Abstract
Metarhizium robertsii is an insect pathogen as well as an endophyte, and can antagonize the phytopathogen, Fusarium solani during bean colonization. However, plant immune responses to endophytic colonization by Metarhizium are largely unknown. We applied comprehensive plant hormone analysis, transcriptional expression and stomatal size analysis in order to examine plant immune responses to colonization by Metarhizium and/or Fusarium. The total amount of abscisic acid (ABA) and ABA metabolites decreased significantly in bean leaves by plant roots colonized by M. robertsii and increased significantly with F. solani compared to the un-inoculated control bean plant. Concomitantly, in comparison to the un-inoculated bean, root colonization by Metarhizium resulted in increased stomatal size in leaves and reduced stomatal size with Fusarium. Meanwhile, expression of plant immunity genes was repressed by Metarhizium and, alternately, triggered by Fusarium compared to the un-inoculated plant. Furthermore, exogenous application of ABA resulted in reduction of bean root colonization by Metarhizium but increased colonization by Fusarium compared to the control without ABA application. Our study suggested that ABA plays a central role in differential responses to endophytic colonization by Metarhizium and pathogenic colonization by Fusarium and, we also observed concomitant differences in stomatal size and expression of plant immunity genes.
Highlights
Metarhizium robertsii is an entomopathogenic fungus but it can colonize the plant root rhizoplane and grow endophytically between or within cortical root c ells[1]
Comprehensive hormone profiling of 39 plant hormones were examined in 14 days bean foliar tissues, including abscisic acid and abscisic acid metabolites, auxins, cytokinins, gibberellins and 1-aminocyclopropane-1-carboxylic acid (Supplementary Table S1)
Our model system allows for an investigation into the differential plant immune responses to endophytic and pathogenic fungal colonization
Summary
Metarhizium robertsii is an entomopathogenic fungus but it can colonize the plant root rhizoplane and grow endophytically between or within cortical root c ells[1]. This symbiotic interaction offers benefits to the plant by improving plant growth, antagonizing plant pathogens and herbivores, and enhancing plant tolerance to abiotic stresses[2]. ABA is a major plant hormone, which plays a central role in plant physiological processes, as well as responses to abiotic and biotic environmental stresses It is involved in different stages of plant growth, such as seed germination, leaf senescence, and bud dormancy[11]. ABA acts as a negative regulator by inhibiting root nodule formation by rhizobia after exogenous ABA a pplication[19]
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