For more than three decades, researchers studying genomes have relied on foundational resources such as Repbase and, more ...

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 ...

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 ...

A study lead by SciLifeLab Fellow Simon Elsässer elucidates the mechanism of a peculiar type of heterochromatin, used by embryonic stem cells to silence 'parasitic' DNA-elements within the context of ...

The two main categories of transposable elements (TEs) have different mechanisms of transposition (see figure). Type I TEs use a ‘copy-and-paste’ method, and each class uses a slightly different ...

A study involving researchers from the University of Liverpool describes how transposable elements are associated with Parkinson's subtypes and impact disease trajectory. The study, published in ...

Regarded historically as genomic parasites, transposable elements (TEs) have now been recognized as significant contributors to cellular identity and function, especially in immune regulation.

New research from Washington University School of Medicine in St. Louis suggests that transposable elements in various cancers potentially may be used to harness novel immunotherapies against tumors ...

The analysis of unstable kernel phenotypes in maize led to the discovery and characterization of active class 2 DNA transposable elements (TEs). These active elements are a very small fraction of the ...