To study behavioral flexibility in freely-moving mice, we developed a versatile, low-cost, open-source behavioral setup, called FreiBox, allowing us to investigate the neuronal correlates of licking-based behavioral flexibility.
Optophysiology Lab
Our Research
The ability to move is a fundamental feature of most animals which allows them to actively interact with our environment. We are investigating the underlying neural mechanisms and circuits of this ability. We do so with electrophysiological recordings and optogenetic manipulations combined with behavioral analysis. We look into the local processing of movement preparation and generation in the motor cortex as well as higher order structures, e.g. prefrontal cortex.
The goal is to create a better understanding of how neural subpopulations and pathways within and across brain areas influence motor behavior. In order to address these scientific aims we are constantly working on improving the existing techniques. We currently focus on the design of new optoelectronic probes and targeting strategies. Apart from advancing our basic knowledge about the neural mechanisms of movements, our results might help improving the design of new prosthetic devices and understanding of disorders in which the normal production of movements is disrupted.
Current News
New Article Published in Neuron
This study proposes an unitary concept that, leveraging a cross-species definition of prefrontal regions, explains how prefrontal ensembles adaptively regulate and efficiently coordinate multiple processes in distinct cognitive behaviors.
New Article Published in bioRxiv
This study provides mechanistic insights into the interactions between the rostral forelimb area (RFA) and the caudal forelimb area (CFA). Specifically, we provide evidence for a differential impact of RFA on CFA depending on the task phase and the targeted CFA layers.
Open Positions
Vacancy
July, 2023 – We are looking for a PhD (m/f/d) Student in Neuroscience (2-Photon Imaging)
Are you ready to embark on a thrilling journey into the intricate world of neuroscience? Do you possess a relentless curiosity, thrive in collaborative environments, and have the motivation to tackle complex challenges in experimental and computational neuroscience?
IMBIT Opening
Make thinking visible
Research Unit 5159
Our FreiBox paper is out: It describes a low-cost platform to study behavioral flexibility with 1-photon calcium imaging via an Arduino based behavioral box and an affordable commutator for neuronal recordings. #neuroscience #behaviorflexibility
Great teamwork and effort by @HanganuOpatzLab, Thomas Klausberger, @TorfiSigurdsson, Andreas Nieder, @lab_jacob, @bartos_marlene, @JonasFSauer, @DurstewitzLab, Christian Leibold, and @ilka_diester. Thanks to all of you!
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