Your search keyword '"López-Climent, M."' showing total 13 results

1. Effects of Combined Abiotic Stresses on Growth, Trace Element Accumulation, and Phytohormone Regulation in Two Halophytic Species

Author

Bankaji, I., Sleimi, N., López-Climent, M. F., Perez-Clemente, R. M., and Gomez-Cadenas, A.

Published

2014

2. Photosynthetic and antioxidant responses of Mexican lime (Citrus aurantifolia) plants to Citrus tristeza virus infection

Author

Pérez-Clemente, R. M., Montoliu, A., Vives, V., López-Climent, M. F., and Gómez-Cadenas, A.

Published

2015

3. Effects of cadmium on gas exchange and phytohormone contents in citrus

Author

López-Climent, M. F., Arbona, V., Pérez-Clemente, R. M., and Gómez-Cadenas, A.

Published

2011

4. Changes in growth, physiological parameters and the hormonal status of Myrtus communis L. plants irrigated with water with different chemical compositions

Author

Gobierno de la Región de Murcia, Fundación Séneca, Ministerio de Economía y Competitividad (España), European Commission, Acosta-Motos, José Ramón, Ortuño Gallud, M. Fernanda, Álvarez Martín, Sara, López Climent, M. F., Gómez Cadenas, Aurelio, Sánchez-Blanco, María Jesús, Gobierno de la Región de Murcia, Fundación Séneca, Ministerio de Economía y Competitividad (España), European Commission, Acosta-Motos, José Ramón, Ortuño Gallud, M. Fernanda, Álvarez Martín, Sara, López Climent, M. F., Gómez Cadenas, Aurelio, and Sánchez-Blanco, María Jesús

Abstract

Myrtus communis, an important Mediterranean ornamental shrub, was used to study the effect of irrigation water with different chemical compositions in the plant response. A treatment with NaCl was used to establish the plant resistance to high salinity at long term. Plants were subjected to four irrigation treatments with drainage for three months: Control (0.8 dSm); two treatments using reclaimed water (RWs): RW1 (2.0 dSm) and RW2 (5.0 dSm); and NaCl (10.0 dSm). High levels of electric conductivity of RWs not affected plant growth, while NaCl decreased leaf dry weight. Coinciding with the accumulation of Na and Cl in the roots, soil water potential decreased, which hinders the mobilization of water to the leaves, decreasing leaf water potential. The osmotic adjustment in the NaCl treatment was due to Na and Cl ions, although the proline could contribute as an Osmo compatible solute, increasing the turgor plants. Also changes in cell walls rigidity minimize the negative effects on the water balance; however, a higher lipid peroxidation was observed in these plants. Stomatal closure was associated with a decrease in K and an increase in abscisic acid. NaCl produced an increase in salicylic acid and did not affect jasmonic acid contents at the end of the experiment. Similar behavior in soil and leaf water potentials, although less pronounced than in NaCl, was shown in RW2 plants. The abscisic acid increased in the RW2 with respect to the control and a decrease in stomatal conductance was observed at the end of the experiment. Plants irrigated with RW1 behaved similarly to the control.

Published

2016

5. Photosynthetic and antioxidant responses of Mexican lime (Citrus aurantifolia) plants to Citrus tristeza virus infection

Author

Pérez‐Clemente, R. M., primary, Montoliu, A., additional, Vives, V., additional, López‐Climent, M. F., additional, and Gómez‐Cadenas, A., additional

Published

2014

6. Membrane transporters and carbon metabolism implicated in chloride homeostasis differentiate salt stress responses in tolerant and sensitive Citrus rootstocks

Author

Ministerio de Educación y Ciencia (España), European Commission, Brumós Fuentes, Javier, Colmenero Flores, José M., Conesa, Ana, Izquierdo Zaragoza, Pedro, Sánchez Silva, Guadalupe, Iglesias Fuentes, Domingo, López Climent, M. F., Gómez Cadenas, Aurelio, Talón Cubillo, Manuel, Ministerio de Educación y Ciencia (España), European Commission, Brumós Fuentes, Javier, Colmenero Flores, José M., Conesa, Ana, Izquierdo Zaragoza, Pedro, Sánchez Silva, Guadalupe, Iglesias Fuentes, Domingo, López Climent, M. F., Gómez Cadenas, Aurelio, and Talón Cubillo, Manuel

