轴突中神经丝运输的最大速率:对持续参与的分子运输机制的一种见解。
The maximum rate of neurofilament transport in axons: a view of molecular transport mechanisms continuously engaged.
作者信息
Lasek R J, Paggi P, Katz M J
机构信息
Bio-architectonics Center School of Medicine, Case Western Reserve University Cleveland, OH 44106.
出版信息
Brain Res. 1993 Jul 9;616(1-2):58-64. doi: 10.1016/0006-8993(93)90192-p.
Neurofilaments (NFs) were radiolabeled in the optic systems of mice. The leading edge of the radiolabeled NF waveform was distinguished near the injection site (the eye) both by liquid scintillation spectroscopy and visually from fluorographs. The fastest NFs were found to be translocated at rates of between 72 and 144 mm/day. It appears that the continuous (maximal) operation of the slow axonal transport machinery can move polymers intra-axonally at rates one hundred times greater than those previously reported.
在小鼠的视觉系统中对神经丝(NFs)进行了放射性标记。通过液体闪烁光谱法以及从荧光照片上直观地观察,在注射部位(眼睛)附近可区分出放射性标记的NF波形的前沿。发现最快的神经丝以每天72至144毫米的速度移位。看来,慢速轴突运输机制的持续(最大)运作能够使聚合物在轴突内以比先前报道的速度快一百倍的速度移动。
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