{"id":2638,"date":"2025-12-09T13:05:12","date_gmt":"2025-12-09T12:05:12","guid":{"rendered":"https:\/\/grupos.eez.csic.es\/mycostress\/?page_id=2638"},"modified":"2025-12-31T12:55:28","modified_gmt":"2025-12-31T11:55:28","slug":"publicaciones-historico","status":"publish","type":"page","link":"https:\/\/grupos.eez.csic.es\/mycostress\/publicaciones-historico\/","title":{"rendered":"Hist\u00f3rico de Publicaciones"},"content":{"rendered":"

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Previous Publications<\/h2>\n

Publications followed by [PDF] can be downloaded from this website. Please, consider that the author rights are property of the corresponding journals.<\/h4>\n

2014<\/a> \/ 2013<\/a> \/ 2012<\/a> \/ 2011<\/a> \/ 2010<\/a> \/ 2009<\/a> \/ 2008<\/a> \/ 2007<\/a> \/ 2006<\/a> \/ 2005<\/a> \/ 2004<\/a> \/ 2003<\/a> \/ 2002<\/a><\/p>\n

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2014<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_4,1_4,1_4,1_4″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Microbial priming of plant and animal immunity: symbionts as developmental signals. Trends in Microbiology 22(11): 607-613<\/h2>\n

Selosse MA, Bessis A, Pozo MJ (2014).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Microbial-priming-of-plant-and-animal-immunity-symbionts-as-developmental-signals-Selosse-et-al-2014.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb71px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Defense related phytohormones regulation in arbuscular mycorrhizal symbiosis depends on the partner genotypes (2014). Journal of Chemical Ecology 40 (7):791-803<\/h2>\n

Fern\u00e1ndez I., Merlos M., L\u00f3pez-R\u00e1ez J.A., Mart\u00ednez-Medina A., Ferrol N., Azc\u00f3n C., Bonfante P., Flors V., Pozo M.J.<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Defense-related-phytohormones-regulation-in-arbuscular-mycorrhizal-symbiosis-depends-on-the-partner-genotypes-Fernandez-et-al-2014.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Apical dominance in saffron and the involvement of the branching enzymes CCD7 and CCD8 in the control of bud sprouting . BMC Plant Biology 14: 171<\/h2>\n

Rubio-Moraga A., Ahrazem O, P\u00e9rez-Clemente R.M., G\u00f3mez-Cadenas A., Yoneyama K., L\u00f3pez-R\u00e1ez J.A., Molina R.V., G\u00f3mez-G\u00f3mez L. (2014)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Apical-dominance-in-saffron-and-the-involvement-of-the-branching-enzymes-CCD7-and-CCD8-in-the-control-of-bud-sprouting-Rubio-Moraga-et-al-2014.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Do strigolactones contribute to plant defence?. Molecular Plant Pathology 15 (2): 211-216<\/h2>\n

Torres-Vera R., Garc\u00eda J.M., Pozo M.J., L\u00f3pez-R\u00e1ez J.A. (2014)<\/p>\n

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2013<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_3,1_3,1_3″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Deciphering the hormonal signalling network behind the systemic resistance induced by Trichoderma harzianum in tomato. Frontiers in Plant Science 4: 206.<\/h2>\n

Martinez-Medina, A., I. Fernandez, S\u00e1nchez-Guzm\u00e1n, M.J, Jung, S., Pascual, J. A, Pozo, M. J. (2013).<\/p>\n

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Beneficial microbes in a changing environment: are they always helping plants to deal with insects? Functional Ecology 27(3): 574-586<\/h2>\n

Pineda, A., Dicke, M., Pieterse C.M.J., Pozo M.J. (2013)<\/p>\n

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Arbuscular mycorrhizal symbiosis influences strigolactone production under salinity and alleviates salt stress in lettuce plants. Journal of Plant Physiology. 170 (1): 47-55<\/h2>\n

Aroca R., Ruiz-Lozano J. M., Zamarre\u00f1o A.M., Paz J. A., Garc\u00eda-Mina J. M., Pozo M. J., L\u00f3pez-R\u00e1ez J. A. (2013)<\/p>\n

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Tomato strigolactones: a more detailed look. Plant Signaling & Behavior. 8 (1): e22785.\u00a0<\/h2>\n

