Add to ORKGRhizobia induce nodule formation on legume roots and differentiate into bacteroids, which catabolize plant-derived dicarboxylates to reduce atmospheric N2 into ammonia. Despite the agricultural importance of this symbiosis, the mechanisms that govern carbon and nitrogen allocation in bacteroids and promote ammonia secretion to the plant are largely unknown. Using a metabolic model derived from genome-scale datasets, we show that carbon polymer synthesis and alanine secretion by bacteroids facilitate redox balance in microaerobic nodules. Catabolism of dicarboxylates induces not only a higher oxygen demand but also a higher NADH/NAD+ ratio than sugars. Modeling and 13C metabolic flux analysis indicate that oxygen limitation restricts the dec...
Rhizobia are α- and β-proteobacteria that form a symbiotic partnership with legumes, fixing atmosphe...
Genome-scale metabolic network models can be used for various analyses including the prediction of m...
In this thesis the metabolic flow of carbon and electrons enabling N2 fixation in the agriculturally...
Rhizobia induce nodule formation on legume roots and differentiate into bacteroids, which catabolize...
Nitrogen fixation within legume nodules results from a complex metabolic exchange between bacteria o...
The biological reduction of atmospheric N2 to ammonium (nitrogen fixation) provides about 65% of the...
The biological reduction of atmospheric N-2 to ammonium (nitrogen fixation) provides about 65% of th...
Symbiotic nitrogen fixation in rhizobial-legume symbioses is important for agriculture and the estab...
One of the largest contributions to biologically available nitrogen comes from the reduction of N-2 ...
The reduction of atmospheric nitrogen (N2) to ammonia (N2 fixation) by bacteria (rhizobia) living sy...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
Biological nitrogen fixation in rhizobium-legume symbioses is of major importance for sustainable ag...
Bacteria have evolved a wide variety of metabolic strategies to cope with varied environments. Some ...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
Within legume root nodules, rhizobia differentiate into bacteroids that oxidise host-derived dicarbo...
Rhizobia are α- and β-proteobacteria that form a symbiotic partnership with legumes, fixing atmosphe...
Genome-scale metabolic network models can be used for various analyses including the prediction of m...
In this thesis the metabolic flow of carbon and electrons enabling N2 fixation in the agriculturally...
Rhizobia induce nodule formation on legume roots and differentiate into bacteroids, which catabolize...
Nitrogen fixation within legume nodules results from a complex metabolic exchange between bacteria o...
The biological reduction of atmospheric N2 to ammonium (nitrogen fixation) provides about 65% of the...
The biological reduction of atmospheric N-2 to ammonium (nitrogen fixation) provides about 65% of th...
Symbiotic nitrogen fixation in rhizobial-legume symbioses is important for agriculture and the estab...
One of the largest contributions to biologically available nitrogen comes from the reduction of N-2 ...
The reduction of atmospheric nitrogen (N2) to ammonia (N2 fixation) by bacteria (rhizobia) living sy...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
Biological nitrogen fixation in rhizobium-legume symbioses is of major importance for sustainable ag...
Bacteria have evolved a wide variety of metabolic strategies to cope with varied environments. Some ...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
Within legume root nodules, rhizobia differentiate into bacteroids that oxidise host-derived dicarbo...
Rhizobia are α- and β-proteobacteria that form a symbiotic partnership with legumes, fixing atmosphe...
Genome-scale metabolic network models can be used for various analyses including the prediction of m...
In this thesis the metabolic flow of carbon and electrons enabling N2 fixation in the agriculturally...