Comments on: Are new neurons really more excitable? (yes) http://www.functionalneurogenesis.com/blog/2011/02/are-new-neurons-really-more-excitable-yes/?utm_source=rss&utm_medium=rss&utm_campaign=are-new-neurons-really-more-excitable-yes New neurons in the adult brain. How they work and what they're good for. Wed, 09 May 2012 20:44:23 -0600 http://wordpress.org/?v=2.8.5 hourly 1 By: Enhanced integrative properties of immature neurons #sfn11 | Functional Neurogenesis http://www.functionalneurogenesis.com/blog/2011/02/are-new-neurons-really-more-excitable-yes/comment-page-1/#comment-5539 Enhanced integrative properties of immature neurons #sfn11 | Functional Neurogenesis Wed, 16 Nov 2011 05:49:56 +0000 http://www.functionalneurogenesis.com/blog/?p=1095#comment-5539 [...] lab was the one to answer these questions at SFN. They were the ones who finally definitively showed that immature neurons are indeed more excitable than mature neurons. And on Saturday, Lucas Mongiat [...] [...] lab was the one to answer these questions at SFN. They were the ones who finally definitively showed that immature neurons are indeed more excitable than mature neurons. And on Saturday, Lucas Mongiat [...]

]]> By: Random Roundup | Functional Neurogenesis http://www.functionalneurogenesis.com/blog/2011/02/are-new-neurons-really-more-excitable-yes/comment-page-1/#comment-2892 Random Roundup | Functional Neurogenesis Wed, 20 Apr 2011 22:16:02 +0000 http://www.functionalneurogenesis.com/blog/?p=1095#comment-2892 [...] in inhibition and enhanced survival of neurons born before neurogenesis ablation. Hat tip to Sil for this [...] [...] in inhibition and enhanced survival of neurons born before neurogenesis ablation. Hat tip to Sil for this [...]

]]> By: Sil http://www.functionalneurogenesis.com/blog/2011/02/are-new-neurons-really-more-excitable-yes/comment-page-1/#comment-2814 Sil Tue, 05 Apr 2011 05:59:21 +0000 http://www.functionalneurogenesis.com/blog/?p=1095#comment-2814 Love the blog. If you haven't seen it yet... recently came out in PNAS: "Compensatory network changes in the dentate gyrus restore long-term potentiation following ablation of neurogenesis in young-adult mice" Check out when you have more "infant-free" moments. Not earth-shattering but has some interesting implications for previous studies that base their learning results upon DG plasticity. Love the blog.
If you haven’t seen it yet… recently came out in PNAS:

“Compensatory network changes in the dentate gyrus
restore long-term potentiation following ablation of
neurogenesis in young-adult mice”

Check out when you have more “infant-free” moments. Not earth-shattering but has some interesting implications for previous studies that base their learning results upon DG plasticity.

]]> By: Tweets that mention Are new neurons really more excitable? (yes) | Functional Neurogenesis -- Topsy.com http://www.functionalneurogenesis.com/blog/2011/02/are-new-neurons-really-more-excitable-yes/comment-page-1/#comment-2208 Tweets that mention Are new neurons really more excitable? (yes) | Functional Neurogenesis -- Topsy.com Tue, 22 Feb 2011 01:43:30 +0000 http://www.functionalneurogenesis.com/blog/?p=1095#comment-2208 [...] This post was mentioned on Twitter by Body In Mind and Flipboard Science, ScienceSeeker Feed. ScienceSeeker Feed said: Are new neurons really more excitable? (yes) http://dlvr.it/HCjLM [...] [...] This post was mentioned on Twitter by Body In Mind and Flipboard Science, ScienceSeeker Feed. ScienceSeeker Feed said: Are new neurons really more excitable? (yes) http://dlvr.it/HCjLM [...]

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