Geneticist Dr. Robert Green is sequencing the DNA of healthy newborns to find hidden disease risks. This knowledge can save ...

A large genetic study shows that many people carry DNA sequences that slowly expand as they get older. Common genetic ...

DNA doesn’t just sit still inside our cells — it folds, loops, and rearranges in ways that shape how genes behave.

Precision and timing of gene expression is essential for normal biological functions and, when disrupted, can lead to many ...

ELF3 axis enables luminal progenitor transformation in BRCA1-deficient breast cancer by reducing genomic instability and promoting progenitor identity.

Researchers have developed a new computational approach that uncovers possible drugs for specific cellular targets for ...

AI can now create genome viruses in laboratories and redesign toxins to evade controls, raising biosafety alert and rise of ...

Nucleosomes are barriers to RNA Polymerase II (Pol II) transcribing along gene bodies in eukaryotes. We found that a fragile “tailless nucleosome” could be generated to resolve the Pol II pausing ...

Explore how AI-driven multiomics is reshaping drug discovery and personalized medicine development through innovative data ...

Structural variations (SVs), including insertions, deletions, inversions, and substitutions, can profoundly influence gene ...

Structural variations (SVs)—large-scale changes in DNA sequence—play a crucial role in shaping traits such as yield, quality, and environmental adaptation in crops.

Researchers have uncovered nearly 150 hidden DNA “switches” inside brain support cells that control the activity of genes ...