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In vivo RNAi screen identifies candidate signaling genes required for collective cell migration in Drosophila ovary 被引量:1
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作者 LUO Jun ZUO JunTao +5 位作者 WU Jing WAN Ping KANG Di XIANG Cong ZHU Hong CHEN Jiong 《Science China(Life Sciences)》 SCIE CAS CSCD 2015年第4期379-389,共11页
Collective migration of loosely or closely associated cell groups is prevalent in animal development, physiological events, and cancer metastasis. However, our understanding of the mechanisms of collective cell migrat... Collective migration of loosely or closely associated cell groups is prevalent in animal development, physiological events, and cancer metastasis. However, our understanding of the mechanisms of collective cell migration is incomplete. Drosophila border cells provide a powerful in vivo genetic model to study collective migration and identify essential genes for this process. Using border cell-specific RNAi-silencing in Drosophila, we knocked down 360 conserved signaling transduction genes in adult flies to identify essential pathways and genes for border cell migration. We uncovered a plethora of signaling genes, a large proportion of which had not been reported for border cells, including Rack1 (Receptor of activated C kinase) and brk (brinker), mad (mother against dpp), and sax (saxophone), which encode three components of TGF-β signaling. The RNAi knock down phenotype was validated by clonal analysis of Rack1 mutants. Our data suggest that inhibition of Src activity by Rackl may be important for border cell migration and cluster cohesion maintenance. Lastly, results from our screen not only would shed light on signaling pathways involved in collective migration during embryogenesis and organogenesis in general, but also could help our understanding for the functions of conserved human genes involved in cancer metastasis. 展开更多
关键词 DROSOPHILA border cell migration signaling pathway TGF-β Brk RACK1 Src42A src64b
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