Dear Colleagues,

Autophagy is defined as a catabolic process participating in the degradation of intracellular components. It is a highly conserved eukaryotic process involving numerous autophagy-related (ATG) proteins and protein complexes responsible for the initiation and formation of the double-membrane vesicle (autophagosome) and its intracellular transport and fusion with the vacuolar membrane, where its cargo is degraded. The autophagy process and its regulation are relatively well characterized in animals but its details in plants are less known. Autophagy is implicated in almost every aspect of plant growth and development, from embryogenesis to leaf senescence. Plant mutants defective in the autophagy process are hypersensitive to carbon and nitrogen starvation and display early senescence even under nutrient-rich conditions. Autophagy contributes to nutrients remobilization not only during nutrient starvation but also during organ senescence and is involved in nitrogen remobilization from the senescing leaves to the seeds. It promotes plant survival under nutrients deficiency and supports plant tolerance to a plethora of stresses. It is also implicated in plant defence against pathogens. Autophagy must be well controlled to avoid excessive degradation of the cellular content. At the stage of initiation, it is negativelly controlled by the Target of Rapamycin (TOR) kinase. One could expect that the autophagy activity (or autophagy flux) is regulated by posttranslational protein modifications, but also other levels of control are possible. For example, transciption factors regulating the expression of ATG genes in Arabidopais thaliana were recently identified. Moreover, autophagy does not simply entail the bulk degradation of the cellular content but it can be highly selective. Cargo selectivity in autophagy is ensured by the involvement of proteins called selective autophagy cargo receptors, which specifically recognize the cellular elements marked for degradation.

This Special Issue of Cells will help us to improve the general knowledge about the autophagy process in plants. Both experimental papers revealing various aspects of autophagy in plants and algae and review articles are welcome.

Prof. Agnieszka Sirko
Prof. Celine Masclaux-Daubresse
Guest Editors

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• autophagy flux
• nutrients recycling
• autophagy cargo receptors
• selective autophagy
• crosstalk of autophagy with phytohormons
• autophagy initiation
• ATG
• autophagosome
• autophagy in plant stress
• autophagy in plant development