Ress can drive NBR1 and ATG8 to bind using the aggregatic
Ress can drive NBR1 and ATG8 to bind with all the LY294002 Formula aggregatic cytoplasmic protein, demonstrating that the plant aggrephagy receptor NBR1 is vital within the regulation of proteostasis [93].Antioxidants 2021, ten, x FOR PEER Review Antioxidants 2021, 10,eight of 23 eight ofFigure two. Schematic representation of a number of mechanisms of selective autophagy in plants and animals. The PHA-543613 nAChR Degradation Figure 2. Schematic for cell organelles and aggregates are shown and distinct capabilities of each and every and animals. The Aggrephagy. autophagic pathwaysrepresentation of numerous mechanisms of selective autophagy in plantsare highlighted. (a) degradation autophagic pathways for cell organelles and aggregates are shown and distinct functions of every single are highlighted. (a) AgDegradation of intracellular protein aggregates that kind naturally or because of this of abiotic stresses that trigger protein folding. grephagy. Degradation of intracellular protein aggregates that form naturally or as a result of abiotic stresses that trigger Aggrephagy is activated by aggregate ubiquitylation and autophagy-binding receptors, including NBR1 in plants and p62/NBR1 protein folding. Aggrephagy is activated by aggregate ubiquitylation and autophagy-binding receptors, such as NBR1 in in animals. (b) Proteaphagy. Degradation of proteasomes occurs in of proteasomes occurs in response to nitrogen starvation. plants and p62/NBR1 in animals. (b) Proteaphagy. Degradation response to proteasome inactivation or proteasome inactiProteaphagy is triggered by p62 in animals is triggered by plants and translocates it toin plants and translocates it for the vation or nitrogen starvation. Proteaphagy and RPN10 in p62 in animals and RPN10 the cytoplasm for degradation (c) Nucleophagy. Atg39 interacts with cargo receptor Atg11 through Atg11 binding region in animals and in plants ATG8region in cytoplasm for degradation (c) Nucleophagy. Atg39 interacts with cargo receptor Atg11 via Atg11 binding interacts animals and in plants ATG8 cytoplasm from the nucleus. (d) Ribophagy. A ribophagy receptor NUFIP1 is Ribophagy. A with C1 and transports it to theinteracts with C1 and transports it towards the cytoplasm from the nucleus. (d)necessary for the ribophagy receptor NUFIP1 is essential for the selective (e) Lipophagy. PNPLA8 is expected to make autophagosomes selective degradation of ribosomes in animals and plants. degradation of ribosomes in animals and plants. (e) Lipophagy. PNPLA8 is necessary procedure in autophagosomes throughout the lipophagy happen to be identified whilst, in Reticulophagy. The throughout the lipophagyto generate mammals although, in plants, no receptors procedure in mammals so far. (f) plants, no receptors have been identified required for endoplasmic reticulum degradation, essential for endoplasmic reticulum degradation, IRE1b strain sensor isso far. (f) Reticulophagy. The IRE1b stress sensor iswhich occurs in response to an accumulation of which takes place in response to an accumulation of unfolded proteins in the course of ER stress. The reticulon homology domain unfolded proteins throughout ER pressure. The reticulon homology domain (RTN) containing the family members of reticulophagy receptors (RTN) containing the family members of reticulophagy receptors has been identified in mammals and yeast, but not in plants. ATI1 has been identified in mammals and yeast, but not in plants. ATI1 and ATI2 were the very first ER-phagy receptors found in and ATI2 have been the very first ER-phagy receptors found in plants, and FAM134B, BNIP3, RTN3, and p63 have already been id.
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