Explore the fascinating world of genomic imprinting, an epigenetic phenomenon that causes genes to be expressed differently based on parental origin, and its role in development and disease.
Explore how CG dinucleotides act as molecular switches controlling gene expression through DNA methylation and their critical role in health and disease.
Explore the fascinating world of DNA methylation and how this epigenetic mechanism controls gene expression without altering the DNA sequence itself.
Discover how DNA methylation suppresses transcriptional noise to maintain cellular harmony and precision in gene expression.
Explore the fascinating interplay between genetics and epigenetics in melanoma development and treatment approaches.
Exploring how genomic imprinting dynamically regulates mammary gland development, stem cell function, and lactation through epigenetic mechanisms.
Discover how 'junk DNA' repeat elements become activated in failing hearts and contribute to heart failure through epigenetic mechanisms.
Exploring how functional principal component analysis (FPCA) deciphers histone modification patterns to predict novel gene promoters with implications for understanding disease and development.
Exploring how BRD4 and chromatin landscapes regulate IRF genes in immune responses, with implications for cancer and inflammation therapies.