Goubely C, Arnaud P, Tatout C, Heslop-Harrison J S, Deragon J M
Department of Cell Biology, John Innes Centre, Norwich, UK.
Plant Mol Biol. 1999 Jan;39(2):243-55. doi: 10.1023/a:1006108325504.
DNA methylation has been often proposed to operate as a genome defence system against parasitic mobile elements. To test this possibility, the methylation status of a class of plant mobile elements, the S1Bn SINEs, was analysed in detail using the bisulfite modification method. We observed that S1Bn SINE retroposons are methylated at symmetrical and asymmetrical positions. Methylated cytosines are not limited to transcriptionally important regions but are well distributed along the sequence. S1Bn SINE retroposons are two-fold more methylated than the average methylation level of the Brassica napus nuclear DNA. By in situ hybridization, we showed that this high level of methylation does not result from the association of S1Bn elements to genomic regions known to be highly methylated suggesting that S1Bn elements were specifically methylated. A detailed analysis of the methylation context showed that S1Bn cytosines in symmetrical CpG and CpNpG sites are methylated at a level of 87% and 44% respectively. We observed that 5.3% of S1Bn cytosines in non-symmetrical positions were also methylated. Of this asymmetrical methylation, 57% occurred at a precise motif (Cp(A/T)pA) that only represented 12% of the asymmetrical sites in S1Bn sequences suggesting that it represents a preferred asymmetrical methylation site. This motif is methylated in S1Bn elements at only half the level observed for the Cp(A/T)pG sites. We show that non-S1Bn CpTpA sites can also be methylated in DNA from B. napus and from other plant species.
DNA甲基化常被认为是一种针对寄生性移动元件的基因组防御系统。为了验证这种可能性,我们使用亚硫酸氢盐修饰法详细分析了一类植物移动元件S1Bn SINEs的甲基化状态。我们观察到S1Bn SINE逆转座子在对称和不对称位置均发生甲基化。甲基化的胞嘧啶不仅限于转录重要区域,而是沿序列广泛分布。S1Bn SINE逆转座子的甲基化程度比甘蓝型油菜核DNA的平均甲基化水平高两倍。通过原位杂交,我们发现这种高水平的甲基化并非源于S1Bn元件与已知高度甲基化的基因组区域的关联,这表明S1Bn元件是特异性甲基化的。对甲基化背景的详细分析表明,对称CpG和CpNpG位点的S1Bn胞嘧啶甲基化水平分别为87%和44%。我们观察到非对称位置的S1Bn胞嘧啶中有5.3%也发生了甲基化。在这种不对称甲基化中,57%发生在一个精确的基序(Cp(A/T)pA)上,该基序仅占S1Bn序列中非对称位点的12%,这表明它是一个优先的不对称甲基化位点。该基序在S1Bn元件中的甲基化水平仅为Cp(A/T)pG位点观察水平的一半。我们表明,非S1Bn的CpTpA位点在甘蓝型油菜和其他植物物种的DNA中也可被甲基化。
