Proyectos en curso
Sobre los mecanismos de susceptibilidad a patógenos en Arabidopsis. Referencia: BFU2015-68199-R
Nuestra investigación orbita alrededor de dos temáticas fundamentales. Una de ellas hace referencia al entendimiento de los mecanismos moleculares y la identificación de genes que median en el establecimiento de respuestas adaptativas de las plantas a los cambios del entorno en el que crecen. Constituye un eje fundamental dentro de esta temática el entender los mecanismos de resistencia y susceptibilidad de las plantas a las agresiones patogénicas. Para tal fin utilizamos el sistema modelo de Arabidopsis como sistema experimental, con el consiguiente traslado y aplicación del conocimiento científico obtenido a otras especies vegetales de mayor relevancia agronómica y también industrial. Para apoyar estos estudios hemos creado una plataforma de genética química que pretendemos instrumentalizar para identificar moléculas agonistas y antagonistas de procesos relacionados con la respuestas adaptativas de las plantas.
La otra temática a la que también estamos dirigiendo recursos y esfuerzos de investigación está relacionada con la realización de aproximaciones genómicas y genéticas de alto calado en cultivos energéticos de referencia. Con ello pretendemos maximizar la producción de moléculas de alto valor añadido para el sector de las energías renovables, en particular en el de la Bioenergía, con el fin de contribuir a la producción de biocombustibles de segunda y tercera generación a partir de materia prima vegetal. En particular estamos desarrollando una aproximación de mejora genética acelerada del cultivo de Euphrobia lathyris L. así como una aproximación genético molecular para el mejor entendiendo las bases moleculares y celulares de la diferenciación de células laticíferas que actúan como despensa energética de esta especie y son las portadora de los “energy carriers” de esta especie.
LÍNEAS DE INVESTIGACIÓN
Linking plant metabolism and immunity through methionine biosyntehesis
Molecular Plant 15 (1): 6-8
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Opposing Roles of Plant Laticifer Cells in the Resistance to Insect Herbivores and Fungal Pathogens
Plant Comm. 2 (3), 100112
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The Role of ABA in Plant Immunity is Mediated through the PYR1 Receptor.
Int. J. Mol. Sci. https://doi.org/10.3390/ijms21165852
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Folate Metabolism Interferes Plant Immunity through 1C Methionine Synthase-directed Genome-wide DNA Methylation Enhancement
Mol. Plant. doi.org/10.1016/j.molp.2019.04.013
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A 2´-O-methyltransferase responsible for tRNA Anticodon Modification is Pivotal for Resistance to Pseudomonas syringae DC3000 in Arabidopsis
Mol. Plant Microb. Interact. 10.1094/MPMI-06-18-0148-R
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LOL2 and LOL5 loci control latex production by laticifer cells in Euphorbia lathyris
New Phytologist. 10.1111/nph.15253
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From structure to function – a family portrait of plant subtilases
New Phytologist 218: 879–881
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Multiple facets of laticifer cells.