Abstract

Salinity tolerance in Citrus is strongly related to leaf chloride accumulation. Both chloride homeostasis and specific genetic responses to Cl- toxicity are issues scarcely investigated in plants. To discriminate the transcriptomic network related to Cl- toxicity and salinity tolerance, we have used two Cl- salt treatments (NaCl and KCl) to perform a comparative microarray approach on two Citrus genotypes, the salt-sensitive Carrizo citrange, a poor Cl- excluder, and the tolerant Cleopatra mandarin, an efficient Cl- excluder. The data indicated that Cl- toxicity, rather than Na+ toxicity and/or the concomitant osmotic perturbation, is the primary factor involved in the molecular responses of citrus plant leaves to salinity. A number of uncharacterized membrane transporter genes, like NRT1-2, were differentially regulated in the tolerant and the sensitive genotypes, suggesting its potential implication in Cl- homeostasis. Analyses of enriched functional categories showed that the tolerant rootstock induced wider stress responses in gene expression while repressing central metabolic processes such as photosynthesis and carbon utilization. These features were in agreement with phenotypic changes in the patterns of photosynthesis, transpiration, and stomatal conductance and support the concept that regulation of transpiration and its associated metabolic adjustments configure an adaptive response to salinity that reduces Cl- accumulation in the tolerant genotype.

Published

2009

7. Effect of cadmium and calcium treatments on phytochelatin and glutathione levels in citrus plants

Author

López‐Climent, M. F., primary, Arbona, V., additional, Pérez‐Clemente, R. M., additional, Zandalinas, S. I., additional, and Gómez‐Cadenas, A., additional

Published

2013

8. Effect of cadmium and calcium treatments on phytochelatin and glutathione levels in citrus plants.

Author

López‐Climent, M. F., Arbona, V., Pérez‐Clemente, R. M., Zandalinas, S. I., Gómez‐Cadenas, A., and Elzenga, T.

Subjects

*EFFECT of cadmium on plants, *PHYTOCHELATINS, *GLUTATHIONE, *CITRUS, *PHOSPHATE fertilizers, *SEWAGE irrigation, *HEAVY metal content of plants, *PHOTOSYNTHESIS

Abstract

Industry residues, phosphate fertilisers and wastewater as a source of irrigation have considerably increased levels of heavy metals in the soil, mainly cadmium (Cd2+). To test the effects of a calcium (Ca2+) treatment on Cd2+ accumulation and plant tolerance to this heavy metal, plants of two citrus genotypes, Cleopatra mandarin ( CM) and Carrizo citrange ( CC), were watered with increasing concentrations of Cd2+, and phytochelatin ( PC) and glutathione ( GSH) content were measured. Both genotypes were able to synthesise PCs in response to heavy metal intoxication, although CM seems to be a better Cd2+ excluder than CC. However, data indicate that CC plants had a higher capacity for regenerating GSH than CM plants. In this context, the effects of Ca2+ treatment on Cd2+ accumulation, plant survival and PC, GSH and oxidised glutathione ( GSSG) content were assessed. Data indicate that treatment with Ca2+ had two positive effects on citrus physiology: it reduced Cd+2 uptake into roots and also increased GSH content (even in the absence of Cd2+). Overall, the data indicate that although Cd2+ exclusion is a powerful mechanism to avoid heavy metal build-up into photosynthetic organs, the capacity to maintain optimum GSH levels to feed PC biosynthesis could also be an important factor in stress tolerance. [ABSTRACT FROM AUTHOR]

Published

2014

9. Salicylic acid is required for Mi-1-mediated resistance of tomato to whitefly Bemisia tabaci, but not for basal defense to this insect pest.

Author

Rodríguez-Álvarez CI, López-Climent MF, Gómez-Cadenas A, Kaloshian I, and Nombela G

Subjects

Animals, Female, Plant Proteins genetics, Gene Expression Regulation, Plant immunology, Hemiptera physiology, Solanum lycopersicum metabolism, Plant Proteins metabolism, Salicylic Acid metabolism

