Browse our latest Neuroscience articles

The molecular, cellular, and spatial heterogeneity of adult human spinal cord serve as an important resource to explore the mechanisms underlying spinal cord physiology and diseases.

A generative-model-based, unsupervised learning toolbox for characterizing oscillatory bursting and brain network dynamics in univariate or multivariate time series.

The Wnt antagonist DKK3 is a key regulator of excitatory and inhibitory synapses, and its downregulation in the hippocampus restores synaptic connectivity and memory in an Alzheimer's disease mouse model.

The large range of timescales empirically observed in neural circuits can be naturally explained when neural assemblies of heterogeneous size are recurrently coupled, empowering the neural circuits to efficiently process complex time-varying input signals.

Unipolar brush cells subtypes, classified by their excitatory or inhibitory response to glutamate, form circuits with one another that may enhance the capacity of the cerebellum to transform input signals.

Potassium presumably binds to the Na1 site in LeuT, playing a role in inwardly rectifying the transport of substrates.

Mouse superior colliculus is involved in figure detection based on differences in contrast and texture orientation and phase.

Improved cell-type-specific genetic drivers for the study of learning and memory and other complex behaviors in Drosophila are provided and validated.

Large-scale modeling of the mouse brain revealed that working memory is modular and determined by long-range cell type-specific connections, thereby providing a framework to interpret brain-wide recordings during cognition.