Drought-Inducible Utility Promoters
- Detailed Technology Description
- Executive Summary Many advances have been made in plant biotechnology regarding pesticide resistance, but little has been done to improve drought resistance. In times of global climate change and more extreme weather conditions, technology to increase drought resistance is much needed to prevent crop shortages that reduce food security, drive up food prices, and increase production costs for many other industries that rely on major field crops. In 2012, the corn industry alone saw a loss of $4 billion due to drought conditions. Our technology is a key development in regulated expression of drought resistant technology, enabling increased drought resistance under water stress conditions while minimizing or eliminating negative effects on plant productivity under water-replete conditions. Description of Technology This new MSU technology for regulated expression of drought-tolerance transgenes or cisgenes enhances plants’ ability to endure drought conditions while providing normal growth under water-replete conditions. The synthetic promoter has been tested in combination with a Xerico drought tolerance gene. The transgenic plants showed positive results for drought-induced stress treatments, including fast recovery from drought, low transpirational water loss, and no growth defects under normal conditions. Key BenefitsIncreased drought toleranceFast drought recoveryNo phenotypic abnormalitiesIncreased crop yieldsDecreased irrigation costsHigher land value in water-scarce regionsLower crop insurance premiums ApplicationsDrought tolerant plants Patent Status: Pending 14/617,061Licensing Rights Available Non-exclusive rights or exclusive rights for certain fields of use available. Inventors: Dr. Kyung-Hwan Han, Dr. Won-Chan Kim, Dr. Joo-Yeol Kim, Dr. Jae-Heung Ko Tech ID: TEC2013-0115
- *Abstract
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- *Principal Investigator
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Name: Kyung-Hwan Han, Professor
Department: Department of Horticulture
Name: Won-Chan Kim, Assistant Professor
Department: School of Applied Biosciences
Name: Joo-Yeol Kim, Visiting Adjunct Research Associate
Department: GLBRC
Name: Jae-Heung Ko
Department:
- Country/Region
- USA
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