The roundworm C. elegans transcriptionally activates five genes comprising an alternate propionate breakdown pathway when dietary vitamin B12 is low or when the canonical pathway is compromised.

A massively multiplexed multi-condition screen shows that protein interactomes are larger than previously thought and contain highly dynamic regions that reorganize to drive or respond to cellular changes.

Rapid evolutionary rewiring of the meiosis transcription network facilitated a switch in the function of a master regulator from regulating meiosis to regulating biofilm formation.

A new method that uses the cellular neuroanatomy of neuronal connectivity to quickly and robustly reconstruct neuronal circuits in Drosophila from large electron microscopy volumes.

Rewiring of transcriptional circuits can preserve a basic output yet alter almost all of the circuit's quantitative and qualitative features.

A biologically plausible learning rule enables recurrent neural networks to model the way in which neural circuits use supervised learning to perform time-dependent computations.

A realistic model of the connections between local populations of neurons in the adult mouse brain can be constructed based on just two biologically plausible rules.

Precisely-timed bursts of closed-loop vagus nerve stimulation during rehabilitation restore neural connectivity and substantially improve recovery of motor function after SCI.

Metabolic activity of the methionine/S-adenosylmethionine cycle is sensed and transcriptionally regulated by a nuclear hormone receptor in Caenorhabditis elegans in order to maintain metabolic homeostasis in a tightly controlled regime.

A genetic mapping study in more than 1000 yeast individuals reveals the complexity of trans-acting genetic influences on transcriptome variation in unprecedented depth and detail.