Journal
JOURNAL OF EXPERIMENTAL BOTANY
Volume 73, Issue 20, Pages 6993-7005Publisher
OXFORD UNIV PRESS
DOI: 10.1093/jxb/erac264
Keywords
Chlamydomonas; microalgae; nutrient; red algae; TOR kinase
Categories
Funding
- Ministerio de Ciencia y Tecnologia [PGC2018-099048-B-I00, PID2019110080GB-I00]
- Regional Government of Andalucia [P20-00057]
- Ministerio de Universidades
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Microalgae are photosynthetic microorganisms widely distributed on Earth and they play an important role in oxygen production and food chains. Recent studies have identified a protein called TOR, which regulates cell growth and nutrient sensing in microalgae. Conservation of TOR signaling pathway has been found in diverse microalgae.
Microalgae constitute a highly diverse group of photosynthetic microorganisms that are widely distributed on Earth. The rich diversity of microalgae arose from endosymbiotic events that took place early in the evolution of eukaryotes and gave rise to multiple lineages including green algae, the ancestors of land plants. In addition to their fundamental role as the primary source of marine and freshwater food chains, microalgae are essential producers of oxygen on the planet and a major biotechnological target for sustainable biofuel production and CO2 mitigation. Microalgae integrate light and nutrient signals to regulate cell growth. Recent studies identified the target of rapamycin (TOR) kinase as a central regulator of cell growth and a nutrient sensor in microalgae. TOR promotes protein synthesis and regulates processes that are induced under nutrient stress such as autophagy and the accumulation of triacylglycerol and starch. A detailed analysis of representative genomes from the entire microalgal lineage revealed that the highly conserved central components of the TOR pathway are likely to have been present in the last eukaryotic common ancestor, and the loss of specific TOR signaling elements at an early stage in the evolution of microalgae. Here we examine the evolutionary conservation of TOR signaling components in diverse microalgae and discuss recent progress of this signaling pathway in these organisms. TOR, the master regulator of cell growth, is conserved in all eukaryotes, including the highly diverse microalgae. We review current knowledge about the conservation and regulation of TOR signaling in microalgae.
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