Tight interaction between densely methylated DNA fragments and the methyl-CpG binding domain of the rat MeCP2 protein attached to a solid support.

In a previous report we have found that a number of short DNA fragments methylated at CpG sequences bound more tightly to a methyl-CpG binding column than DNA fragments having a larger number of methyl-CpG sequences. The column consists of a polypeptide comprising the DNA binding domain of the rat MeCP2 protein attached to a solid support. In the present study, we have investigated the features of short DNA fragments which bind tightly to a methyl-CpG binding column. Tight binding was observed when the DNA fragment had a high density of methyl-CpG sequences. Many of these fragments, derived from human genomic DNA, contained Alu repeated sequences supporting the previous observation that the highly-abundant Alu sequences are highly methylated. Our results suggest that methyl-CpG density is an important factor in the interaction between DNA fragments and the DNA binding domain of MeCP2 attached to a solid support.