Role of H3K4 demethylases in complex neurodevelopmental diseases
C Wynder, L Stalker, ML Doughty - Epigenomics, 2010 - Future Medicine
C Wynder, L Stalker, ML Doughty
Epigenomics, 2010•Future MedicineSignificant neurological disorders can result from subtle perturbations of gene regulation
that are often linked to epigenetic regulation. Proteins that regulate the methylation of lysine
4 of histone H3 (H3K4) and play a central role in epigenetic regulation, and mutations in
genes encoding these enzymes have been identified in both autism and Rett syndrome. The
H3K4 demethylases remove methyl groups from lysine 4 leading to loss of RNA polymerase
binding and transcriptional repression. When these proteins are mutated, brain development …
that are often linked to epigenetic regulation. Proteins that regulate the methylation of lysine
4 of histone H3 (H3K4) and play a central role in epigenetic regulation, and mutations in
genes encoding these enzymes have been identified in both autism and Rett syndrome. The
H3K4 demethylases remove methyl groups from lysine 4 leading to loss of RNA polymerase
binding and transcriptional repression. When these proteins are mutated, brain development …
Significant neurological disorders can result from subtle perturbations of gene regulation that are often linked to epigenetic regulation. Proteins that regulate the methylation of lysine 4 of histone H3 (H3K4) and play a central role in epigenetic regulation, and mutations in genes encoding these enzymes have been identified in both autism and Rett syndrome. The H3K4 demethylases remove methyl groups from lysine 4 leading to loss of RNA polymerase binding and transcriptional repression. When these proteins are mutated, brain development is altered. Currently, little is known regarding how these gene regulators function at the genomic level. In this article, we will discuss findings that link H3K4 demethylases to neurodevelopment and neurological disease.
Future Medicine