中胚层表达的果蝇微小RNA-1受Twist调控,在幼虫生长期间的肌肉中发挥作用。
Mesodermally expressed Drosophila microRNA-1 is regulated by Twist and is required in muscles during larval growth.
作者信息
Sokol Nicholas S, Ambros Victor
机构信息
Department of Genetics, Dartmouth Medical School, Hanover, New Hampshire 03755, USA.
出版信息
Genes Dev. 2005 Oct 1;19(19):2343-54. doi: 10.1101/gad.1356105. Epub 2005 Sep 15.
Abstract
Although hundreds of evolutionarily conserved microRNAs have been discovered, the functions of most remain unknown. Here, we describe the embryonic spatiotemporal expression profile, transcriptional regulation, and loss-of-function phenotype of Drosophila miR-1 (DmiR-1). DmiR-1 RNA is highly expressed throughout the mesoderm of early embryos and subsequently in somatic, visceral, and pharyngeal muscles, and the dorsal vessel. The expression of DmiR-1 is controlled by the Twist and Mef2 transcription factors. DmiR-1KO mutants, generated using ends-in gene targeting, die as small, immobilized second instar larvae with severely deformed musculature. This lethality is rescued when a DmiR-1 transgene is expressed specifically in the mesoderm and muscle. Strikingly, feeding triggers DmiR-1KO-associated paralysis and death; starved first instar DmiR-1KO larvae are essentially normal. Thus, DmiR-1 is not required for the formation or physiological function of the larval musculature, but is required for the dramatic post-mitotic growth of larval muscle.
摘要
尽管已经发现了数百种进化上保守的微小RNA,但大多数的功能仍然未知。在这里,我们描述了果蝇miR-1(DmiR-1)的胚胎时空表达谱、转录调控和功能缺失表型。DmiR-1 RNA在早期胚胎的整个中胚层中高度表达,随后在体壁、内脏和咽肌以及背血管中表达。DmiR-1的表达受Twist和Mef2转录因子控制。使用末端插入基因靶向产生的DmiR-1KO突变体,作为小型、固定化的二龄幼虫死亡,肌肉组织严重变形。当DmiR-1转基因在中胚层和肌肉中特异性表达时,这种致死性得以挽救。令人惊讶的是,进食会引发与DmiR-1KO相关的麻痹和死亡;饥饿的一龄DmiR-1KO幼虫基本正常。因此,DmiR-1对于幼虫肌肉组织的形成或生理功能不是必需的,但对于幼虫肌肉有丝分裂后的显著生长是必需的。
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