Kohlen W., Charnikhova T., Bours R., L\u00f3pez-R\u00e1ez J. A., Bouwmeester H. J. (2013)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Tomato-strigolactones-a-more-detailed-look-Kohlen-et-al-2013.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Strigolactones: crucial cues in the rhizosphere. In: Molecular Microbial Ecology of the Rhizosphere (Ed: F.J. de Bruijn). Wiley-Blackwell. pp: 381-389.<\/h2>\n

L\u00f3pez-R\u00e1ez J. A. (2013)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Strigolactones-crucial-cues-in-the-rhizosphere-Lopez-Raez-2013.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Microbial Interactions in the Rhizosphere. In: Molecular Microbial Ecology of the Rhizosphere (de Bruijn, F. Ed.) Wiley-Blackwell. pp: 29-44.<\/h2>\n

Barea J. M., Pozo M. J., Azc\u00f3n R., Azc\u00f3n-Aguilar C. (2013).<\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_4,1_4,1_4,1_4″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Strigolactones: A cry for help results in fatal attraction. Is escape possible? Isoprenoid synthesis in plants and microorganisms: New concepts and experimental approaches (Ed: T. Bach; M. Rohmer). Springer. pp: 199-211.<\/h2>\n

Ruyter-Spira C, L\u00f3pez-R\u00e1ez J. A, Cardoso C, Charnikhova T, Matusova R, Kohlen W, Jamil M, Bours R, Verstappen F, Bouwmeester H. (2013)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Strigolactones-A-cry-for-help-results-in-fatal-attraction.-Is-escape-possible-Ruyter-Spira-et-al-2013.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Chemical signalling in the arbuscular mycorrhizal symbiosis. In: Progress in Symbiotic Endophytes (Ed: R. Aroca). Springer. pp: 215-232<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Pozo M. J. (2013)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Chemical-signalling-in-the-arbuscular-mycorrhizal-symbiosis-Lopez-Raez-and-Pozo-2013.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb126px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Root allies: Arbuscular mycorrhizal fungi help plants to cope with biotic stresses. Progress in Symbiotic Endophytes (Ed: R. Aroca). Springer. pp: 289-307<\/h2>\n

Pozo M. J., Jung, S. C., Mart\u00ednez-Medina, A., L\u00f3pez-R\u00e1ez, J. A., Azc\u00f3n-Aguilar C, l Barea J. M. (2013)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Root-allies-Arbuscular-mycorrhizal-fungi-help-plants-to-cope-with-biotic-stresses-Pozo-et-al-2013.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb73px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Arbuscular Mycorrhizas and their significance in promoting soil-plant systems sustainability against environmental stresses. In: Beneficial Plant-Microbial Interactions: Ecology and Applications (Rodelas, B. and Gonzalez-Lopez, J., Eds.)<\/h2>\n

Barea J. M., Pozo M. J., L\u00f3pez-R\u00e1ez J. A., Aroca R., Ru\u00edz-Lozano J. M., Ferrol N., Azc\u00f3n R., Azc\u00f3n-Aguilar C. (2013).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/ARBUSC3.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#FFFFFF\u00bb background_enable_image=\u00bboff\u00bb background_blend=\u00bbhard-light\u00bb custom_padding=\u00bb0px||||false|false\u00bb][et_pb_row module_id=\u00bb2012″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text module_id=\u00bb2020″ _builder_version=\u00bb4.9.4″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2012<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_3,1_3,1_3″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb11px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb12px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

The tomato CAROTENOID CLEAVAGE DIOXYGENASE8 (SlCCD8) regules rhizosphere signaling, plant architecture and affects reproductive development through strigolactone biosynthesis. New Phytologist. 196(2): 535-547<\/h2>\n

Kohlen W., Charnikhova T., Lammers M., Pollina T., Toth P., Haider I., Pozo M.J., de Maagd R., Ruyter-Spira C., Bouwmeester H.J., L\u00f3pez-R\u00e1ez J. A. (2012)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/THETOM1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Mycorrhiza-induced resistance and priming of plant defenses (2012). Journal of Chemical Ecology 38(6): 651-664<\/h2>\n

