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A carboxysome‐based <scp>CO<sub>2</sub></scp> concentrating mechanism for <scp>C<sub>3</sub></scp> crop chloroplasts: advances and the road ahead

Nghiem D. Nguyen, Sacha B. Pulsford, Britta Förster, Sarah Rottet, Loraine M. Rourke, Benedict M. Long, G. Dean Price

2024The Plant Journal31 citationsDOIOpen Access PDF

Abstract

concentrating mechanism (CCM) into crop plants has been modelled to significantly increase crop yields. This projection serves as motivation for pursuing this strategy to contribute to global food security. The successful implementation of this engineering challenge is reliant upon the transfer of a microcompartment that encapsulates cyanobacterial Rubisco, known as the carboxysome, alongside active bicarbonate transporters. To date, significant progress has been achieved with respect to understanding various aspects of the cyanobacterial CCM, and more recently, different components of the carboxysome have been successfully introduced into plant chloroplasts. In this Perspective piece, we summarise recent findings and offer new research avenues that will accelerate research in this field to ultimately and successfully introduce the carboxysome into crop plants for increased crop yields.

Topics & Concepts

ChloroplastMechanism (biology)CropChemistryComputer scienceBiologyBiochemistryPhysicsAgronomyGeneQuantum mechanicsPhotosynthetic Processes and MechanismsAlgal biology and biofuel productionATP Synthase and ATPases Research
A carboxysome‐based <scp>CO<sub>2</sub></scp> concentrating mechanism for <scp>C<sub>3</sub></scp> crop chloroplasts: advances and the road ahead | Litcius