Transcriptome Analysis of Wheat Roots Reveals a Di erential Regulation of Stress Responses Related to Arbuscular Mycorrhizal Fungi and Soil Disturbance
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MDPI/Biology
Abstract
Abstract: Symbioses with soil microorganisms are central in shaping the diversity and productivity of
land plants and provide protection against a diversity of stresses, including metal toxicity. Arbuscular
mycorrhizal fungi (AMF) can form extensive extraradical mycelial networks (ERM), which are very
e cient in colonizing a new host. We quantified the responses of transcriptomes of wheat and one
AMF partner, Rhizoglomus irregulare, to soil disturbance (Undisturbed vs. Disturbed) and to two
di erent preceding mycotrophic species (Ornithopus compressus and Lolium rigidum). Soil disturbance
and preceding plant species engender di erent AMF communities in wheat roots, resulting in a
di erential tolerance to soil manganese (Mn) toxicity. Soil disturbance negatively impacted wheat
growth under manganese toxicity, probably due to the disruption of the ERM, and activated a large
number of stress and starvation-related genes. The O. compressus treatment, which induces a greater
Mn protection in wheat than L. rigidum, activated processes related to cellular division and growth,
and very few related to stress. The L. rigidum treatment mostly induced genes that were related to
oxidative stress, disease protection, and metal ion binding. R. irregulare cell division and molecular
exchange between nucleus and cytoplasm were increased by O. compressus. These findings are highly
relevant for sustainable agricultural systems, when considering a fit-for-purpose symbiosis.
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Citation
Campos, C., Nobre, T., Goss, M. J., Faria, J., Barrulas, P., & Carvalho, M. (2019). Transcriptome analysis of wheat roots reveals a differential regulation of stress responses related to arbuscular mycorrhizal fungi and soil disturbance. Biology, 8(4), 93. https://doi.org/10.3390/biology8040093