Discover how Interleukin-17 (IL-17) drives pathological angiogenesis in ocular diseases and the promising new treatments targeting this inflammatory cytokine.
Discover how AI is revolutionizing protein subcellular localization prediction by fusing multiple classifiers to understand cellular function and disease.
Explore how SPH-DEM computer models simulate cellular mechanics to understand diseases, develop treatments, and process biomaterials.
Discover how the cytoskeleton actively regulates smooth muscle contraction through dynamic actin polymerization and cytoskeletal remodeling.
Discover the fascinating process of plant cell expansion - how plants grow not by creating more cells, but by making them bigger through turgor pressure and cell wall remodeling.
Discover how cytoskeletal proteins modify mutant Huntingtin toxicity and offer new therapeutic approaches for Huntington's disease.
Explore the fascinating world of calponin proteins and their crucial roles in cellular regulation, cancer detection, kidney fibrosis, and microtubule branching.
Explore the biophysical characterization of the C2 domain in human tensin proteins and its role in cellular mechanics, mechanosensing, and disease pathways.
Explore how mathematical models reveal the intricate dance of cell adhesion, contraction, and spreading in this engaging popular science article.
Exploring how the membrane environment regulates cadherin adhesion receptors and their role in cellular connections.