It has been super fun to work on this, where we learned that:
1) Mouse PFC is needed for model-based override of habits.
2) Separate PFC populations encode a 'policy' and the current 'value'.
3) The policy and value codes alternate theta sweeps towards the goal.
...and much much more!
This paper is so cool that it’s finally convinced @thomasakam.bsky.social to join Bluesky
This project builds on work establishing the behaviour done at Champalimaud in Lisbon with @michaelfsp.bsky.social, Beatriz Godinho, Christian Machens, and @ruimcosta.bsky.social : www.biorxiv.org/content/10.6...
This is one of the coolest things I have been involved with. Truly flexible navigation in mice. Real insight into how mPFC computes the plans. Great fun to see what PFC is doing with those hippocampal theta sweeps. From the awesome @peterdoohan.bsky.social and (now on bsky) @thomasakam.bsky.social
Action selection using predictive models of the environment plays a fundamental role in human and animal behaviour, yet is poorly understood at circuit and algorithmic levels. Spatial navigation is an...
How do brains plan actions towards goals?
To get at this question we studied mice navigating complex mazes as goals changed on every trial 🧵
Work with @thomasakam.bsky.social @behrenstimb.bsky.social @kristorpjensen.bsky.social now on BioRxiv: www.biorxiv.org/content/10.6...
How do brains plan actions towards goals?
To get at this question we studied mice navigating complex mazes as goals changed on every trial 🧵
Work with @thomasakam.bsky.social @behrenstimb.bsky.social @kristorpjensen.bsky.social now on BioRxiv: www.biorxiv.org/content/10.6...
How do brains plan actions towards goals?
To get at this question we studied mice navigating complex mazes as goals changed on every trial 🧵
Work with @thomasakam.bsky.social @behrenstimb.bsky.social @kristorpjensen.bsky.social now on BioRxiv: www.biorxiv.org/content/10.6...
