2022
DOI: 10.1016/j.celrep.2022.110664
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The CDC48 complex mediates ubiquitin-dependent degradation of intra-chloroplast proteins in plants

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Cited by 46 publications
(59 citation statements)
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“…Of the five reported Arabidopsis CDC48 homologous genes, CDC48A was found to be associated with the chloroplast exoplastid protein TOC33 for ubiquitination and transferring them to cytoplasmic 26S proteasome degradation [ 26 ]. Current report showed CDC48 complex can interact with plastid protein RbcL (RuBisCO large subunit) and AtpB (ATP synthase β subunit) and ubiquitinated them under ROS stress condition [ 27 ]. At the same time, our proteome dataset showed that the plastid protein and the mitochondrion protein increasingly enriched in upl5 mutants ( Figure 5 ), thus, UPL5 might alter protein allocation between organelles and cytoplasm.…”
Section: Discussionmentioning
confidence: 99%
“…Of the five reported Arabidopsis CDC48 homologous genes, CDC48A was found to be associated with the chloroplast exoplastid protein TOC33 for ubiquitination and transferring them to cytoplasmic 26S proteasome degradation [ 26 ]. Current report showed CDC48 complex can interact with plastid protein RbcL (RuBisCO large subunit) and AtpB (ATP synthase β subunit) and ubiquitinated them under ROS stress condition [ 27 ]. At the same time, our proteome dataset showed that the plastid protein and the mitochondrion protein increasingly enriched in upl5 mutants ( Figure 5 ), thus, UPL5 might alter protein allocation between organelles and cytoplasm.…”
Section: Discussionmentioning
confidence: 99%
“…Protease activities were detected in the chloroplast, such as a metalloprotease Fish Protease 6 (AtFtsH6), which is responsible for the degradation of LHCb1 and LHCb3 under high light and senescence [ 55 ]. Recently, a ubiquitin-dependent degradation process was observed during chloroplast degradation, and a degradation of intra-chloroplast proteins RbcL and AtpB was mediated by a chaperone-like CDC48 complex [ 56 ]. Interestingly, when the global proteome data were searched against the maize database using ubiquitination of lysine as a variable modification, 11 cold down-regulated photosynthesis proteins were found to contain ubiquitin sites, including six chlorophyll a-b binding proteins, three ATP synthase subunits (alpha, beta, and gamma) and one cytochrome f proteins ( Table S6 ).…”
Section: Discussionmentioning
confidence: 99%
“…Furthermore, a chloroplast-associated protein degradation pathway (CHLORAD) was shown to target damaged TOC machinery [7]. In this pathway, SP1 interacts with Omp85-type β-barrel channel protein suppressor of ppi1 locus2 (SP2) and cell division control protein 48 (CDC48), a conserved AAA+ (ATPases associated with diverse cellular activities) chaperone, to form a complex that mediates TOC protein degradation via protein retrotranslocation and the UPS (Figure 1A) [7,38]. While SP1 is involved in mediating the process of ubiquitination in the presence of stress or developmental cues, the exact mode of target substrate recognition by SP1 remains largely elusive [7,36].…”
Section: Sp1 a Chloroplast-localized Ring-type E3 Ligasementioning
confidence: 99%
“…CDC48 is a highly conserved eukaryotic protein and ubiquitin-dependent segregase belonging to the AAA+ family [7,38]. Located in the cytosol and nucleus, CDC48 plays an important role in the CHLORAD pathway.…”
Section: Role Of Cdc48 In Intra-chloroplast Protein Degradationmentioning
confidence: 99%
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