計畫
(Principal Investigator)


第 1 到 21 筆結果,共 21 筆。

啟始時間標題P-Investigator經費來源
2023Regulation of Aldosterone Synthesis by Modifying Clc-2 Chloride Channel Protein Homeostasis: Molecular Pathophysiology and Therapeutic Potential( III )CHIH-YUNG TANGNational Science and Technology Council
2023Plasma Membrane Quality Control of Clc Chloride Channels: Molecular Physiology and PathophysiologyCHIH-YUNG TANGNational Science and Technology Council
2022Regulation of Aldosterone Synthesis by Modifying Clc-2 Chloride Channel Protein Homeostasis: Molecular Pathophysiology and Therapeutic Potential( II )CHIH-YUNG TANGNational Science and Technology Council
2022Plasma Membrane Quality Control of Clc Chloride Channels: Molecular Physiology and PathophysiologyCHIH-YUNG TANGNational Science and Technology Council
2021Regulation of Aldosterone Synthesis by Modifying Clc-2 Chloride Channel Protein Homeostasis: Molecular Pathophysiology and Therapeutic Potential( I )CHIH-YUNG TANGNational Science and Technology Council
2021Post-Translational Regulation of the Polyq-Containing Region of Human Cav2.1 Calcium Channel: Molecular Physiology of Spinocerebellar Ataxia 6 (Sca6)CHIH-YUNG TANGNational Science and Technology Council
2020Post-Translational Regulation of the Polyq-Containing Region of Human Cav2.1 Calcium Channel: Molecular Physiology of Spinocerebellar Ataxia 6 (Sca6)CHIH-YUNG TANGNational Science and Technology Council
2019Post-Translational Regulation of the Polyq-Containing Region of Human Cav2.1 Calcium Channel: Molecular Physiology of Spinocerebellar Ataxia 6 (Sca6)CHIH-YUNG TANGNational Science and Technology Council
2016The Molecular Physiological Mechanism Underlying Episodic Ataxia Type 2-Associated Protein Degradation of Human P/Q-Type Ca2+ (Cav2.1) ChannelsCHIH-YUNG TANGNational Science and Technology Council
2015Protein Quality Control System of CLC-1 Channels---Deciphering the Molecular Pathophysiology of Myotonia CongenitaCHIH-YUNG TANGNational Science and Technology Council
2014Protein Quality Control System of CLC-1 Channels---Deciphering the Molecular Pathophysiology of Myotonia CongenitaCHIH-YUNG TANGNational Science and Technology Council
2013Protein Quality Control System of CLC-1 Channels---Deciphering the Molecular Pathophysiology of Myotonia CongenitaCHIH-YUNG TANGNational Science and Technology Council
2011Exploring the Neurophysiological Role of CIC-2 Cl- ChannelsCHIH-YUNG TANGNational Science and Technology Council
2010Exploring the Neurophysiological Role of ClC-2 Cl-ChannelsCHIH-YUNG TANGNational Science and Technology Council
2009Biophysical Characterizations of Human ClC-1 Chloride Channel Mutants Associated with Myotonia CongenitaCHIH-YUNG TANGNational Science and Technology Council
2008Biophysical Characterizations of Human ClC-1 Chloride Channel Mutants Associated with Myotonia CongenitaCHIH-YUNG TANGNational Science and Technology Council
2007Biophysical Characterizations of Human ClC-1 Chloride Channel Mutants Associated with Myotonia CongenitaCHIH-YUNG TANGNational Science and Technology Council
2006Biophysical Bases of the Neurophysiology of Voltage-Gated Potassium ChannelCHIH-YUNG TANGNational Science and Technology Council
2004Modulation of NMDA Receptor-Mediated Synaptic Hyperexcitability by Extrasynaptic GABAA ReceptorsCHIH-YUNG TANGNational Science and Technology Council
2003The Role of Eag K+ Channels in the Mechanism of Rhythmic Bursting of IPSC in Hippocampal CA3 Pyramidal CellsCHIH-YUNG TANGNational Science and Technology Council
2002The Pathophysiological Role of Calcium Channels in Familial Episodic AtaxiaCHIH-YUNG TANGNational Science and Technology Council