Jung S. C., Mart\u00ednez-Medina A., L\u00f3pez-R\u00e1ez J. A., Pozo M. J. (2012)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Mycorrhiza-induced-resistance-and-priming-of-plant-defenses-Jung-et-al-2012.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb57px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Communication in the rhizosphere, a target for pest management. Sustainable Agriculture Reviews: Agroecology and Strategies for Climate Change (Ed. Lichtfouse E). Springer. pp: 109-133.<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Bouwmeester H. J., Pozo M. J. (2012)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Communication-in-the-rhizosphere-a-target-for-pest-management-Lopez-Raez-et-al-2012.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb21px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#f7f7f7″ background_enable_image=\u00bboff\u00bb background_position=\u00bbtop_center\u00bb background_blend=\u00bbluminosity\u00bb][et_pb_row module_id=\u00bb2011″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text _builder_version=\u00bb4.9.3″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2011<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_4,1_4,1_4,1_4″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Strigolactones: a cry for help in the rhizosphere (2011). Botany \u00a089(8): 513-522<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Pozo M. J., Garc\u00eda-Garrido J. M. (2011)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Strigolactones-a-cry-for-help-in-the-rhizosphere-Lopez-Raez-et-al-2011.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb104px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Strigolactone production decreases upon arbuscular mycorrhizal symbiosis in tomato. Journal of Plant Physiology 168: 294-297<\/h2>\n

L\u00f3pez-R\u00e1ez \u00a0J. A., Charnikhova T., Fern\u00e1ndez I, Bouwmeester H., J. Pozo M. J. (2011)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Strigolactone-production-decreases-upon-arbuscular-mycorrhizal-symbiosis-in-tomato-Lopez-Raez-et-al-2011.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb50px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Elicitation of foliar resistance to pathogens transiently impairs root association with arbuscular mycorrhizal fungi. Journal of Ecology 99: 36-45<\/h2>\n

de Rom\u00e1n M., Fern\u00e1ndez I., Wyatt T., Sahrawy M., Heil M., Pozo M. J<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Elicitation-of-foliar-resistance-to-pathogens-transiently-impairs-root-association-with-arbuscular-mycorrhizal-fungi-de-Roman-et-al-2011.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb32px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb11px\u00bb text_line_height=\u00bb1.4em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb12px\u00bb header_2_line_height=\u00bb1.3em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Physiological effects of the synthetic strigolactone analog GR24 on root system architecture in Arabidopsis: Another below-ground role for strigolactones? (2011). Plant Physiology 155 (2): 721-734<\/h2>\n

Ruyter-Spira C., Kohlen W., Charnikhova T., van Zeij A, van Bezouwen L., de Ruijter N., Cardoso C., L\u00f3pez-R\u00e1ez J. A., Matusova R., Bours R., Verstappen F., Bouwmeester H. J. (2011)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/PHYSIO1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#FFFFFF\u00bb background_enable_image=\u00bboff\u00bb background_blend=\u00bbhard-light\u00bb custom_padding=\u00bb0px||||false|false\u00bb][et_pb_row module_id=\u00bb2010″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text module_id=\u00bb2020″ _builder_version=\u00bb4.9.4″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2010<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_5,1_5,1_5,1_5,1_5″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_5″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb11px\u00bb text_line_height=\u00bb1.4em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb12px\u00bb header_2_line_height=\u00bb1.3em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Hormonal and transcriptional profiles highlight common and differential host responses to arbuscular mycorrhizal fungi and the regulation of the oxylipin pathway. Journal of Experimental Botany, 61: 2589 – 2601<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Verhage A., Fern\u00e1ndez I., Garc\u00eda J. M., Azc\u00f3n-Aguilar C., Flors V., Pozo M. J. (2010).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/HORMON1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_5″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Does abscisic acid affect strigolactone biosynthesis? New Phytologist. 187 (2): 343-354<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Kohlen W., Charnikhova T., Mulder P., Undas K. A., Sergeant M., Verstappen F., Bugg T., Thompson A. J., Ruyter-Spira C., Bouwmeester H. J. (2010)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Does-abscisic-acid-affect-strigolactone-biosynthesis-Lopez-Raez-et-al-2010.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb18px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_5″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Glucanases and chitinases as causal agents in the protection of Acacia extrafloral nectar from infestation by phytopathogens. Plant Physiology 152: 1705-1715<\/h2>\n

Gonz\u00e1lez-Teuber\u00a0 M., Pozo M. J., Muck A., Svatos A., Adame-\u00c1lvarez R.M., Heil M.<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/GLUCAN1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb31px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_5″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

AM symbiosis alters phenolic acid content in tomato roots. Plant Signaling & Behavior 5, 1138-1140<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Flors V., Garc\u00eda J. M., Pozo M. J. (2010)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/AM-symbiosis-alters-phenolic-acid-content-in-tomato-roots-Lopez-Raez-et-al-2010.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb103px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_5″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb11px\u00bb text_line_height=\u00bb1.4em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb12px\u00bb header_2_line_height=\u00bb1.3em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Impact of arbuscular mycorrhizal symbiosis on plant response to biotic stress: the role of plant defence mechanisms. In: Arbuscular Mycorrhizas: Physiology and Function, 2nd Edition (H. Koltai and J. Kapulnik eds.) Springer-Verlag Heidelberg pp 193-208<\/h2>\n

