Affiliation:
1. Department of Biological Sciences
2. Department of Human Genetics
3. Department of Pediatrics, University of Pittsburgh, Pittsburgh, Pennsylvania 15213
Abstract
ABSTRACT
For most imprinted genes, a difference in expression between the maternal and paternal alleles is associated with a corresponding difference in DNA methylation that is localized to a differentially methylated domain (DMD). Removal of a gene's DMD leads to a loss of imprinting. These observations suggest that DMDs have a determinative role in genomic imprinting. To examine this possibility, we introduced sequences from the DMDs of the imprinted
Igf2r
,
H19
, and
Snrpn
genes into a nonimprinted derivative of the normally imprinted
RSVIgmyc
transgene, created by excising its own DMD. Hybrid transgenes with sequences from the
Igf2r
DMD2 were consistently imprinted, with the maternal allele being more methylated than the paternal allele. Only the repeated sequences within DMD2 were required for imprinting these transgenes. Hybrid transgenes containing
H19
and
Snrpn
DMD sequences and ones containing sequences from the long terminal repeat of a murine intracisternal A particle retrotransposon were not imprinted. The
Igf2r
hybrid transgenes are comprised entirely of mouse genomic DNA and behave as endogenous imprinted genes in inbred wild-type and mutant mouse strains. These types of hybrid transgenes can be used to elucidate the functions of DMD sequences in genomic imprinting.
Publisher
American Society for Microbiology
Subject
Cell Biology,Molecular Biology
Cited by
50 articles.
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