Chloroplasts are ancient organelles responsible for photosynthesis and various biosynthetic functions essential to most life on Earth. Many of these functions require tightly controlled regulatory processes to maintain homeostasis at the protein level. One such regulatory mechanism is the ubiquitin-proteasome system whose fundamental role is increasingly emerging in chloroplasts. In particular, the role of E3 ubiquitin ligases as determinants in the ubiquitination and degradation of specific intra-chloroplast proteins. Here, we highlight recent advances in understanding the roles of plant E3 ubiquitin ligases SP1, COP1, PUB4, CHIP, and TT3.1 as well as the ubiquitin-dependent segregase CDC48 in chloroplast function
Chloroplasts are photosynthetic organelles in plants, and their functions are dependent on the impor...
Chloroplasts depend on the nucleus for much of their proteome. Consequently, strong transcriptional ...
Autophagy and the ubiquitin-proteasome system are the major degradation processes for intracellular ...
Chloroplasts are ancient organelles responsible for photosynthesis and various biosynthetic function...
Chloroplasts are ancient organelles responsible for photosynthesis and various biosynthetic function...
In a recently published work, we identified the first chloroplast-localized E3 ligase, and showed th...
Development of chloroplasts and other plastids depends on the import of thousands of nucleus-encoded...
Protein degradation is vital for cellular functions, and it operates selectively with distinct mecha...
Development of chloroplasts and other plastids depends on the import of thousands of nucleus-encoded...
Pan et al. (2016) presented evidence that the plant ubiquitin E3 ligase SP1 directs proteasome-media...
During a plant’s life cycle, plastids undergo several modifications, from undifferentiated pro-plast...
Diverse proteolytic pathways regulate chloroplasts. Recent work has revealed significant new roles f...
Photosynthesis is the energetic basis for most life on Earth, and in plants it operates inside doubl...
SummaryChloroplasts are the organelles responsible for photosynthesis in plants [1, 2]. The chloropl...
Chloroplasts are the organelles responsible for photosynthesis in plants. The chloroplast proteome c...
Chloroplasts are photosynthetic organelles in plants, and their functions are dependent on the impor...
Chloroplasts depend on the nucleus for much of their proteome. Consequently, strong transcriptional ...
Autophagy and the ubiquitin-proteasome system are the major degradation processes for intracellular ...
Chloroplasts are ancient organelles responsible for photosynthesis and various biosynthetic function...
Chloroplasts are ancient organelles responsible for photosynthesis and various biosynthetic function...
In a recently published work, we identified the first chloroplast-localized E3 ligase, and showed th...
Development of chloroplasts and other plastids depends on the import of thousands of nucleus-encoded...
Protein degradation is vital for cellular functions, and it operates selectively with distinct mecha...
Development of chloroplasts and other plastids depends on the import of thousands of nucleus-encoded...
Pan et al. (2016) presented evidence that the plant ubiquitin E3 ligase SP1 directs proteasome-media...
During a plant’s life cycle, plastids undergo several modifications, from undifferentiated pro-plast...
Diverse proteolytic pathways regulate chloroplasts. Recent work has revealed significant new roles f...
Photosynthesis is the energetic basis for most life on Earth, and in plants it operates inside doubl...
SummaryChloroplasts are the organelles responsible for photosynthesis in plants [1, 2]. The chloropl...
Chloroplasts are the organelles responsible for photosynthesis in plants. The chloroplast proteome c...
Chloroplasts are photosynthetic organelles in plants, and their functions are dependent on the impor...
Chloroplasts depend on the nucleus for much of their proteome. Consequently, strong transcriptional ...
Autophagy and the ubiquitin-proteasome system are the major degradation processes for intracellular ...