Identification Of New Synthetic Elicitors Of Plant Immune Responses
Better control of defense signaling network – new compound’s regulatory step lies upstream of salicylic acid, the defense hormone in plantsBiological activity is 10-fold higherImproved protection along with enhanced immune system & growthComplement or substitute pesticide use
Development of disease-resistant plant lines Compounds can be formulated in various ways depending on necessity (e.g. liquid, powder, gas)
Background: The global market for agricultural biotechnology is projected to reach $46.8B. What’s encouraging this 11% industry growth over the next 4 years are pathogens. Pathogens are very adaptive, multifaceted and rapidly acquire new traits that enable their survival. One of their most notable traits is the ability to release effector molecules and suppress plant immunity, thereby increasing disease spread and infection. Plants, too, have evolved in their defense signaling networks but it is more effective to find a preventative measure, as more energy is expended when trying to recuperate from post-infection. Brief Description: UCR Researchers have identified new synthetic elicitors that are involved in the earlier stages of plant defense signaling. These compounds have a more extensive effect on plant immune responses than the existing synthetic elicitor, DCA. It has been successfully verified that the new compound exhibits higher potency in mediating disease resistance against harmful pathogens as well as enhance the plant’s inherent defense system.
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Images Wikimedia Commons / https://commons.wikimedia.org/wiki/File:CSIRO_ScienceImage_10772_Rustaffected_wheat_seedlings.jpg Tech ID/UC Case 25185/2011-097-0 Related Cases 2011-097-0
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