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Two postdoctoral positions in neuronal circuit dynamics and behaviour – Germán Sumbre’s lab

The lab uses the zebrafish larva as the experimental model in combination with two-photon calcium imaging and light-sheet microscopy (SPIM) to monitor the dynamics of large neuronal networks, behavioural essays, optogenetics to monitor and manipulate the activity of specific neurons or entire circuits, and mathematical methods for the analysis of high-dimensional large datasets.
Using this multidisciplinary approach we mainly focus on the spontaneous dynamics of large neuronal circuits and their relationship to behaviour.

One postdoctoral position requires a solid background in optics. For the second position, good knowledge in mathematics, physics or computer science are imortant. The candidates should have a strong interest in computational neuroscience and neuronal circuit dynamics.

The ERC-funded positions have 3 years of initial funding with the possibility for extenstion.

Candidates should send a CV, a letter of motivation, and the names of potential referees in a single PDF file to Germán Sumbre (German.sumbre chez ens.fr)

Team webpage : www.zebrain.biologie.ens.fr

Relevant publications :

Pérez-Schuster V et al. Sustained Rhythmic Brain Activity Underlies Visual Motion Perception in Zebrafish (2016). Cell Reports. 17, 4:1098-1112.

Jouary A et al. (2016) A 2D virtual reality system for visual goal-driven navigation in zebrafish larvae. Scientific Reports. 6, 34015.

Candelier R et al. (2015) A microfluidic device to study neuronal and motor responses to acute chemical stimuli in zebrafish. Scientific Reports. 5, 12196.

Romano SA et al. (2015) Spontaneous Neuronal Network Dynamics Reveal Circuit’s Functional Adaptations for Behavior. Neuron. 85(5):1070-85.

Sumbre G, Muto A, Baier H and Poo MM. (2008) Entrained rhythmic activities of neuronal ensembles as perceptual memory of time interval. Nature 456(7218):102-106.