Polyploid genomes, formed through repeated whole-genome duplication and hybridization, underpin the evolution of many important crops, yet their internal structure often remains unresolved when ...

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

A large-scale population genomic study has shed new light on the evolutionary and domestication history of the button ...

A genomic atlas of Nematostella vectensis reveals how primitive animals created multiple cell types millions of years ago, ...

Octopuses break so many biological expectations that scientists still struggle to explain how they ended up this way through ...

One of the biggest quests in biology is understanding how every cell in an animal’s body carries an identical genome yet still gives rise to a kaleidoscope of different cell types and tissues. A ...

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 ...

A deep learning framework combines convolutional and bidirectional recurrent networks to improve protein function prediction from genomic ...

Life in the wild is never constant; animals adapt quickly if they are to survive. Climate change, the reduction of habitats, ...

When cancer spreads from a primary tumor to new sites throughout the body, it undergoes changes that increase its genetic complexity. A new study from researchers at Weill Cornell Medicine and ...