Colonization of Arabidopsis roots by Trichoderma atroviride promotes growth and enhances systemic disease resistance through jasmonic acid/ethylene and salicylic acid pathways
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Angel Salas-Marina, Miguel
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Inst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, MexicoInst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, Mexico
Angel Salas-Marina, Miguel
[1
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Angel Silva-Flores, Miguel
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Inst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, MexicoInst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, Mexico
Angel Silva-Flores, Miguel
[1
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Elena Uresti-Rivera, Edith
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Inst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, MexicoInst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, Mexico
Elena Uresti-Rivera, Edith
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Castro-Longoria, Ernestina
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Ctr Invest Cient Educ Super Ensenada, Dept Microbiol, Ensenada, Baja California, MexicoInst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, Mexico
Castro-Longoria, Ernestina
[2
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Herrera-Estrella, Alfredo
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Lab Nacl Genom Biodiversidad, Irapuato 36821, Gto, MexicoInst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, Mexico
Herrera-Estrella, Alfredo
[3
]
Casas-Flores, Sergio
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Inst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, MexicoInst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, Mexico
Casas-Flores, Sergio
[1
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[1] Inst Potosino Invest Cient Tecnol, Div Mol Biol, San Luis Potosi 78216, SLP, Mexico
Trichoderma spp. are common soil fungi used as biocontrol agents due to their capacity to produce antibiotics, induce systemic resistance in plants and parasitize phytopathogenic fungi of major agricultural importance. The present study investigated whether colonization of Arabidopsis thaliana seedlings by Trichoderma atroviride affected plant growth and development. Here it is shown that T. atroviride promotes growth in Arabidopsis. Moreover, T. atroviride produced indole compounds in liquid cultures. These results suggest that indoleacetic acid-related indoles (IAA-related indoles) produced by T. atroviride may have a stimulatory effect on plant growth. In addition, whether colonization of Arabidopsis roots by T. atroviride can induce systemic protection against foliar pathogens was tested. Arabidopsis roots inoculation with T. atroviride provided systemic protection to the leaves inoculated with bacterial and fungal pathogens. To investigate the possible pathway involved in the systemic resistance induced by T. atroviride, the expression profile of salicylic acid, jasmonic acid/ethylene, oxidative burst and camalexin related genes was assessed in Arabidopsis. T. atroviride induced an overlapped expression of defence-related genes of SA and JA/ET pathways, and of the gene involved in the synthesis of the antimicrobial phytoalexin, camalexin, both locally and systemically. This is the first report where colonization of Arabidopsis roots by T. atroviride induces the expression of SA and JA/ET pathways simultaneously to confer resistance against hemibiotrophic and necrotrophic phytopathogens. The beneficial effects induced by the inoculation of Arabidopsis roots with T. atroviride and the induction of the plant defence system suggest a molecular dialogue between these organisms.