根中较低水平的转基因沉默与非对称位点而非对称位点处DNA甲基化水平的降低有关。

Lower levels of transgene silencing in roots is associated with reduced DNA methylation levels at non-symmetrical sites but not at symmetrical sites.

作者信息

Andika Ida Bagus, Kondo Hideki, Rahim Muhammad Danial, Tamada Tetsuo

机构信息

Research Institute for Bioresources, Okayama University, Kurashiki, Okayama, 710-0046, Japan.

出版信息

Plant Mol Biol. 2006 Feb;60(3):423-35. doi: 10.1007/s11103-005-4429-7.

DOI:10.1007/s11103-005-4429-7

PMID:16514564

Abstract

Transgene transcripts were recently shown to accumulate at higher levels in roots, relative to leaves, of silenced-transgenic Nicotiana benthamiana plants and to be inversely related with the accumulation of small interfering RNAs (siRNAs), suggesting that RNA silencing is less active in roots than in leaves (Andika et al., 2005. Mol. Plant-Microbe Interact. 18: 194). Here we show that the lower transgene RNA silencing activity in roots was associated with lower transgene methylation levels at non-symmetrical CpNpN context but not at symmetrical CpG or CpNpG context in three sets of transformant plants with different exogenous genes. In contrast, such a difference between roots and leaves was not observed for the Tnt1 retrotransposon: no Tnt1 transcript was detected in roots or in leaves of N. benthamiana, while equal levels of Tnt1-derived siRNA accumulation and Tnt1 methylation were found. From our data and previously reported information, we suggest that roots have less of an activity that acts at the step of generation of siRNAs.

摘要

最近研究表明，在沉默转基因的本氏烟草植株中，转基因转录本在根部的积累水平相对于叶片更高，且与小干扰RNA（siRNAs）的积累呈负相关，这表明RNA沉默在根部的活性低于叶片（Andika等人，2005年。《分子植物-微生物相互作用》18: 194）。在此我们表明，在具有不同外源基因的三组转化植株中，根部较低的转基因RNA沉默活性与非对称CpNpN背景下较低的转基因甲基化水平相关，但与对称CpG或CpNpG背景下的甲基化水平无关。相比之下，在Tnt1反转录转座子方面未观察到根与叶之间存在这种差异：在本氏烟草的根或叶中均未检测到Tnt1转录本，而Tnt1衍生的siRNA积累水平和Tnt1甲基化水平相当。根据我们的数据和先前报道的信息，我们认为根部在siRNAs产生步骤的活性较低。

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根中较低水平的转基因沉默与非对称位点而非对称位点处DNA甲基化水平的降低有关。

Lower levels of transgene silencing in roots is associated with reduced DNA methylation levels at non-symmetrical sites but not at symmetrical sites.

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