Several legume genes involved in establishing nitrogen fixation have been discovered using functional genomics; when mutated, the genes affect symbioses, and all encode receptor kinases. This provides long-awaited insights into a complex plant-bacterium interaction and heralds the possibility of extending the range of plants susceptible to nitrogen-fixing nodulation
Legumes can thrive in nitrogen-limited soil by forming a symbiotic relationship with nitrogen-fixing...
Nitrogen is a key element for plant growth. To meet nitrogen demands, some plants establish an endos...
Nitrogen-fixing symbioses between legumes and rhizobia are important for sustainable agriculture and...
Weidner S, Pühler A, Küster H. Genomics insights into symbiotic nitrogen fixation. CURRENT OPINION I...
http://www.soyroothair.org/publications.phpGram-negative soil bacteria (rhizobia) within the Rhizobi...
The root nodule symbiosis established between legumes and rhizobia is an exquisite biological intera...
Nitrogen represents one of the most important elements for plant growth. Therefore various plant lin...
The Green Revolution was accompanied by a huge increase in the application of fertilizers, particul...
Biological nitrogen fixation gives legumes a pronounced growth advantage in nitrogen-deprived soils ...
The symbiotic relationship between legumes and nitrogen fixing bacteria is critical for agriculture,...
Legumes are able to form a symbiotic relationship with nitrogen-fixing soil bacteria called rhizobia...
Root nodule bacteria (RNB) or "rhizobia" are a type of plant growth promoting bacteria, typified by ...
Nodulation is a process of organogenesis that results from a symbiotic relationship between legume p...
Given that nodulating plants do not require exogenous nitrogen fertilizer, engineering nodulation in...
Nitrogen is one of the most essential plant nutrients and one of the major factors limiting crop pro...
Legumes can thrive in nitrogen-limited soil by forming a symbiotic relationship with nitrogen-fixing...
Nitrogen is a key element for plant growth. To meet nitrogen demands, some plants establish an endos...
Nitrogen-fixing symbioses between legumes and rhizobia are important for sustainable agriculture and...
Weidner S, Pühler A, Küster H. Genomics insights into symbiotic nitrogen fixation. CURRENT OPINION I...
http://www.soyroothair.org/publications.phpGram-negative soil bacteria (rhizobia) within the Rhizobi...
The root nodule symbiosis established between legumes and rhizobia is an exquisite biological intera...
Nitrogen represents one of the most important elements for plant growth. Therefore various plant lin...
The Green Revolution was accompanied by a huge increase in the application of fertilizers, particul...
Biological nitrogen fixation gives legumes a pronounced growth advantage in nitrogen-deprived soils ...
The symbiotic relationship between legumes and nitrogen fixing bacteria is critical for agriculture,...
Legumes are able to form a symbiotic relationship with nitrogen-fixing soil bacteria called rhizobia...
Root nodule bacteria (RNB) or "rhizobia" are a type of plant growth promoting bacteria, typified by ...
Nodulation is a process of organogenesis that results from a symbiotic relationship between legume p...
Given that nodulating plants do not require exogenous nitrogen fertilizer, engineering nodulation in...
Nitrogen is one of the most essential plant nutrients and one of the major factors limiting crop pro...
Legumes can thrive in nitrogen-limited soil by forming a symbiotic relationship with nitrogen-fixing...
Nitrogen is a key element for plant growth. To meet nitrogen demands, some plants establish an endos...
Nitrogen-fixing symbioses between legumes and rhizobia are important for sustainable agriculture and...
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