Regnase-1, an RNase suppressing proinflammatory mRNAs, interacts with 14-3-3, which diminishes cytokine mRNA recognition and the nuclear-cytoplasmic shuttling of Regnase-1 under inflammatory conditions.
Integrin- and ERK signaling stimulates mammary epithelial cell proliferation when extracellular collagen condenses, causing asymmetric growth of multicellular aggregates that is necessary for elongation during branching morphogenesis.
Signals recorded directly from human anterior temporal cortex reveal that the brain represents animacy information using a distributed code that changes radically as a stimulus is processed, as predicted by an artificial neural network model.
Genetic disruption of sodium-hydrogen exchanger 6 (NHE6) reduces amyloid plaques in humanized Alzheimer's disease mouse models and restores normal synaptic responses to neuromodulatory input in humanized ApoE4-expressing animals.
A previously uncharacterized type of bivalent chromatin plays an important role controlling the timely induction of genes involved in making a potent defense metabolite upon a pathogen signal in Arabidopsis.
Central damage and sensory deprivation caused by noise-induced hearing loss in the pre-symptomatic Alzheimer's disease (AD) phase can compromise auditory cortex-hippocampal circuitry, targeting common pathogenetic pathways, thereby accelerating onset and progression of AD phenotype.
Acetylcholine, released from cholinergic fibers originating from the medial septum, shapes social memory, and controls the CA2 hippocampal circuit via nicotinic receptors localized on GABAergic interneurons.
Digital reconstruction of environment combined with eye and head-tracking enabled the process of prey-detection and capture to be seen from the freely moving mouse’s point-of-view and shows the exact visual-field and retinal location mice use when chasing prey and the advantage.
CA1 and PFC bridge the temporal gap between cue and reward delivery during trace conditioning according to different underlying coding principles and task-related activity is reactivated during awake Sharp-Wave Ripples.