Pozo M. J., Jung S. C., L\u00f3pez-R\u00e1ez J. A., Azc\u00f3n-Aguilar C.<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Book-Chapter-in-AM-Physiology-and-Function-Pozo-et-al-2010.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#f7f7f7″ background_enable_image=\u00bboff\u00bb background_position=\u00bbtop_center\u00bb background_blend=\u00bbluminosity\u00bb][et_pb_row module_id=\u00bb2009″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text _builder_version=\u00bb4.9.3″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2009<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_3,1_3,1_3″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Priming of plant innate immunity by rhizobacteria and \u00df-aminobutyric acid: differences and similarities in regulation. New Phytologist 180: 511\u2013523<\/h2>\n

Van der Ent S., Van Hulten M. H. A., Pozo M. J., Czechowski T., Udvardi M. K., Pieterse C. M. J. and Ton J. (2009).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Priming-of-plant-innate-immunity-by-rhizobacteria-and-s-aminobutyric-acid-differences-and-similarities-in-regulation-vanderEnt-et-al-2009.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb9px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb12px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Priming plant defences against pathogens by arbuscular mycorrhizal fungi. In: Mycorrhizas: Functional processes and ecological impact (C. Azc\u00f3n-Aguilar, J.M. Barea, S. Gianinazzi, V. Gianinazzi-Pearson eds.) Springer-Verlag Heidelberg, pp. 137-149<\/h2>\n

Pozo M. J., Verhage A., Garc\u00eda-Andrade J., Garc\u00eda J. M., Azc\u00f3n-Aguilar, C. (2009).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Priming-plant-defences-against-pathogens-by-arbuscular-mycorrhizal-fungi-Pozo-et-al-2009.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Strigolactones: ecological significance and use as a target for parasitic plant control. Pest Management Science 64: 471\u2013477<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Matusova R., Cardoso C., Jamil M., Charnikhova T., Kohlen W., Ruyter-Spira C., Verstappena F., Bouwmeester H. (2009).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Strigolactones-ecological-significance-and-use-as-a-target-for-parasitic-plant-control-Lopez-Raez-et-al-2009.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb27px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_2,1_2″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Arbuscular mycorrhiza confers systemic resistance against Botrytis cinerea in tomato through priming of JA-dependent defense responses. In: Mauch-Mani B, Schmidt A (eds) Induced resistance: chances and limits, IOBC\/wprs Bulletin, Working Group \u201cInduced resistance in plants against insects and diseases\u201d Proceedings of the meeting at Granada (Spain), 8-16 May, 2009<\/h2>\n

Jung S. C., Garc\u00eda-Andrade J., Verhage A., Fern\u00e1ndez I., Garc\u00eda J. M., Azc\u00f3n-Aguilar C., Pozo M. J<\/p>\n

[\/et_pb_text][\/et_pb_column][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Mycorrhizal symbiosis as a strategy for root parasitic weed control. In: Mauch-Mani B, Schmidt A (eds) Induced resistance: chances and limits, IOBC\/wprs Bulletin, Working Group \u201cInduced resistance in \u00a0plants against insects and diseases\u201d Proceedings of the meeting at Granada (Spain), 8-16 May, 2009<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Jung S. C., Fernandez I., Garc\u00eda J. M., Bouwmeester H., Pozo M. J.<\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#FFFFFF\u00bb background_enable_image=\u00bboff\u00bb background_blend=\u00bbhard-light\u00bb custom_padding=\u00bb0px||||false|false\u00bb][et_pb_row module_id=\u00bb2008″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text module_id=\u00bb2020″ _builder_version=\u00bb4.9.4″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2008<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_3,1_3,1_3″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

The transcription factor MYC2 is involved in priming for enhanced defense during rhizobacteria-induced systemic resistance in Arabidopsis. New Phytologist 180: 511\u2013523<\/h2>\n

Pozo M. J., Van der Ent S., Van Loon L. C., Pieterse C. M. J. (2008).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/THETRA1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb16px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Priming as a mechanism behind induced resistance against pathogens, insects and abiotic stress. In: Breeding for inducible resistance against pests and diseases ( B. Mauch-Mani, M. Dicke, A. Schmidt, eds), IOBC\/wprs Bulletin.<\/h2>\n

