Adapting C(4) photosynthesis to atmospheric change and increasing productivity by elevating Rubisco content in sorghum and sugarcane.

Meta-analyses and theory show that with rising atmospheric [CO(2)], Rubisco has become the greatest limitation to light-saturated leaf CO(2) assimilation rates (A(sat)) in C(4) crops. So would transgenically increasing Rubisco increase A(sat) and result in increased productivity in the field? Here, we successfully overexpressed the Rubisco small subunit (RbcS) with Rubisco accumulation factor 1 (Raf1) in both sorghum and sugarcane, resulting in significant increases in Rubisco content of 13 to 25% and up to 90% respectively. A(sat) increased 12 to 15% and Rubisco enzyme activity ~40% in three independent transgenic events of both species. Sorghum plants also showed increased speeds of photosynthetic induction and decreased bundle sheath leakiness. These improvements translated into average increases of 15.5% in biomass in field-grown sorghum and a 37 to 81% increase in greenhouse-grown sugarcane. This suggests a potential opportunity to achieve substantial increases in productivity of this key economically important clade of C(4) crops, future proofing their value under global atmospheric change.