Network silencing experiments and cell-specific CRISPR/Cas9 knockouts suggest that network communication is necessary for generating robust rhythms within the clock neuron network.

Variations in the frequency of theta brain waves enable a single network of brain regions to generate appropriate responses to stimuli with different kinds of emotional value.

Children with autism often 'tune out' the voices in their environment and new results show that impaired processing of voices in the brain's reward system may underlie this social behavior.

Oscillatory synchronized hub neurons coordinate neural network activity across multiple brain areas.

Inhibitory noninvasive stimulation to the precuneus disrupts theta and gamma oscillatory coupling between medial temporal lobes and neocortical regions during complex personal memory retrieval.

Large-scale electrocorticography and big data analysis of brain-wide neuronal interactions reveal the architecture of network information flow for context processing in primate brain.

Functional hypoconnectivity between ‘social brain’ default mode circuitry and visual association cortex underpins a subtype of autistic toddlers with a strong preference to attend to the non-social visual world.

Atypical intrinsic neural timescales in the sensory cortex and caudate were associated with local grey matter volume, and linked with the severity of autism.

Changing the order in which presynaptic and postsynaptic cells are repeatedly activated can change what a mammalian visual cortex neuron communicates to downstream neurons.

When choosing between stimuli, the effort required to act on the resulting decision influences the processing of the stimuli themselves.