Explore how recombinational cloning accelerates malaria research by enabling high-throughput generation of P. falciparum functional molecules for vaccine and drug development.
Discover how sodium butyrate rescues RET gene expression and advances Hirschsprung disease research through innovative molecular techniques.
Discover how noncoding DNA, once considered junk, contains crucial regulatory elements that control gene expression and shape biological complexity.
Explore how functional genomic analysis is revolutionizing our understanding of pseudorabies virus, its evolution, and the development of next-generation vaccines.
Discover the surprising diversity of Akkermansia muciniphila strains and how they impact human health, metabolism, and gut barrier function.
Discover how DNA hydroxymethylation and TET enzymes regulate placental development and influence pregnancy outcomes through epigenetic mechanisms.
Discover how molecular genomic autopsies are revolutionizing our understanding of SUDEP and identifying complex genetic risk profiles that traditional methods miss.
Discover how CRISPR-Cas9 technology is revolutionizing oat breeding, creating climate-resilient varieties with enhanced nutritional profiles through precise gene editing.
Discover how AMBRA1 protein regulates cell division and prevents brain tumors by controlling cyclin D stability and the cell cycle.
Discover how SINE insertions act as genetic switches controlling pig growth through regulation of key genes like GHR.