Ton J., Van der Ent S., Van Hulten M., Pozo M. J., Van Oosten V., Van Loon L. C., Mauch-Mani B., Turlings T. C. J., Pieterse C. M. J. (2008).<\/p>\n

[\/et_pb_text][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Tomato strigolactones are derived from carotenoids and their biosynthesis is promoted by phosphate starvation. New Phytologist 178 (4): 863-874<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Charnikhova T., G\u00f3mez-Rold\u00e1n V., Matusova R., Kohlen W., de Vos R., Verstappen F., Puech-Pages V., B\u00e9card G., Mulder P., Bouwmeester H. (2008)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Tomato-strigolactones-are-derived-from-carotenoids-and-their-biosynthesis-is-promoted-by-phosphate-starvation-Lopez-Raez-et-al-2008.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_2,1_2″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Susceptibility of the tomato mutant high pigment-2dg (hp-2dg) to Orobanche spp infection. Journal of Agricultural and Food Chemistry 56: 6326-6332<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Charnikhova T., Mulder P., Kohlen W., Bino R., Levin I., Bouwmeester H. J. (2008)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Susceptibility-of-the-tomato-mutant-high-pigment-2dg-hp-2dg-to-Orobanche-spp-infection-Lopez-Raez-et-al-2008.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Fine-tuning regulation of strigolactone biosynthesis under phosphate starvation. Plant Signaling & Behavior 3 (11): 963-965<\/h2>\n

L\u00f3pez-R\u00e1ez J. A., Bouwmeester H.J . (2008)<\/p>\n

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2007<\/h2>\n

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Unravelling mycorrhiza-induced resistance. Current Opinion in Plant Biology 10: 393-398<\/h2>\n

Pozo M. J., Azc\u00f3n-Aguilar C. (2007)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Unravelling-mycorrhiza-induced-resistance-Pozo-et-al-2007.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Rhizosphere communication of plants, parasitic plants and AM fungi. Trends in Plant Science 12 (5): 224-230<\/h2>\n

Bouwmeester H. J., Roux C., L\u00f3pez-R\u00e1ez J. A., B\u00e9card G. (2007)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Rhizosphere-communication-of-plants-parasitic-plants-and-AM-fungi-Bouwmeester-et-al-2007.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#FFFFFF\u00bb background_enable_image=\u00bboff\u00bb background_blend=\u00bbhard-light\u00bb custom_padding=\u00bb0px||||false|false\u00bb][et_pb_row module_id=\u00bb2006″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text module_id=\u00bb2020″ _builder_version=\u00bb4.9.4″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2006<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_4,1_4,1_4,1_4″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Priming: getting ready for battle. Molecular Plant-Microbe Interaction, 19: 1062-1071<\/h2>\n

Conrath U., Beckers G. J. M., Flors V., Garcia-Agustin P., Jakab G., Mauch F., Newman M. A., Pieterse C. M. J., Poinssot B., Pozo M. J., Pugin A., Schaffrath U., Ton J., Wendehenne D., Zimmerli L. , Mauch-Mani B. (2006).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Priming-getting-ready-for-battle-Conrath-et-al-2006.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Tv-bgn3, a \u00df -1,6-Glucanase from the biocontrol fungus Trichoderma virens, is involved in mycoparasitism and control of Pythium ultimum. Applied Environmental Microbiology, 72: 7661-7670<\/h2>\n

Djonovic S., Pozo M. J., Kenerley C. (2006).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/TV-BGN1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb31px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Sm1, a proteinaceous elicitor secreted by the biocontrol fungus Trichoderma virens , induces plant defense responses and systemic resistance. Molecular Plant-Microbe Interaction, 19: 838-853<\/h2>\n

Djonovic S., Pozo M. J., Dangott L., Howell C. R., Kenerley C. (2006)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/SM1_AP1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb14px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Microorganismos: alternativa ecol\u00f3gica a los plaguicidas. Granada Hoy 11-1-2006<\/h2>\n

Pozo M. J. (2006)<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Microorganismos-alternativa-ecologica-a-los-plaguicidas-Pozo-2006.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb121px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_4,1_4,1_4,1_4″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb11px\u00bb text_line_height=\u00bb1.4em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb12px\u00bb header_2_line_height=\u00bb1.3em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Molecular mechanisms involved in induced resistance signaling in Arabidopsis. In: Biology of Molecular Plant-Microbe Interactions, Vol. 5 (F. S a nchez, C. Quinto, I.M. Lopez-Lara and O. Geiger, eds), The International Society for Molecular Plant-Microbe Interactions, St. Paul, MN ., pp. 188-194.<\/h2>\n

