Behavioural Neuroscience Laboratory

Organisational unit: Research group

Research areas and keywords

UKÄ subject classification

  • Neurosciences


This is an amazing time to conduct research in neuroscience. Novel technological breakthroughs allow for the manipulation of cell activity, the labelling neural networks, the visualisation of intricate details on a sub-cellular level, the recording of the neural code with high temporal resolution, the studying of gene expression profiles from single cells and even the manipulation of single genes themselves. Only through studying how the brain works, and how behaviour and cognition arises from that neural code we will be able to understand ourselves as well as the working of brains that developed differently. The insights gained will enable us to treat diseases more efficiently in the future.


The overall aim of our research is to form casual relations between cell activity and behaviour. For that purpose, we use technologies that allow for the reversible manipulation of cell activity (opto- and chemogenetics), technologies that allow for the recording of neurotransmitter release at sub-second resolution (amperometry and chronoamperometry), as well as complex and automated behavioural assessment that taps into motor and non-motor domains. We believe that a combination of these technologies will allow us to gain greater insight as well as to make treatments for neurodegenerative disorders safer and more efficient.

Recent research outputs

Sophie V. Precious, Gaynor A. Smith, Andreas Heuer, Ines Jaeger, Emma L. Lane, Stephen B. Dunnett, Meng Li, Claire M. Kelly & Anne E. Rosser, 2020 Apr 7, In: Frontiers in Neuroscience. 14, 312.

Research output: Contribution to journalArticle

Marcus Davidsson, Matilde Negrini, Swantje Hauser, Alexander Svanbergsson, Marcus Lockowandt, Giuseppe Tomasello, Fredric P. Manfredsson & Andreas Heuer, 2020, In: Scientific Reports. 10, 1, 21532.

Research output: Contribution to journalArticle

View All (7)