Substrate specificity and protein stability drive the divergence of plant-specific DNA methyltransferases.

DNA methylation is an important epigenetic mechanism essential for transposon silencing and genome integrity. Across evolution, the substrates of DNA methylation have diversified between kingdoms. In plants, chromomethylase3 (CMT3) and CMT2 mediate CHG and CHH methylation, respectively.

Substrate specificity and protein stability drive the divergence of plant-specific DNA methyltransferases.

DNA methylation is an important epigenetic mechanism essential for transposon silencing and genome integrity. Across evolution, the substrates of DNA methylation have diversified between kingdoms to account for genome complexity. In plants, Chromomethylase3 (CMT3) and CMT2 are the major methyltransferases mediating CHG and CHH methylation, respectively.

β-catenin repositions over time.

How β-catenin, the nuclear activator of the Wnt pathway, affects the chromatin environment of its targets is unknown. Over a time course of stimulation, β-catenin repositions itself around the genome in a cell-type-specific manner, eliciting transient chromatin changes in differentiated cells and progressive shaping of undifferentiated cells.

Structure and Mechanism of Plant DNA Methyltransferases.

DNA methylation is an important epigenetic mark conserved in eukaryotes from fungi to animals and plants, where it plays a crucial role in regulating gene expression and transposon silencing. Once the methylation mark is established by de novo DNA methyltransferases, specific regulatory mechanisms are required to maintain the methylation state during chromatin replication, both during meiosis and mitosis. Plant DNA methylation is found in three contexts; CG, CHG, and CHH (H = A, T, C), which are established and maintained by a unique set of DNA methyltransferases and are regulated by plant-specific pathways.

Mechanistic basis for maintenance of CHG DNA methylation in plants.

DNA methylation is an evolutionarily conserved epigenetic mechanism essential for transposon silencing and heterochromatin assembly. In plants, DNA methylation widely occurs in the CG, CHG, and CHH (H = A, C, or T) contexts, with the maintenance of CHG methylation mediated by CMT3 chromomethylase. However, how CMT3 interacts with the chromatin environment for faithful maintenance of CHG methylation is unclear.