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Complex network of Wnt signaling regulates neuronal migrations during Caenorhabditis elegans development.Wnt信号通路的复杂网络在秀丽隐杆线虫发育过程中调节神经元迁移。
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C. elegans VAB-8 and UNC-73 regulate the SAX-3 receptor to direct cell and growth-cone migrations.秀丽隐杆线虫的VAB-8和UNC-73调节SAX-3受体,以指导细胞和生长锥迁移。
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VAB-8, UNC-73 and MIG-2 regulate axon polarity and cell migration functions of UNC-40 in C. elegans.VAB-8、UNC-73和MIG-2调节秀丽隐杆线虫中UNC-40的轴突极性和细胞迁移功能。
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Wnt signals and frizzled activity orient anterior-posterior axon outgrowth in C. elegans.Wnt信号和卷曲蛋白活性决定了秀丽隐杆线虫前后轴突的生长方向。
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UNC-73/TRIO 的 Rac 和 Rho GEF 结构域控制秀丽隐杆线虫中不同的细胞导向途径。

Distinct cell guidance pathways controlled by the Rac and Rho GEF domains of UNC-73/TRIO in Caenorhabditis elegans.

机构信息

Department of Biology, Trinity Western University, Langley, BC V2Y 1Y1, Canada.

出版信息

Genetics. 2012 Jan;190(1):129-42. doi: 10.1534/genetics.111.134429. Epub 2011 Oct 13.

DOI:10.1534/genetics.111.134429
PMID:21996675
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3249371/
Abstract

The cytoskeleton regulator UNC-53/NAV2 is required for both the anterior and posterior outgrowth of several neurons as well as that of the excretory cell while the kinesin-like motor VAB-8 is essential for most posteriorly directed migrations in Caenorhabditis elegans. Null mutations in either unc-53 or vab-8 result in reduced posterior excretory canal outgrowth, while double null mutants display an enhanced canal extension defect, suggesting the genes act in separate pathways to control this posteriorly directed outgrowth. Genetic analysis of putative interactors of UNC-53 or VAB-8, and cell-specific rescue experiments suggest that VAB-8, SAX-3/ROBO, SLT-1/Slit, and EVA-1 are functioning together in the outgrowth of the excretory canals, while UNC-53 appears to function in a parallel pathway with UNC-71/ADAM. The known VAB-8 interactor, the Rac/Rho GEF UNC-73/TRIO operates in both pathways, as isoform specific alleles exhibit enhancement of the phenotype in double-mutant combination with either unc-53 or vab-8. On the basis of these results, we propose a bipartite model for UNC-73/TRIO activity in excretory canal extension: a cell autonomous function that is mediated by the Rho-specific GEF domain of the UNC-73E isoform in conjunction with UNC-53 and UNC-71 and a cell nonautonomous function that is mediated by the Rac-specific GEF domain of the UNC-73B isoform, through partnering with VAB-8 and the receptors SAX-3 and EVA-1.

摘要

细胞骨架调节剂 UNC-53/NAV2 对于几个神经元的前后延伸以及排泄细胞的延伸都是必需的,而类肌球蛋白马达 VAB-8 对于线虫中大多数向后指向的迁移是必不可少的。unc-53 或 vab-8 的缺失突变导致后部排泄道生长减少,而双缺失突变体显示出增强的管延伸缺陷,表明这些基因在独立的途径中作用以控制这种向后指向的生长。UNC-53 或 VAB-8 的假定相互作用物的遗传分析,以及细胞特异性拯救实验表明,VAB-8、SAX-3/ROBO、SLT-1/Slit 和 EVA-1 一起作用于排泄道的延伸,而 UNC-53 似乎与 UNC-71/ADAM 一起在平行途径中起作用。已知的 VAB-8 相互作用物,Rac/Rho GEF UNC-73/TRIO 在这两种途径中都起作用,因为同工型特异性等位基因在与 unc-53 或 vab-8 的双突变体组合中表现出表型增强。基于这些结果,我们提出了 UNC-73/TRIO 在排泄道延伸中的双分模型活动:一种是 UNC-73E 同工型的 Rho 特异性 GEF 结构域与 UNC-53 和 UNC-71 介导的细胞自主功能,以及 UNC-73B 同工型的 Rac 特异性 GEF 结构域介导的细胞非自主功能,通过与 VAB-8 和受体 SAX-3 和 EVA-1 合作。