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使用iTRAC为新任务重新配置基因捕获技术。

Reconfiguring gene traps for new tasks using iTRAC.

作者信息

Kontarakis Zacharias, Konstantinides Nikolaos, Pavlopoulos Anastasios, Averof Michalis

机构信息

Institute of Molecular Biology and Biotechnology, Foundation for Research and Technology Hellas, Crete, Greece.

出版信息

Fly (Austin). 2011 Oct-Dec;5(4):352-5. doi: 10.4161/fly.5.4.18108. Epub 2011 Oct 1.

DOI:10.4161/fly.5.4.18108
PMID:22004889
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3266077/
Abstract

We recently developed integrase-mediated trap conversion (iTRAC) as a means of exploiting gene traps to create new genetic tools, such as markers for imaging, drivers for gene expression and landing sites for gene and chromosome engineering. The principle of iTRAC is simple: primary gene traps are generated with transposon vectors carrying φC31 integrase docking sites, which are subsequently utilized to integrate different constructs into the selected trapped loci. Thus, iTRAC allows us to reconfigure selected traps for new purposes. Two features make iTRAC an attractive approach for Drosophila research. First, its versatility permits the exploitation of gene traps in an open-ended way, for applications that were not envisaged during the primary trapping screen. Second, iTRAC is readily transferable to new species and provides a means for developing complex genetic tools in drosophilids that lack the facility of Drosophila melanogaster genetics.

摘要

我们最近开发了整合酶介导的陷阱转换(iTRAC),作为一种利用基因陷阱来创建新的遗传工具的方法,例如用于成像的标记、基因表达的驱动子以及基因和染色体工程的着陆位点。iTRAC的原理很简单:用携带φC31整合酶对接位点的转座子载体产生初级基因陷阱,随后利用这些位点将不同的构建体整合到选定的捕获位点。因此,iTRAC使我们能够为新的目的重新配置选定的陷阱。有两个特点使iTRAC成为果蝇研究中一种有吸引力的方法。首先,它的多功能性允许以一种开放式的方式利用基因陷阱,用于初级捕获筛选期间未设想的应用。其次,iTRAC很容易转移到新物种,并为在缺乏黑腹果蝇遗传学设施的果蝇类中开发复杂的遗传工具提供了一种手段。

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本文引用的文献

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MiMIC: a highly versatile transposon insertion resource for engineering Drosophila melanogaster genes.MiMIC:一种用于工程化黑腹果蝇基因的多功能转座子插入资源。
Nat Methods. 2011 Sep;8(9):737-43. doi: 10.1038/nmeth.1662.
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A versatile strategy for gene trapping and trap conversion in emerging model organisms.一种在新兴模式生物中进行基因捕获和捕获转换的通用策略。
Development. 2011 Jun;138(12):2625-30. doi: 10.1242/dev.066324.
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The Drosophila gene disruption project: progress using transposons with distinctive site specificities.果蝇基因敲除项目:利用具有独特位点特异性的转座子取得的进展。
Genetics. 2011 Jul;188(3):731-43. doi: 10.1534/genetics.111.126995. Epub 2011 Apr 21.
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Optogenetics.光遗传学。
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Neural architecture of the primary gustatory center of Drosophila melanogaster visualized with GAL4 and LexA enhancer-trap systems.利用 GAL4 和 LexA 增强子捕获系统可视化果蝇的初级味觉中心的神经结构。
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From the Cover: Directed, efficient, and versatile modifications of the Drosophila genome by genomic engineering.封面文章:通过基因组工程对果蝇基因组进行定向、高效且通用的修饰
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