Research Articles
The Genome's Guardians: How Our Cells Maintain Identity and Resist Disease
Explore how genomic regulation and epigenetic mechanisms maintain cellular identity and their implications for human disease.
Mastering the Epigenome: How Scientists Gained Chemical Control of CRISPR
Discover how scientists achieved chemical control of CRISPR-Cas9 acetyltransferase for precise epigenetic manipulation and gene activation.
The Unseen Readers of Our Genetic Library: The Proteins That Decode DNA Methylation
Explore how specialized proteins read DNA methylation marks to regulate gene expression, cellular differentiation, and response to environmental stress.
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.
Cracking the Code: How Reversible Gene Changes Prime Pancreatic Cancer to Spread
Discover how reversible epigenetic changes prime pancreatic cancer cells for metastasis and the emerging therapeutic strategies targeting these mechanisms.
The Methylation Switch: Rewriting the Code of Life
Explore how scientists are learning to reprogram our cellular destiny through DNA methylation manipulation, a revolutionary approach to rewriting our epigenetic code.
The Chromosomal Command Center: Unlocking the Secrets of the Centromere
Explore the fascinating world of centromeric chromatin and its crucial role in cell division through structural and functional analysis.
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.
Chemical Biology: Decoding Life's Secrets Through Chemistry
Explore how chemical biology bridges chemistry and biology to understand life at the molecular level, featuring groundbreaking research from RSC Chemical Biology.
Unlocking Wheat's Secret Code: How a Toxic Chemical Creates New Crops
Discover how sodium azide, a potent chemical mutagen, is revolutionizing wheat breeding by altering both genetic and epigenetic patterns to create more resilient crops.