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Marine picocyanobacteria: Light utilization across latitudes. | LitMetric

Marine picocyanobacteria: Light utilization across latitudes.

Proc Natl Acad Sci U S A

Department Analysis and Bioinformatics for Marine Science, Fédération de Recherche 2424, 29680 Roscoff, France.

Published: September 2021

AI Article Synopsis

  • Ubiquitous cyanobacteria have evolved to thrive in specific marine temperature niches, with different lineages showing distinct adaptations to temperature ranges.
  • Tropical cyanobacteria (clade II) grow rapidly at high temperatures (>25 °C) by enhancing their photosynthetic machinery, while subpolar cyanobacteria (clade I) can grow in colder conditions (<10 °C) thanks to improved photoprotection mechanisms.
  • The study highlights how temperature influences the evolution of photoprotection proteins and suggests that these adaptations could impact the competitiveness of cyanobacteria in a warming ocean, affecting global carbon flux predictions.

Article Abstract

The most ubiquitous cyanobacteria, , have colonized different marine thermal niches through the evolutionary specialization of lineages adapted to different ranges of temperature seawater. We used the strains of temperature ecotypes to study how light utilization has evolved in the function of temperature. The tropical (clade II) was unable to grow under 16 °C but, at temperatures >25 °C, induced very high growth rates that relied on a strong synthesis of the components of the photosynthetic machinery, leading to a large increase in photosystem cross-section and electron flux. By contrast, the adapted to subpolar habitats (clade I) grew more slowly but was able to cope with temperatures <10 °C. We show that growth at such temperatures was accompanied by a large increase of the photoprotection capacities using the orange carotenoid protein (OCP). Metagenomic analyzes revealed that natural communities show the highest prevalence of the genes in low-temperature niches, whereas most tropical clade II have lost the gene. Moreover, bioinformatic analyzes suggested that the OCP variants of the two cold-adapted clades I and IV have undergone evolutionary convergence through the adaptation of the molecular flexibility. Our study points to an important role of temperature in the evolution of the OCP. We, furthermore, discuss the implications of the different metabolic cost of these physiological strategies on the competitiveness of in a warming ocean. This study can help improve the current hypotheses and models aimed at predicting the changes in ocean carbon fluxes in response to global warming.

Download full-text PDF

Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8463805PMC
http://dx.doi.org/10.1073/pnas.2111300118DOI Listing

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