Dissecting the roles of MBD2 isoforms in regulating NuRD complex function during cellular differentiation

Abstract: The Nucleosome Remodelling and Deacetylation (NuRD) complex is a crucial regulator of cellular differentiation. Two members of the Methyl-CpG-binding domain (MBD) protein family, MBD2 and MBD3, are known to be integral, but mutually exclusive subunits of the NuRD com-plex. Several MBD2 and MBD3 isoforms are present in mammalian cells, resulting in distinct MBD-NuRD complexes. If these different complexes serve distinct biochemical and/or functional activities during differentiation is not completely understood… Show more

“…6,9,12 ). MBD3 harbors a mutated MBD 13 , which does not locate to methylated sequences in the genome 9,[12][13][14] and is not required for its function 15 . Other factors bind methylated DNA via structurally divergent domains yet require additional sequence context or are limited to hemimethylated DNA 16 .…”

Evidence that direct inhibition of transcription factor binding is the prevailing mode of gene and repeat repression by DNA methylation

“…6,9,12 ). MBD3 harbors a mutated MBD 13 , which does not locate to methylated sequences in the genome 9,[12][13][14] and is not required for its function 15 . Other factors bind methylated DNA via structurally divergent domains yet require additional sequence context or are limited to hemimethylated DNA 16 .…”

Evidence that direct inhibition of transcription factor binding is the prevailing mode of gene and repeat repression by DNA methylation