Low-energy ion beam promotes the transcription and transposition of the Copia-retrotransposons in wheat (Triticum aestivum L.).

植物生理与分子生物学学报 Pub Date : 2007-12-01
Hui-Yuan Ya, Yun-Hong Gu, Zhen Jiao, Wei-Dong Wang, Guang-Yong Qin, Yu-Ping Huo
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Abstract

LTR-retrotransposons are genetic elements having the direct long terminal repeats (LTRs). It can move via an RNA intermediate within genomes and is an important fraction of eukaryote genomes. Low-energy N(+) ion beam promoted the transcription of the copia-retransposons in those wheat (cv. 'Zhoumai 16', which were radiated and allowed to grow for 24 h and 48 h from the planting. Relative expression ratio of the copia-retransposons was elevated in different degrees (with a max 40 fold) in wheat plants treated with different doses of N(+) beam, comparing to that in the controls. The molecule markers of the IRAP and REMAP to the DNA isolated from the 14-d leaves of wheat plants treated with the low-energy N(+) beam showed that the transposition of some copia-retransposons was re-activated. The enhanced transcription of the copia-retransposons in wheat could weaken or enhance the expression of their nearby genes. The transposition of the retrotransposon in genome can change the primary structure of the functional DNA fragments of chromosomes, and it can also be visualized as the appearance of a new phenotype of plants. In the mid 1980s, the biological effects of low-energy ion beam were recognized and demonstrated experimentally. Hence, it suggests that the enhanced transcription and the re-activated transposition of the retrotransposons are partially attributed to the biological effect of low-energy ion beam.

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低能离子束促进小麦(Triticum aestivum L.)复制反转录转座子的转录和转座。
ltr -反转录转座子是具有直接长末端重复序列(lts)的遗传元件。它可以通过基因组内的RNA中间体移动,是真核生物基因组的重要组成部分。低能N(+)离子束促进了小麦复制-重转座子的转录。‘周麦16’,经辐射处理,种植后分别生长24 h和48 h。与对照相比,不同剂量N(+)处理的小麦植株复制转座子的相对表达率均有不同程度的升高,最高可达40倍。低能N(+)束对小麦植株14 d叶片DNA的IRAP和REMAP分子标记表明,部分复制重转座子的转座被重新激活。小麦复制转座子转录的增强可以减弱或增强其附近基因的表达。基因组中反转录转座子的转位可以改变染色体功能DNA片段的一级结构,也可以可视化为植物新表型的出现。20世纪80年代中期,低能离子束的生物效应得到了认识和实验证明。因此,这表明逆转录转座子的转录增强和转座子的重新激活部分归因于低能离子束的生物效应。
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[Manganese uptake and transportation as well as antioxidant response to excess manganese in plants]. [Metabolic engineering of edible plant oils]. [Exogenous nitric oxide accelerates soluble sugar, proline and secondary metabolite synthesis in Ginkgo biloba under drought stress]. Low-energy ion beam promotes the transcription and transposition of the Copia-retrotransposons in wheat (Triticum aestivum L.). [Transgenic tobacco plants with ribosome inactivating protein gene cassin from Cassia occidentalis and their resistance to tobacco mosaic virus].
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