Unraveling salt-responsive tissue-specific metabolic pathways in olive tree

Επιστημονική δημοσίευση - Άρθρο Περιοδικού uoadl:3009123 14 Αναγνώσεις

Μονάδα:
Ερευνητικό υλικό ΕΚΠΑ
Τίτλος:
Unraveling salt-responsive tissue-specific metabolic pathways in olive tree
Γλώσσες Τεκμηρίου:
Αγγλικά
Περίληψη:
Salinity is a serious constraint that reduces olive crop productivity. Here, we defined metabolite and gene expression changes in various tissues of olive trees (cv. “Chondrolia Chalkidikis”) exposed to 75 mM NaCl for 45 days. Results showed that salinity induced foliar symptoms and impaired growth and photosynthetic parameters. The content of Na+ and Cl− in roots, xylem, phloem and leaves increased, although the Na+ levels in old leaves and Cl− in young leaves remained unaffected. Mannitol was accumulated in roots and old leaves challenged by salinity. NaCl-treated trees have a decreased TCA-associated metabolites, such as citric and malic acid, as well as changes in phenylpropanoid-associated metabolites (i.e., pinoresinol and vanillic acid) and genes (OePLRTp2 and OeCA4H). Salt treatment resulted in hydroxyl-decarboxylmethyl eleuropein aglycone accumulation and OeGTF up-regulation in new leaves, possibly suggesting that oleuropein metabolism was modified by NaCl. Tyrosine metabolism, particularly verbascoside levels and OePPO and OehisC expressions, was modulated by salinity. Both genes (e.g., OeAtF3H and OeFNSII) and metabolites (e.g., apigenin and luteolin) involved in flavonoid biosynthesis were induced in old leaves exposed to NaCl. Based on these data, we constructed an interaction scheme of changes in metabolites and transcripts across olive tissues upon salinity. Particularly, several metabolites involved in carbohydrate metabolism were reduced in roots, while many sugars, carbohydrates and flavonoids were increased in leaves. This study provided a framework for better understanding the possible mechanisms that govern the tissue-specific response of olive tree to salinity stress, with insights into molecules that can be used for olive crop improvement projects. © 2021 Scandinavian Plant Physiology Society
Έτος δημοσίευσης:
2021
Συγγραφείς:
Skodra, C.
Michailidis, M.
Dasenaki, M.
Ganopoulos, I.
Thomaidis, N.S.
Tanou, G.
Molassiotis, A.
Περιοδικό:
Physiologia Plantarum
Εκδότης:
John Wiley and Sons Inc
Τόμος:
173
Αριθμός / τεύχος:
4
Σελίδες:
1643-1656
Λέξεις-κλειδιά:
sodium chloride, metabolism; olive tree; physiological stress; plant leaf; plant root; salinity, Metabolic Networks and Pathways; Olea; Plant Leaves; Plant Roots; Salinity; Sodium Chloride; Stress, Physiological
Επίσημο URL (Εκδότης):
DOI:
10.1111/ppl.13565
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