mesoderm
Selected by
Claire Simon & Sophie Morgani
Spatial heterogeneity of cell-matrix adhesive forces predicts human glioblastoma migration
Selected by
Mariana De Niz
Engineering T cells to enhance 3D migration through structurally and mechanically complex tumor microenvironments
Selected by
Ankita Jha
Tissue size controls patterns of cell proliferation and migration in freely-expanding epithelia
Selected by
Ilaria Di Meglio
Adding carbon fiber to shoe soles does not improve running economy: a muscle-level explanation
Selected by
Jonaz Moreno
The mitotic protein NuMA plays a spindle-independent role in nuclear formation and mechanics
AND
NuMA interaction with chromatin is vital for proper nuclear architecture in human cells
Selected by
Dey Lab
Biophysical forces rewire cell metabolism to guide microtubule-dependent cell mechanics
Selected by
Sukriti Kapoor
Combinatorial patterns of graded RhoA activation and uniform F-actin depletion promote tissue curvature
Selected by
Grace Lim
Ultrasound Imaging Links Soleus Muscle Neuromechanics and energetics during human Walking with Elastic Ankle Exoskeletons
Selected by
Jonaz Moreno