zhefu que

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zhefu que

Purdue University

Geverifieerd e-mailadres voor purdue.edu

Neuroscience


Titel Sorteren op citaties Sorteren op jaar Sorteren op titel	Geciteerd door Geciteerd door	Jaar
Severe deficiency of the voltage-gated sodium channel NaV1. 2 elevates neuronal excitability in adult mice J Zhang, X Chen, M Eaton, J Wu, Z Ma, S Lai, A Park, TS Ahmad, Z Que, ... Cell reports 36 (5), 2021	44	2021
Hyperexcitability and pharmacological responsiveness of cortical neurons derived from human iPSCs carrying epilepsy-associated sodium channel Nav1. 2-L1342P genetic variant Z Que, MI Olivero-Acosta, J Zhang, M Eaton, AM Tukker, X Chen, J Wu, ... Journal of Neuroscience 41 (49), 10194-10208, 2021	29	2021
Generation and basic characterization of a gene‐trap knockout mouse model of Scn2a with a substantial reduction of voltage‐gated sodium channel Na_v1.2 … M Eaton, J Zhang, Z Ma, AC Park, E Lietzke, CM Romero, Y Liu, ... Genes, Brain and Behavior 20 (4), e12725, 2021	18	2021
Deficiency of autism-related Scn2a gene in mice disrupts sleep patterns and circadian rhythms Z Ma, M Eaton, Y Liu, J Zhang, X Chen, X Tu, Y Shi, Z Que, ... Neurobiology of disease 168, 105690, 2022	16	2022
Multi-Electrode Array of Sensory Neurons as an *In Vitro* Platform to Identify the Nociceptive Response to Pharmaceutical Buffer Systems of Injectable Biologics M Eaton, Z Que, J Zhang, K Beck, R Shi, J McDermott, M Ladisch, Y Yang Pharmaceutical Research 38, 1179-1186, 2021	3	2021
Microglial over-pruning of synapses during development in autism-associated SCN2A-deficient mice and human cerebral organoids J Wu, J Zhang, X Chen, K Wettschurack, Z Que, BA Deming, ... Molecular Psychiatry, 1-14, 2024	2	2024
Sodium channel Nav1. 2-L1342P variant displaying complex biophysical properties renders hyperexcitability of cortical neurons derived from human iPSCs Z Que, MI Olivero-Acosta, J Zhang, M Eaton, WC Skarnes, Y Yang BioRxiv, 2021.01. 18.427192, 2021	2	2021
Human iPSC-derived microglia sense and dampen hyperexcitability of cortical neurons carrying the epilepsy-associated SCN2A-L1342P mutation Z Que, MI Olivero-Acosta, I Chen, J Zhang, K Wettschurack, J Wu, T Xiao, ... bioRxiv, 2023		2023

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