Embryonic motor axon development in the severe SMA mouse.

McGovern VL; Gavrilina TO; Beattie CE; Burghes AH

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Embryonic motor axon development in the severe SMA mouse.

机译：严重SMA小鼠的胚胎运动轴突发育。

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Spinal muscular atrophy (SMA) is caused by reduced levels of survival motor neuron (SMN) protein. Previously, cultured SMA motor neurons showed reduced growth cone size and axonal length. Furthermore, reduction of SMN in zebrafish resulted in truncation followed by branching of motor neuron axons. In this study, motor neurons labeled with green fluorescent protein (GFP) were examined in SMA mice from embryonic day 10.5 to postnatal day 2. SMA motor axons showed no defect in axonal formation or outgrowth at any stage of development. However, a significant increase in synapses lacking motor axon input was detected in embryonic SMA mice. Therefore, one of the earliest detectable morphological defects in the SMA mice is the loss of synapse occupation by motor axons. This indicates that in severe SMA mice there are no defects in motor axon formation however, we find evidence of denervation in embryogenesis.

机译：脊髓性肌萎缩症（SMA）是由存活运动神经元（SMN）蛋白水平降低引起的。以前，培养的SMA运动神经元显示出降低的生长锥大小和轴突长度。此外，斑马鱼中SMN的减少导致截短，随后运动神经元轴突分支。在这项研究中，从胚胎第10.5天到出生后第2天，在SMA小鼠中检查了标记有绿色荧光蛋白（GFP）的运动神经元。SMA运动轴突在任何发育阶段均未显示轴突形成或生长异常。但是，在胚胎SMA小鼠中检测到缺乏运动轴突输入的突触明显增加。因此，SMA小鼠中最早可检测到的形态学缺陷之一是运动轴突丧失了突触占据。这表明在严重的SMA小鼠中，运动轴突的形成没有缺陷，但是，我们发现了胚胎发生失神经的证据。

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《Human Molecular Genetics 》 |2008年第18期| 共10页
作者
McGovern VL; Gavrilina TO; Beattie CE; Burghes AH;
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正文语种 eng
中图分类医学遗传学 ;
关键词
Animals; Axons; Cyclic AMP Response Element-Binding Protein; Disease Models; Animal; 动物; 轴突; 疾病模型; 动物; 小鼠; 小鼠; 基因摧毁; 小鼠; 转基因; 运动神经元;

机译：Animals;Axons;Cyclic AMP Response Element-Binding Protein;Disease Models;Animal;动物;轴突;疾病模型;动物;小鼠;小鼠;基因摧毁;小鼠;转基因;运动神经元;

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1. Embryonic motor axon development in the severe SMA mouse. [J] . McGovern VL, Gavrilina TO, Beattie CE, Human Molecular Genetics . 2008 ,第18期

机译：严重SMA小鼠的胚胎运动轴突发育。
2. N-cadherin regulates primary motor axon growth and branching during zebrafish embryonic development. [J] . Bruses JL The Journal of Comparative Neurology . 2011 ,第9期

机译：N-钙黏着蛋白调节斑马鱼胚胎发育过程中主要运动轴突的生长和分支。
3. Agrin is required for posterior development and motor axon outgrowth and branching in embryonic zebrafish. [J] . Kim MJ, Liu IH, Song Y, Glycobiology. . 2007 ,第2期

机译：Agrin是胚胎斑马鱼的后部发育，运动轴突生长和分支所必需的。
4. Development of Smart Wheelchair System for a User with Severe Motor Impairment [C] . Mohd Razali Md Tomari, Yoshinori Kobayashi, Yoshinori Kuno International Symposium on Robotics and Intelligent Sensors . 2013

机译：具有严重电机损伤的用户智能轮椅系统的开发
5. Hyperactive Alpha2-Chimaerin Reveals the Complexity of Axon Guidance Signaling Pathways in Motor Neuron Development. [D] . Nugent, Alicia Anne. 2016

机译：过度活跃的Alpha2-Chimaerin揭示了运动神经元发育中轴突指导信号通路的复杂性。
6. Embryonic motor axon development in the severe SMA mouse [O] . Vicki L. McGovern, Tatiana O. Gavrilina, Christine E. Beattie, -1

机译：严重SMA小鼠的胚胎运动轴突发育
7. Embryonic motor axon development in the severe SMA mouse [O] . McGovern, Vicki L., Gavrilina, Tatiana O., Beattie, Christine E., 2008

机译：严重SMA小鼠的胚胎运动轴突发育

Embryonic motor axon development in the severe SMA mouse.

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