FERONIA receptor kinase interacts with phosphatidylinositol-anchored proteins LORELEI and LLG1 to ensure its proper functional location in the cell membrane and engages them as co-receptors on the cell surface to mediate a broad spectrum of growth and signaling processes.
Ectopic expression of Symbiosis Receptor-like Kinase (SYMRK) in roots of the legume Lotus japonicus resulted in spontaneous activation of nodule organogenesis and mycorrhiza-related gene expression in the absence of microbial symbionts or signalling molecules.
Auxiliary subunits Neto1 and Neto2 regulate the GluK1 receptor targeting to excitatory silent synapses through different molecular mechanisms and also modify receptor biophysics through distinct mechanisms.
Genetic and biochemical analyses demonstrate that cell-surface lectin receptors can potentially function as extracellular NAD+-binding receptors and provide direct evidence for extracellular NAD+ being a bona fide endogenous signaling molecule in plants.
Glutamatergic projections from basolateral to central amygdala, implicated in neuropsychiatric disorders, develop rapidly during early postnatal period and their development is modulated via endogenously active kainate receptors.
Members of kainate and AMPA families of glutamate receptors exhibit large differences in affinity for homo- and hetero-dimerziation of their amino terminal domains, which may control gating characteristics and ion selectivity of receptor subtypes with different subunit composition.