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#precommitment — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #precommitment, aggregated by home.social.

  1. @elduvelle_neuro @Andrewpapale
    @BrianMSweis

    #CrossSpecies #neuroscience

    As Andy Papale said, we have a bunch of papers with both rats and mice on the #RestaurantRow task. (The data is all in nature.com/articles/s42003-022, and publicly available.) Generally, we talk about similarities, but mice learn slower. Rats show the transition from wait zone to #precommitment in the offer zone in a few days, while mice take a lot longer.

    Another space where I think there have been rat and mouse comparisons (although I don't find any explicit comparisons) is in the place field stability literature. My memory is that Cliff Kentros had really cool data on (#PlaceCell) #PlaceField stability as a function of #hippocampus #dopamine levels and task. (nature.com/articles/s42003-022) Rats tended to live on the high-DA (place cells are stable) side while mice tended to live on the low-DA (place cells are unstable) side. But both could be manipulated with tasks and #dopamine (ant)agonists. I don't know if anyone explicitly looked at this.

  2. @elduvelle_neuro @Andrewpapale
    @BrianMSweis

    #CrossSpecies #neuroscience

    As Andy Papale said, we have a bunch of papers with both rats and mice on the #RestaurantRow task. (The data is all in nature.com/articles/s42003-022, and publicly available.) Generally, we talk about similarities, but mice learn slower. Rats show the transition from wait zone to #precommitment in the offer zone in a few days, while mice take a lot longer.

    Another space where I think there have been rat and mouse comparisons (although I don't find any explicit comparisons) is in the place field stability literature. My memory is that Cliff Kentros had really cool data on (#PlaceCell) #PlaceField stability as a function of #hippocampus #dopamine levels and task. (nature.com/articles/s42003-022) Rats tended to live on the high-DA (place cells are stable) side while mice tended to live on the low-DA (place cells are unstable) side. But both could be manipulated with tasks and #dopamine (ant)agonists. I don't know if anyone explicitly looked at this.

  3. @elduvelle_neuro @Andrewpapale
    @BrianMSweis

    #CrossSpecies #neuroscience

    As Andy Papale said, we have a bunch of papers with both rats and mice on the #RestaurantRow task. (The data is all in nature.com/articles/s42003-022, and publicly available.) Generally, we talk about similarities, but mice learn slower. Rats show the transition from wait zone to #precommitment in the offer zone in a few days, while mice take a lot longer.

    Another space where I think there have been rat and mouse comparisons (although I don't find any explicit comparisons) is in the place field stability literature. My memory is that Cliff Kentros had really cool data on (#PlaceCell) #PlaceField stability as a function of #hippocampus #dopamine levels and task. (nature.com/articles/s42003-022) Rats tended to live on the high-DA (place cells are stable) side while mice tended to live on the low-DA (place cells are unstable) side. But both could be manipulated with tasks and #dopamine (ant)agonists. I don't know if anyone explicitly looked at this.

  4. @elduvelle_neuro @Andrewpapale
    @BrianMSweis

    #CrossSpecies #neuroscience

    As Andy Papale said, we have a bunch of papers with both rats and mice on the #RestaurantRow task. (The data is all in nature.com/articles/s42003-022, and publicly available.) Generally, we talk about similarities, but mice learn slower. Rats show the transition from wait zone to #precommitment in the offer zone in a few days, while mice take a lot longer.

    Another space where I think there have been rat and mouse comparisons (although I don't find any explicit comparisons) is in the place field stability literature. My memory is that Cliff Kentros had really cool data on (#PlaceCell) #PlaceField stability as a function of #hippocampus #dopamine levels and task. (nature.com/articles/s42003-022) Rats tended to live on the high-DA (place cells are stable) side while mice tended to live on the low-DA (place cells are unstable) side. But both could be manipulated with tasks and #dopamine (ant)agonists. I don't know if anyone explicitly looked at this.

  5. @elduvelle_neuro @Andrewpapale
    @BrianMSweis

    #CrossSpecies #neuroscience

    As Andy Papale said, we have a bunch of papers with both rats and mice on the #RestaurantRow task. (The data is all in nature.com/articles/s42003-022, and publicly available.) Generally, we talk about similarities, but mice learn slower. Rats show the transition from wait zone to #precommitment in the offer zone in a few days, while mice take a lot longer.

    Another space where I think there have been rat and mouse comparisons (although I don't find any explicit comparisons) is in the place field stability literature. My memory is that Cliff Kentros had really cool data on (#PlaceCell) #PlaceField stability as a function of #hippocampus #dopamine levels and task. (nature.com/articles/s42003-022) Rats tended to live on the high-DA (place cells are stable) side while mice tended to live on the low-DA (place cells are unstable) side. But both could be manipulated with tasks and #dopamine (ant)agonists. I don't know if anyone explicitly looked at this.

  6. #Precommitment:

    -I have drafts of two papers and the base code of another one with some promising results laying around on my hard drive for quite some time! Let's start working on them!

    -I should dedicate my time to one and only one task/project, but it's almost impossible. So I'm going to spend each day of the week on just one topic: 1- writing papers 2- applying for Ph.D. positions 3- working on my deep learning coding skills :mastodon_oops: 4- improving my English spelling :thisisfine:

  7. #Precommitment:

    -I have drafts of two papers and the base code of another one with some promising results laying around on my hard drive for quite some time! Let's start working on them!

    -I should dedicate my time to one and only one task/project, but it's almost impossible. So I'm going to spend each day of the week on just one topic: 1- writing papers 2- applying for Ph.D. positions 3- working on my deep learning coding skills :mastodon_oops: 4- improving my English spelling :thisisfine: