Researchers at Cornell University have developed a safer and more precise way to study how genes function in living tissues by refining a recently developed CRISPR-based genetic technique in fruit ...

Researchers at Cornell University have developed a safer and more precise way to study how genes function in living tissues by refining a recently developed CRISPR-based genetic technique in fruit ...

Genetic recombination in Saccharomyces cerevisiae underpins both the faithful repair of DNA damage and the generation of genetic diversity during meiosis. Central to this process is the repair of ...

Scientists at deCODE genetics/Amgen have constructed a complete map of how human DNA is mixed as it is passed down during reproduction. The map marks a major step in the understanding of genetic ...

Precision gene editing is crucial for treating genetic diseases, as it enables targeted correction of specific mutations. A Korean research team has become the first in the world to significantly ...

Scientists at deCODE genetics/Amgen have constructed a complete map of how human DNA is mixed as it is passed down during reproduction. The map marks a major step in the understanding of genetic ...

When DNA breaks, cells must repair it accurately to prevent harmful mutations. Researchers have discovered that during a key repair process called homologous recombination, the cell uses loops in its ...

Evolutionary biologists are uncovering genomic mechanisms that allow populations to adapt quickly to different, hyperlocal ...

It may sound too bizarre to be true, but the Amazon molly (Poecilia formosa), a fish that inhabits rivers, lakes, and swamps ...

What it is: Homologous recombination swaps similar DNA sequences to repair breaks and generate diversity during meiosis, ensuring healthy genomes and unique offspring. Why it matters: It’s vital for ...