Correction: Reduction of NgR in perforant path decreases amyloid-β peptide production and ameliorates synaptic and cognitive deficits in APP/PS1 mice
Jiang, Rong, Wu, Xue-Fei, Wang, Bin, Guan, Rong-Xiao, Lv, Lang-Man, Li, Ai-Ping, Lei, Lei, Ma, Ye, Li, Na, Li, Qi-Fa, Ma, Quan-Hong, Zhao, Jie, Li, Shao
Published in Alzheimer's research & therapy (27.02.2024)
Published in Alzheimer's research & therapy (27.02.2024)
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Journal Article
Reduction of NgR in perforant path decreases amyloid-β peptide production and ameliorates synaptic and cognitive deficits in APP/PS1 mice
Jiang, Rong, Wu, Xue-Fei, Wang, Bin, Guan, Rong-Xiao, Lv, Lang-Man, Li, Ai-Ping, Lei, Lei, Ma, Ye, Li, Na, Li, Qi-Fa, Ma, Quan-Hong, Zhao, Jie, Li, Shao
Published in Alzheimer's research & therapy (24.04.2020)
Published in Alzheimer's research & therapy (24.04.2020)
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Journal Article
Reduction of NgR in perforant path decreases amyloid-[beta] peptide production and ameliorates synaptic and cognitive deficits in APP/PS1 mice
Jiang, Rong, Wu, Xue-Fei, Wang, Bin, Guan, Rong-Xiao, Lv, Lang-Man, Li, Ai-Ping, Lei, Lei, Ma, Ye, Li, Na, Li, Qi-Fa, Ma, Quan-Hong, Zhao, Jie, Li, Shao
Published in Alzheimer's research & therapy (24.04.2020)
Published in Alzheimer's research & therapy (24.04.2020)
Get full text
Journal Article
Correction: Reduction of NgR in perforant path decreases amyloid-[beta] peptide production and ameliorates synaptic and cognitive deficits in APP/PS1 mice
Jiang, Rong, Wu, Xue-Fei, Wang, Bin, Guan, Rong-Xiao, Lv, Lang-Man, Li, Ai-Ping, Lei, Lei, Ma, Ye, Li, Na, Li, Qi-Fa, Ma, Quan-Hong, Zhao, Jie, Li, Shao
Published in Alzheimer's research & therapy (27.02.2024)
Published in Alzheimer's research & therapy (27.02.2024)
Get full text
Journal Article