Abstract

Plant defense to pests or pathogens involves global changes in gene expression mediated by multiple signaling pathways. A role for the salicylic acid (SA) signaling pathway in Mi-1-mediated resistance of tomato (Solanum lycopersicum) to aphids was previously identified and its implication in the resistance to root-knot nematodes is controversial, but the importance of SA in basal and Mi-1-mediated resistance of tomato to whitefly Bemisia tabaci had not been determined. SA levels were measured before and after B. tabaci infestation in susceptible and resistant Mi-1-containing tomatoes, and in plants with the NahG bacterial transgene. Tomato plants of the same genotypes were also screened with B. tabaci (MEAM1 and MED species, before known as B and Q biotypes, respectively). The SA content in all tomato genotypes transiently increased after infestation with B. tabaci albeit at variable levels. Whitefly fecundity or infestation rates on susceptible Moneymaker were not significantly affected by the expression of NahG gene, but the Mi-1-mediated resistance to B. tabaci was lost in VFN NahG plants. Results indicated that whiteflies induce both SA and jasmonic acid accumulation in tomato. However, SA has no role in basal defense of tomato against B. tabaci. In contrast, SA is an important component of the Mi-1-mediated resistance to B. tabaci in tomato.

Published

2015

10. Engineered drought-induced biosynthesis of α-tocopherol alleviates stress-induced leaf damage in tobacco.

Author

Espinoza A, San Martín A, López-Climent M, Ruiz-Lara S, Gómez-Cadenas A, and Casaretto JA

Subjects

Aging, Alkyl and Aryl Transferases metabolism, Desiccation, Lipid Peroxidation, Plant Leaves, Plant Proteins metabolism, Plants, Genetically Modified genetics, Plants, Genetically Modified physiology, Promoter Regions, Genetic, Solanum metabolism, Nicotiana genetics, Alkyl and Aryl Transferases genetics, Droughts, Gene Expression Regulation, Plant, Plant Proteins genetics, Solanum genetics, Nicotiana physiology, alpha-Tocopherol metabolism

Abstract

Tocopherols are members of the vitamin E complex and essential antioxidant compounds synthesized in chloroplasts that protect photosynthetic membranes against oxidative damage triggered by most environmental stresses. Tocopherol deficiency has been shown to affect germination, retard growth and change responses to abiotic stress, suggesting that tocopherols may be involved in a number of diverse physiological processes in plants. Instead of seeking constitutive synthesis of tocopherols to improve stress tolerance, we followed an inducible approach of enhancing α-tocopherol accumulation under dehydration conditions in tobacco. Two uncharacterized stress inducible promoters isolated from Arabidopsis and the VTE2.1 gene from Solanum chilense were used in this work. VTE2.1 encodes the enzyme homogentisate phytyltransferase (HPT), which catalyzes the prenylation step in tocopherol biosynthesis. Transgenic tobacco plants expressing ScVTE2.1 under the control of stress-inducible promoters showed increased levels of α-tocopherol when exposed to drought conditions. The accumulation of α-tocopherol correlated with higher water content and increased photosynthetic performance and less oxidative stress damage as evidenced by reduced lipid peroxidation and delayed leaf senescence. Our results indicate that stress-induced expression of VTE2.1 can be used to increase the vitamin E content and to diminish detrimental effects of environmental stress in plants. The stress-inducible promoters introduced in this work may prove valuable to future biotechnological approaches in improving abiotic stress resistance in plants., (Copyright © 2013 Elsevier GmbH. All rights reserved.)

Published

2013

11. Modulation of organic acids and sugar content in tomato fruits by an abscisic acid-regulated transcription factor.

Author

Bastías A, López-Climent M, Valcárcel M, Rosello S, Gómez-Cadenas A, and Casaretto JA

Subjects

Acids analysis, Ethylenes analysis, Fruit growth & development, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Germination, Solanum lycopersicum physiology, Plant Growth Regulators metabolism, Plant Proteins physiology, Plants, Genetically Modified genetics, Plants, Genetically Modified physiology, Seeds chemistry, Seeds growth & development, Abscisic Acid metabolism, Fruit chemistry, Hexoses analysis, Solanum lycopersicum genetics, Transcription Factors physiology

