The conservation of genome regulatory elements over long periods of evolution is not limited to vertebrates, as previously ...

Researchers from the Center for Paleogenetics have managed to analyze the genome from a 14,400-year-old woolly rhinoceros, ...

Lines of bacterial genome sequences are made to evolve independently by introducing high-activity insertion sequences, each simulating decades of evolution in the wild in just weeks. The genome ...

The only remaining autonomous 'jumping gene' can only attach to, and stitch a copy of itself into, DNA when it builds up into large clusters and only as cells divide. Viruses are known to use the ...

The genome structure — how genes are organized within DNA sequences in an organism — is fundamental to the processes and functions of organisms. A team at the University of Tokyo has developed a ...

The conservation of genome regulatory elements over long periods of evolution is not limited to vertebrates, as previously ...

Human evolution’s biggest mystery, which emerged 15 years ago from a 60,000-year-old pinkie finger bone, finally started to unravel in 2025. Analysis of DNA extracted from the fossil electrified the ...

New research is shaking up our understanding of evolution by revealing that some species may not evolve gradually at all. Instead, scientists discovered that certain marine worms experienced an ...

Research led by Memorial Sloan Kettering Cancer Center (MSK) is shedding new light on how ovarian cancer evolves - insights that could help researchers develop more effective treatment strategies.

Benjamin Padilla-Morales does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations ...