DNA's double helix has long stood as the symbol of life’s code. But buried within the genome lies a deeper level of complexity. One of the more intriguing discoveries in recent years is the i-motif—a ...

This image depicts the detection of structural variants (SVs) at low sequencing coverage in both unique and repetitive regions by genomic proximity mapping (GPM), compared with other SV-calling ...

For decades, geneticists have known that most common illnesses are not caused by a single rogue gene but by intricate constellations of DNA variants acting together in specific cells. Now a new ...

A new genetic mapping strategy reveals how entire networks of genes work together to cause disease, filling in the missing links left by traditional genetic studies. The technique could transform how ...

Innovative study of DNA's hidden structures may open up new approaches for treatment and diagnosis of diseases, including cancer. DNA is well-known for its double helix shape. But the human genome ...

DNA methylation is an epigenetic modification crucial to normal development, with its dysregulation leading to various diseases including cancer. As interest in epigenomics grows, an innovative ...