Symbiotic nitrogen fixation in legume root nodules is fueled by carbon supplied by the host ... However, important variabilities in terms of growth, photosynthesis, nitrogen assimilation and carbon ...

Its roots form small and variously shaped nodules that engage in a symbiotic association with nitrogen-fixing bacteria ... The position of the nodule on the root, the type of soil in which ...

Another worrying aspect? Peas carry root nodules inhibited by nitrogen-fixing bacteria, which can be damaged during transplantation. This consequently impairs nutrient intake. There is a reason ...

They grow special root nodules that house friendly bacteria called rhizobia, which take nitrogen from the air and convert it into a form plants can use. In exchange, the bacteria get sugars from the ...

Although decisive in all organisms, these are even more vital in beans, as they play a crucial role in the assimilation of the nitrogen fixed in the nodules. Thus ... such as the regulation of root ...

Although decisive in all organisms, these are even more vital in beans, as they play a crucial role in the assimilation of the nitrogen fixed in the nodules ... regulation of root growth, and ...

Legumes are renowned for their ability to fix atmospheric nitrogen (N) through biological nitrogen fixation ... which has great affinity for oxygen and regulates oxygen concentration in root nodules, ...

Researchers demonstrate that the plant hormone gibberellin (GA) is essential for the formation and maturation of nitrogen-fixing root nodules in legumes and can also increase nodule size.

While symbiotic root nodules are specialized structures that are induced in response to nitrogen fixing soil bacteria in the roots of legumes, the researchers found a re-networking of pre-existing ...