Browse our latest Neuroscience articles

The predictive power of a computational model advances understanding of the neuronal and circuit biophysical mechanisms that generate the respiratory rhythm and neural activity patterns in the mammalian brainstem.

Sigma oscillations have a dual role in motor memory consolidation depending on their temporal coordination with slow waves during post-learning sleep.

The areas of the cerebral cortex that are necessary for mice to perform goal-directed navigation differ depending on previous experience in cognitively challenging tasks.

Compensatory head movements in hawkmoths are influenced by the combined feedback from vision and antennal mechanosensory Johnston’s organs, similar to the combined role of vision and halteres in Diptera.

Increased usability and validity of neuroscience models, through FAIR workflows for the whole modeling process, including data and model management, parameter estimation, uncertainty quantification, and model analysis.

Naturalistic animal behavior exhibits a complex organization in the temporal domain, whose variability stems from hierarchical, contextual, and stochastic sources and can be naturally explained in terms of metastable attractor models.

V1 damage impairs unconscious following movements of stimulus motion, even after conscious perception has been restored through psychophysical training, thus demonstrating distinct neural pathways for perception and action.

Structural differences in adolescent brains associated with binge drinking might be preceding the onset of such behavior, suggesting a reevaluation of studies of the effects of alcohol on the adolescent brain.

Two-photon imaging through glass microperiscopes allows imaging of the transverse plane of the hippocampus, including all major subfields, in awake behaving mice.

The underlying neurophysiology of the lateral line system in blind cavefish (Astyanax mexicanus) has evolutionarily converged on elevated afferent neuron activity and partial loss of function in inhibitory efferent neurons, both of which contribute to enhanced sensitivity to flow stimuli.