Explore how semiflexible polymers form the architectural framework of cells and enable mechanical signaling that controls cellular function.
Explore how scientists visualize the actin cytoskeleton in fixed budding yeast cells using advanced microscopy techniques and what these structures reveal about cellular function and aging.
Exploring how yeast cell polarization reveals fundamental principles of cellular organization with implications for human health and disease.
Explore the intricate relationship between endocytosis, the actin cytoskeleton, and cellular signaling in this engaging scientific article.
Discover how Theileria parasites manipulate TGF-β2 to transform white blood cells into invasive vehicles, with implications for understanding cancer metastasis.
Discover how glial cells, once considered mere support cells, are now recognized as master conductors of brain function through myelin production and maintenance.
Explore how gene expression research is revealing the hidden mechanisms behind rheumatoid arthritis, including sex-bias, gene biotypes and co-expression patterns.
Explore how scientists are identifying and prioritizing genes associated with prostate cancer development using cutting-edge genomic technologies and computational approaches.
Discover how physical forces and cellular contractility shape embryonic development through mechanotransduction
Discover how the unexpected discovery of RhoB's role in cancer therapy has revolutionized Farnesyltransferase inhibitors and opened new treatment possibilities.