Transposable elements, or "jumping genes", were ... This means that the majority of the substantial portion of the human genome that is mobile consists of the other major class of TEs—the ...

Mobile elements are DNA sequences that can move around the genome, changing their number of copies or simply changing their location, often affecting the activity of nearby genes. They include DNA ...

In a related paper, also published today in Science, researchers from the University of Washington had a similar goal of creating structural variants at large scale and studying their effects on the ...

Using genome sequencing ... adding recombinase sites to transposons—mobile genetic elements—that randomly integrated in the genomes of human cell lines and mouse embryonic stem cells.

In a related paper, also published today in Science5, researchers from the University of Washington had a similar goal of creating structural variants at large scale and studying their effects on the ...

Through genome sequencing ... adding recombinase sites to transposons – mobile genetic elements – which randomly integrated into the genomes of human cell lines and mouse embryonic stem ...

Chances are you've seen an illustration of DNA's double-helix structure and even pictures of the chromosomes that comprise the human genome. But where and how does the famous double helix fit into ...