Plant Signalling & Behavior. 12(7): e1300743
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Novel Insights into the Organization of Laticifer Cells: A Cell Comprising a Unified Whole System
Plant Physiology 172: 1032-1044
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Novel Disease Susceptibility Factors for Fungal Necrotrophic Pathogens in Arabidopsis
PLoS Pathogens 11: e1004800
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Arabidopsis Protein Phosphatase DBP1 Nucleates a Protein Network with a Role in Regulating Plant Defense
PLoS ONE 9: e90734
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DNA-binding specificities of plant transcription factors and their potential to define target genes
Proceedings of the National Academy of Sciences of the United States of America 111: 2367-2372
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An Extracellular Subtilase Switch for Immune Priming in Arabidopsis
PLoS Pathogens 9: e1003445
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Mediated Plastid RNA Editing in Plant Immunity
PLoS Pathogens 9: e1003713
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A plant small polypeptide is a novel component of DNA-binding protein phosphatase 1 (DBP1)-mediated resistance to Plum pox virus in Arabidopsis
Plant Physiology 157: 2206-2215
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Arabidopsis ocp3 mutant reveals a potentiation mechanism linking ABA and JA for pathogen-induced callose deposition
Plant Journal 67: 783-794
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Enhanced disease resistance to Botrytis cinerea in myb46 Arabidopsis plants is associated to an early downregulation of CesA genes
Plant Signaling & Behavior 66: 1-3
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MYB46 Modulates Disease Susceptibility to Botrytis cinerea in Arabidopsis
Plant Physiology 115: 1920-1935
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The RNA Polymerase V Is Required for Plant Immunity
PLoS Genetics 7: e1002434
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DNA-binding protein phosphatase AtDBP1 mediates susceptibility to two potyviruses in Arabidopsis
Plant Physiology 153: 1521-1525
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OCP3 is an important modulator of NPR1-mediated jasmonic acid-dependent induced defenses in Arabidopsis
BMC Plant Biology 10: 199
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A disease resistance regulator determines drought tolerance in Arabidopsis
Plant Journal 58: 578-591
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Contribution of hydroxymethylbutenyl diphosphate synthase to carotenoid buisynthesis in bacteria and plants
Biochemical and Biophysical Research Communications 371: 510-514
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SodERF3, a novel sugarcane Ethylene Responsive Factor (ERF) enhances salt and drought tolerance when over-expressed in tobacco plants
Plant Cell Physiology 2008: 512-525
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ARGONAUTE 4 is required for resistance to Pseudomonas syringae in Arabidopsis
Plant Cell 19: 3778-3790
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14-3-3 mediates transcriptional regulation by modulating nucleo-cytoplasmic shuttling of tobacco DNA-binding protein phosphatase-1
Journal of Biological Chemistry 281: 22875-22881
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A homeodomain leucine zipper gene from Craterostigma plantagineum regulates abscisic acid responsive gene expression and physiological responses
Plant Molecular Biology 61: 469-489
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In vitro characterization of the cysteine-rich capping domains in a plant leucine rich repeat protein
Biochimica et Biophysica Acta 1764: 1043-1053
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A novel DNA-binding motif hallmark of a new family of plant transcription factors
Plant Physiology 137: 602-606
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An Arabidopsis homeodomain transcription factor OCP3 mediates resistance to infection by necrotrophic pathogens
Plant Cell 17: 2123-2137
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The Arabidopsis csb3 Mutant Reveals a Regulatory Link Between Salicylic Acid-mediated Disease Resistance and the Methyl-Erythritol 4-Phosphate Pathway
Plant Journal 44: 155-166
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The H2O2-regulated Ep5C Gene Encodes a Peroxidase Required for Bacterial Speck Susceptibility in Tomato
Plant Journal 42: 283-293
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Transcriptional regulation of gene expression in plants: a box full of surprises
Recent Research Developments in Plant Molecular Biology 2: 63-82
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A novel transcription factor involved in plant defense endowed with protein phosphatase activity
EMBO Journal 22: 1-9
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Expression of subtilisin-like serine proteases in Arabidopsis thaliana is cell-specific and responds to jasmonic acid and heavy metals with developmental differences
Physiol Plantarum 118: 64-73
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The Arabidopsis dth9 mutant is compromised in systemic acquired resistance without affecting SA-dependent responses
Plant Cell 12: 2119-2128
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Sobre los mecanismos de susceptibilidad a patógenos en Arabidopsis. Referencia: BFU2015-68199-R
Potencial Botecnológico de las aproximaciones de genética química en plantas y su impacto en la activación de los mecanismos de resistencia a patógenos. Referencia: PROMETEOII/2014/024
Entidad financiadora: Generalitat Valenciana
IP: Pablo Vera Vera
Sobre los mecanismos de susceptibilidad a patógenos en Arabidopsis. Referencia: BFU2015-68199-R
Potencial Botecnológico de las aproximaciones de genética química en plantas y su impacto en la activación de los mecanismos de resistencia a patógenos. Referencia: PROMETEOII/2014/024
Entidad financiadora: Generalitat Valenciana
IP: Pablo Vera Vera