26 November 2025
Stephen P. Long, Yu Wang, Elizabete Carmo-Silva, Amanda P. Cavanagh, Martin C. Jonikas, Johannes Kromdijk, Benedict M. Long, Amy Marshall-Colón, Diwakar Shukla, Robert H. Wilson, Xin-Guang Zhu, Elizabeth A. Ainsworth - Cell Press, 2025
There is an urgent need for increased crop productivity to reduce food insecurity and improve sustainability. Photosynthesis converts sunlight energy into carbohydrates, providing the source of nearly all of humanity’s food. Photosynthesis is a key target for improvement, owing to inherent inefficiencies in the biochemical process. Over the last decade of advancements in bioengineering, strategies to increase the efficiency of photosynthesis were tested with proven enhancements to crop yields in field trials. Simple strategies like increasing the content of photosynthetic proteins have reliably increased photosynthesis and productivity in crops, as have more complex strategies such as bypassing photorespiration. While insertion of carbon-concentrating mechanisms into C3 plants remains an engineering challenge, modeling suggests that achieving that would have the greatest gain for crop improvement. This review discusses the many successes in improving photosynthesis achieved over the past decade and quantifies the potential for future engineering targets to increase crop productivity.
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