DM
Daniel Marino
  • Department of Plant Biology and Ecology, University of the Basque Country (UPV/EHU), Spain
研究方向
  • Plant science
个人信息

Education

Ph.D. in Biological Sciences, Department of Environmental Sciences, Public University of Navarre, Pamplona, Spain, 2006

Current position

Researcher (Ikerbasque Research Fellow) in the University of the Basque Country UPV/EHU, Bilbao, Spain
Links to my publications and complete CV
http://www.researcherid.com/rid/K-1109-2014
http://www.ikerbasque.net/daniel.marino
https://www.researchgate.net/profile/Daniel_Marino

Publications (selected)

  1. Gomez-Sagasti, M. T. and Marino, D. (2015). PGPRs and nitrogen-fixing legumes: a perfect team for efficient Cd phytoremediation? Front Plant Sci 6: 81.
  2. Sanchez-Zabala, J., Gonzalez-Murua, C. and Marino, D. (2015). Mild ammonium stress increases chlorophyll content in Arabidopsis thaliana. Plant Signal Behav 10(3): e991596.
  3. Irar, S., Gonzalez, E. M., Arrese-Igor, C. and Marino, D. (2014). A proteomic approach reveals new actors of nodule response to drought in split-root grown pea plants. Physiol Plant 152(4): 634-645.
  4. Sarasketa, A., Gonzalez-Moro, M. B., Gonzalez-Murua, C. and Marino, D. (2014). Exploring ammonium tolerance in a large panel of Arabidopsis thaliana natural accessions. J Exp Bot 65(20): 6023-6033.
  5. Larrainzar, E., Gil-Quintana, E., Arrese-Igor, C., Gonzalez, E. M. and Marino, D. (2014). Split-root systems applied to the study of the legume-rhizobial symbiosis: what have we learned? J Integr Plant Biol 56(12): 1118-1124.
  6. Marino, D., Froidure, S., Canonne, J., Ben Khaled, S., Khafif, M., Pouzet, C., Jauneau, A., Roby, D. and Rivas, S. (2013). Arabidopsis ubiquitin ligase MIEL1 mediates degradation of the transcription factor MYB30 weakening plant defence. Nat Commun 4: 1476.
  7. Andrio, E., Marino, D., Marmeys, A., de Segonzac, M. D., Damiani, I., Genre, A., Huguet, S., Frendo, P., Puppo, A. and Pauly, N. (2013). Hydrogen peroxide-regulated genes in the Medicago truncatula-Sinorhizobium meliloti symbiosis. New Phytol 198(1): 179-189.
  8. Marino, D., Damiani, I., Gucciardo, S., Mijangos, I., Pauly, N. and Puppo, A. (2013). Inhibition of nitrogen fixation in symbiotic Medicago truncatula upon Cd exposure is a local process involving leghaemoglobin. J Exp Bot 64(18): 5651-5660.
  9. Marino, D., Dunand, C., Puppo, A. and Pauly, N. (2012). A burst of plant NADPH oxidases. Trends Plant Sci 17(1): 9-15.
  10. Canonne, J., Pichereaux, C., Marino, D., Roby, D., Rossignol, M. and Rivas, S. (2012). Identification of the protein sequence of the type III effector XopD from the B100 strain of Xanthomonas campestris pv campestris. Plant Signal Behav 7(2): 184-187.
  11. Oger, E., Marino, D., Guigonis, J. M., Pauly, N. and Puppo, A. (2012). Sulfenylated proteins in the Medicago truncatula-Sinorhizobium meliloti symbiosis. J Proteomics 75(13): 4102-4113.
  12. Marino, D., Peeters, N. and Rivas, S. (2012). Ubiquitination during plant immune signaling. Plant Physiol 160(1): 15-27.
  13. Marino, D., Andrio, E., Danchin, E. G., Oger, E., Gucciardo, S., Lambert, A., Puppo, A. and Pauly, N. (2011). A Medicago truncatula NADPH oxidase is involved in symbiotic nodule functioning. New Phytol 189(2): 580-592.
