Research Articles
Unlocking a New Era in Lung Cancer Treatment: How Epigenetics Makes Precision Targeting Possible
Explore how epigenetic input dictates targeting of the integrin-dependent pathway in non-small cell lung cancer, revealing new combination therapy approaches.
Decoding Cancer's Hidden Signature: A Breakthrough in Epigenetic Testing
Explore the revolutionary approach using magnetic microparticles to detect DNA methylation patterns in cancer, offering faster and more precise epigenetic diagnostics.
The Split-Luciferase Sensor: A Glowing New Tool for Decoding DNA's Hidden Code
Explore how the bipartite split-luciferase sensor revolutionizes epigenetic research by detecting global DNA methylation patterns with unprecedented speed and accuracy.
The Epigenetic Eraser: A Tale of Two Molecules Rewriting Our Genetic Code
Explore how 5-Azacytidine and Zebularine work as DNA demethylating agents to rewrite genetic code and their implications for epigenetic therapy.
Unlocking Evolution's Hidden Code: The Rise of Quantitative Epigenetics
Explore how quantitative epigenetics is revolutionizing our understanding of evolution, heredity, and the molecular mechanisms beyond DNA sequence.
Unlocking Cancer's Epigenetic Code: The Promise of DNA Hypomethylation Therapy
Explore how epigenetic therapies targeting DNA hypomethylation are revolutionizing cancer treatment by reprogramming cancer cells rather than destroying them.
Unlocking the Genome's Traffic System: How a Key Enzyme Reads the Map
Discover how the PRC2 enzyme navigates the epigenetic landscape using molecular decoys to precisely regulate gene expression.
The Epigenetic Key: Unlocking New Avenues for Treating Refractory Epilepsy
Explore how epigenetic mechanisms offer new hope for treating drug-resistant epilepsy through DNA methylation, histone modifications, and non-coding RNA regulation.
When DNA Wears Multiple Disguises: The Convergence of Methylation and Phosphorothioation
Exploring the fascinating interaction between DNA methylation and phosphorothioation in bacterial epigenetics and its implications for microbiology and human health.
The Chef in Your Cells: How Your Diet Directs Your DNA's Destiny
Discover how your metabolism acts as an interpreter, translating your diet into epigenetic instructions for your DNA through metabolic mechanisms.