Research Articles
The RING1 Enigma: How a Single Protein Holds Clues to Spinal Cord Repair
Discover how RING1 protein's spatiotemporal patterns after spinal cord injury reveal new pathways for potential treatments and neural regeneration.
Unlocking Genetic Potential: How Myostatin Gene Variations Could Transform Bali Cattle
Exploring how myostatin gene polymorphisms could enhance growth and muscling traits in Bali cattle through genetic research and selective breeding.
The Ubiquitin Code: Unlocking New Therapies for Acute Myeloid Leukemia
Exploring how ubiquitin and ubiquitin-like proteins contribute to Acute Myeloid Leukemia and the promising therapeutic approaches targeting this cellular control system.
Cellular Brakes: How TMEM176B and TMEM176A Keep Our Immune System in Check
Discover how TMEM176A and TMEM176B proteins regulate dendritic cell maturation and their implications for cancer, autoimmune diseases, and immunotherapy.
A Trojan Horse for Brain Cancer: Doubling Down on Therapy with Smart Nanoparticles
Discover how immuno-nanoparticles deliver a dual-drug therapy to combat glioblastoma by overcoming the blood-brain barrier and targeting cancer cells with precision.
The Hidden Cut: How Proteases Shape Our Blood Vessels
Explore how proteases and their receptors regulate vascular health, from repair mechanisms to disease development, with recent discoveries linking blood clotting to diabetes.
The Cell's Janitor: Unlocking the Secrets of a Catfish's Molecular Recycling Plant
Discover how Ubiquitin Carboxyl-Terminal Hydrolase L5 (UCHL5) in channel catfish reveals fundamental cellular processes with implications for biology and medicine.
The Self-Eating Parasite: How Plasmodium's Survival Strategy Could Revolutionize Malaria Treatment
Explore the fascinating role of autophagy in Plasmodium falciparum, the deadliest malaria parasite, and how this cellular process could lead to new treatments.
The Cell's Double-Edged Sword: How a Misfiring Recycling Plant Can Trigger Cell Death
Explore how AAF-cmk targets cellular recycling mechanisms to induce apoptosis, autophagy, and protein aggregation in cancer cells.
Hunting Cancer's Hidden Saboteurs: When Tiny Mutations Re-Wire Our Cellular Engines
Discover how bioinformatic pipelines identify change-of-function mutations that reprogram cancer cell metabolism, opening new avenues for targeted therapies.