Plants have evolved diverse strategies to meet their nutritional needs. Parasitic plants
employ haustoria, specialized structures that facilitate invasion of host plants and nutrient …

Root nodule development plays a vital role in establishing the mutualistic relationship
between legumes and nitrogen-fixing rhizobia. Two primary processes are involved in …

Phytohormones possess unique chemical structures, and their physiological effects are
regulated through intricate interactions or crosstalk among multiple phytohormones. MALDI …

Legumes establish a symbiotic relationship with nitrogen-fixing rhizobia by developing
nodules. Nodules are modified lateral roots that undergo changes in their cellular …

MicroRNAs (miRNAs) are important regulators of plant biological processes, including
soybean nodulation. One miRNA, miR4407, was identified in soybean roots and nodules …

We report a public resource for examining the spatiotemporal RNA expression of 54,893
Medicago truncatula genes during the first 72 h of response to rhizobial inoculation. Using a …

Many legume plants form beneficial associations with rhizobial bacteria that are hosted in
new plant root organs, nodules, in which atmospheric nitrogen is fixed. This association …

Plant hormones are essential and structurally diverse molecules that regulate various
aspects of plant growth, development, and stress responses. However, the precise analysis …

Background The mutualistic beneficial relationship between legume plants and rhizobia
enables the growth of plants in nitrogen-limiting conditions. Rhizobia infect legumes through …

Legumes have the capability to form nodules that facilitate symbiotic nitrogen fixation (SNF)
with rhizobia. Given the substantial energy consumption during the process of SNF, legumes …