Cancer’s strongest gene switches push DNA into damaging overdrive, creating repeated breaks and repairs that may fuel tumor ...

His method of locating genes in human DNA allowed researchers to find disease-causing genes, and later to map the entire, ...

Purdue University researcher Emily Dykhuizen explores how cancer takes advantage of the machinery that surrounds DNA to evade the immune system, resist conventional therapies, and spread through ...

Gene and cell therapy is moving fast – and in a clear direction. Programs are pushing toward more complex payloads, virus-free engineering, and manufacturing models that can scale from early research ...

Researchers developed a DNA barcoding assay to measure nanoparticle cargo escape in living organisms, enabling a new class of ...

Drug delivery researchers have vastly improved the potential of genetic therapies by overcoming the challenge of consistently getting genes and gene-editing tools where they need to be within cells.

The DNA foundation model Evo 2 has been published in the journal Nature. Trained on the DNA of over 100,000 species across the entire tree of life, Evo 2 can identify patterns in gene sequences across ...

Genes are segments of DNA (deoxyribonucleic acid) that are located inside every human cell. The DNA inside each cell is tightly coiled in structures called chromosomes. Each chromosome contains a ...