Genetic analysis of growth cone migrations in Caenorhabditis elegans.

Journal of neurobiology Pub Date : 2000-08-01
D C Merz, J G Culotti
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Abstract

Model organisms like Caenorhabditis elegans allow the study of growth cone motility and guidance in vivo. We are using circumferential axon guidance in C. elegans to study both the mechanisms of guidance and the interactions between different guidance systems in vivo. A genetic screen has identified suppressors of the specific axon guidance defects caused by ectopic expression of UNC-5, the repulsive receptor for the UNC-6/netrin guidance cue. These mutations identify eight genes whose products are required for the function of UNC-5 in these cells. In principle, the functions of some of these genes may involve unc-73, which encodes a multidomain, cytoplasmic protein that is an activator of the rac and rho GTPases. Loss of UNC-73 causes errors in axon guidance, and it is hypothesized that UNC-73 acts in multiple signaling pathways used by guidance receptors on the growth cone surface to regulate the underlying cytoskeleton. Here we summarize and discuss these recent developments that are advancing our understanding of growth cone signal transduction in vivo.

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秀丽隐杆线虫生长锥迁移的遗传分析。
像秀丽隐杆线虫这样的模式生物允许在体内研究生长锥的运动和引导。我们利用线虫的轴突环向引导来研究其引导机制以及体内不同引导系统之间的相互作用。基因筛选已经确定了由UNC-5异位表达引起的特定轴突引导缺陷的抑制因子,UNC-5是UNC-6/netrin引导线索的排斥受体。这些突变确定了8个基因,其产物是这些细胞中UNC-5功能所必需的。原则上,其中一些基因的功能可能涉及到unc-73,它编码一种多结构域的细胞质蛋白,该蛋白是rac和rho gtp酶的激活剂。UNC-73缺失会导致轴突引导错误,据推测UNC-73参与生长锥表面引导受体使用的多种信号通路,以调节潜在的细胞骨架。在这里,我们总结和讨论这些最新的进展,这些进展正在推进我们对体内生长锥信号转导的理解。
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