Topics
receptorProtein
nitrateChemical substance
legumePlant
RNA interferenceElection
Medicago truncatulaPlant
LegumePlant
nitrogenElection
Legume plants form nitrogen (N)-fixing symbiotic nodules when mineral N is limiting in soils. As N fixation is energetically costly compared to mineral N acquisition, these N sources, and in particular nitrate, inhibit nodule formation and N fixation. Here, in the model legume Medicago truncatula, we characterized a CLAVATA3-like (CLE) signaling peptide, MtCLE35, the expression of which is upregulated locally by high-N environments and relies on the Nodule Inception-Like Protein (NLP) MtNLP1. MtCLE35 inhibits nodule formation by affecting rhizobial infections, depending on the Super Numeric Nodules (MtSUNN) receptor. In addition, high N or the ectopic expression of MtCLE35 represses the expression and accumulation of the miR2111 shoot-to-ro...
The presence of nitrogen inhibits legume nodule formation, but the mechanism of this inhibition is p...
Nitrogen fixation by rhizobia is a highly energy-demanding process. Therefore, nodule initiation in ...
Legumes tightly regulate nodule number to balance the cost of supporting symbiotic rhizobia with the...
Legume plants form nitrogen (N)-fixing symbiotic nodules when mineral N is limiting in soils. As N f...
Legumes form a symbiosis with N -fixing soil rhizobia, resulting in new root organs called nodules t...
Nitrogen-deprived legume plants form new root organs, the nodules, following a symbiosis with nitrog...
Legume plants form nitrogen-fixing nodules on their roots in symbiosis with soil bacteria rhizobia. ...
A subset of CLAVATA3/endosperm-surrounding region-related (CLE) peptides are involved in autoregulat...
International audienceIn legumes interacting with rhizobia, the formation of symbiotic organs involv...
Nitrogen fixation by rhizobia is a highly energy-demanding process. Therefore, nodule initiation in ...
Legumes develop root nodules as a result of a symbiotic interaction with soil borne bacteria, called...
Background High input costs and environmental pressures to reduce nitrogen use in agriculture have i...
International audiencePlant systemic signaling pathways allow the integration and coordination of sh...
The presence of nitrogen inhibits legume nodule formation, but the mechanism of this inhibition is p...
Nitrogen fixation by rhizobia is a highly energy-demanding process. Therefore, nodule initiation in ...
Legumes tightly regulate nodule number to balance the cost of supporting symbiotic rhizobia with the...
Legume plants form nitrogen (N)-fixing symbiotic nodules when mineral N is limiting in soils. As N f...
Legumes form a symbiosis with N -fixing soil rhizobia, resulting in new root organs called nodules t...
Nitrogen-deprived legume plants form new root organs, the nodules, following a symbiosis with nitrog...
Legume plants form nitrogen-fixing nodules on their roots in symbiosis with soil bacteria rhizobia. ...
A subset of CLAVATA3/endosperm-surrounding region-related (CLE) peptides are involved in autoregulat...
International audienceIn legumes interacting with rhizobia, the formation of symbiotic organs involv...
Nitrogen fixation by rhizobia is a highly energy-demanding process. Therefore, nodule initiation in ...
Legumes develop root nodules as a result of a symbiotic interaction with soil borne bacteria, called...
Background High input costs and environmental pressures to reduce nitrogen use in agriculture have i...
International audiencePlant systemic signaling pathways allow the integration and coordination of sh...
The presence of nitrogen inhibits legume nodule formation, but the mechanism of this inhibition is p...
Nitrogen fixation by rhizobia is a highly energy-demanding process. Therefore, nodule initiation in ...
Legumes tightly regulate nodule number to balance the cost of supporting symbiotic rhizobia with the...
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