All Lotus japonicus articles
-
NewsAncestral motif enables broad DNA binding by NIN, a master regulator of rhizobial symbiosis
Researchers investigated the molecular mechanisms whereby the transcription factor NODULE INCEPTION (NIN) - crucial for rhizobial symbiosis - can bind a broader spectrum of DNA sequences than its close homologs, using the legume Lotus japonicus (Miyakogusa) as a model system.
-
NewsTwo amino acids help plants decide whether to welcome or repel nitrogen-fixing bacteria
Researchers are one step closer to understanding how some plants survive without nitrogen - a breakthrough that could eventually reduce the need for artificial fertilizer in crops such as wheat, maize, or rice.
-
NewsGatekeeping barriers manage communications between plants and bacteria
For over a century, the Casparian strip has been known as the root’s doorman, controlling what enters the plant. But a new study reveals it has a second job: regulating the delicate metabolic trade between plants and bacteria.
-
NewsRhythm led by plants is crucial for symbiosis with nutrient-providing bacteria
Recent research on Lotus japonicus has unveiled that the interaction between legume roots and rhizobia is characterized by periodic gene expression with a six-hour rhythm, maintained with the help of the plant hormone cytokinin.