The Science in Our Food
The Center’s facilities serve as regional, national and international resources
TechAccel Invests in Unique Sprayable RNAi Pesticide Technology First “Path to Commercialization” Grant Awarded to Donald Danforth Plant Science Center
Monday September 11, 2017 READ MORE
Why a St. Louis event could be one of agtech’s biggest disruptors: 4 questions with Bayer's R&D head
Monday marks the start of the ninth annual Ag Innovation Showcase.
Monday September 11, 2017 READ MORE
The Future of Agriculture is Center Stage at Ag Innovation Showcase
Bees, new food sources and machine learning are leading trends
Thursday, August 31, 2017 READ MORE
(St. Louis Business Journal) Greitens touts Israeli relationship as economic generator
St. Louis is already home to a number of Israeli-founded companies that have moved to the area thanks to GlobalSTL, an initiative started and organized by BioSTL several years ago.
Wednesday, August 16, 2017 READ MORE
Analysis Linking Field and Controlled Environments Reveals Key Traits Controlling Height
Discovery could help improve yield in food and bioenergy crops
Monday, July 10, 2017 READ MORE
18 Transformative Early-Stage Companies from 4 Countries Selected to Present
Los Angeles, CA – June 28, 2017 – Larta Institute, Donald Danforth Plant Science Center and
Bio Research & Development Growth (BRDG) Park today announced the 18 early stage companies that will showcase their innovative work at the 9th annual Ag Innovation Showcase, September 11-13, 2017 at the Donald Danforth Plant Science Center, in St. Louis, Missouri.
Wednesday, June 28, 2017 READ MORE
TechAccel Expands with Office Location at Donald Danforth Plant Science Center
AgTech Firm Leases Space for Further Collaboration & Science Advancement Research
Friday, June 16, 2017 READ MORE
For Funding, Scientists Turn to Unorthodox Sources
(Discover Magazine) ....government grants are competitive — there isn’t enough money for all the research projects out there.
Tuesday, May 30, 2017 READ MORE
One Day To Sell STL: 12 Israel AgTech Companies Visit St. Louis on Spring Delegation
(EQ) On March 6, 12 AgTech companies from Israel landed in St. Louis for a day-long dive into all things startup.
Tuesday, May 30, 2017 READ MORE
How the Midwest of the U.S. Became the Global Agtech Leader
(CEOWorld Magazine) It was the tech story read ‘round the world. Earlier this year, CNN shed light on what Midwesterners in the U.S. have known for years:
Tuesday, May 23, 2017 READ MORE
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ST. LOUIS, MO, August 29, 2017 – Researchers have identified a set of genes that help control early drought response in a popular global crop. The pioneering study, conducted by Dartmouth College, the University of Wyoming, and the Donald Danforth Plant Science Center, separates itself from previous research by focusing on the entire day-night cycle and by analyzing both genetic and physiological changes.
“This is a landmark study that characterizes the connections between daily rhythms in gene expression and dynamic changes in gene networks in a crop plant and physiological changes associated with drought stress,” said Todd Mockler, Ph.D., Geraldine and Robert Virgil Distinguished Investigator, Danforth Center.
The research, appearing in the journal eLife, focuses on the plant’s response early in the drought stage. By assessing change under less severe conditions, researchers hope to understand how plants respond to water stress in order to create more drought-resilient crops.
“Even before a plant shows visible signs of wilting, there are extensive changes in terms of gene expression and physiology,” said C. Robertson McClung, a professor of biological sciences at Dartmouth College. “This research considers all the factors in early drought response and may hopefully help us increase food production in the years to come.”
For the study, researchers focused on Brassica rapa, a crop that provides Chinese cabbage, turnips and vegetable oil. The plant is used extensively in Asia, Canada and Europe, and is of increasing importance in the United States.
The team withheld water from the plant for four days and recorded observations during the third and fourth day. By tracking the plant’s reactions to water stress throughout the 48-hour period, the research team was able to identify nighttime plant activity indicating that Brassica may respond to early-stage drought by closing the stomata more fully at night. Stomata are pores on a plant that allow for the exchange of carbon dioxide and water.
During the same observations, the team identified genes that responded to drought, but that also switched on and off consistently according to the time of day even when well-watered. During drought, the normal behavior of these genes was either amplified or muted.
“The increase in expression of genes for nitrogen uptake at night during early drought is especially intriguing” said Brent Ewers, a professor at the University of Wyoming and expert in plant physiological response to environmental stress, “this provides a potential mechanism to explain observations over the past 10 years that plants increase night water use when mildly to moderately stressed by lack of water and nutrients.”
The combination of genetic and physiological information on how the plant responded to water conditions at different times of day could help researchers identify specific genes that respond more strongly to water conditions. This, in turn, could lead to creating greater drought resistance in Brassica rapa and potentially other crops.
Statistics cited in the research indicate that, in the U.S. alone, water stress accounts for the largest proportion of crop loss, and that 45 percent of the nation’s land surface suffers from low water availability. Yields for crops like corn and soybean are most sensitive to short-term summertime droughts.
The research, sponsored by the NSF-Plant Genome Research Program, could have major implications as the globe also grapples with an increasing population and food yields that may not reach projected targets.
While the research is still in its early stages, researchers hope that with continued success in identifying which genes are actually causing the changes that create drought response they can help plant breeders improve drought resistance more quickly and more precisely while potentially improving fertilization efficiency at the same time.
About The Donald Danforth Plant Science Center
Founded in 1998, the Donald Danforth Plant Science Center is a not-for-profit research institute with a mission to improve the human condition through plant science. Research, education and outreach aim to have impact at the nexus of food security and the environment, and position the St. Louis region as a world center for plant science. The Center’s work is funded through competitive grants from many sources, including the National Institutes of Health, U.S. Department of Energy, National Science Foundation and the Bill & Melinda Gates Foundation.
To keep up to date with Danforth Center’s current operations and areas of research, please visit, www.danforthcenter.org, featuring information on Center scientists, news and the “Roots & Shoots” blog. Follow us on Twitter at @DanforthCenter.
Contact: Melanie Bernds, firstname.lastname@example.org, 314 587-1647
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