Legume plants regulate their symbiotic relationship with soil bacteria by using cytokinins—signaling molecules that are transmitted through the plant structure from leaves into the roots to control ...

Aeschynomene fluminensis Vell., originally obtained from flooded areas of the Pantanal Matogrossense region of Brazil, was grown under stem-flooded or non-flooded conditions for 70 d after inoculation ...

Visual assessment of the accuracy of the (semi) automatic segmentation of soybean nodule vasculature using Biomedisa’s smart interpolation algorithm. A research team used synchrotron-based X-ray ...

Scientists have elucidated how NodD recognizes flavonoids by resolving, for the first time, the high-resolution crystal structure of the complex formed between the NodD protein of pea rhizobia and the ...

My laboratory research has focused on the symbiotic association of nitrogen-fixing Rhizobium meliloti with its host plant alfalfa. The specific interaction of the bacteria with alfalfa root hairs ...

This is a preview. Log in through your library . Abstract Transformed hairy roots were induced at the excised site of the epicotyl of dry mature seed of a Spanish type peanut (Arachis hypogaea) cv.

Researchers have unveiled a groundbreaking discovery shedding light on the intricate play between legume plants and nitrogen-fixing bacteria. Their study details the crucial role played by ...

A genetic “off switch” that shuts down nitrogen fixation when soil nitrate levels are high has been identified by a global group of scientists. The regulator gene was successfully removed, to enable ...

A new study shows that legume plants regulate their symbiotic relationship with soil bacteria by using cytokinins—signaling molecules—that are transmitted through the plant structure from leaves into ...