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A study led by Elena Baena-González, IGC principal investigator and member of the GREEN-IT Research Unit, uncovered the mechanisms by which this happens: abscisic acid signals are linked to a highly conserved regulatory system constituted by two protein kinases (SnRK1 and TOR), that control growth in all eukaryotes(animals, plants, fungi, and protists). "When conditions are favorable the accelerator of the system (TOR) is active, inducing biosynthetic processes, cell proliferation and growth. When conditions are unfavorable the break of the system (SnRK1) becomes active, inhibiting TOR and consequently growth" says Elena Baena-González. This ancient system is controlled in all eukaryotes by nutrient signals, resulting in growth arrest when nutrient levels ("fuel") are low.
"However, we found that in plants this system is controlled by additional signals related to the water status (ABA), conferring plants the unique capacity to regulate growth not only in response to nutrient signals but also in response to water availability" explains the researcher. The team believes that this system may have been crucial for the establishment of terrestrial life by maintaining resource spending and growth to a minimum when water was scarce.
Using the model plant Arabidopsis thaliana, the researchers observed that when the SnRK1 kinase is genetically inactivated, plants develop larger roots under suboptimal conditions. Although such uncontrolled growth may be fatal under severe drought, it is likely to increase the capacity to absorb water from the more superficial soil layers, potentially improving plant growth when water is moderately limited. Future experiments work will aim to address these questions and to identify downstream factors that could be more amenable for manipulation of this trait also in crops.
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More information: Borja Belda-Palazón et al. A dual function of SnRK2 kinases in the regulation of SnRK1 and plant growth, Nature Plants (2020). DOI: 10.1038/s41477-020-00778-w
Journal information: Nature Plants
Provided by Instituto Gulbenkian de Ciência (IGC)


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