Genes Found in Drought-Resistant Plants Could Accelerate Evolution of Water-Use Efficient Crops



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Scientists at the Department of Energy’s Oak Ridge National Laboratory have identified a common set of genes that enable different drought-resistant plants to survive in semi-arid conditions, which could play a significant role in bioengineering and creating energy crops that are tolerant to water deficits.

Plants thrive in drylands by keeping their stomata, or pores, shut during the day to conserve water and open at night to collect carbon dioxide. This form of photosynthesis, known as crassulacean acid metabolism or CAM, has evolved over millions of years, building water-saving characteristics in plants such as Kalanchoë, orchid and pineapple.

“CAM is a proven mechanism for increasing water-use efficiency in plants,” ORNL coauthor Xiaohan Yang said. “As we reveal the building blocks that make up CAM photosynthesis, we will be able to bioengineer the metabolic processes of water-heavy crops such as rice, wheat, soybeans and poplar to accelerate their adaptation to water-limited environments.”

Scientists are studying a variety of drought-resistant plants to unlock the mystery of CAM photosynthesis. For this work, the ORNL-led team sequenced the genome of Kalanchoë fedtschenkoi, an emerging model for CAM genomics research because of its relatively small genome and amenability to genetic modification.

Read more at DOE/Oak Ridge National Laboratory

Image: ORNL’s Xiaohan Yang led a team who identified a common set of genes that enable different drought-resistant plants to survive in semi-arid conditions. This finding could play a significant role in bioengineering energy crops tolerant to water deficits. (Credit: Jason Richards/Oak Ridge National Laboratory, US Deptartment of Energy)


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