S1 SINE retroposons are methylated at symmetrical and non-symmetrical positions in Brassica napus: identification of a preferred target site for asymmetrical methylation
C. Goubely et al., S1 SINE retroposons are methylated at symmetrical and non-symmetrical positions in Brassica napus: identification of a preferred target site for asymmetrical methylation, PLANT MOL B, 39(2), 1999, pp. 243-255
DNA methylation has been often proposed to operate as a genome defence syst
em against parasitic mobile elements. To test this possibility, the methyla
tion status of a class of plant mobile elements, the S1(Bn) SINEs, was anal
ysed in detail using the bisulfite modification method. We observed that S1
(Bn) SINE retroposons are methylated at symmetrical and asymmetrical positi
ons. Methylated cytosines are not limited to transcriptionally important re
gions but are well distributed along the sequence. S1(Bn) SINE retroposons
are two-fold more methylated than the average methylation level of the Bras
sica napus nuclear DNA. By in situ hybridization, we showed that this high
level of methylation does not result from the association of S1(Bn) element
s to genomic regions known to be highly methylated suggesting that S1(Bn) e
lements were specifically methylated. A detailed analysis of the methylatio
n context showed that S1(Bn) cytosines in symmetrical CpG and CpNpG sites a
re methylated at a level of 87% and 44% respectively. We observed that 5.3%
of S1(Bn) 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 S1(Bn) sequences sug
gesting that it represents a preferred asymmetrical methylation site. This
motif is methylated in S1(Bn) elements at only half the level observed for
the Cp(A/T)pG sites. We show that non-S1(Bn) CpTpA sites can also be methyl
ated in DNA from B. napus and from other plant species.