Transposable elements (TEs) are discrete DNA sequences capable of moving within and between genomes, shaping genome architecture and function across all domains of life. They encompass two principal ...

A new study reveals how transposable elements (TEs) expanded gene regulation during brain evolution, shaping modern neural ...

Scientists have uncovered evidence supporting a mechanism in which transposable elements (TEs), once considered ...

Researchers in Michigan published a study “Transposable elements contribute to cell and species-specific chromatin looping and gene regulation in mammalian genomes” in Nature Communications that shows ...

A new study shows that transposable elements play an important role in regulating genetic expression with implications to advance the understanding of genetic evolution. Until recently, little was ...

This schematic illustrates how transposable elements, derived from functional RNAs or retroviruses, shape the human genome and act as regulatory DNA elements. It highlights their essential roles in ...

Sankey diagram illustrating the inferred functions of TE-proximal genes. The width of connections between each vertical block represents the gene count, delineating GO term classifications associated ...

Researchers from the University of New South Wales (UNSW) Sydney report they have discovered that a particular transposable element in the genome has an effect on the immune response to virus ...

Researchers from UNSW Sydney have discovered that a particular transposable element, or jumping gene, in the genome has a profound effect on the immune response to virus infection. The findings in ...

To understand how organisms are related, researchers use molecular information to construct phylogenetic trees. Most of the time, scientists use thousands of protein-coding sequences to determine ...