Researchers find way to improve plant defenses without negatively impacting growth

August 27, 2013 by Sandi Martin
Researchers find way to improve plant defenses without negatively impacting growth
Chung-Jui Tsai is a Georgia Research Alliance Eminent Scholar and professor in the Warnell School of Forestry and Natural Resources and the Franklin College of Arts and Sciences.

( —Salicylic acid is key to protecting plants from everything from extreme temperatures to diseases. But increasing this naturally occurring chemical typically results in stunted plant growth.

A University of Georgia research team recently discovered a way to jump the salicylic acid hurdle and increase levels in poplars without a negative impact on growth, potentially paving the way for better-growing crops and trees.

In a paper recently published in Plant Cell, the team outlined how their approach differs from previous attempts to increase salicylic acid levels in plants while avoiding growth stagnation.

"It's such an important hormone," said C.J. Tsai, a UGA professor with joint appointments in the Warnell School of Forestry and Natural Resources and the Franklin College of Arts and Sciences department of genetics. "People have gone after this for a long time, but previous attempts to increase the levels of salicylic acid have often had unwanted side effects. We're very excited about the possibilities our method has, particularly because it has a lot of potential for both trees and crops."

Salicylic acid regulates plant systems like photosynthesis and defense against abiotic and biotic stresses-temperature, drought and disease. To get over the salicylic acid hurdle, the UGA researchers took a team approach to the problem.

First, Tsai's former postdoctoral student Yinan Yuan developed a new strategy for increasing the salicylic by testing a bi-functional in poplar. This included obtaining the gene and designing the proper expression vectors for introduction into the plants.

After Tsai joined the faculty of UGA in 2008, her team created transgenic for the study, with former postdoctoral research associate Wenbing Guo overseeing the experiments.

They then used what they learned from other work they were conducting in the lab—developing genomics tools that included transcriptomics (), metabolomics (unbiased analysis of metabolites) and computational data analysis pipelines—to analyze their results, which required Liang-Jiao Xue, a bioinformatics postdoctoral research associate, to build the metabolite and gene networks they needed to dissect the complex regulation. Metabolites are produced by a living organism's metabolism and have a number of functions, including defense and growth.

"This was truly a team effort, with many former and current lab members contributing expertise to the project," Tsai said.

They found many metabolites and genes previously associated with salicylic acid regulation and then discovered many more that, before this study, have never been identified. They will use these findings in future experiments.

"It will be interesting to see how these metabolites and genes are regulated in multiple species under both normal and stress conditions, as this will provide more clues on how plants adapt to a changing environment," Xue said.

Poplars were chosen for the study because of their naturally high levels of salicylic acid compared to other plants, Tsai said. The team was excited to discover the transgenic poplars they created can produce several hundredfold higher levels of the hormone while showing normal growth.

"This has multiple implications," she said. "The poplar system enables us to identify downstream gene targets that are activated by salicylic acid for defense. This means that we can potentially target those genes for improvements. From an applications perspective, salicylic acid can be bypassed in -sensitive crops if we can learn how its gene targets function and then deal with those directly."

Explore further: New evidence that people make aspirin's active principle -- salicylic acid

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