Direct cortical recordings in humans link the spectral structure of local field potentials to inhibition/disinhibition mechanisms coordinating sensorimotor neuronal populations during movement imagery.

The projections from discrete areas to motor cortex increase over disease course in motoneuron disease model with selective spatial and temporal patterns.

Membrane receptor proteins move through primary cilia largely by passive diffusion rather than by active intraflagellar transport.

Cross-species alignment based on cortical myelin content can dissociate cortical expansion and relocation from changes in connectivity profiles in the temporal lobe of higher primates.

Bacteria reach swimming speeds of several hundred body lengths per second and change direction in less than 5 ms by using coordinated flagella bundle agitation.

Compressing the actomyosin network by cortical flow causes filaments to align and form a constricting ring.

An area of visual-motor cortex called the lateral intraparietal area encodes eye position signals that support visually-guided behaviors and image stabilization.

Neurite geometry enables expansive and highly-branched neuronal structures to operate like single electrical compartments and simple linear integrators.

In motor cortex pyramidal neurons, diverse task-related signals are distributed throughout the dendritic arbor and compartmentalized by dendritic distance and branching.

Detailed analysis of fMRI data shows that sequences of movements are associated with individual patterns of neural activity that become more distinct with training.