DNA methylation is a conserved epigenetic modification that is important for gene regulation
and genome stability. Aberrant patterns of DNA methylation can lead to plant developmental …

Highlights•GbM is typified by mCG within coding regions, and depletion at the TSS and
TTS.•Species without gbM revealed an unexpected role for CMT3 in the evolution of …

Plants have the remarkable ability to drive cellular dedifferentiation and regeneration.
Changes in epigenetic landscapes accompany the cell fate transition. Notably, modifications …

Plants biosynthesize a broad range of natural products through specialized and species-
specific metabolic pathways that are fuelled by core metabolism, together forming a …

Chromatin modifications shape the epigenome and are essential for gene expression
reprogramming during plant development and adaptation to the changing environment …

In bacteria, fungi and animals, 3′-5′-cyclic adenosine monophosphate (cAMP) and
adenylate cyclases (ACs), enzymes that catalyse the formation of 3′, 5′-cAMP from ATP …

The metabolism of an organism is closely related to both its internal and external
environments. Metabolites can act as signal molecules that regulate the functions of genes …

High-temperature (HT) stress induces male sterility, leading to yield reductions in crops.
DNA methylation regulates a range of processes involved in plant development and stress …

Background One of the fascinating aspects of epigenetic regulation is that it provides means
to rapidly adapt to environmental change. This is particularly relevant in the plant kingdom …

Annual dormancy‐growth cycle is a developmental and physiological process essential for
the survival of deciduous trees in temperate and boreal forests. Seasonal control of shoot …