![Global loss of Neuron‐specific gene 1 causes alterations in motor coordination, increased anxiety, and diurnal hyperactivity in male mice - Austin - 2022 - Genes, Brain and Behavior - Wiley Online Library Global loss of Neuron‐specific gene 1 causes alterations in motor coordination, increased anxiety, and diurnal hyperactivity in male mice - Austin - 2022 - Genes, Brain and Behavior - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/db529786-0c81-4c9f-8805-89fd981ecd40/gbb12816-toc-0001-m.jpg?trick=1694222007644)
Global loss of Neuron‐specific gene 1 causes alterations in motor coordination, increased anxiety, and diurnal hyperactivity in male mice - Austin - 2022 - Genes, Brain and Behavior - Wiley Online Library
![JCM | Free Full-Text | Newly Generated and Non-Newly Generated “Immature” Neurons in the Mammalian Brain: A Possible Reservoir of Young Cells to Prevent Brain Aging and Disease? JCM | Free Full-Text | Newly Generated and Non-Newly Generated “Immature” Neurons in the Mammalian Brain: A Possible Reservoir of Young Cells to Prevent Brain Aging and Disease?](https://pub.mdpi-res.com/jcm/jcm-08-00685/article_deploy/html/images/jcm-08-00685-ag.png?1571536210)
JCM | Free Full-Text | Newly Generated and Non-Newly Generated “Immature” Neurons in the Mammalian Brain: A Possible Reservoir of Young Cells to Prevent Brain Aging and Disease?
![Frontiers | Tyrosine as a Mechanistic-Based Biomarker for Brain Glycogen Decrease and Supercompensation With Endurance Exercise in Rats: A Metabolomics Study of Plasma Frontiers | Tyrosine as a Mechanistic-Based Biomarker for Brain Glycogen Decrease and Supercompensation With Endurance Exercise in Rats: A Metabolomics Study of Plasma](https://www.frontiersin.org/files/Articles/431561/fnins-13-00200-HTML/image_m/fnins-13-00200-g001.jpg)
Frontiers | Tyrosine as a Mechanistic-Based Biomarker for Brain Glycogen Decrease and Supercompensation With Endurance Exercise in Rats: A Metabolomics Study of Plasma
![Porphyromonas gingivalis bacteremia increases the permeability of the blood- brain barrier via the Mfsd2a/Caveolin-1 mediated transcytosis pathway | International Journal of Oral Science Porphyromonas gingivalis bacteremia increases the permeability of the blood- brain barrier via the Mfsd2a/Caveolin-1 mediated transcytosis pathway | International Journal of Oral Science](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41368-022-00215-y/MediaObjects/41368_2022_215_Fig1_HTML.png)