Abstract

Growing evidence suggests that the phytohormone abscisic acid (ABA) plays a role in fruit development. ABA signaling components of developmental programs and responses to stress conditions include the group of basic leucine zipper transcriptional activators known as ABA-response element binding factors (AREBs/ABFs). AREB transcription factors mediate ABA-regulated gene expression involved in desiccation tolerance and are expressed mainly in seeds and in vegetative tissues under stress; however, they are also expressed in some fruits such as tomato. In order to get an insight into the role of ABA signaling in fruit development, the expression of two AREB-like factors were investigated during different developmental stages. In addition, tomato transgenic lines that overexpress and downregulate one AREB-like transcription factor, SlAREB1, were used to determine its effect on the levels of some metabolites determining fruit quality. Higher levels of citric acid, malic acid, glutamic acid, glucose and fructose were observed in SlAREB1-overexpressing lines compared with those in antisense suppression lines in red mature fruit pericarp. The higher hexose concentration correlated with increased expression of genes encoding a vacuolar invertase (EC 3.2.1.26) and a sucrose synthase (EC 2.4.1.13). No significant changes were found in ethylene content which agrees with the normal ripening phenotype observed in transgenic fruits. These results suggest that an AREB-mediated ABA signal affects the metabolism of these compounds during the fruit developmental program., (Copyright © Physiologia Plantarum 2010.)

Published

2011

12. Cross-talk between gibberellins and salicylic acid in early stress responses in Arabidopsis thaliana seeds.

Author

Alonso-Ramírez A, Rodríguez D, Reyes D, Jiménez JA, Nicolás G, López-Climent M, Gómez-Cadenas A, and Nicolás C

Abstract

Salicylic acid (SA) is a plant hormone mainly associated with the induction of defense mechanism in plants, although in the last years there is increasing evidence on the role of SA in plant responses to abiotic stress. We recently reported that an increase in endogenous SA levels are able to counteract the inhibitory effects of several abiotic stress conditions during germination and seedling establishment of Arabidopsis thaliana and that this effect is modulated by gibberellins (GAs) probably through a member of the GASA (Giberellic Acid Stimulated in Arabidopsis) gene family, clearly showing the existence of a cross talk between these two plant hormones in Arabidopsis.

Published

2009

13. Evidence for a role of gibberellins in salicylic acid-modulated early plant responses to abiotic stress in Arabidopsis seeds.

Author

Alonso-Ramírez A, Rodríguez D, Reyes D, Jiménez JA, Nicolás G, López-Climent M, Gómez-Cadenas A, and Nicolás C

Subjects

Abscisic Acid metabolism, Arabidopsis metabolism, Arabidopsis physiology, Cyclopentanes metabolism, Fagus genetics, Gibberellins biosynthesis, Heat-Shock Response drug effects, Malondialdehyde metabolism, Molecular Sequence Data, Oxidative Stress drug effects, Oxylipins metabolism, Plant Proteins genetics, Plant Proteins physiology, Plants, Genetically Modified drug effects, Plants, Genetically Modified metabolism, Salicylic Acid metabolism, Seeds metabolism, Seeds physiology, Sodium Chloride pharmacology, Triazoles pharmacology, Arabidopsis drug effects, Gibberellins pharmacology, Plant Growth Regulators pharmacology, Salicylic Acid pharmacology, Seeds drug effects, Stress, Physiological drug effects

Abstract

Exogenous application of gibberellic acid (GA(3)) was able to reverse the inhibitory effect of salt, oxidative, and heat stresses in the germination and seedling establishment of Arabidopsis (Arabidopsis thaliana), this effect being accompanied by an increase in salicylic acid (SA) levels, a hormone that in recent years has been implicated in plant responses to abiotic stress. Furthermore, this treatment induced an increase in the expression levels of the isochorismate synthase1 and nonexpressor of PR1 genes, involved in SA biosynthesis and action, respectively. In addition, we proved that transgenic plants overexpressing a gibberellin (GA)-responsive gene from beechnut (Fagus sylvatica), coding for a member of the GA(3) stimulated in Arabidopsis (GASA) family (FsGASA4), showed a reduced GA dependence for growth and improved responses to salt, oxidative, and heat stress at the level of seed germination and seedling establishment. In 35S:FsGASA4 seeds, the improved behavior under abiotic stress was accompanied by an increase in SA endogenous levels. All these data taken together suggest that this GA-responsive gene and exogenous addition of GAs are able to counteract the inhibitory effects of these adverse environmental conditions in seed germination and seedling growth through modulation of SA biosynthesis. Furthermore, this hypothesis is supported by the fact that sid2 mutants, impaired in SA biosynthesis, are more sensitive to salt stress than wild type and are not affected by exogenous application of GA(3).

Published

2009