Genome-Wide Analysis of MuDR-Related Transposable Elements Insertion Population in Maize

Q3 Agricultural and Biological Sciences Acta Agronomica Sinica Pub Date : 2011-05-01 DOI:10.1016/S1875-2780(11)60022-9

Jing FENG , Xue-Qian FU , Ting-Ting WANG , Yong-Sheng TAO , You-Jun GAO , Yong-Lian ZHENG

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引用次数: 2

Abstract

Insertional mutagenesis has now been widely used to knockout genes for functional genomics. The maize Mutator transposons hold an advantage of high activity to construct large mutant libraries. In this study, a MuDR line was used to cross with an elite Chinese maize inbred line Z31. A total of 1000 M₁ individuals were planted and self-pollinated to generate their M₂ families. Experiments were conducted to investigate the insertion specificity of MuDR related transposable elements. Six hundred and ninety-five MuDR inserted flanking sequences were isolated with a modified MuTAIL-PCR method and analyzed with bioinformatics. Three hundred and seventy-four non-redundant insertion sites were identified and 298 of them were mapped to a single locus on the integrated maize map. The results revealed some prominent features of the MuDR-related insertions of maize: random distribution across the 10 chromosomes, preferential insertion into genic sequence and favoring some classes of functional genes.

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玉米mudr相关转座因子插入群体的全基因组分析

插入诱变已被广泛用于功能基因组学的基因敲除。玉米Mutator转座子具有高活性的优势，可以构建大型突变文库。本研究利用MuDR系与中国玉米自交系Z31进行杂交。共种植1000株M1，自花授粉，形成M2家族。通过实验研究MuDR相关转座因子的插入特异性。采用改良的MuTAIL-PCR方法分离得到695个MuDR插入侧链序列，并进行生物信息学分析。共鉴定出374个非冗余插入位点，其中298个被定位到玉米综合图谱上的单个位点上。结果揭示了玉米mdr相关插入的一些显著特征:在10条染色体上随机分布，优先插入到基因序列中，并偏向于某些类型的功能基因。

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