The human genome contains about 20,000 protein-coding genes, but that only accounts for roughly two percent of the genome. For many years, it was easier for scientists to simply ignore all of that ...

Plants, as sessile organisms, have evolved intricate regulatory systems to adapt to dynamic and often adverse environmental ...

Extra DNA scooped up and copied alongside cancer-causing genes helps keep tumors going—elements that could represent new drug targets for brain tumors and other cancers notoriously difficult to treat ...

Researchers announced a significant paradigm shift in the understanding of T-lineage acute lymphoblastic leukemia (T-ALL), an aggressive and high-risk form of cancer, to one frequently driven by ...

The non-coding genome, once dismissed as "junk DNA", is now recognized as a fundamental regulator of gene expression and a key player in understanding complex diseases. Following the landmark ...

New research from the Wisconsin Institute for Discovery is tackling a complex packing problem. Thanks to the development of a powerful new computational tool introduced in a study published earlier ...

Researchers at the University of Toronto have mapped the spatial distribution of around 700 long non-coding RNAs, otherwise known as lncRNAs, in the testes. The team discovered much higher levels of ...

Human genes that encode proteins often contain non-coding segments known as introns. Removing introns is crucial for the proper expression of genetic information. Understanding how our cells ...

A new review article published in Genes & Diseases explores the intricate relationship between non-coding RNAs and oxidative stress in cancer progression shedding new light on the mechanisms that ...

Only around two percent of the human genome codes for proteins, and while those proteins carry out many important functions of the cell, the rest of the genome cannot be ignored. However, for decades ...