Neuronal Rhythms in Movement Unit (Marylka Yoe Uusisaari)

Virtually all animal and human behaviour is ultimately enacted through motion, brought about by deliberate and precise muscle activity coordinated across the entire body. Indeed, even simple behaviours and movements (such as raising a glass or sitting down) involve orchestrated adjustments in muscle activities in multitude of kinematic elements of the body. The transformation of abstract and distributed patterns of neural activity in the various planning-related brain structures into these concrete and timely actions requires a reliable temporal code to be used as a framework for behaviour.

File:Marylka Yoe Uusisaari Unit (40506931764).jpg - Wikimedia Commons

Genetic silencing of olivocerebellar synapses causes dystonia-like behaviour in mice

Cerebellum Lecture: the Cerebellar Nuclei—Core of the Cerebellum

In vivo Calcium Imaging in Mouse Inferior Olive

OIST Groups

Frontiers Imaging Subthreshold Voltage Oscillation With Cellular Resolution in the Inferior Olive in vitro

Variability and directionality of inferior olive neuron dendrites revealed by detailed 3D characterization of an extensive morphological library

Rhythmic Episodes of Subthreshold Membrane Potential Oscillations in the Rat Inferior Olive Nuclei In Vivo

Seminar by Prof. Fred W. Turek Mechanisms Linking Circadian Clocks to Sleep, Feeding Cycles, Seasonal Rhythms, and the Impact of Artificial Light at Night on Human Rhythms

FY2022 Annual Report

How inhibitory and excitatory inputs gate output of the inferior olive

FY2018 Annual Report

Group Photos

Group Photos

Da GUO, PostDoc Position, PhD, Okinawa Institute of Science and Technology, Okinawa, OIST, Neuronal Rhythms in Movement Unit