Research Articles
The Hidden Code: How Varicocele Rewrites Sperm's Epigenetic Blueprint
Exploring how varicocele affects sperm DNA and RNA methylation, leading to male infertility through epigenetic changes.
The Living Legacy: How Material Feminism and Epigenetics Are Rewriting Our Biological Script
Exploring how material feminism and epigenetics reveal how social experiences become biological realities across generations.
The Silent Symphony: How DNA Methylation Conducts Our Health and Disease
Exploring the pivotal role of DNA methylation in human health and disease, 40 years after its discovery as a key epigenetic mechanism.
The Gender Puzzle: How Immune Suppression Reshapes Alzheimer's in Surprising Ways
Groundbreaking research reveals sex-specific connections between autoimmune dysfunction and Alzheimer's pathology using specialized mouse models.
The Imprinted Paradox: How a Tiny Chromosomal Region Holds the Key to Understanding Prader-Willi and Angelman Syndromes
Exploring the genetic and epigenetic mechanisms behind Prader-Willi and Angelman syndromes, two neurogenetic disorders originating from the same chromosomal region but with distinct clinical manifestations.
The Metabolic Maestro: How Cellular Chemistry Conducts the Symphony of Cell Fate
Exploring how metabolic pathways orchestrate cell fate decisions through epigenetic regulation and metabolic programming.
The Methylation Code: How a Tiny Chemical Tag Rewrites Our Genetic Playbook
Exploring how cytosine methylation impacts DNA binding specificities of human transcription factors and rewrites genetic instructions.
The Inflammatory Switch: How a Tiny Protein Rewrites Our Body's Defense Code
Discover how LKB1 protein acts as a master regulator of inflammation through CRTC2-dependent epigenetic remodeling and its implications for disease therapy.
The Silent Workout: How Exercise Rewrites Your Heart's Genetic Code
Discover how physical exercise induces epigenetic changes that strengthen your cardiovascular system and reduce disease risk.
The Immune Awakening: How Hypomethylating Agents Revolutionize Cancer Therapy
Exploring how hypomethylating agents like azacitidine and decitabine revolutionize cancer therapy by awakening the immune system through epigenetic reprogramming.