Researchers utilized recently published telomere-to-telomere genomes of humans, chimpanzees, bonobos, gorillas, and two ...

One of the most commonly used gene-delivery methods relies on engineered viruses to insert stretches of genetic material into ...

Despite its proximity to other groups of Neanderthals and the era’s modern humans, the lineage of the specimen, dubbed ...

But the new study used advanced sequencing technologies to reveal the most rapidly changing regions of human DNA—regions that Quinlan describes as "previously untouchable." "We saw parts of our genome ...

Scientists at the McGovern Institute and the Broad Institute of MIT and Harvard have reengineered a compact RNA-guided enzyme ...

By creating a more true-to-life representation of DNA's environment, researchers at Northwestern University have discovered ...

Genetic scientists have spliced human DNA into mice, resulting in rodents with increased brain mass, offering new clues to ...

(CN) — For the first time, scientists have used generative AI to create synthetic DNA that can control how genes behave in ...

Life depends on genes being switched on and off at exactly the right time. Even the simplest living organisms do this, but ...

Researchers, led by Penn State biologists, have comprehensively predicted the location of potential non-B DNA structures in the newly available telomere-to-telomere genomes of the great apes.

A team of researchers has used advanced DNA sequencing to develop the most comprehensive atlas yet of genetic change through generations, laying the foundations for new insights into the roots of ...