The legume-rhizobium symbiosis is of immense biological and ecological importance. It is a major contributor to the global nitrogen cycle, and serves as a model to study plant–microbe interactions.

They discovered that the absence of legume-rhizobia symbiosis causes drastic changes in the composition of the microbial communities present in the root. These changes also remain stable under ...

In a process called root nodule symbiosis, legumes form a new organ called the nodule where specific soil bacteria, called rhizobia are hosted. Inside the nodule, rhizobia convert atmospheric ...

Legumes form a unique symbiotic relationship with bacteria known as rhizobia, which they allow to infect their roots. This leads to root nodule formation where bacteria are accommodated to convert ...

When rhizobia infect legume roots, root epidermal cells form ... Other genes essential for early responses during nodule symbiosis also displayed oscillatory expression patterns, marking the ...

Legumes and rhizobia engage in symbiotic relations upon nitrogen starvation, allowing the plant to thrive without the need for externally supplied nitrogen. Symbiotic nodules are formed on the ...

When rhizobia infect legume roots, root epidermal cells form ... Other genes essential for early responses during nodule symbiosis also displayed oscillatory expression patterns, marking the ...

Legumes are of significant agricultural importance mainly due to their abilities to establish symbiotic relationship with nitrogen-fixing bacteria known as rhizobia. A deeper understanding of ...

Legumes form a unique symbiotic relationship with bacteria known as rhizobia, which they allow to infect their roots. This leads to root nodule formation where bacteria are accommodated to convert ...

Legumes form a unique symbiotic relationship with bacteria known as rhizobia, which they allow to infect their roots. This leads to root nodule formation where bacteria are accommodated to convert ...