Verification of Seed-Priming-Induced Stress Memory by Genome-Wide Transcriptomic Analysis in Wheat (Triticum aestivum L.)
2025
Kincső Decsi | Mostafa Ahmed | Donia Abdul-Hamid | Roquia Rizk | Zoltán Tóth
In line with the latest challenges, agriculture has many options to protect against stress conditions. Seed-priming treatment was applied to winter wheat genotype AG Hurrem with Dr. Green seed-priming fertilizer, which is a commonly used seed fertilizer containing macro- and microelements. Genome-wide transcriptomic analysis was performed to examine the effects of treatments. In seed-primed plants, defense response pathways such as purine and thiamine metabolism, glutathione pathway, and phenylpropanoid biosynthesis were activated. At the same time, photosynthesis and some cellular respiration processes were downregulated and suppressed. Furthermore, in samples of plants previously exposed to priming and subsequently to drought stress, biochemical pathways activated during seed priming showed positive modulation, thus confirming the long-term traces of the priming effects of previous treatments and their repeated inducibility in the genome, i.e., the presumed existence of stress memory. The in silico analyses were also supported by laboratory antioxidant enzyme activity measurements. The priming technique and the preventive approach that can be offered with it may be a promising option for developing sustainable agricultural production in the future.
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