Not all genes are active at all times. DNA methylation is one of several epigenetic mechanisms that cells use to control gene expression. This straightforward experiment demonstrated that it was ...

How does a gene ... to regulate gene expression. For example, the enzyme Dicer finds double-stranded regions of RNA and cuts out short pieces that can serve in a regulatory role.

Genes also contain regulatory sequences, such as promoters and enhancers, which control when and where the gene is expressed. These sequences interact with transcription factors and other regulatory ...

Leucine-rich repeats containing 4 (LRRC4)—a gene abundantly found in the brain and located on human chromosome 7q31–32—plays a pivotal role in ... increase in the expression of LRRC4 is ...

The team further verified that disruptions in the direct interaction between IPMK and SRF lead to the reduced functionality and activity of SRF, causing severe impairments in gene expression.

In the fields of molecular genetics and genomics, having predictive capabilities for transcriptional regulation is important because it plays a vital role in controlling gene expression.

In a new JAMA Dermatology study, scientists at King's College London found that changes in two parts of the genome work ...

The team further verified that disruptions in the direct interaction between IPMK and SRF lead to the reduced functionality and activity of SRF, causing severe impairments in gene expression.