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A promiscuous mechanism to phase separate eukaryotic carbon fixation in the green lineage. | LitMetric

AI Article Synopsis

  • CO fixation efficiency is often hindered by the enzyme Rubisco, but eukaryotic algae utilize pyrenoids to concentrate and fix CO, contributing significantly to global CO fixation.
  • Researchers developed a method to identify linker proteins in green algae, focusing on a linker from Chlorella that interacts with Rubisco.
  • The Chlorella linker can phase separate Rubisco from Chlamydomonas and even facilitate functional pyrenoid formation, demonstrating potential for enhancing crop yields through pyrenoid engineering in plants.

Article Abstract

CO fixation is commonly limited by inefficiency of the CO-fixing enzyme Rubisco. Eukaryotic algae concentrate and fix CO in phase-separated condensates called pyrenoids, which complete up to one-third of global CO fixation. Condensation of Rubisco in pyrenoids is dependent on interaction with disordered linker proteins that show little conservation between species. We developed a sequence-independent bioinformatic pipeline to identify linker proteins in green algae. We report the linker from Chlorella and demonstrate that it binds a conserved site on the Rubisco large subunit. We show that the Chlorella linker phase separates Chlamydomonas Rubisco and that despite their separation by ~800 million years of evolution, the Chlorella linker can support the formation of a functional pyrenoid in Chlamydomonas. This cross-species reactivity extends to plants, with the Chlorella linker able to drive condensation of some native plant Rubiscos in vitro and in planta. Our results represent an exciting frontier for pyrenoid engineering in plants, which is modelled to increase crop yields.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11570498PMC
http://dx.doi.org/10.1038/s41477-024-01812-xDOI Listing

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