Senescence represents the final developmental act of the leaf, during which the leaf cell is
dismantled in a coordinated manner to remobilize nutrients and to secure reproductive …

Senescence-associated proteolysis in plants is a complex and controlled process, essential
for mobilization of nutrients from old or stressed tissues, mainly leaves, to growing or sink …

The phytohormone jasmonic acid (JA) is vital in plant defense and development. Although
biosynthesis of JA and activation of JA-responsive gene expression by the bioactive form JA …

Plant stress and poor crop management strategies compromise the foundations of food
security: crop yield, nutritional quality and food safety. Accumulation of high concentrations …

Senescence is a major developmental transition in plants that requires a massive
reprogramming of gene expression and includes various layers of regulations. Senescence …

The apoplast, ie the cellular compartment external to the plasma membrane, undergoes
important changes during senescence. Apoplastic fluid volume increases quite significantly …

Leaf senescence is not only genetically programmed but also induced by exogenous stress
to ensure completion of the plant life cycle, successful reproduction and environmental …

Plants growing at high densities can detect competitors through changes in the composition
of light reflected by neighbours. In response to this far-red-enriched light, plants elicit …

Plant-specific WRKY transcription factors (TFs) have been implicated to function as
regulators of leaf senescence, but their association with postharvest leaf senescence of …

DNA methylation is an important epigenetic mechanism for controlling innate immunity
against microbial pathogens in plants. Little is known, however, about the manner in which …