  14. Asensio, A. C., Marino, D., James, E. K., Ariz, I., Arrese-Igor, C., Aparicio-Tejo, P. M., Arredondo-Peter, R. and Moran, J. F. (2011). Expression and localization of a Rhizobium-derived cambialistic superoxide dismutase in pea (Pisum sativum) nodules subjected to oxidative stress. Mol Plant Microbe Interact 24(10): 1247-1257.
  15. Pauly, N., Ferrari, C., Andrio, E., Marino, D., Piardi, S., Brouquisse, R., Baudouin, E. and Puppo, A. (2011). MtNOA1/RIF1 modulates Medicago truncatula-Sinorhizobium meliloti nodule development without affecting its nitric oxide content. J Exp Bot 62(3): 939-948.
  16. Canonne, J., Marino, D., Jauneau, A., Pouzet, C., Briere, C., Roby, D. and Rivas, S. (2011). The Xanthomonas type III effector XopD targets the Arabidopsis transcription factor MYB30 to suppress plant defense. Plant Cell 23(9): 3498-3511.
  17. Canonne, J., Marino, D., Noel, L. D., Arechaga, I., Pichereaux, C., Rossignol, M., Roby, D. and Rivas, S. (2010). Detection and functional characterization of a 215 amino acid N-terminal extension in the Xanthomonas type III effector XopD. PLoS One 5(12): e15773.
  18. Nanda, A. K., Andrio, E., Marino, D., Pauly, N. and Dunand, C. (2010). Reactive oxygen species during plant-microorganism early interactions. J Integr Plant Biol 52(2): 195-204.
  19. Orcaray, L., Igal, M., Marino, D., Zabalza, A. and Royuela, M. (2010). The possible role of quinate in the mode of action of glyphosate and acetolactate synthase inhibitors. Pest Manag Sci 66(3): 262-269.
  20. Marino, D., Pucciariello, C., Puppo, A. and Frendo, P. (2009). The redox state, a referee of the legume–rhizobia symbiotic game. Advances in Botanical research 52: 115-151.
  21. Marino, D., Hohnjec, N., Kuster, H., Moran, J. F., Gonzalez, E. M. and Arrese-Igor, C. (2008). Evidence for transcriptional and post-translational regulation of sucrose synthase in pea nodules by the cellular redox state. Mol Plant Microbe Interact 21(5): 622-630.
  22. Zabalza, A., Galvez, L., Marino, D., Royuela, M., Arrese-Igor, C. and Gonzalez, E. M. (2008). The application of ascorbate or its immediate precursor, galactono-1,4-lactone, does not affect the response of nitrogen-fixing pea nodules to water stress. J Plant Physiol 165(8): 805-812.
  23. Marino, D., Gonzalez, E. M., Frendo, P., Puppo, A. and Arrese-Igor, C. (2007). NADPH recycling systems in oxidative stressed pea nodules: a key role for the NADP+ -dependent isocitrate dehydrogenase. Planta 225(2): 413-421.
  24. Marino, D., Frendo, P., Ladrera, R., Zabalza, A., Puppo, A., Arrese-Igor, C. and Gonzalez, E. M. (2007). Nitrogen fixation control under drought stress. Localized or systemic? Plant Physiol 143(4): 1968-1974.
  25. Ladrera, R., Marino, D., Larrainzar, E., Gonzalez, E. M. and Arrese-Igor, C. (2007). Reduced carbon availability to bacteroids and elevated ureides in nodules, but not in shoots, are involved in the nitrogen fixation response to early drought in soybean. Plant Physiol 145(2): 539-546.
  26. Marino, D., Gonzalez, E. M. and Arrese-Igor, C. (2006). Drought effects on carbon and nitrogen metabolism of pea nodules can be mimicked by paraquat: evidence for the occurrence of two regulation pathways under oxidative stresses. J Exp Bot 57(3): 665-673.