Whole plant nutrient signalling involves bidirectional exchange of signal molecules between roots and shoots. For nitrogen uptake, in addition to the root-to-shoot delivery of nitrogen-deprivation information, a shoot-to-root path is now defined
preprint déposé dans bioRxivPlants are subjected to variable nitrogen (N) availability including fre...
Nitrate is both a nitrogen source for higher plants and a signal molecule regulating their developme...
Lateral roots are important to forage for nutrients due to their ability to increase the uptake area...
International audiencePlant nutrient acquisition is tightly regulated by resources availability and ...
Rapid adjustment of plant physiology and development to external fluctuations is critical for sessil...
The phenotypic plasticity that plants display in response to changes in their nutrient supply requir...
During their life cycle, plants must be able to adapt to wide variations in the supply of soil nitro...
Nitrogen is an essential, often limiting, factor in plant growth and development. To regulate growth...
Nitrogen is a major limiting nutrient for plants. Root systems acquire nitrogen through uptake of nu...
As sessile organisms, root plasticity enables plants to forage for and acquire nutrients in a fluctu...
Nutrient fluctuations are more a rule rather than an exception in the life of sessile organisms such...
Optimal plant development requires root uptake of 14 essential mineral elements from the soil. Since...
International audienceThe ability of plants to sense their nitrogen (N) microenvironment in the soil...
During their sessile mode of life, plants need to endure variations in their environment such as a d...
In a new study published in this issue of Developmental Cell, Krouk et al. reveal a surprising mecha...
preprint déposé dans bioRxivPlants are subjected to variable nitrogen (N) availability including fre...
Nitrate is both a nitrogen source for higher plants and a signal molecule regulating their developme...
Lateral roots are important to forage for nutrients due to their ability to increase the uptake area...
International audiencePlant nutrient acquisition is tightly regulated by resources availability and ...
Rapid adjustment of plant physiology and development to external fluctuations is critical for sessil...
The phenotypic plasticity that plants display in response to changes in their nutrient supply requir...
During their life cycle, plants must be able to adapt to wide variations in the supply of soil nitro...
Nitrogen is an essential, often limiting, factor in plant growth and development. To regulate growth...
Nitrogen is a major limiting nutrient for plants. Root systems acquire nitrogen through uptake of nu...
As sessile organisms, root plasticity enables plants to forage for and acquire nutrients in a fluctu...
Nutrient fluctuations are more a rule rather than an exception in the life of sessile organisms such...
Optimal plant development requires root uptake of 14 essential mineral elements from the soil. Since...
International audienceThe ability of plants to sense their nitrogen (N) microenvironment in the soil...
During their sessile mode of life, plants need to endure variations in their environment such as a d...
In a new study published in this issue of Developmental Cell, Krouk et al. reveal a surprising mecha...
preprint déposé dans bioRxivPlants are subjected to variable nitrogen (N) availability including fre...
Nitrate is both a nitrogen source for higher plants and a signal molecule regulating their developme...
Lateral roots are important to forage for nutrients due to their ability to increase the uptake area...
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