Pieterse C. M. J., Van Pelt J. A., Verhagen B. W. M., De Vos M., Van Oosten V. R., Van der Ent S., Koornneef A., Van Hulten M. H. A., Pozo M. J., Ton J., Dicke M. and Van Loon L. C. 2006<\/p>\n

[\/et_pb_text][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Transcription factors in roots and shoots of Arabidopsis involved in rhizobacteria-induced systemic resistance. In: Multitrophic I nteractions in S oil and Integrated Control (J.M. Raaijmakers and R.A. Sikora, eds), IOBC\/wprs Bulletin 29(2): 157-161<\/h2>\n

Van der Ent S., Pozo M. J., Verhagen B. W. M., Bakker D., Van Loon L. C. and Pieterse C. M. J. 2006<\/p>\n

[\/et_pb_text][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

FaQR, required for the biosynthesis of the strawberry flavor compound 4-hydroxy-2,5-dimethyl-3(2H)-furanone, encodes an enone oxidoreductase. The Plant Cell, 18: 1023-1037<\/h2>\n

Raab T, L\u00f3pez-R\u00e1ez J. A., Klein D., Caballero J. L., Moyano E., Schwab W., Mu\u00f1oz-Blanco J. 2006.<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/FAQR_R1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Characterization of a strawberry late expressed and fruit-specific peptide methionine sulfoxide reductase cDNA: Its role as an antioxidant enzyme. Physiologia Plantarum, 126: 129-139<\/h2>\n

Pedraza-L\u00f3pez A., Blanco-Portales R., L\u00f3pez-R\u00e1ez J. A., Medina-Escobar N., Mu\u00f1oz-Blanco J., Rodr\u00edguez-Franco A.\u00a02006<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/CHARAC1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#f7f7f7″ background_enable_image=\u00bboff\u00bb background_position=\u00bbtop_center\u00bb background_blend=\u00bbluminosity\u00bb][et_pb_row module_id=\u00bb2005″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text _builder_version=\u00bb4.9.3″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2005<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_3,1_3,1_3″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Jasmonates-Signals in plant-microbe interactions. Journal of Plant Growth Regulation, 23: 211-222<\/h2>\n

Pozo M. J., Van Loon L. C., Pieterse C. M. J. (2005).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Jasmonates-Signals-in-plant-microbe-interactions-Pozo-et-al-2005.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb70px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Signal signature and transcriptome changes of Arabidopsis during pathogen and insect attack. Molecular Plant Microbe Interaction, 18: 923-937<\/h2>\n

De Vos M., Van Oosten V. R., Van Poecke R. M. P., Van Pelt J. A., Pozo M.J ., Mueller M. J., Buchala A. J., Metraux J-P, Van Loon L. C., Dicke M., Pieterse C. M. J. (2005).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Signal-signature-and-transcriptome-changes-of-Arabidopsis-during-pathogen-and-insect-attack-deVos-et-al-2005.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Microbial co-operation in the rhizosphere. Journal of Experimental Botany, 56: 1761-1778<\/h2>\n

Barea J. M., Pozo M. J., Azc\u00f3n R., Azc\u00f3n-Aguilar C. (2005).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Microbial-co-operation-in-the-rhizosphere-Barea-et-al-2005.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb53px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_2,1_2″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Expression of a tomato sugar transporter is increased in leaves of mycorrhizal or Phytophthora parasitica -infected plants Mycorrhiza, 15: 489-496<\/h2>\n

Garc\u00eda -Rodriguez S., Pozo M. J., Azc\u00f3n-Aguilar C., Ferrol N. (2005).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/EXPRES1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb34px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_2″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Indu\u00e7\u00e3o de resist\u00eancia sist\u00eamica por rizobact\u00e9rias e comunica\u00e7\u00e3o na rota de sinaliza\u00e7\u00e3o para uma defesa refinada . Revis \u00e3o de Patologia de Plantas, 13: 277-319<\/h2>\n

