Research Articles
Decoding the Secret Language of Neuroendocrine Tumors
Discover how transcriptomic profiling is revolutionizing our understanding of neuroendocrine tumors and opening new avenues for targeted treatments.
Seeing the Unseen: How Scientists Visualize the Cellular Skeleton in Eye Blood Vessels
Explore how scientists visualize the endothelial actin cytoskeleton in mouse retina and its implications for understanding vascular diseases.
The Cell's Tiny Skeleton: How Scientists Are Tuning Its Structure and Strength
Explore how scientists are studying tunable co-polymerized cytoskeleton networks to understand cellular mechanics and develop advanced biomimetic materials.
Beyond Amyloid: The New Frontiers in Alzheimer's Disease Research
Exploring groundbreaking Alzheimer's research beyond amyloid, including blood-brain barrier repair, diverse therapeutic approaches, and lifestyle interventions.
The Incredible Journey: How Cells Navigate the Emerging Embryo
Explore the fascinating world of embryonic cell migration, from molecular machinery to groundbreaking discoveries in developmental biology.
Cracking the Tubulin Code: How Tiny Worms Are Decoding Microtubule Diversity
Explore how C. elegans is helping scientists understand tubulin isotypes and microtubule diversity through cutting-edge research.
The Cellular Multitasker: How Calpactin Proteins Mastermind Your Cells' Inner World
Explore the fascinating world of calpactin proteins - cellular multitaskers that coordinate membrane-cytoskeleton interactions and calcium-sensitive signaling pathways.
Proteomics Unveils the Hidden Battle Within Our Eyes: Decoding Retinal Detachment
Discover how proteomics is revolutionizing our understanding of retinal detachment and proliferative vitreoretinopathy, offering new hope for vision preservation.
The Mathematics of Life: How Cells Solve Mechanical Puzzles
Explore how cells use mathematical principles to sense and respond to mechanical forces in mechanobiology, from arterial remodeling to intracellular force microscopy.
How Cellular "Scissors" Shape Cancer's Deadly Spread
Discover how deubiquitinating enzymes (DUBs) act as cellular scissors controlling cancer metastasis through regulation of the actin cytoskeleton.