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SAGA1 and SAGA2 promote starch formation around proto-pyrenoids in Arabidopsis chloroplasts

The pyrenoid is a chloroplastic microcompartment in which most algae and some terrestrial plants condense the primary carboxylase, Rubisco (ribulose-1,5-bisphosphate carboxylase/oxygenase) as part of a CO -concentrating mechanism that improves the efficiency of CO capture. Engineering a pyrenoid-bas...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2024-01, Vol.121 (4), p.e2311013121
Main Authors: Atkinson, Nicky, Stringer, Rhea, Mitchell, Stephen R, Seung, David, McCormick, Alistair J
Format: Article
Language:English
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Summary:The pyrenoid is a chloroplastic microcompartment in which most algae and some terrestrial plants condense the primary carboxylase, Rubisco (ribulose-1,5-bisphosphate carboxylase/oxygenase) as part of a CO -concentrating mechanism that improves the efficiency of CO capture. Engineering a pyrenoid-based CO -concentrating mechanism (pCCM) into C3 crop plants is a promising strategy to enhance yield capacities and resilience to the changing climate. Many pyrenoids are characterized by a sheath of starch plates that is proposed to act as a barrier to limit CO diffusion. Recently, we have reconstituted a phase-separated "proto-pyrenoid" Rubisco matrix in the model C3 plant using proteins from the alga with the most well-studied pyrenoid, [N. Atkinson, Y. Mao, K. X. Chan, A. J. McCormick, , 6303 (2020)]. Here, we describe the impact of introducing the Chlamydomonas proteins StArch Granules Abnormal 1 (SAGA1) and SAGA2, which are associated with the regulation of pyrenoid starch biogenesis and morphology. We show that SAGA1 localizes to the proto-pyrenoid in engineered Arabidopsis plants, which results in the formation of atypical spherical starch granules enclosed within the proto-pyrenoid condensate and adjacent plate-like granules that partially cover the condensate, but without modifying the total amount of chloroplastic starch accrued. Additional expression of SAGA2 further increases the proportion of starch synthesized as adjacent plate-like granules that fully encircle the proto-pyrenoid. Our findings pave the way to assembling a diffusion barrier as part of a functional pCCM in vascular plants, while also advancing our understanding of the roles of SAGA1 and SAGA2 in starch sheath formation and broadening the avenues for engineering starch morphology.
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.2311013121