Research Articles
The Cell's Master Janitor: How a Tiny Tag Dictates Life and Death in Your Cells
Explore the fascinating ubiquitin system - the molecular cleanup crew that controls protein degradation and regulates the cell division cycle through precise tagging mechanisms.
The Silent Conductor: How SUMOylation Directs Genome Stability and Cell Cycle Progression
Explore how SUMOylation regulates genome stability and cell cycle progression through this comprehensive scientific article.
Disarming the Enemy: How Silencing a Single Gene Throws Gastric Cancer Into Chaos
Explore how RNF2 knockdown reduces cell viability and promotes cell cycle arrest in gastric cancer cells, offering new therapeutic targets.
The Cell Cycle's Molecular Timekeeper: How RAP80 Degradation Prevents Cancer
Discover how RAP80 degradation regulated by Cdc20 and Cdh1 ubiquitin ligases prevents cancer through cell cycle control.
The Cell's Symphony: How WWP2 Protein Keeps Cell Division in Tune
Discover how WWP2 protein acts as a molecular conductor regulating normal cell cycle progression and what happens when this crucial regulator fails.
The Cellular Traffic Jam: How a Single Protein's Silence Halts Life's Highway
Discover how Apc11 protein knockdown causes G2/M phase cell cycle arrest through detailed experimental analysis and interactive data visualizations.
The Cellular Symphony's Missing Conductor: When Cells Can't Divide
Discover how Apc11 knockdown disrupts cell division by trapping cells in G2/M phase, revealing crucial insights into cellular regulation and cancer research.
The Dark Knight of the Genome: How p53 Acts as Your Cell's Batman
Explore how p53, the guardian of the genome, functions like Batman to control the cell cycle and prevent cancer through an engaging movie plot analogy.
The Cellular Key: How Protein Degradation Unlocks Plant Root Development
Discover how APC-targeted RAA1 degradation regulates cell cycle progression and root architecture in plants through the ubiquitin-proteasome system.