Pieterse C. M. J., Van Pelt J. A., Van Wees S. C. M., Ton J., Verhagen B. W. M., L\u00e9on-Kloosterziel K., Hase S., De Vos M., Van Oosten V., Pozo M., Spoel S., Van der Ent S., Koornneef A., Chalfun-Junior A., Resende M. L. V. and Van Loon L. C.<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Inducao-de-resistencia-sistemica-por-rizobacterias-e-comunicacao-na-rota-de-sinalizacao-para-uma-defesa-refinada-Pieterse-et-al-2005.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#FFFFFF\u00bb background_enable_image=\u00bboff\u00bb background_blend=\u00bbhard-light\u00bb custom_padding=\u00bb0px||||false|false\u00bb][et_pb_row module_id=\u00bb2004″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text module_id=\u00bb2020″ _builder_version=\u00bb4.9.4″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2004<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_4,1_4,1_4,1_4″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Functional study of tvsp1 , a serine protease-encoding gene in the biocontrol agent Trichoderma virens. Fungal Genetics and Biology, 41: 336-348<\/h2>\n

Pozo M. J., Baek J. M., Garcia J. M., Kenerley C. M. (2004).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Functional-study-of-tvsp1-a-serine-protease-encoding-gene-in-the-biocontrol-agent-Trichoderma-virens-Pozo-et-al-2004.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb54px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Boosting plant defence by beneficial soil microorganisms. In: Proceedings of the 16th Workshop of Marie Curie Fellows: Research Training in Progress, Petten ( Netherlands), 21-22 October, 2003, pp. 158-161<\/h2>\n

Pozo M. J., Van Loon L. C. Pieterse C. M. J. (2004).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Boosting-plant-defence-by-beneficial-soil-microorganisms-Pozo-et-al-2004.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

A strawberry fruit-specific and ripening-related gene encodes for an HyPRP protein that is involved in polyphenol anchoring. Plant Molecular Biology, 55: 763-780<\/h2>\n

Blanco-Portales R., L\u00f3pez-R\u00e1ez J. A., Moyano E., Dorado G., Gonz\u00e1lez-Reyes J. A., Caballero J. L., Mu\u00f1oz-Blanco J. 2004.<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/ASTRAW1.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Comparative study between two strawberry pyruvate decarboxylase genes along fruit development and ripening, postharvest and stress conditions. Plant Science, 166: 835-845<\/h2>\n

Moyano E., Encinas-Villarejo S., L\u00f3pez-R\u00e1ez J. A., Redondo-Nevado J., Blanco-Portales R., Bellido M. L., Sanz C, Caballero J. L., Mu\u00f1oz-Blanco J. 2004.<\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb background_color=\u00bb#f7f7f7″ background_enable_image=\u00bboff\u00bb background_position=\u00bbtop_center\u00bb background_blend=\u00bbluminosity\u00bb][et_pb_row module_id=\u00bb2003″ _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_text _builder_version=\u00bb4.9.3″ text_font=\u00bbOpen Sans||||||||\u00bb text_text_color=\u00bb#bcbcbc\u00bb header_2_font=\u00bbOpen Sans|700|||||||\u00bb header_2_text_align=\u00bbleft\u00bb header_2_text_color=\u00bb#b68600″ header_2_font_size=\u00bb50px\u00bb header_2_line_height=\u00bb1.3em\u00bb header_3_font=\u00bbOpen Sans|700|on||||||\u00bb header_3_text_color=\u00bb#707070″ header_3_font_size=\u00bb37px\u00bb header_4_font=\u00bbOpen Sans||||||||\u00bb header_4_text_color=\u00bb#707070″ header_4_line_height=\u00bb1.3em\u00bb border_width_bottom=\u00bb2px\u00bb border_color_bottom=\u00bb#b68600″ border_style_bottom=\u00bbdotted\u00bb locked=\u00bboff\u00bb]<\/p>\n

2003<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_3,1_3,1_3″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Enhanced biocontrol activity of Trichoderma through inactivation of a mitogen-activated protein kinase . Proceedings of the National Academy of Sciences USA, 100: 15965-15970<\/h2>\n

Mendoza-Mendoza A., Pozo M. J., Grzegorski D., Martinez P., Garcia J. M., Olmedo-Monfil V., Cortes C., Kenerley C., Herrera-Estrella A. (2003).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Enhanced-biocontrol-activity-of-Trichoderma-through-inactivation-of-a-mitogen-activated-protein-kinase-Mendoza-et-al-2003.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_3″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Enhanced fungal resistance in transgenic cotton expressing an endochitinase gene from Trichoderma virens . Plant Biotechnology Journal, 1: 321-336<\/h2>\n

Emani C., Garcia J. M., Pozo M. J ., Lopata-Finch E., Uribe P., Cook D., Kenerley C. M. Rathore K. (2003).<\/p>\n

