The RNA binding protein Sam68 links a key metabolic route to the neural stem cell fate in the developing mouse brain.

SIRT1, a cellular metabolic sensor, transcriptionally promotes sphingomyelin degradation in embryonic stem cells, which in turn modulates their membrane fluidity and neural differentiation.

Neuropeptide F/Y from neurons drives rhythmic expression of detoxification-related genes in a peripheral metabolic tissue in flies and mice.

The shutoff of aerobic glycolysis in neuronal differentiation is essential for neuronal survival.

The coupling between neural oscillatory activity, haemodynamics, and metabolism is localised to the temporo-parietal region in response to social stimuli, providing evidence of the importance of investigating the energetic basis of brain functional specialisation.

Recurrent neural network models enable prediction and design of health-relevant metabolite dynamics in synthetic human gut communities.

Distinct metabolic states coupled with differing morphogen levels regulate HC morphology along the tonotopic axis of the developing chick auditory organ.

Cognitive performance is supported by symbiotic metabolic and neuro-vascular responses in task-specific brain networks.

A genetic basis underlying cell resilience against metabolic stress in cells of a hibernator, Arctic ground squirrels, has been discovered.

The dynamical solutions exhibited by task-optimized recurrent neural networks, and their similarity to prefrontal cortex dynamics, depends strongly on the strength of neural noise and metabolic cost imposed during training.