Shenfeng Qiu, Ph.D.

Zilkha University of California, Los Angeles, Los Angeles, CA 
"Shenfeng Qiu"
Mean distance: 14.17 (cluster 6)
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Ma X, Wei J, Cui Y, et al. (2021) Disrupted Timing of MET Signaling Derails the Developmental Maturation of Cortical Circuits and Leads to Altered Behavior in Mice. Cerebral Cortex (New York, N.Y. : 1991)
Tsyporin J, Tastad D, Ma X, et al. (2021) Transcriptional repression by FEZF2 restricts alternative identities of cortical projection neurons. Cell Reports. 35: 109269
Xia B, Wei J, Ma X, et al. (2021) Conditional knockout of MET receptor tyrosine kinase in cortical excitatory neurons leads to enhanced learning and memory in young adult mice but early cognitive decline in older adult mice. Neurobiology of Learning and Memory. 107397
Ma X, Chen K, Cui Y, et al. (2020) Depletion of microglia in developing cortical circuits reveals its critical role in glutamatergic synapse development, functional connectivity, and critical period plasticity. Journal of Neuroscience Research
Gao M, Der-Ghazarian TS, Li S, et al. (2020) Dual Effect of 5-HT Receptors on Dopamine Neurons in Ventral Tegmental Area: Implication for the Functional Switch After Chronic Cocaine Exposure. Biological Psychiatry
Chen K, Ma X, Nehme A, et al. (2020) Time-delimited signaling of MET receptor tyrosine kinase regulates cortical circuit development and critical period plasticity. Molecular Psychiatry
Ma X, Qiu S. (2019) Control of cortical synapse development and plasticity by MET receptor tyrosine kinase, a genetic risk factor for autism. Journal of Neuroscience Research
Ma Z, Gao F, Larsen B, et al. (2019) Mechanisms of cannabinoid CB receptor-mediated reduction of dopamine neuronal excitability in mouse ventral tegmental area. Ebiomedicine
Huang G, Chen S, Chen X, et al. (2019) Uncovering the Functional Link Between Deletions and Deficiency in Neurodevelopment Using iPSC-Derived Human Neurons. Frontiers in Neuroanatomy. 13: 23
Ma X, Chen K, Lu Z, et al. (2018) Disruption of MET receptor tyrosine kinase, an autism risk factor, impairs developmental synaptic plasticity in the hippocampus. Developmental Neurobiology
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