We just released a manuscript on @biorxiv_neursci in which we study the activity of grid cells in mice performing a path integration task.
https://t.co/JBPu3SxRqO
This is a (long) thread summarizing our main findings.
Dear colleagues, please circulate these ads for two fully funded PhD positions in my new group. Topics can cover grid cells, retrosplenial cortex, head direction, subiculum and boundary coding + cog maps generally. https://t.co/TMb2jQ5UVs
New paper alert! The subiculum (SUB) is the major output structure of hippocampal information. We previously reported that SUB neurons encode and route diverse navigational information (Kitanishi et al., 2021), but the representation as a neuronal population was unclear.
We are hiring! If you are passionate about circuit and behavioral neuroscience and want to learn about neuropeptides, apply for our @ERC_Research-funded RA/Technician position @MedUni_Wien: https://t.co/yY8XB2ainY. Please RT!
Only 6 days left to submit abstracts for the hippocampus green meeting
https://t.co/qfKkTuFMI8
Join us for this 2-day conference focusing on hippocampal physiology, network dynamics, and the phenomenon of replay in freely behaving animal models (London, June 10-11, 2024)
@LMPrida@JuanPQuinta Thanks! The lever is on wheels and can be instructed to move to any location on the arena. We track the lever position with a CNN.
We just released a manuscript on @biorxiv_neursci in which we study the activity of grid cells in mice performing a path integration task.
https://t.co/JBPu3SxRqO
This is a (long) thread summarizing our main findings.
New paper from the lab 🥳 @NatureNeuro
The 'internal compass' can do more than tracking head-direction (HD) 👉 thalamic HD cells respond to sensory stimuli and are modulated by behavioral state (e.g. during social interactions)
https://t.co/q4arkaUxDz
14/14. This work was made possible by exceptional teamwork from several lab members, including @JingjiePeng, Beate Throm, @MaryamnB, Ting-Yun Yen, and Hannah Monyer. We also thank the @dfg_public and Manfred Lautenschläger Foundation for their support.
13/14. These findings demonstrate that grid cells can change their anchoring point as an animal navigates using self-motion cues. The change of reference frame occurs via a translation of the grid pattern. The orientation of the grid pattern predicts homing behavior.