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Exploiting differences in the energy budget among C<sub>4</sub> subtypes to improve crop productivity

Xinyou Yin, P.C. Struik

2020New Phytologist31 citationsDOIOpen Access PDF

Abstract

Summary C 4 crops of agricultural importance all belong to the NADP‐malic enzyme (ME) subtype, and this subtype has been the template for C 4 introductions into C 3 crops, like rice, to improve their productivity. However, the ATP cost for the C 4 cycle in both NADP‐ME and NAD‐ME subtypes accounts for &gt; 40% of the total ATP requirement for CO 2 assimilation. These high ATP costs, and the associated need for intense cyclic electron transport and low intrinsic quantum yield , are major constraints in realizing strong improvements of canopy photosynthesis and crop productivity. Based on mathematical modelling, we propose a C 4 ideotype that utilizes low chloroplastic ATP requirements present in the nondomesticated phospho enol pyruvate carboxykinase (PEP‐CK) subtype. The ideotype is a mixed form of NAD(P)‐ME and PEP‐CK types, requires no cyclic electron transport under low irradiances, and its theoretical is c . 25% higher than that of a C 4 crop type. Its cell‐type‐specific ATP and NADPH requirements can be fulfilled by local energy production. The ideotype is projected to have c . 10% yield advantage over NADP‐ME‐type crops and &gt; 50% advantage over C 3 counterparts. The ideotype provides a unique (theoretical) case where could be improved, thereby paving a new avenue for improving photosynthesis in both C 3 and C 4 crops.

Topics & Concepts

IdeotypePhotosynthesisNAD+ kinaseC4 photosynthesisCrop productivityCropAgronomyBiologyBotanyBiochemistryEnzymePhotosynthetic Processes and MechanismsPlant nutrient uptake and metabolismMitochondrial Function and Pathology
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