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Carbon assimilation in upper subtidal macroalgae is determined by an inverse correlation between Rubisco carboxylation efficiency and CO2 concentrating mechanism effectiveness
Capó-Bauçà, Sebastià; Galmés, Jeroni; Aguiló-Nicolau, Pere; Ramis-Pozuelo, Sonia; Íñiguez Moreno, Concepción; iñiguez Moreno[et al.] (Wiley, 2023)Seaweeds have a wide ecophysiological and phylogenetic diversity with species expressing different Rubisco forms that frequently coexist with biophysical CO2 concentrating mechanisms (CCMs), an adaptation that overcomes ... -
Correlative adaptation between Rubisco and CO2-concentrating mechanisms in seagrasses
Capó-Bauçà, Sebastià; Íñiguez Moreno, Concepción; Aguiló-Nicolau, Pere; Galmés, Jeroni (Nature Research, 2022)Submerged angiosperms sustain some of the most productive and diverse ecosystems worldwide. However, their carbon acquisition and assimilation mechanisms remain poorly explored, missing an important step in the evolution ... -
Evolutionary trends in RuBisCO kinetics and their co-evolution with CO2 concentrating mechanisms
Íñiguez Moreno, Concepción; Capó-Bauçà, Sebastià; Niinemets, Ülo; Stoll, Heather; Aguiló-Nicolau, Pere; Galmés, Jeroni[et al.] (Wiley, 2020)RuBisCO-catalyzed CO2 fixation is the main source of organic carbon in the biosphere. This enzyme is present in all domains of life in different forms (III, II, and I) and its origin goes back to 3500 Mya, when the atmosphere ... -
Singular adaptations in the carbon assimilation mechanism of the polyextremophile cyanobacterium Chroococcidiopsis thermalis
Aguiló-Nicolau, Pere; Galmés, Jeroni; Fais, Giacomo; Capó-Bauçà, Sebastià; Cao, Giacomo; Íñiguez Moreno, Concepción[et al.] (Springer, 2023)Cyanobacteria largely contribute to the biogeochemical carbon cycle fixing ~ 25% of the inorganic carbon on Earth. However, the carbon acquisition and assimilation mechanisms in Cyanobacteria are still underexplored ...