The turnover of cytoplasmic material by autophagic encapsulation and delivery to vacuoles
is essential for recycling cellular constituents, especially under nutrient-limiting conditions …

Autophagic recycling of proteins, lipids, nucleic acids, carbohydrates, and organelles is
essential for cellular homeostasis and optimal health, especially under nutrient-limiting …

Autophagy is a primary route for nutrient recycling in plants by which superfluous or
damaged cytoplasmic material and organelles are encapsulated and delivered to the …

Plants have evolved sophisticated mechanisms to recycle intracellular constituents, which
are essential for developmental and metabolic transitions; for efficient nutrient reuse; and for …

Autophagy is a major cellular degradation pathway in eukaryotes. Recent studies have
revealed the importance of autophagy in many aspects of plant life, including seedling …

Plants have evolved sophisticated mechanisms to recycle intracellular constituents. One
gaining in appreciation is autophagy, which involves specialized vesicles engulfing and …

Autophagy is a fundamental process in the plant life story, playing a key role in immunity,
senescence, nutrient recycling, and adaptation to the environment. Transcriptomics and …

Plants employ sophisticated mechanisms to recycle intracellular constituents needed for
growth, development, and survival under nutrient-limiting conditions. Autophagy is one …

Highlights•Autophagy is essential for nutrient recycling and remobilization in plants.•Both
bulk and specific autophagy participate to nutrient recycling.•Autophagy defects result in …

Autophagy is a major degradation and recycling pathway in plants. It functions to maintain
cellular homeostasis and is induced by environmental cues and developmental stimuli. Over …