Research Articles
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 Need for Speed: How Accelerated Bisulfite Sequencing Is Revolutionizing DNA Methylation Analysis
Explore how accelerated bisulfite sequencing methods like UBS-seq are transforming DNA methylation analysis with faster processing, reduced DNA damage, and improved data quality.
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.
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.
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 Hidden Legacy: How Neonicotinoid Pesticides Alter Genetic Programming in the Brain
Explore how neonicotinoid pesticides cause epigenetic changes in brain genomic DNA methylation, affecting gene expression across generations in insects and mammals.
Reprogramming Cancer: The Epigenetic Revolution in Cancer Therapy
Explore how epigenetic therapies are revolutionizing cancer treatment by reprogramming cancer cells rather than destroying them.
The Invisible Sabotage: How Chemicals Can Erase Your Cells' Memory
Discover how chemical carcinogens cause cancer by erasing epigenetic markers in DNA, leading to global hypomethylation and uncontrolled cell growth.
Cracking the Epigenetic Code: The Quest to Sequence 5-Methylcytosine
Explore the revolutionary methods scientists use to sequence 5-methylcytosine, the hidden epigenetic code that directs cellular development and influences disease.