A cutting-edge study illuminates the intricate mechanisms of rose plants’ resistance to salt stress, a critical issue for global agriculture. The research identifies the phenylpropane pathway, especially flavonoids, as key to this tolerance, offering insights into potential genetic modifications for crops to thrive in saline conditions. A cutting-edge study illuminates the intricate mechanisms of rose plants’ resistance to salt stress, a critical issue for global agriculture. The research identifies the phenylpropane pathway, especially flavonoids, as key to this tolerance, offering insights into potential genetic modifications for crops to thrive in saline conditions. Molecular & Computational biology Agriculture Phys.org – latest science and technology news stories
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