VTA dopamine neurons are hyperexcitable in 3xTg-AD mice due to casein kinase 2-dependent SK channel dysfunction
Blankenship, Harris E., Carter, Kelsey A., Pham, Kevin D., Cassidy, Nina T., Markiewicz, Andrea N., Thellmann, Michael I., Sharpe, Amanda L., Freeman, Willard M., Beckstead, Michael J.
Published in Nature communications (08.11.2024)
Published in Nature communications (08.11.2024)
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Aged mice exhibit faster acquisition of intravenous opioid self-administration with variable effects on intake
Sharpe, Amanda L, Liter, Laci R, Donohue, Darius, Carter, Kelsey A, Vangeneugden, Patricia, Weaver, Sofia, Stout, Michael B, Beckstead, Michael J
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Published in bioRxiv (07.09.2024)
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VTA dopamine neurons are hyperexcitable in 3xTg-AD mice due to casein kinase 2-dependent SK channel dysfunction
Blankenship, Harris E, Carter, Kelsey A, Cassidy, Nina T, Markiewicz, Andrea N, Thellmann, Michael I, Sharpe, Amanda L, Freeman, Willard M, Beckstead, Michael J
Published in bioRxiv : the preprint server for biology (17.11.2023)
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Published in bioRxiv : the preprint server for biology (17.11.2023)
Journal Article
VTA dopamine neurons are hyperexcitable in 3xTg-AD mice due to casein kinase 2-dependent SK channel dysfunction
Blankenship, Harris E, Carter, Kelsey A, Cassidy, Nina T, Markiewicz, Andrea N, Thellmann, Michael I, Sharpe, Amanda L, Freeman, Willard M, Beckstead, Michael J
Published in bioRxiv (17.11.2023)
Published in bioRxiv (17.11.2023)
Get full text
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