Uncoupling neurogenic gene networks in the Drosophila embryo

Rogers William A.; Goyal Yogesh; Yamaya Kei; Shvartsman Stanislav Y.; Levine Michael S.

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Uncoupling neurogenic gene networks in the Drosophila embryo

机译：在果蝇胚胎中的未偶联神经源性基因网络

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The EGF signaling pathway specifies neuronal identities in the Drosophila embryo by regulating developmental patterning genes such as intermediate neuroblasts defective (ind). EGFR is activated in the ventral midline and neurogenic ectoderm by the Spitz ligand, which is processed by the Rhomboid protease. CRISPR/Cas9 was used to delete defined rhomboid enhancers mediating expression at each site of Spitz processing. Surprisingly, the neurogenic ectoderm, not the ventral midline, was found to be the dominant source of EGF patterning activity. We suggest that Drosophila is undergoing an evolutionary transition in central nervous system (CNS)-organizing activity from the ventral midline to the neurogenic ectoderm.

机译：EGF信号传导途径通过调节诸如中间神经细胞等中间神经细胞（IND）的发育模式基因来指定果蝇胚胎中的神经元相同。 EGFR在腹侧中线和神经源性外胚层中被烟雀配体激活，所述烟雀配体通过菱形蛋白酶加工。 CRISPR / CAS9用于删除介导在每个烟草棉花处理的每个部位的表达的定义的菱形增强剂。令人惊讶的是，发现神经源性肌肌肌肤，而不是腹侧中线，是EGF图案化活性的主要来源。我们建议果蝇正在中枢神经系统（CNS）中的进化过渡 - 从腹侧中线到神经源性外胚层的活动。

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《Genes and Development: a Journal Devoted to the Molecular Analysis of Gene Expression in Eukaryotes, Prokaryotes, and Viruses》 |2017年第7期|共5页
作者
Rogers William A.; Goyal Yogesh; Yamaya Kei; Shvartsman Stanislav Y.; Levine Michael S.;
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作者单位

Princeton Univ Lewis Sigler Inst Integrat Genom Dept Mol Biol Princeton NJ 08544 USA;

Princeton Univ Lewis Sigler Inst Integrat Genom Dept Chem &

Biol Engn Princeton NJ 08544 USA;

Princeton Univ Lewis Sigler Inst Integrat Genom Dept Mol Biol Princeton NJ 08544 USA;

Princeton Univ Lewis Sigler Inst Integrat Genom Dept Chem &

Biol Engn Princeton NJ 08544 USA;

Princeton Univ Lewis Sigler Inst Integrat Genom Dept Mol Biol Princeton NJ 08544 USA;

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原文格式 PDF
正文语种 eng
中图分类医学遗传学;
关键词
Drosophila embryo; EGFR regulatory networks; rhomboid; intermediate neuroblasts defective; central nervous system;

机译：果蝇胚胎;EGFR监管网络;菱形;中间神经细胞有缺陷;中枢神经系统;

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专利

1. Uncoupling neurogenic gene networks in the Drosophila embryo [J] . Rogers William A., Goyal Yogesh, Yamaya Kei, Genes and Development: a Journal Devoted to the Molecular Analysis of Gene Expression in Eukaryotes, Prokaryotes, and Viruses . 2017,第7期

机译：在果蝇胚胎中的未偶联神经源性基因网络
2. Computational models for neurogenic gene expression in the Drosophila embryo [J] . Zinzen RP, Senger K, Levine M, Current Biology: CB . 2006,第13期

机译：果蝇胚胎神经原性基因表达的计算模型
3. A regulatory code for neurogenic gene expression in the Drosophila embryo. [J] . Markstein M, Zinzen R, Markstein P, Development . 2004,第10期

机译：果蝇胚胎中神经源性基因表达的监管代码。
4. Contour Extraction of Drosophila Embryos Based on Conditional Generative Adversarial Nets [C] . Hui Huang, Zhoutao Wang, Yongyi Gong, International Conference on Digital Home . 2018

机译：基于条件生成对抗网络的果蝇胚胎轮廓提取
5. Quantitative analysis of enhancer function in the dorsal-ventral patterning gene network of the Drosophila embryo. [D] . Sayal, Rupinder. 2012

机译：定量分析果蝇胚胎背腹模式基因网络中的增强子功能。
6. Uncoupling neurogenic gene networks in the Drosophila embryo [O] . William A. Rogers, Yogesh Goyal, Kei Yamaya, 2017

机译：果蝇胚胎中解耦神经源基因网络。
7. Computational Models for Neurogenic Gene Expression in the Drosophila Embryo [O] . Zinzen Robert P., Senger Kate, Levine Mike, 2006

机译：果蝇胚胎神经基因表达的计算模型。

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Uncoupling neurogenic gene networks in the Drosophila embryo

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