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Title: | Phloretin inhibits the growth of Arabidopsis shoots by inducing chloroplast damage and programmed cell death | Authors: | Smailagić, Dijana Dragišić Maksimović, Jelena Marin, Marija Stupar, Sofija Ninković, Slavica Banjac, Nevena Stanišić, Mariana |
Keywords: | Allelochemical;Antioxidative enzymes;Autophagy;Cell ultrastructure;Dihydrochalcone;Malus;Photosynthetic pigments | Issue Date: | 19-Sep-2024 | Rank: | M21 | Publisher: | Elsevier | Journal: | Journal of plant physiology | Volume: | 303 | Start page: | 154354 | Abstract: | Phloretin is a key secondary metabolite produced by apple trees. Known for its strong antioxidant properties, this dihydrochalcone has been extensively studied in animals but less so in plants. Recently, we identified phloretin as a phytotoxic allelochemical that inhibits growth in the model plant Arabidopsis by disrupting auxin metabolism and distribution in the roots. In this study, we found that phloretin significantly hinders the growth of Arabidopsis seedlings' aerial parts after a short-term treatment (10 days) and causes their decay after long-term exposure (28 days). These effects result from ultrastructural damage in the mesophyll cells of the leaves, including chloroplast displacement and swelling, lesions, and alterations in thylakoid and cell wall organization. Interestingly, phloretin-treated plants showed a decrease in malondialdehyde levels and antioxidant enzyme activities, while hydrogen peroxide and proline levels remained unchanged. This suggests that phloretin-induced chlorosis and seedling decay are not due to oxidative stress but rather to severe chloroplast structural damage, leading to inefficient photosynthesis, starch degradation, starvation, and activation of micro- and macroautophagic processes for self-preservation. Ultimately, these processes result in programmed cell death. These new insights into the phytotoxic effects of phloretin on Arabidopsis shoots could pave the way for future research into phloretin as a potential multitarget bioherbicide and enhance our understanding of autoallelopathy in apple trees. |
URI: | https://biore.bio.bg.ac.rs/handle/123456789/7317 | ISSN: | 01761617 | DOI: | 10.1016/j.jplph.2024.154354 |
Appears in Collections: | Journal Article |
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