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通过衔接子连接PCR(AL-PCR)和T-DNA边界侧翼基因组DNA测序对转基因洋葱(Allium cepa L.)进行分子特征分析。

Molecular characterization of transgenic shallots (Allium cepa L.) by adaptor ligation PCR (AL-PCR) and sequencing of genomic DNA flanking T-DNA borders.

作者信息

Zheng S J, Henken B, Sofiari E, Jacobsen E, Krens F A, Kik C

机构信息

Plant Research International, Wageningen University and Research Center, The Netherlands.

出版信息

Transgenic Res. 2001 Jun;10(3):237-45. doi: 10.1023/a:1016633410041.

DOI:10.1023/a:1016633410041
PMID:11437280
Abstract

Genomic DNA blot hybridization is traditionally used to demonstrate that, via genetic transformation, foreign genes are integrated into host genomes. However, in large genome species, such as Allium cepa L., the use of genomic DNA blot hybridization is pushed towards its limits, because a considerable quantity of DNA is needed to obtain enough genome copies for a clear hybridization pattern. Furthermore, genomic DNA blot hybridization is a time-consuming method. Adaptor ligation PCR (AL-PCR) of genomic DNA flanking T-DNA borders does not have these drawbacks and seems to be an adequate alternative to genomic DNA blot hybridization. Using AL-PCR we proved that T-DNA was integrated into the A. cepa genome of three transgenic lines transformed with Agrobacterium tumefaciens EHA 105 (pCAMBIA 1301). The AL-PCR patterns obtained were specific and reproducible for a given transgenic line. The results showed that T-DNA integration took place and gave insight in the number of T-DNA copies present. Comparison of AL-PCR and previously obtained genomic DNA blot hybridization results pointed towards complex T-DNA integration patterns in some of the transgenic plants. After cloning and sequencing the AL-PCR products, the junctions between plant genomic DNA and the T-DNA insert could be analysed in great detail. For example it was shown that upon T-DNA integration a 66 bp genomic sequence was deleted, and no filler DNA was inserted. Primers located within the left and right flanking genomic DNA in transgenic shallot plants were used to recover the target site of T-DNA integration.

摘要

基因组DNA印迹杂交传统上用于证明通过遗传转化,外源基因已整合到宿主基因组中。然而,在大基因组物种中,如洋葱(Allium cepa L.),基因组DNA印迹杂交的应用已接近其极限,因为需要相当数量的DNA才能获得足够的基因组拷贝以形成清晰的杂交图谱。此外,基因组DNA印迹杂交是一种耗时的方法。T-DNA边界侧翼基因组DNA的衔接子连接PCR(AL-PCR)没有这些缺点,似乎是基因组DNA印迹杂交的一种合适替代方法。我们使用AL-PCR证明,T-DNA已整合到用根癌农杆菌EHA 105(pCAMBIA 1301)转化的三个转基因系的洋葱基因组中。对于给定的转基因系,获得的AL-PCR图谱是特异且可重复的。结果表明发生了T-DNA整合,并深入了解了存在的T-DNA拷贝数。AL-PCR与先前获得的基因组DNA印迹杂交结果的比较表明,一些转基因植物中存在复杂的T-DNA整合模式。在对AL-PCR产物进行克隆和测序后,可以非常详细地分析植物基因组DNA与T-DNA插入片段之间的连接。例如,结果表明,在T-DNA整合时,一个66 bp的基因组序列被删除,并且没有插入填充DNA。使用位于转基因葱植物左右侧翼基因组DNA内的引物来回收T-DNA整合的靶位点。

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