Improved grain yield by modulating pyruvate enzymes and cell cycle proteins, leading to increased grain size. The grain size is a major determinant for rice yield and a vital trait for domestication and breeding.
stker
February 09,2023
Increased yield potential by nitrogen use efficiency. Nitrogen fertilizer has been applied broadly to increase yield. However, low nitrogen use efficiency causes environmental pollution and ecological deterioration by the nitrogen fertilizers.
stker
February 09,2023
Control grain size and seed coat color.
stker
February 09,2023
Semi-dwarf phenotype to improve product and lodging resistance.
stker
February 09,2023
Improved rice photosynthetic efficiency and yield: increased light saturation points, stomatal conductance, light tolerance and photosynthetic yields.
stker
February 09,2023
Increased yield under different environmental conditions: well-watered, drought, normal nitrogen and low nitrogen field conditions and at multiple geographical locations.
stker
February 09,2023
Improvement of yield by reducing the "easy to shatter" trait. Reduced seed shattering ensures better stability during the harvesting processes and improved yields.
stker
February 09,2023
Early flowering under long day conditions of higher latitudes to spread production of maize over a broad range of latitudes rapidly.
stker
February 09,2023
Increased grain yield under field drought stress conditions and no yield loss under well-watered conditions.