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Live cell tracking of labeled DNA reveals that replisome loading rather than DNA synthesis decreases the chromatin motion during S-phase in human cells.

Cross-frequency synchronization of neuronal oscillations in visual and attentional brain systems predicts human working memory performance.

In vitro and in vivo physiological analyses reveal that mammalian auditory neuron intrinsic mechanical sensitivity contributes to sound-evoked activity and explains other previously unexplained auditory neuron features.

Direct and indirect pathways in the basal ganglia have opposing effects not only on action performance but also on internal timing of expected reward delivery.

Establishment of replication-timing involves Fkh1-dependent recruitment and execution of DDK function in G1 phase resulting in dynamic relocalization of origins within the nucleus in anticipation of CDK-dependent origin activation.

The retinoblastoma tumor suppressor regulates cell cycle progression when it's in 14 mono-phosphorylated isoforms.

DNA replication initiation proteins contain a disordered domain that impacts each stage of their function, from chromatin recruitment and initiator co-assembly to the subsequent displacement of the factors from chromatin.

A computational framework and analysis of rodent CA1 data reveals that theta oscillations sequentially sweep through the past, present, and future at a spatial scale that varies with the characteristic speed of the animal.

Protein phase separation provides an explanation for the compositional flexibility of endocytic initiation and the role of multivalent disordered scaffolds in endocytosis.

Critical networks show maximum pre-stimulus phase and amplitude regulation of stimulus-evoked responses.