Improving Crop Yield through Increasing Carbon Gain and Reducing Carbon Loss.
Palanivelu Vikram KarthickAlagarswamy SenthilDjanaguiraman MaduraimuthuKuppusamy AnithaRamalingam KuttimaniParasuraman BoominathanRamasamy KarthikeyanRaveendran MuthurajanPublished in: Plants (Basel, Switzerland) (2024)
Photosynthesis is a process where solar energy is utilized to convert atmospheric CO 2 into carbohydrates, which forms the basis for plant productivity. The increasing demand for food has created a global urge to enhance yield. Earlier, the plant breeding program was targeting the yield and yield-associated traits to enhance the crop yield. However, the yield cannot be further improved without improving the leaf photosynthetic rate. Hence, in this review, various strategies to enhance leaf photosynthesis were presented. The most promising strategies were the optimization of Rubisco carboxylation efficiency, the introduction of a CO 2 concentrating mechanism in C 3 plants, and the manipulation of photorespiratory bypasses in C 3 plants, which are discussed in detail. Improving Rubisco's carboxylation efficiency is possible by engineering targets such as Rubisco subunits, chaperones, and Rubisco activase enzyme activity. Carbon-concentrating mechanisms can be introduced in C 3 plants by the adoption of pyrenoid and carboxysomes, which can increase the CO 2 concentration around the Rubisco enzyme. Photorespiration is the process by which the fixed carbon is lost through an oxidative process. Different approaches to reduce carbon and nitrogen loss were discussed. Overall, the potential approaches to improve the photosynthetic process and the way forward were discussed in detail.