Methylation-sensitive binding of transcription factor YY1 to an insulator sequence within the paternally expressed imprinted gene, Peg3

doi:10.1093/hmg/ddg028

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Human Molecular Genetics, 2003, Vol. 12, No. 3 233-245
© 2003 Oxford University Press

Methylation-sensitive binding of transcription factor YY1 to an insulator sequence within the paternally expressed imprinted gene, Peg3

Joomyeong Kim^*, Angela Kollhoff, Anne Bergmann and Lisa Stubbs

Genomics Division, Biology and Biotechnology Research Program, L-441, Lawrence Livermore National Laboratory, 7000 East Avenue, Livermore, CA 94551, USA

Received August 27, 2002; Accepted December 3, 2002

The 5'-ends of two paternally expressed mouse genes, Peg3 andUsp29, are jointly associated with a CpG island that exhibitsallele-specific methylation. Sequence comparison of the regionsderived from human, mouse and cow revealed the presence of twoevolutionarily conserved sequence motifs including one thatis repeated multiple times within the first intron of Peg3 inall three mammals. DNA mobility shift and chromatin immunoprecipitation(ChIP) assays clearly demonstrated that this motif is an invivo binding site for the Gli-type transcription factor YY1.The YY1-binding site contains one CpG dinucleotide, and methylationof this CpG site abolishes the binding activity of YY1 in vitro.The Peg3 YY1-binding sites are methylated only on the maternalchromosome in vivo, and ChIP assays confirmed that YY1 bindsspecifically to the paternal allele of the gene. Promoter, enhancerand insulator assays with deletion constructs of sequence surroundingthe YY1-binding sites indicate that the region functions asa methylation-sensitive insulator that may influence the imprintedexpression of Peg3 and neighboring genes. The current studyis the first report demonstrating the involvement of YY1 inmethylation-sensitive insulator activity and suggests a potentialrole of this highly conserved protein in mammalian genomic imprinting.

^* To whom correspondence should be addressed. Tel: +1 9254243792;Fax: +1 9254222282; Email: kim16{at}llnl.gov

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