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Proline Enhances Resistance and Recovery of Oilseed Rape after a Simulated Prolonged Drought.

Sigita JurkonienėRima MockevičiūtėVirgilija GavelienėVaidevutis ŠveikauskasMariam ZareyanElžbieta Jankovska-BortkevičJurga JankauskienėTautvydas ŽalnieriusLiudmyla Kozeko
Published in: Plants (Basel, Switzerland) (2023)
This study was carried out to evaluate the effect of exogenous proline on the growth, biochemical responses, and plant recovery of drought-stressed oilseed rape plants after renewed irrigation. The experiment was conducted under controlled laboratory conditions. After 21 days of cultivation, 3-4 leaf stage seedlings were sprayed with proline (1 mM), then subjected to prolonged drought stress for 8 days to achieve a severe water deficit, next, irrigation was resumed and recovery was assessed after 4 days. The results show that exogenous application of proline reduced the drought-induced growth inhibition of seedlings while maintaining relative water content (RWC) and growth parameters closer to those of irrigated plants. Proline had a positive effect on chlorophyll accumulation and membrane permeability while decreasing ethylene, H 2 O 2 , and MDA levels. Moreover, after 4 days of recovery, the H 2 O 2 content of the proline-treated plants was significantly lower (2-fold) and the MDA content was close to that of continuously irrigated plants. Thus, all these biochemical reactions influenced plant survival: after drought + proline treatment, the number of surviving plants was two times higher than that of drought-treated plants. The findings show that exogenous proline has antioxidant, osmotic, and growth-promoting properties that improve the drought tolerance of winter oilseed rape plants and is, therefore, beneficial for drought adaptation in oilseed rape.
Keyphrases
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