Add to ORKGMethylation of lysine and arginine residues on histones has long been known to determine both chromatin structure and gene expression. In recent years, the methylation of non‐histone proteins has emerged as a prevalent modification which impacts on diverse processes such as cell cycle control, DNA repair, senescence, differentiation, apoptosis and tumourigenesis. Many of these non‐histone targets represent transcription factors, cell signalling molecules and tumour suppressor proteins. Evidence now suggests that the dysregulation of methyltransferases, demethylases and reader proteins is involved in the development of many diseases, including cancer, and several of these proteins represent potential therapeutic targets for small molecule co...
Data obtained from cutting-edge research have shown that deregulated epigenetic marks are critical h...
Data obtained from cutting-edge research have shown that deregulated epigenetic marks are critical h...
The amino acid lysine can undergo methylation, acylation, sumoylation or ubiquitination, making it a...
Methylation of lysine and arginine residues on histones has long been known to determine both chroma...
International audienceLandmark discoveries made nearly two decades ago identified known transcriptio...
Landmark discoveries made nearly two decades ago identified known transcriptional regulators as hist...
International audienceProtein lysine methylation is a functionally diverse post-translational modifi...
International audienceProtein lysine methylation is a functionally diverse post-translational modifi...
International audienceProtein lysine methylation is a functionally diverse post-translational modifi...
and can thus become an important factor in the development of cancer. DNA methylation is a crucial m...
Histone modifications are thought to regulate chromatin structure, transcription and other nuclear p...
Histone modifications are thought to regulate chromatin structure, transcription and other nuclear p...
Histone modifications are thought to regulate chromatin structure, transcription and other nuclear p...
Histone modifications are thought to regulate chromatin structure, transcription and other nuclear p...
DNA methylation, a modification found in most species, regulates chromatin functions in conjunction ...
Data obtained from cutting-edge research have shown that deregulated epigenetic marks are critical h...
Data obtained from cutting-edge research have shown that deregulated epigenetic marks are critical h...
The amino acid lysine can undergo methylation, acylation, sumoylation or ubiquitination, making it a...
Methylation of lysine and arginine residues on histones has long been known to determine both chroma...
International audienceLandmark discoveries made nearly two decades ago identified known transcriptio...
Landmark discoveries made nearly two decades ago identified known transcriptional regulators as hist...
International audienceProtein lysine methylation is a functionally diverse post-translational modifi...
International audienceProtein lysine methylation is a functionally diverse post-translational modifi...
International audienceProtein lysine methylation is a functionally diverse post-translational modifi...
and can thus become an important factor in the development of cancer. DNA methylation is a crucial m...
Histone modifications are thought to regulate chromatin structure, transcription and other nuclear p...
Histone modifications are thought to regulate chromatin structure, transcription and other nuclear p...
Histone modifications are thought to regulate chromatin structure, transcription and other nuclear p...
Histone modifications are thought to regulate chromatin structure, transcription and other nuclear p...
DNA methylation, a modification found in most species, regulates chromatin functions in conjunction ...
Data obtained from cutting-edge research have shown that deregulated epigenetic marks are critical h...
Data obtained from cutting-edge research have shown that deregulated epigenetic marks are critical h...
The amino acid lysine can undergo methylation, acylation, sumoylation or ubiquitination, making it a...