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

A recent finding is changing what scientists thought they understood about the history of controlling genes. Research conducted on cone jellies and sponges by the Centre for Genomic Regulation (CRG) ...

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

From the TATA box to alternative splicing and noncoding RNAs, scientists are uncovering the intricate choreography that controls gene expression. These molecular mechanisms determine when, where, and ...

The fission yeast Schizosaccharomyces pombe has emerged as a powerful system to dissect the fundamental principles of gene regulation in eukaryotes. Its simple genome, well-conserved cell-cycle ...

Plant molecular evolution offers key insights into how coding and regulatory changes shape the diversity of form and function across the plant kingdom. The ...

Involving a collaboration with 118 investigators contributing from 89 institutions, scientists from Queen Mary University of ...