Add to ORKGThe root nodule symbiosis established between legumes and rhizobia is an exquisite biological interaction responsible for fixing a significant amount of nitrogen in terrestrial ecosystems. The success of this interaction depends on the recognition of the right partner by the plant within the richest microbial ecosystems on Earth, the soil. Recent metagenomic studies of the soil biome have revealed its complexity, which includes microorganisms that affect plant fitness and growth in a beneficial, harmful, or neutral manner. In this complex scenario, understanding the molecular mechanisms by which legumes recognize and discriminate rhizobia from pathogens, but also between distinct rhizobia species and strains that differ in their symbiotic p...
The symbiotic relationship between legumes and nitrogen fixing bacteria is critical for agriculture,...
Rhizobia are soil-bacteria known by their remarkable ability to thrive as oligotrophs and establish ...
Rhizobia are well known for their capacity to establish a symbiosis with legumes. They inhabit root ...
The root nodule symbiosis established between legumes and rhizobia is an exquisite biological intera...
The root nodule symbiosis established between legumes and rhizobia is an exquisite biological intera...
Members of the plant family Leguminosae (Fabaceae) are unique in that they have evolved a symbiotic ...
Legumes are able to form a symbiotic relationship with nitrogen-fixing soil bacteria called rhizobia...
Biological N2 fixation represents the major source of N input in many agricultural soils including t...
International audienceRhizobia are phylogenetically disparate α- and β-proteobacteria that have achi...
Biological nitrogen fixation gives legumes a pronounced growth advantage in nitrogen-deprived soils ...
http://www.soyroothair.org/publications.phpGram-negative soil bacteria (rhizobia) within the Rhizobi...
The specific interaction between rhizobia and legume roots leads to the development of a highly regu...
Symbiotic nitrogen fixation in plants occurs in root nodules of legumes and nonlegumes. The bacteriu...
Legume plants have developed the capacity to establish symbiotic interactions with soil bacteria (kn...
As a major contributor to the reduced nitrogen pool in the biosphere, symbiotic nitrogen fixation by...
The symbiotic relationship between legumes and nitrogen fixing bacteria is critical for agriculture,...
Rhizobia are soil-bacteria known by their remarkable ability to thrive as oligotrophs and establish ...
Rhizobia are well known for their capacity to establish a symbiosis with legumes. They inhabit root ...
The root nodule symbiosis established between legumes and rhizobia is an exquisite biological intera...
The root nodule symbiosis established between legumes and rhizobia is an exquisite biological intera...
Members of the plant family Leguminosae (Fabaceae) are unique in that they have evolved a symbiotic ...
Legumes are able to form a symbiotic relationship with nitrogen-fixing soil bacteria called rhizobia...
Biological N2 fixation represents the major source of N input in many agricultural soils including t...
International audienceRhizobia are phylogenetically disparate α- and β-proteobacteria that have achi...
Biological nitrogen fixation gives legumes a pronounced growth advantage in nitrogen-deprived soils ...
http://www.soyroothair.org/publications.phpGram-negative soil bacteria (rhizobia) within the Rhizobi...
The specific interaction between rhizobia and legume roots leads to the development of a highly regu...
Symbiotic nitrogen fixation in plants occurs in root nodules of legumes and nonlegumes. The bacteriu...
Legume plants have developed the capacity to establish symbiotic interactions with soil bacteria (kn...
As a major contributor to the reduced nitrogen pool in the biosphere, symbiotic nitrogen fixation by...
The symbiotic relationship between legumes and nitrogen fixing bacteria is critical for agriculture,...
Rhizobia are soil-bacteria known by their remarkable ability to thrive as oligotrophs and establish ...
Rhizobia are well known for their capacity to establish a symbiosis with legumes. They inhabit root ...