Research Articles
Unlocking Your Genetic Potential: How Epigenetics Shapes Health and Destiny
Discover how epigenetics acts as the hidden conductor of our genetic orchestra, influencing health outcomes through environmental interactions and lifestyle choices.
The Hidden Epigenetic Code: How Half-Methylated DNA Shapes Our Cellular Identity
Discover how hemimethylation at CTCF/cohesin sites reveals a new layer of epigenetic inheritance that shapes cellular identity and genome architecture.
The Social Life of Genes: Can Epigenetics Bridge Biology and Society?
Exploring whether epigenetics can become a biosocial science that integrates social contexts into biological research, responding to Chiapperino and Paneni.
The Silent Switch: How a Gene's "Off Button" Fuels Ovarian Cancer
Exploring how RASSF1A promoter methylation drives ovarian cancer progression and its potential as a diagnostic biomarker.
The Silent Code: How India's Oral Cancer Epidemic Is Written in DNA Methylation
Exploring India's oral cancer crisis through the lens of DNA methylation, revealing unique epigenetic signatures and innovative diagnostic approaches.
The Epigenetic Symphony: How Your Brain and Body Communicate Beyond Genes
Discover how epigenetic mechanisms facilitate brain-body communication beyond genetic programming, influencing health, disease, and potential therapies.
The Hidden Legacy: How Your Experiences Rewrite Your Biological Inheritance
Discover how epigenetics reveals our genome as a dynamic historical document—inscribed by ancestors' experiences yet editable by our choices.
Epigenomics: A Roadmap, But to Where?
Exploring the dynamic world of epigenomics and its implications for understanding cellular fate, disease, and therapeutic development.
The Invisible Puppeteers: How Epigenetics Pulls Cancer's Strings
Exploring how reversible epigenetic changes control cancer progression, therapy resistance, and the promise of epigenetic treatments.
The Hidden Switches of Cancer: How Epigenetics Steers the Disease
Exploring how epigenetic modifications act as master manipulators in cancer progression and the revolutionary new paths for detection and treatment.