玉米mudr插入侧翼序列的分离与鉴定。

TSitologiia i genetika Pub Date : 2017-03-01

W F Yang, Y H Tian, T T Wang, R N Wang, Y S Tao

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引用次数: 0

摘要

在Mutator (Mu)家族中，MuDR表现出最高的转座活性和插入突变频率。如果我们能够分离出mudr插入特异性侧翼序列(MuDRFs)，这将对使用Mu元件介导的突变体至关重要。采用MuDR - tir嵌套的特异性引物和12条任意简并引物，对反应体系和反应程序进行了改进，并对来自UniformMu群体的W22::Mu系(活性MuDR供体亲本)与宗31 (Z31)系(受体亲本)杂交得到的M2或M2:3家族87个基因型的突变DNA模板进行了优化。通过MuDR-TAIL-PCR获得了129条不同的MuDRFs，占突变体特异性琼脂糖凝胶条带总数的86.60%。此外，我们还证实了非冗余侧翼序列扩增的真实性。扩增的非冗余侧翼序列占总MuDRFs的65.12%，其中88.00%的非冗余MuDRFs插入基因内。这些结果表明，我们开发的MuDR-TAIL-PCR系统可用于特异性分离MuDRFs。

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Isolating and confirming the Mudrinserted flanking sequences of maize.

MuDR exhibits the highest transposition activity and insertional mutagenesis frequency in Mutator (Mu) family. If we isolate the MuDRinsertionspecific flanking sequences (MuDRFs), it will be crucial for using Mu elementmediated mutants. The MuDRTAILPCR system was constructed and optimized using a combination of MuDRTIRnested specific primers and 12 arbitrary degenerate (AD) primers, modified reaction system and procedure and mutant DNA templates of 87 genotypes from M2 or M2:3 families created by crossing the W22::Mu line (active MuDR donor parent) from the UniformMu population with the Zong31 (Z31) line (recipient parent). Here 129 different MuDRFs were acquired by MuDRTAILPCR, accounting for 86.60 % of the total mutantspecific agarose gel bands. In addition, we confirmed the authenticity of the nonredundant flanking sequence amplifications. The amplified nonredundant flanking sequences accounted for 65.12 % of the total MuDRFs, and 88.00 % of the nonredundant MuDRFs were inserted inside the genes. These results show that the MuDRTAILPCR system that we developed can be used for specifically isolating MuDRFs.

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TSitologiia i genetika

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