All carbon fixation articles
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NewsThe mystery of the missing deep ocean carbon fixers
New findings challenge the current view of how carbon dioxide is “fixed” in the sunless ocean depths. The study presents results that help to reconcile discrepancies in accounting for nitrogen supply and dissolved inorganic carbon (DIC) fixation at depth.
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NewsNew blueprint for nature’s carbon-capturing nanomachines revealed
Researchers have uncovered how bacterial organelles assemble, opening new routes for bioengineering and climate innovation. The team has unveiled the most detailed picture yet of how bacteria construct microscopic compartments known as carboxysomes – natural nanomachines that play a vital role in capturing and converting carbon dioxide (CO₂).
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NewsScientists discover regulatory pathway behind cyanobacteria’s carbon-fixing factories
A new study illuminates a key regulatory pathway between cyanobacteria’s light-harvesting systems and the inner compartments where carbon fixation happens, helping us to understand how cyanobacteria balance their energy demands.
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NewsGiant deep-sea vent tubeworm symbionts use two carbon fixation pathways to grow at record speeds
New research sheds light on how a giant hydrothermal vent tubeworm living in the deep ocean coordinates the two functional carbon fixation pathways used by its symbiotic bacteria to sustain themselves and their host.
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NewsResearchers throw new light on carboxysomes in key discovery that could boost photosynthesis
A research team has discovered how carboxysomes, carbon-fixing structures found in some bacteria and algae, work - a breakthrough that could help scientists repurpose the structures to enable plants to convert sunlight into more energy.
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CareersSingle-celled fungi could assimilate CO2 and change the world
Fresh from placing in the top of inaugural The Future is Fungi awards, William Newell of Imperial College London opens up on his pioneering work which aims to use fungi for electromicrobial CO2 fixation.