How do plants create an environment in which symbiotic bacteria can reduce enough N2 to provide the plant with sufficient ammonium for growth? Gene silencing has now been used to show that legume haemoglobins are crucial
Root nodules are complex structures that occur on roots of many agronomically important plants such ...
Nitrogen represents one of the most important elements for plant growth. Therefore various plant lin...
Recent advances in understanding the genetics of nitrogen fixation have provided ideas for novel app...
How do plants create an environment in which symbiotic bacteria can reduce enough N2 to provide the ...
SummaryHemoglobins are ubiquitous in nature and among the best-characterized proteins [1–9]. Genetic...
Hemoglobins are ubiquitous in nature and among the best-characterized proteins. Genetics has reveale...
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...
Nitrogen-fixing bacteria reside in nodules on roots of legumes. Within these nodules, they convert n...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
The Green Revolution was accompanied by a huge increase in the application of fertilizers, particul...
Several legume genes involved in establishing nitrogen fixation have been discovered using functiona...
Rhizobia induce nodule formation on legume roots and differentiate into bacteroids, which catabolize...
It is now established that nitrogen monoxide is produced not only in animals but also in plants. How...
Root nodules are complex structures that occur on roots of many agronomically important plants such ...
Nitrogen represents one of the most important elements for plant growth. Therefore various plant lin...
Recent advances in understanding the genetics of nitrogen fixation have provided ideas for novel app...
How do plants create an environment in which symbiotic bacteria can reduce enough N2 to provide the ...
SummaryHemoglobins are ubiquitous in nature and among the best-characterized proteins [1–9]. Genetic...
Hemoglobins are ubiquitous in nature and among the best-characterized proteins. Genetics has reveale...
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...
Nitrogen-fixing bacteria reside in nodules on roots of legumes. Within these nodules, they convert n...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
Biological nitrogen fixation is vital to nutrient cycling in the biosphere and is the major route by...
The Green Revolution was accompanied by a huge increase in the application of fertilizers, particul...
Several legume genes involved in establishing nitrogen fixation have been discovered using functiona...
Rhizobia induce nodule formation on legume roots and differentiate into bacteroids, which catabolize...
It is now established that nitrogen monoxide is produced not only in animals but also in plants. How...
Root nodules are complex structures that occur on roots of many agronomically important plants such ...
Nitrogen represents one of the most important elements for plant growth. Therefore various plant lin...
Recent advances in understanding the genetics of nitrogen fixation have provided ideas for novel app...
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