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Papel de las micorrizas arbusculares en la proteccion de la planta frente a patogenos del suelo. Posibles mecanismos implicados. In : Simbiosis Micorricicas. (Olalde V. ed) Biotecnologia de la Micorriza.<\/h2>\n

Azcon-Aguilar C., Pozo M. J., Ferrol N., Barea J. M. (2003).<\/p>\n

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2002<\/h2>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][et_pb_row column_structure=\u00bb1_4,1_4,1_4,1_4″ make_equal=\u00bbon\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Localized vs systemic effect of arbuscular mycorrhizal fungi on defence responses to Phytophthora infection in tomato plants. Journal of Experimental Botany, 53: 525-534<\/h2>\n

Pozo M. J., Cordier C., Dumas-Gaudot E., Gianinazzi S., Barea J. M., Azc\u00f3n-Aguilar C. (2002).<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Localized-vs-systemic-effect-of-arbuscular-mycorrhizal-fungi-on-defence-responses-to-Phytophthora-infection-in-tomato-plants-Pozo-et-ak-2002.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb53px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Plant defense responses induced by arbuscular mycorrhizal fungi . In : Mycorrhizal Technology in Agriculture: From Genes to Bioproducts. Achievements and Hurdles in Arbuscular Mycorrhizal Research. (Gianinazzi S., Schuepp H. Haselwandter K. and Barea J.M. Eds). ALS Birkhauser Verlag. Basel . Switzerland .<\/h2>\n

Pozo M. J., Slezack-Deschaumes S., Dumas-Gaudot E., Gianinazzi S., Azc\u00f3n-Aguilar C. (2002).<\/p>\n

[\/et_pb_text][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Arbuscular mycorrhizal symbiosis regulates plasma membrane H+ ATPase gene expression in tomato plants. Journal of Experimental Botany, 53: 1683-1687<\/h2>\n

Ferrol N., Pozo M. J., Antelo M., Azc\u00f3n-Aguilar C.<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Arbuscular-mycorrhizal-symbiosis-regulates-plasma-membrane-H-ATPase-gene-expression-in-tomato-plants-Ferrol-et-al-2002.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb custom_padding=\u00bb88px||||false|false\u00bb][\/et_pb_image][\/et_pb_column][et_pb_column type=\u00bb1_4″ _builder_version=\u00bb4.9.3″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb20px|20px|20px|20px|false|false\u00bb border_radii=\u00bbon|13px|13px|13px|13px\u00bb border_width_all=\u00bb2px\u00bb border_color_all=\u00bb#997029″ border_style_all=\u00bbdotted\u00bb][et_pb_text _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb text_text_color=\u00bb#707070″ text_font_size=\u00bb12px\u00bb text_line_height=\u00bb1.5em\u00bb header_2_font=\u00bbOpen Sans|600|||||||\u00bb header_2_text_color=\u00bb#8d5f0f\u00bb header_2_font_size=\u00bb13px\u00bb header_2_line_height=\u00bb1.4em\u00bb border_radii=\u00bbon|5px|5px|5px|5px\u00bb]<\/p>\n

Cloning, expression and immunolocalization pattern of a cinnamyl alcohol dehydrogenase gene from strawberry (Fragaria x ananassa cv. Chandler). Journal of Experimental Botany, 375:1-12<\/h2>\n

Blanco-Portales R., Medina-Escobar N., L\u00f3pez-R\u00e1ez J. A., Gonz\u00e1lez-Reyes J. A., Villalba J. M., Moyano E., Caballero J. L., Mu\u00f1oz-Blanco J. 2002.<\/p>\n

[\/et_pb_text][et_pb_image src=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Descargar-publicacion-PDF-1.png\u00bb title_text=\u00bbDescargar-publicacion-PDF\u00bb url=\u00bbhttps:\/\/grupos.eez.csic.es\/mycostress\/wp-content\/uploads\/2021\/04\/Cloning-expression-and-immunolocalization-pattern-of-a-cinnamyl-alcohol-dehydrogenase-gene-from-strawberry-Blanco-Portales-et-al-2002.pdf\u00bb url_new_window=\u00bbon\u00bb align=\u00bbcenter\u00bb _builder_version=\u00bb4.9.4″ _module_preset=\u00bbdefault\u00bb width=\u00bb30px\u00bb][\/et_pb_image][\/et_pb_column][\/et_pb_row][\/et_pb_section]<\/p>\n","protected":false},"excerpt":{"rendered":"

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