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Dr. Pedro Luis Rodriguez Egea | Biological Sciences | Research Citation Excellence Award

 

Research Professor at CSIC, Spain

Dr. Pedro Luis Rodriguez Egea is a distinguished Research Professor affiliated with the Institute of Plant Molecular and Cellular Biology (IBMCP) at the Spanish National Research Council (CSIC). His research primarily focuses on elucidating the molecular mechanisms underlying the actions of plant hormones. With expertise in Molecular Biology (UNESCO code: 241502) and Genetics (UNESCO code: 240992), Dr. Rodriguez Egea’s work contributes significantly to understanding plant growth, stress responses, and biochemical pathways related to coenzyme biosynthesis.

Professional Profiles:

📚 Education:

He obtained his Bachelor’s degree in Pharmacy from the University of Valencia in June 1989. Subsequently, he pursued his doctoral studies in Biological Sciences at the Severo Ochoa Center for Molecular Biology, affiliated with the Autonomous University of Madrid and the Spanish National Research Council (CSIC), completing his doctoral degree in 1994. This academic path reflects his comprehensive training in pharmaceutical sciences and his specialized research in biological sciences at prestigious institutions in Spain.

Professional Experience:

Dr. Pedro Luis Rodriguez Egea currently holds a position as a Research Professor at the Institute of Plant Molecular and Cellular Biology (IBMCP), part of the Spanish National Research Council (CSIC). His research is focused on molecular mechanisms of action of plant hormones.

Patents:

Dr. Pedro Luis Rodríguez Egea has contributed significantly to the field of agricultural biotechnology through his patents and utility models. One notable patent, WO2007088234, focuses on developing plants resistant to saline and water stress conditions. This innovation addresses critical agricultural challenges by enhancing the ability of plants to thrive in adverse environmental conditions, thereby potentially increasing crop yields and ensuring food security.Another patent, WO2009138535-A1 and its corresponding Spanish versions ES2334539-A1 and ES2334539-B1, involves the utilization of the enzyme phosphopantetheine-adenylyl transferase. This enzyme plays a crucial role in the biosynthesis of coenzyme A, contributing to improved plant growth, resistance to salt and osmotic stress, increased lipid reserves, and modification of amino acid content. These innovations not only advance agricultural productivity but also offer sustainable solutions for enhancing plant resilience and nutritional value. Dr. Pedro Luis Rodríguez Egea’s work underscores a commitment to pioneering research aimed at addressing global agricultural challenges and promoting sustainable farming practices. His patents highlight novel approaches to enhancing crop performance and resilience in the face of environmental stressors, thereby contributing significantly to the field of agricultural biotechnology and plant sciences.

 

📚Publications :

PlantACT! – how to tackle the climate crisis

Authors: Hirt, H., Al-Babili, S., Almeida-Trapp, M., Wulff, B.B.H., Young, I.M.

Journal: Trends in Plant Science

Year: 2023

Citations: 9

ABA inhibits myristoylation and induces shuttling of the RGLG1 E3 ligase to promote nuclear degradation of PP2CA

Authors: Belda-Palazon, B., Julian, J., Coego, A., An, C., Rodriguez, P.L.

Journal: Plant Journal

Year: 2019

Citations: 56

The plant ESCRT component FREE1 shuttles to the nucleus to attenuate abscisic acid signalling

Authors: Li, H., Li, Y., Zhao, Q., Wang, X., Gao, C.

Journal: Nature Plants

Year: 2019

Citations: 64

Wounding-Induced Stomatal Closure Requires Jasmonate-Mediated Activation of GORK K + Channels by a Ca 2+ Sensor-Kinase CBL1-CIPK5 Complex

Authors: Förster, S., Schmidt, L.K., Kopic, E., Kudla, J., Becker, D.

Journal: Developmental Cell

Year: 2019

Citations: 77

PYL8 mediates ABA perception in the root through non-cell-autonomous and ligand-stabilization–based mechanisms

Authors: Belda-Palazon, B., Gonzalez-Garcia, M.-P., Lozano-Juste, J., Bennett, M.J., Rodriguez, P.L.

Journal: Proceedings of the National Academy of Sciences of the United States of America

Year: 2018

Citations: 45

The Xerobranching Response Represses Lateral Root Formation When Roots Are Not in Contact with Water

Authors: Orman-Ligeza, B., Morris, E.C., Parizot, B., Beeckman, T., Draye, X.

Journal: Current Biology

Year: 2018

Citations: 84

The Cys-Arg/N-End Rule Pathway Is a General Sensor of Abiotic Stress in Flowering Plants

Authors: Vicente, J., Mendiondo, G.M., Movahedi, M., Gray, J.E., Holdsworth, M.J.

Journal: Current Biology

Year: 2017

Citations: 88

Structure of Ligand-Bound Intermediates of Crop ABA Receptors Highlights PP2C as Necessary ABA Co-receptor

Authors: Moreno-Alvero, M., Yunta, C., Gonzalez-Guzman, M., Rodriguez, P.L., Albert, A.

Journal: Molecular Plant

Year: 2017

Citations: 44

Root hydrotropism is controlled via a cortex-specific growth mechanism

Authors: Dietrich, D., Pang, L., Kobayashi, A., Takahashi, H., Bennett, M.J.

Journal: Nature Plants

Year: 2017

Citations: 169

Depletion of abscisic acid levels in roots of flooded Carrizo citrange (Poncirus trifoliata L. Raf. × Citrus sinensis L. Osb.) plants is a stress-specific response associated to the differential expression of PYR/PYL/RCAR receptors

Authors: Arbona, V., Zandalinas, S.I., Manzi, M., Rodriguez, P.L., Gómez-Cadenas, A.

Journal: Plant Molecular Biology

Year: 2017

Citations: 37

 

Pedro Luis Rodriguez Egea | Biological Sciences | Research Citation Excellence Award

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