Yu Mu
Peking University
4 Papers
22 Citations
Yu Mu is an academic researcher from Peking University. The author has contributed to research in topics: Neural stem cell & Embryonic stem cell. The author has an hindex of 3, co-authored 4 publications. Previous affiliations of Yu Mu include McGovern Institute for Brain Research & Peking Union Medical College.
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Papers
Role of vesicle pools in action potential pattern-dependent dopamine overflow in rat striatum in vivo.
Shirong Wang,Wei Yao,Hong-Ping Huang,Bo Zhang,Zuo Panli,Liang Sun,Haiqiang Dou,Qing Li,Xinjiang Kang,Huadong Xu,Meiqin Hu,Mu Jin,Lei Zhang,Yu Mu,Ji-Yun Peng,Claire Xi Zhang,Jiuping Ding,Bao-Ming Li,Zhuan Zhou +18 more
TL;DR: In this paper, the authors examined the effects of vesicle pools on AP-pattern dependent dopamine (DA) overflow and found that the fast-releasable pool (FRP) predominantly contributed to facilitating burst-effect and the FRP played an important role in depressing-burst effect.
22
•Journal Article
[Real-time measurement of noradrenaline release in central nervous system].
Wei Huang,Hong-Ping Huang,Yu Mu,Lei Zhang,Mu Jin,Jing Lv,Jing-Li Gu,Yun Xiu,Bo Zhang,Ning Guo,Liu Tao,Lei Sun,Mei-Ying Song,Claire Xi Zhang,Huai-Zhen Ruan,Zhuan Zhou +15 more
TL;DR: Compared to the electrophysiological method and fluorescence microscopy, the basic usage of the carbon fiber electrode (CFE) in neuroscience research was presented and a primary description of ion channels, including voltage-gated Na(+), K(+) and Ca(2+) channels in locus coeruleus neurons in rat brain slices were presented.
1
Hypocretin-1 Potentiates NMDA Receptor-Mediated Somatodendritic Secretion from Locus Ceruleus Neurons
Xiaowei Chen,Yu Mu,Hong-Ping Huang,Ning Guo,Bo Zhang,Shuangyi Fan,Jiaxiang Xiong,Shirong Wang,Wei Xiong,Wei Huang,Liu Tao,Lianghong Zheng,Claire Xi Zhang,Li-Huan Li,Zhengping Yu,Zhian Hu,Zhuan Zhou +16 more
TL;DR: The results suggest that HCRT modulates LC activity not only by regulating noradrenergic input to its targets, but also by affecting nor adrenergic communication in the soma and dendrites.
Dopamine release from transplanted neural stem cells in Parkinsonian rat striatum in vivo
Xinjiang Kang,Huadong Xu,Sasa Teng,Xiaoyu Zhang,Zijun Deng,Li Zhou,Zuo Panli,Bing Liu,Bin Liu,Qihui Wu,Li Wang,Meiqin Hu,Haiqiang Dou,Wei Liu,Feipeng Zhu,Qing Li,Shu Guo,Jingli Gu,Qian Lei,Jing Lü,Yu Mu,Mu Jin,Shirong Wang,Wei Jiang,Kun Liu,Changhe Wang,Wenlin Li,Kang Zhang,Kang Zhang,Zhuan Zhou +29 more
TL;DR: It is demonstrated that grafted neural stem cells directly release dopamine in the damaged striatum in vivo and partially rescue a Parkinson’s disease (PD) model, providing proof-of-concept for human clinical translation.