果蝇肌肉形态发生和功能的系统遗传学分析。

Systematic genetic analysis of muscle morphogenesis and function in Drosophila.

机构信息

Max-Planck-Institute of Biochemistry, Am Klopferspitz 18, 82152 Martinsried, Germany.

出版信息

Nature. 2010 Mar 11;464(7286):287-91. doi: 10.1038/nature08799.

PMID:20220848

Abstract

Systematic genetic approaches have provided deep insight into the molecular and cellular mechanisms that operate in simple unicellular organisms. For multicellular organisms, however, the pleiotropy of gene function has largely restricted such approaches to the study of early embryogenesis. With the availability of genome-wide transgenic RNA interference (RNAi) libraries in Drosophila, it is now possible to perform a systematic genetic dissection of any cell or tissue type at any stage of the lifespan. Here we apply these methods to define the genetic basis for formation and function of the Drosophila muscle. We identify a role in muscle for 2,785 genes, many of which we assign to specific functions in the organization of muscles, myofibrils or sarcomeres. Many of these genes are phylogenetically conserved, including genes implicated in mammalian sarcomere organization and human muscle diseases.

摘要

系统遗传学方法为理解简单单细胞生物的分子和细胞机制提供了深入的认识。然而，对于多细胞生物来说，基因功能的多效性在很大程度上限制了这些方法只能用于研究早期胚胎发生。随着果蝇全基因组转基因 RNA 干扰（RNAi）文库的出现，现在有可能对生命过程中任何阶段的任何细胞或组织类型进行系统的遗传剖析。在这里，我们应用这些方法来定义果蝇肌肉形成和功能的遗传基础。我们确定了 2785 个基因在肌肉中的作用，其中许多基因我们将其特定功能分配到肌肉、肌原纤维或肌节的组织中。其中许多基因是系统发生上保守的，包括与哺乳动物肌节组织和人类肌肉疾病有关的基因。

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果蝇肌肉形态发生和功能的系统遗传学分析。

Systematic genetic analysis of muscle morphogenesis and function in Drosophila.

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