Altered cell wall hydroxycinnamate composition impacts leaf and canopy-level CO₂-uptake and water-use in rice

Abstract: Cell wall properties can play a major role in determining photosynthetic carbon-uptake and water-use through impacts on mesophyll conductance (CO2 diffusion from substomatal cavities into photosynthetic mesophyll cells) and leaf hydraulic conductance (water movement from xylem, through leaf tissue to stomata). Consequently, modification of cell wall properties is proposed as a major path for improving photosynthesis and crop water-use efficiency. We tested this using two independent transgenic rice lines that … Show more

“…S5); however, the field plants were irrigated. A recent study by Pathare et al showed engineered increases in g m resulted in increased biomass of rice plants grown under reduced soil water content but not those subjected to ample water 48 .…”

Greater leaf photosynthesis in the field by increasing mesophyll conductance via modified cell wall porosity and thickness in tobacco

“…S5); however, the field plants were irrigated. A recent study by Pathare et al showed engineered increases in g m resulted in increased biomass of rice plants grown under reduced soil water content but not those subjected to ample water 48 .…”

Greater leaf photosynthesis in the field by increasing mesophyll conductance via modified cell wall porosity and thickness in tobacco