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5 results on '"Martínez-Andújar, Cristina"'

3. Nitrogen Form Alters Hormonal Balance in Salt-treated Tomato ( Solanum lycopersicum L.).

Author

Ghanem, Michel, Martínez-Andújar, Cristina, Albacete, Alfonso, Pospíšilová, Hana, Dodd, Ian, Pérez-Alfocea, Francisco, and Lutts, Stanley

Subjects
NITROGEN, HORMONES, TOMATOES, SALT, PLANT hormones, ABSCISIC acid, FERTILIZATION (Biology), GLUTAMIC acid, METABOLISM
Abstract

Mixed nitrate/ammonium fertilization can partially alleviate the negative effects of salinity on growth of some plant species compared to all-nitrate or all-ammonium fertilization. To gain insights about the mechanisms involved, tomato ( Solanum lycopersicum L. cv Moneymaker) plants were grown hydroponically for 3 weeks with two NO/NH fertilization regimes (6/0.5 and 5/1.5; N = 6.5 mM) in the absence (control) or presence of salt stress (100 mM NaCl). Ammonium enrichment had no effect on growth and other parameters under control conditions. Under salinity, however, ammonium enrichment improved shoot and root biomass by 20% and maintained leaf PSII efficiency close to control levels. These changes were related to higher leaf K, NO, and NH concentrations and activities of the N-assimilatory enzymes glutamate synthase (GOGAT) and glutamine synthase (GS) in the leaves. Ammonium enrichment also attenuated the salt-induced increase in leaf abscisic acid (ABA) concentration and decrease in leaf concentrations of indole 3-acetic acid (IAA) and the cytokinins trans-zeatin ( tZ) and trans-zeatin riboside ( tZR). Enhanced cytokinin status was probably due to maintenance of root-to-shoot cytokinin transport and decreased leaf induction of the cytokinin-degrading enzyme cytokinin oxidase/dehydrogenase (CKX) under ammonium-enriched conditions. It is concluded that nitrogen form modifies salinity-induced physiological responses and that these modifications are associated with changes in plant hormone status. [ABSTRACT FROM AUTHOR]

Published
2011
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4. Rootstock-mediated changes in xylem ionic and hormonal status are correlated with delayed leaf senescence, and increased leaf area and crop productivity in salinized tomato.

Author

Albacete, Alfonso, MartÍnez-AndÚjar, Cristina, Ghanem, Michel Edmond, Acosta, Manuel, SÁnchez-Bravo, Jos, Asins, MarÍa J., Cuartero, JesÚs, Llutts, Stanley, Dodd, Ian C., and PÉrez-Alfocea, Francisco

Subjects
*XYLEM, *PLANT hormones, *LEAF development, *ROOTSTOCKS, *TOMATOES, *GRAFTING (Horticulture), *SALINITY, *CHLOROPHYLL, *STATISTICAL correlation
Abstract

Tomato crop productivity under salinity can be improved by grafting cultivars onto salt-tolerant wild relatives, thus mediating the supply of root-derived ionic and hormonal factors that regulate leaf area and senescence. A tomato cultivar was grafted onto rootstocks from a population of recombinant inbred lines (RILs) derived from a Solanum lycopersicum × Solanum cheesmaniae cross and cultivated under moderate salinity (75 mm NaCl). Concentrations of Na+, K+ and several phytohormones [abscisic acid (ABA); the cytokinins (CKs) zeatin, Z; zeatin riboside, ZR; and the ethylene precursor 1-aminocyclopropane-1-carboxylic acid (ACC)] were analysed in leaf xylem sap in graft combinations of contrasting vigour. Scion leaf area correlated with photosystem II (PSII) efficiency ( Fv/ Fm) and determined fruit productivity. Xylem K+ (but not Na+), K+/Na+, the active CK Z, the ratio with its storage form Z/ZR and especially the ratio between CKs and ACC (Z/ACC and Z + ZR/ACC) were positively loaded into the first principal component (PC) determining both leaf growth and PSII efficiency. In contrast, the ratio ACC/ABA was negatively correlated with leaf biomass. Although the underlying physiological mechanisms by which rootstocks mediate leaf area or chlorophyll fluorescence (and thus influence tomato salt tolerance) seem complex, a putative potassium–CK interaction involved in regulating both processes merits further attention. [ABSTRACT FROM AUTHOR]

Published
2009
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5. Dynamic Hormone Gradients Regulate Wound-Induced de novo Organ Formation in Tomato Hypocotyl Explants.

Author

Larriba, Eduardo, Sánchez-García, Ana Belén, Justamante, María Salud, Martínez-Andújar, Cristina, Albacete, Alfonso, and Pérez-Pérez, José Manuel

Subjects
ROOT formation, TOMATOES, AUXIN, TRANSCRIPTOMES, HORMONES, PLANT hormones
Abstract

Plants have a remarkable regenerative capacity, which allows them to survive tissue damage after biotic and abiotic stresses. In this study, we use Solanum lycopersicum 'Micro-Tom' explants as a model to investigate wound-induced de novo organ formation, as these explants can regenerate the missing structures without the exogenous application of plant hormones. Here, we performed simultaneous targeted profiling of 22 phytohormone-related metabolites during de novo organ formation and found that endogenous hormone levels dynamically changed after root and shoot excision, according to region-specific patterns. Our results indicate that a defined temporal window of high auxin-to-cytokinin accumulation in the basal region of the explants was required for adventitious root formation and that was dependent on a concerted regulation of polar auxin transport through the hypocotyl, of local induction of auxin biosynthesis, and of local inhibition of auxin degradation. In the apical region, though, a minimum of auxin-to-cytokinin ratio is established shortly after wounding both by decreasing active auxin levels and by draining auxin via its basipetal transport and internalization. Cross-validation with transcriptomic data highlighted the main hormonal gradients involved in wound-induced de novo organ formation in tomato hypocotyl explants. [ABSTRACT FROM AUTHOR]

Published
2021
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