C. Chow
7 Papers
C. Chow is an academic researcher. The author has contributed to research in topics: AMPA receptor & Metaplasticity. The author has co-authored 2 publications.
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Papers
Neuronal SNAP-23 is critical for synaptic plasticity and spatial memory independently of NMDA receptor regulation
Mengjia Huang,Na-Ryum Bin,Jayant Rai,Ke Ma,C. Chow,Sarah Eide,Hidekiyo Harada,Jianbing Xiao,Daorong Feng,Hong-Shuo Sun,Zhong-Ping Feng,Herbert Y. Gaisano,Jeffrey E. Pessin,Philippe P. Monnier,Ken-ichi Okamoto,L. Zhang,Shuzo Sugita +16 more
TL;DR: In this paper , the role of neuronal synaptosomal-associated protein-23 (SNAP-23) by analyzing pyramidal-neuron specific SNAP-23 conditional knockout (cKO) mice was investigated.
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SNAP-25, but not SNAP-23, is essential for photoreceptor development, survival, and function in mice
Mengjia Huang,C. Chow,Akshay Gurdita,Hidekiyo Harada,Victor Q B Pham Truong,Sarah Eide,Hong-Shuo Sun,Zhong-ping Feng,Philippe P. Monnier,Valerie A. Wallace,Shuzo Sugita +10 more
TL;DR: A study using photoreceptor-specific knockout mice finds that SNAP-25, and not SNAP-23, is the isoform crucial for photoreceptor development, survival, and function.
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Neuronal SNAP-23 scales hippocampal synaptic plasticity and memory
Mengjia Huang,Na-Ryum Bin,Jayant Rai,Ke Ma,C. Chow,Sarah Eide,Hidekiyo Harada,Jianbing Xiao,Daorong Feng,Hong-Shuo Sun,Zhong-Ping Feng,Herbert Y. Gaisano,Jeffrey E. Pessin,Philippe P. Monnier,Ken-ichi Okamoto,Liang Zhang,Shuzo Sugita +16 more
TL;DR: The data reveal that neuronal SNAP-23 is selectively crucial for synaptic plasticity and spatial memory without affecting basal glutamate receptor function.
SNAP-25, but not SNAP-23, is essential for photoreceptor function and survival in mice
Mengjia Huang,C. Chow,Akshay Gurdita,Hidekiyo Harada,Victor Pham Truong,Sarah Eide,Hong-Shuo Sun,Zhong-Ping Feng,Philippe P. Monnier,Valerie A. Wallace,Shuzo Sugita +10 more
TL;DR: It is concluded that SNAP-25, but not SNAP-23, is the essential isoform for photoreceptor survival and function.
Differential Regulation of Excitatory vs Inhibitory Synaptic Release by Complexin/CPX-1 and CAPS/UNC-31 at the C. elegans Neuromuscular Junctions
Ya Wang,C. Chow,Mengjia Huang,Randa Higazy,Neeraja Ramakrishnan,Cuntai Zhang,Shuzo Sugita,Shangbang Gao +7 more
TL;DR: An unforeseen role of UNC-31 is uncovered in influencing CPX-1’s “clamp” function, further adding complexity to the neural dynamics, which may underlie complex behavioral phenotypes observed in C. elegans.