联合作者(
Gemma Camañes Grupo de Bioquímica y Biotecnología, Área de Fisiología Vegetal, Departamento de Ciencias Agrarias y del Medio Natural, ESTCE. Universitat Jaume I, Spain
2 protocols

Pilar García-Agustín Grupo de Bioquímica y Biotecnología, Área de Fisiología Vegetal, Departamento de Ciencias Agrarias y del Medio Natural, ESTCE. Universitat Jaume I, Spain
2 protocols

Eugenio Llorens Universitat Jaume I
2 protocols

Ana Isabel González-Hernández Grupo de Bioquímica y Biotecnología, Área de Fisiología Vegetal, Departamento de Ciencias Agrarias y del Medio Natural, ESTCE. Universitat Jaume I, Spain
1 protocol

评审
Loredana Scalschi
  • Universitat Jaume I
研究方向
  • 植物科学
  • 已发表 protocol 2

Education

Ph.D. in Biochemistry and Biotechnology, Department of Ciencias Agrarias y Medio Natural, University Jaume I, Castellon, Spain, 2013

Current position

Postdoctoral researcher, Department of Molecular Biology and Ecology of Plants, Tel Aviv University, Tel Aviv, Israel

Publications

  1. Scalschi, L., Sanmartin, M., Camañes, G., Troncho, P., Sanchez-Serrano, J. J., García-Agustín, P. and Vicedo, B. (2015). Silencing of OPR3 in tomato reveals the role of OPDA in callose deposition during the activation of defense responses against Botrytis cinerea. Plant J 81(2): 304-315.
  2. Camañes, G., Scalschi, L., Vicedo, B., Gonzñlez-Bosch, C. and García-Agustín, P. (2015). An untargeted global metabolomic analysis reveals the biochemical changes underlying basal resistance and priming in Solanum lycopersicum, and identifies 1-methyltryptophan as a metabolite involved in plant responses to Botrytis cinerea and Pseudomonas syringae. Plant J 84(1): 125-139.
  3. Llorens, E., Scalschi, L., Fernandez-Crespo, E., Lapeña, L. and García-Agustín, P. (2015). Hexanoic acid provides long- lasting protection in 'Fortune' mandarin against Alternaria alternate. Physiol Mol Plant P 91:38-45.
  4. Fernández-Crespo, E., Scalschi, L., Llorens, E., García-Agustín, P. and Camañes, G. (2015). NH4 + induces resistance against Pseudomonas syringae in tomato plants. J Exp Bot.
  5. Scalschi, L., Camañes, G., Llorens, E., Fernandez-Crespo, E., Lopez, M. M., García-Agustín, P. and Vicedo, B. (2014). Resistance inducers modulate Pseudomonas syringae pv. tomato strain DC3000 response in tomato plants. PLoS One 9(9): e106429.
  6. Fernandez-Crespo, E., Pastor-Gómez, R., Matallana, E., Scalschi, L., Llorens, E., Camañes, G. and García-Agustín, P. (2014). NH4+ induces antioxidant cellular machinery and provides resistance to salt stress in citrus plants. Tree Struct Funct 28(6):1693-1704.
  7. Scalschi, L., Vicedo, B.,Camañes, G., Fernandez-Crespo, E., Lapeña, L., González-Bosch, C. and García-Agustín, P. (2013). The resistance inducer hexanoic acid protects tomato plants against Pseudomonas syringae by priming both JA- and SA pathway. Mol Plant Pathol 14(4):342-355.
已发表 protocol 2篇
Putrescine Biosynthesis Inhibition in Tomato by DFMA and DFMO Treatment
通过DFMA 和 DFMO 抑制番茄中腐胺的生物合成

This protocol can be used to inhibit the biosynthesis of polyamines, specifically putrescine, in tomato plants grown with NH4+ as a solely N source. In general, polyamines are positively charged small metabolites implicated in ...
Quantification of Callose Deposition in Plant Leaves
植物叶中胼胝质沉积的定量测定

Callose is an amorphous homopolymer, composed of β-1, 3-glucan, which is widespread in higher plants. Callose is involved in multiple aspects of plant growth and development. It is synthetized in plants at the cell plate during cytokinesis, in ...