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对小鼠中δ1依赖性Notch信号功能调节因子的遗传筛选。

A genetic screen for modifiers of the delta1-dependent notch signaling function in the mouse.

作者信息

Rubio-Aliaga Isabel, Soewarto Dian, Wagner Sibylle, Klaften Matthias, Fuchs Helmut, Kalaydjiev Svetoslav, Busch Dirk H, Klempt Martina, Rathkolb Birgit, Wolf Eckhard, Abe Koichiro, Zeiser Stefan, Przemeck Gerhard K H, Beckers Johannes, de Angelis Martin Hrabé

机构信息

Institute of Experimental Genetics, GSF Research Center for Environment and Health, 85764 Neuherberg, Germany.

出版信息

Genetics. 2007 Mar;175(3):1451-63. doi: 10.1534/genetics.106.067298. Epub 2006 Dec 18.

DOI:10.1534/genetics.106.067298
PMID:17179084
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1840053/
Abstract

The Notch signaling pathway is an evolutionarily conserved transduction pathway involved in embryonic patterning and regulation of cell fates during development. Recent studies have demonstrated that this pathway is integral to a complex system of interactions, which are also involved in distinct human diseases. Delta1 is one of the known ligands of the Notch receptors. Mice homozygous for a loss-of-function allele of the Delta1 gene Dll1(lacZ/lacZ) die during embryonic development. Here, we present the results of two phenotype-driven modifier screens. Heterozygous Dll1(lacZ) knockout animals were crossed with ENU-mutagenized mice and screened for dysmorphological, clinical chemical, and immunological variants that are dependent on the Delta1 loss-of-function allele. First, we show that mutagenized heterozygous Dll1(lacZ) offspring have reduced body weight and altered specific clinical chemical parameters, including changes in metabolites and electrolytes relevant for kidney function. In our mutagenesis screen we have successfully generated 35 new mutant lines. Of major interest are 7 mutant lines that exhibit a Dll1(lacZ/+)-dependent phenotype. These mutant mouse lines provide excellent in vivo tools for studying the role of Notch signaling in kidney and liver function, cholesterol and iron metabolism, cell-fate decisions, and during maturation of T cells in the immune system.

摘要

Notch信号通路是一条在进化上保守的转导通路,参与胚胎发育过程中的模式形成和细胞命运调控。最近的研究表明,该通路是一个复杂相互作用系统的组成部分,这些相互作用也与多种人类疾病有关。Delta1是Notch受体已知的配体之一。Delta1基因Dll1功能缺失等位基因(lacZ/lacZ)的纯合小鼠在胚胎发育期间死亡。在此,我们展示了两项基于表型的修饰基因筛选结果。杂合Dll1(lacZ)基因敲除动物与ENU诱变的小鼠杂交,并筛选依赖于Delta1功能缺失等位基因的形态异常、临床化学和免疫学变异。首先,我们发现诱变的杂合Dll1(lacZ)后代体重减轻,特定临床化学参数改变,包括与肾功能相关的代谢物和电解质变化。在我们的诱变筛选中,我们成功产生了35个新的突变系。其中7个突变系尤其令人感兴趣,它们表现出依赖于Dll1(lacZ/+)的表型。这些突变小鼠系为研究Notch信号通路在肾和肝功能、胆固醇和铁代谢、细胞命运决定以及免疫系统中T细胞成熟过程中的作用提供了出色的体内工具。

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