Journal
PLANT JOURNAL
Volume 82, Issue 3, Pages 429-448Publisher
WILEY
DOI: 10.1111/tpj.12829
Keywords
CO2 concentrating mechanism; photosynthetic carbon assimilation; Chlamydomonas; inorganic carbon; limiting CO2; bicarbonate transporter; active CO2 uptake
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The CO2 concentrating mechanism (CCM) represents an effective strategy for carbon acquisition that enables microalgae to survive and proliferate when the CO2 concentration limits photosynthesis. The CCM improves photosynthetic performance by raising the CO2 concentration at the site of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco), simultaneously enhancing carbon fixation and suppressing photorespiration. Active inorganic carbon (Ci) uptake, Rubisco sequestration and interconversion between different Ci species catalyzed by carbonic anhydrases (CAs) are key components in the CCM, and an array of molecular regulatory elements is present to facilitate the sensing of CO2 availability, to regulate the expression of the CCM and to coordinate interplay between photosynthetic carbon metabolism and other metabolic processes in response to limiting CO2 conditions. This review intends to integrate our current understanding of the eukaryotic algal CCM and its interaction with carbon assimilation, based largely on Chlamydomonas as a model, and to illustrate how Chlamydomonas acclimates to limiting CO2 conditions and how its CCM is regulated. Significance Statement Photosynthetic microorganisms, including microalgae, are responsible for more than half of global CO2 assimilation, and have emerged as important potential biofactories for renewable fuels and bioproducts. As a model for microalgal CCMs, which enable photosynthetic microbes to survive under natural CO2 concentrations, the CO2 concentrating mechanism (CCM) of Chlamydomonas is thus important both in terms of global ecology and for biorenewable industry.
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