Cortical beta-catenin and APC regulate asymmetric nuclear beta-catenin localization during asymmetric cell division in C. elegans.

Mizumoto K; Sawa H

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Cortical beta-catenin and APC regulate asymmetric nuclear beta-catenin localization during asymmetric cell division in C. elegans.

机译：皮质β-catenin和APC在秀丽隐杆线虫的不对称细胞分裂过程中调节不对称核β-catenin的定位。

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In C. elegans, Wnt signaling regulates a number of asymmetric cell divisions. During telophase, WRM-1/beta-catenin localizes asymmetrically to the anterior cortex and the posterior daughter's nucleus. However, cortical WRM-1's functions are not known. Here, we use a membrane-targeted form of WRM-1 to show that cortical WRM-1 inhibits Wnt signaling and the nuclear localization of WRM-1. These functions are mediated by APR-1/APC, which regulates WRM-1 nuclear export. We also show that APR-1 as well as PRY-1/Axin and Dishevelled homologs localize asymmetrically to the cortex. Our results suggest a model in which cortical WRM-1 recruits APR-1 to the anterior cortex before and during division, and the cortical APR-1 stimulates WRM-1 export from the anterior nucleus at telophase. Because beta-catenin and APC are localized to the cortex in many cell types in different species, our results suggest that these cortical proteins may regulate asymmetric divisions or Wnt signaling in other organisms as well.

机译：在秀丽隐杆线虫中，Wnt信号传导调节许多不对称细胞分裂。在末期，WRM-1 /β-catenin不对称地定位在前皮质和后女儿的核上。但是，皮质WRM-1的功能尚不清楚。在这里，我们使用WRM-1的膜靶向形式来显示皮质WRM-1抑制Wnt信号和WRM-1的核定位。这些功能由调节WRM-1核出口的APR-1 / APC介导。我们还显示，APR-1以及PRY-1 / Axin和Disheveled同源物不对称地定位于皮质。我们的结果提出了一种模型，其中皮质WRM-1在分裂之前和分裂过程中将APR-1募集到前皮质，而皮质APR-1在末期刺激WRM-1从前核的输出。由于β-catenin和APC在不同物种的许多细胞类型中均位于皮质，因此我们的结果表明，这些皮质蛋白可能还调节其他生物体中的不对称分裂或Wnt信号传导。

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《Developmental cell》 |2007年第2期|共13页
作者
Mizumoto K; Sawa H;
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正文语种 eng
中图分类普通生物学;
关键词
beta catenin; cortex bone disorders; APC Gene; pheromone-binding protein; APR-1;

机译：β连环蛋白;皮质骨疾病;APC基因;信息素结合蛋白;APR-1;

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1. Cortical beta-catenin and APC regulate asymmetric nuclear beta-catenin localization during asymmetric cell division in C. elegans. [J] . Mizumoto K, Sawa H Developmental cell . 2007,第2期

机译：皮质β-catenin和APC在秀丽隐杆线虫的不对称细胞分裂过程中调节不对称核β-catenin的定位。
2. CWN-1 functions with DSH-2 to regulate C. elegans asymmetric neuroblast division in a beta-catenin independent Wnt pathway. [J] . Hingwing K, Lee S, Nykilchuk L Developmental biology . 2009,第2期

机译：CWN-1与DSH-2共同作用，可在不依赖β-catenin的Wnt途径中调节线虫的线虫不对称成神经细胞分裂。
3. Unique and redundant beta-catenin regulatory roles of two Dishevelled paralogs during C. elegans asymmetric cell division [J] . Baldwin Austin T., Clemons Amy M., Phillips Bryan T. Journal of Cell Science . 2016,第5期

机译：秀丽隐杆线虫不对称细胞分裂过程中两个杂乱旁系同源物的独特和冗余β-catenin调节作用
4. Computer simulation of the asymmetric cell division in early development of C. elegans embryo using E-CELL system [C] . Azusa Kuroki, Akio Kanai, Masaru Tomita Workshop on Genome Informatics . 2001

机译：e-Cell系统的早期C.埃贝罗斯胚胎早期发展的计算机模拟
5. Genes that regulate asymmetric neuroblast divisions in Caenorhabditis elegans. [D] . Cordes, Shaun Neil. 2006

机译：调节秀丽隐杆线虫中不对称神经母细胞分裂的基因。
6. Asymmetric cortical and nuclear localizations of WRM-1/β-catenin during asymmetric cell division in C. elegans [O] . Hisako Takeshita, Hitoshi Sawa 2005

机译：秀丽隐杆线虫不对称细胞分裂过程中WRM-1 /β-catenin的不对称皮质和核定位。
7. Cortical β-Catenin and APC Regulate Asymmetric Nuclear β-Catenin Localization during Asymmetric Cell Division in C. elegans [O] . Mizumoto Kota, Sawa Hitoshi 2007

机译：皮质β-连环蛋白和APC在秀丽隐杆线虫不对称细胞分裂过程中调节不对称核β-连环蛋白的定位。

Cortical beta-catenin and APC regulate asymmetric nuclear beta-catenin localization during asymmetric cell division in C. elegans.

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