AI Article Synopsis
- Improved yield potential and stability are key goals in cereal breeding, especially under stressful conditions.
- Recent studies suggest that small RNA (sRNA) pathways play a significant role in stress adaptation and reproduction in cereals.
- The review focuses on how manipulating sRNA regulatory modules can enhance traits like flowering time and root architecture, leading to the development of high-yielding, stress-tolerant cereal varieties.
Article Abstract
In cereal breeding programs, improved yield potential and stability are ultimate goals when developing new varieties. To facilitate achieving these goals, reproductive success under stressful growing conditions is of the highest priority. In recent times, small RNA (sRNA)-mediated pathways have been associated with the regulation of genes involved in stress adaptation and reproduction in both model plants and several cereals. Reproductive and physiological traits such as flowering time, reproductive branching, and root architecture can be manipulated by sRNA regulatory modules. We review sRNA-mediated pathways that could be exploited to expand crop diversity with adaptive traits and, in particular, the development of high-yielding stress-tolerant cereals: SMARTER cereal breeding through 'Small RNA-Mediated Adaptation of Reproductive Targets in Epigenetic Regulation'.
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| http://dx.doi.org/10.1016/j.tplants.2016.07.006 | DOI Listing |
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