Light-induced mobile factors from shoots regulate rhizobium-triggered soybean root nodulation

Light-induced mobile factors from shoots regulate rhizobium-triggered soybean root nodulation

Symbiotic nitrogen fixation is an energy-expensive process, and the light available to plants has been proposed to be a primary influencer. We demonstrate that the light-induced soybean TGACG-motif binding factor 3/4 (GmSTF3/4) and FLOWERING LOCUS T (GmFTs), which move from shoots to roots, interdep...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2021-10, Vol.374 (6563), p.65-71
Hauptverfasser: Wang, Tao, Guo, Jing, Peng, Yaqi, Lyu, Xiangguang, Liu, Bin, Sun, Shiyong, Wang, Xuelu
Format: Artikel
Sprache:eng
Schlagworte:
Bacteria
Biosphere
Ca2+/calmodulin-dependent protein kinase
Calcium-binding protein
Calmodulin
Carbohydrates
Complex formation
Flowering
Glycine max - microbiology
Glycine max - physiology
Glycine max - radiation effects
Host plants
Kinases
Legumes
Light
Modules
Nitrogen
Nitrogen Fixation
Nitrogen-fixing bacteria
Nitrogenation
Nodulation
Nodules
Organogenesis
Organogenesis, Plant - physiology
Photosynthesis
Plant Proteins - metabolism
Plant Root Nodulation
Plant Roots - physiology
Plant Shoots - microbiology
Plant Shoots - physiology
Plant Shoots - radiation effects
Rhizobium - physiology
Root nodules
Roots
Shoots
Signaling
Soybeans
Symbiosis
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Zusammenfassung:Symbiotic nitrogen fixation is an energy-expensive process, and the light available to plants has been proposed to be a primary influencer. We demonstrate that the light-induced soybean TGACG-motif binding factor 3/4 (GmSTF3/4) and FLOWERING LOCUS T (GmFTs), which move from shoots to roots, interdependently induce nodule organogenesis. Rhizobium-activated calcium- and calmodulin-dependent protein kinase (CCaMK) phosphorylates GmSTF3, triggering GmSTF3–GmFT2a complex formation, which directly activates expression of nodule inception ( ) and nuclear factor Y ( - and ). Accordingly, the CCaMK–STF–FT module integrates aboveground light signals with underground symbiotic signaling, ensuring that the host plant informs its roots that the aboveground environment is prepared to sustainably supply the carbohydrate necessary for symbiosis. These results suggest approaches that could enhance the balance of carbon and nitrogen in the biosphere.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.abh2890