Work performed:
Established a multi-sensory timing task. Performed two-photon imaging, optogenetics, and electrical recording in mice during the task. Wrote a manuscript describing the results. Supervised and trained students to do experiments and analysis, and make figures.
Overview of the results:
Optogenetic stimulation of Purkinje cell output from Crus I delays or abolishes sensory-evoked motor responses in the multi-sensory timing task, demonstrating that this region is crucial for this behaviour. Two-photon calcium imaging of climbing fibre responses during the task revealed that their activity contains sensory information that is consistently organised into parasagittal bands. Spatiotemporal activity patterns within individual bands faithfully encode sensorimotor contexts and the temporal precision of motor initiation.
Exploitation and dissemination:
Presented the results in international conferences. Publish in a high impact journal to disseminate the results to broader readership.