在植物体内进行基因靶向。
In planta gene targeting.
机构信息
Botany II, Karlsruhe Institute of Technology, D-76131 Karlsruhe, Germany.
出版信息
Proc Natl Acad Sci U S A. 2012 May 8;109(19):7535-40. doi: 10.1073/pnas.1202191109. Epub 2012 Apr 23.
Abstract
The development of designed site-specific endonucleases boosted the establishment of gene targeting (GT) techniques in a row of different species. However, the methods described in plants require a highly efficient transformation and regeneration procedure and, therefore, can be applied to very few species. Here, we describe a highly efficient GT system that is suitable for all transformable plants regardless of transformation efficiency. Efficient in planta GT was achieved in Arabidopsis thaliana by expression of a site-specific endonuclease that not only cuts within the target but also the chromosomal transgenic donor, leading to an excised targeting vector. Progeny clonal for the targeted allele could be obtained directly by harvesting seeds. Targeted events could be identified up to approximately once per 100 seeds depending on the target donor combination. Molecular analysis demonstrated that, in almost all events, homologous recombination occurred at both ends of the break. No ectopic integration of the GT vector was found.
摘要
设计的定点内切酶的发展推动了一系列不同物种的基因靶向(GT)技术的建立。然而,在植物中描述的方法需要一个高效的转化和再生过程,因此,只能应用于极少数物种。在这里,我们描述了一种适用于所有可转化植物的高效 GT 系统,而不管转化效率如何。通过表达一种定点内切酶,在拟南芥中实现了高效的体内 GT,该内切酶不仅在靶标内切割,而且还在染色体转基因供体上切割,导致靶向载体被切除。通过收获种子,可以直接获得靶向等位基因的克隆后代。根据目标供体组合的不同,靶向事件的检测率约为每 100 颗种子一次左右。分子分析表明,在几乎所有的事件中,同源重组都发生在断裂的两端。没有发现 GT 载体的异位整合。
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