The human genome contains about 23,000 genes, but only a fraction of those genes are turned on inside a cell at any given time. The complex network of regulatory elements that controls gene expression ...

Enhancer hijacking emerges as a major “missing driver” mechanism in LBCL/PCN, enabling detection of non-chimeric oncogene activation such as IGL::BCL2, IGH::CCND2, and MAFA/MAFB rearrangements.

New study by Chiba University, Japan in collaboration with Karolinska Institutet, Sweden, uncovers novel enhancer-promoter interactions that regulate gene expression during neuronal differentiation ...

Researchers at the Weill Institute for Cell and Molecular Biology have uncovered new evidence that two major types of gene-controlling DNA sequences, promoters and enhancers, operate with a shared ...

As cells mature and differentiate (right), they use a much more elaborate and cell-type specific ‘switchboard’ to control their gene expression, especially when compared to earlier, immature stages ...

Over the course of three months, Professor Michael Levine’s lab at the Department of Molecular Biology and the Lewis-Sigler Institute for Integrative Genomics have published two papers elucidating the ...

Genome-wide association studies (GWASs) have linked genetic variants to neuropsychiatric disorders, but their regulatory roles in non-coding regions remain largely unclear. Using the LUHMES neuronal ...