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机译:Pink1磷酸化MIC60 / MITOFILIN控制线粒体CRISTA联系的结构可塑性
Stanford Univ Sch Med Dept Neurosurg Stanford CA 94305 USA;
Natl Taiwan Univ Hosp Dept Neurol Taipei 100 Taiwan;
Stanford Univ Sch Med Dept Neurosurg Stanford CA 94305 USA;
Stanford Univ Sch Med Dept Neurosurg Stanford CA 94305 USA;
Stanford Univ Sch Med Dept Neurosurg Stanford CA 94305 USA;
Stanford Univ Funct Imaging Neuropsychiat Disorders FIND Lab Dept Neurol &
Neurol Sci Sch Med;
Univ Bonn Inst Biochem &
Mol Biol D-53115 Bonn Germany;
Stanford Univ Dept Genet Sch Med Stanford CA 94305 USA;
Natl Taiwan Univ Hosp Dept Neurol Taipei 100 Taiwan;
Mayo Clin Dept Neurol Jacksonville FL 32224 USA;
Univ Bonn Inst Biochem &
Mol Biol D-53115 Bonn Germany;
Stanford Univ Funct Imaging Neuropsychiat Disorders FIND Lab Dept Neurol &
Neurol Sci Sch Med;
Mayo Clin Dept Neurosci Jacksonville FL 32224 USA;
Stanford Univ Sch Med Dept Neurosurg Stanford CA 94305 USA;
机译:Pink1磷酸化MIC60 / MITOFILIN控制线粒体CRISTA联系的结构可塑性
机译:果蝇MIC60 / mitofilin在线粒体运动和克里斯塔结构中进行双重作用
机译:Mic60调节的膜重塑控制线粒体crista连接的形成
机译:通过增强学习和结构突触可塑性学习运动控制任务的尖刺神经元模型
机译:Mic60调节的膜重塑控制线粒体crista连接的形成
机译:MIC60对线粒体克里斯塔连接线形成的调节膜重塑