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Investigation of Medicago truncatula Genes' Involvement in Arbuscular Mycorrhizal SymbiosisBacklund, Téa 25 November 2022 (has links)
The mutualistic associations between Arbuscular mycorrhizal (AM) fungi and plant roots are ancient and ubiquitous across the plant kingdom, where AM fungi provide Phosphorus, Nitrogen, and water to the plant, and receive photosynthetically fixed Carbon in the form of fatty acids and sugars in return. Moreover, AM fungi are associated with increased plant resistance to both abiotic and biotic stressors such as drought and viral pathogens. Frequently used in agriculture, AM fungi are observed to increase crop yields and decrease chemical fertilizer needs for many economically important plant species. The potential to increase AM fungal effectiveness remains a driving force for current research. To determine their role in establishing and/or supporting AM symbiosis, we propose a reverse genetic study of two genes in the model legume Medicago truncatula. Based on RNA sequencing data indicating increased expression during AM symbiosis, we selected one gene that encodes for NAC TF-like protein, which belongs to a large family of plant transcription factors primarily involved in regulating the secretion of defence hormones. The second gene selected, PALM1, was recently discovered to play a role in the regulation of the trifoliate leaf structure of M. truncatula. We hypothesize that the genes under study play mechanistic roles in regulating AM fungal symbiosis and that we will observe a difference between the colonization rates of corresponding gene mutants and control groups. Firstly, we explored the involvement of the PALM1 and NAC TF genes by examining the root developmental phenotype of Medicago truncatula mutants. Secondly, we employed symbiosis assays to investigate the colonization rates of the genes in question. Results indicated that the NAC TF gene had no consistent role in the AM symbiosis, while the PALM1 gene revealed promising results, where significant increases in colonization rates were observed in PALM1 mutants throughout repeated experiments. Future research involves using this study to help pursue more effective ways to use AM fungi symbiosis in sustainable agro ecosystems.
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