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Long-term motor recovery after musculoskeletal alteration relies on gradually developing novel compensatory movements to overcome the rigid, maladaptive timing of stable muscle synergies.

Esr1 directs adolescent transcriptional maturation of medial preoptic GABAergic neurons, enabling the normal development of mating behavior in male and female mice.

Disrupting oligodendrocytes during a narrow early-life window leaves cerebellar circuits permanently mistimed, but adult re-synchronization restores social and motor behavior.

A genetic analysis in yeast establishes that multicellularity can arise as a side-effect (passenger phenotype) of a completely independent fitness advantage unrelated to the benefits of group formation itself.

Enterovirus D68, a cause of acute flaccid myelitis, disrupts the composition and function of the nuclear pore complex primarily through its 2A protease, which is also toxic to motor neurons.

A multi-step ribosome assembly method involving changes in ion concentration and temperature can now be carried out in a single step using the two GTPase factors, EngA and ObgE.

Terminal tracheal cells in Drosophila evade innate immune activation, revealing a fundamental trade-off in which suppression of canonical immune signaling preserves Foxo-dependent plasticity and sustains respiratory function.

Cellular mechanotransmission depends on nuclear lamina composition, where A-type and B-type lamins define distinct nuclear mechanical responses, and microtubules dynamically buffer intracellular tension.

Presynaptic endocytic machinery is constitutively deployed to periactive zones, indicating independent assembly pathways for the exo- and endocytic machineries of nerve terminals.

Genome-wide maps of chromatin structure in a cell-based model of breast cancer reveal chromatin reorganization accompanied by changes in transcription and epigenetic marks.