Galia Konfortova scite author profile

A characteristic of imprinted genes is that the maternal and paternal alleles show differences in methylation. To perform a genome-wide screen for novel imprinted loci, we applied methylation-sensitive representational difference analysis (Me-RDA) to parthenogenetic mouse embryos, to identify differentially methylated regions (DMRs) methylated specifically on the maternal allele. We isolated a total of 26 distinct clones from known and novel DMRs and identified three novel imprinted genes. Nap1l5 is located on proximal chromosome 6 and encodes a protein with homology with nucleosome assembly proteins (NAPs); it has tissue-specific imprinting with expression from the paternal allele. We identified two DMRs on chromosome 15, a chromosome that was not thought to contain imprinted loci, and demonstrated that each is associated with a paternally expressed transcript. Peg13 gives rise to a noncoding RNA that is highly expressed in the brain and imprinted in all tissues examined. A DMR was also identified at the chromosome 15 Slc38a4 gene, which encodes a system A amino acid transporter; we show that Slc38a4 is imprinted in a tissue-specific manner. Interestingly, two of the three novel genes identified in this screen are located within the introns of other genes; their identification indicates that such "microimprinted" domains may be more common than previously thought.

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Conservation of IGF2-H19 and IGF2R imprinting in sheep: effects of somatic cell nuclear transfer

Young

Schnieke

McCreath

et al. 2003

Mechanisms of Development

111

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In different mammalian species, in vitro culture and manipulation can lead to aberrant fetal and peri-natal development. It has been postulated that these diverse abnormalities are caused by epigenetic alterations and that these could affect genes that are regulated by genomic imprinting. To explore this hypothesis relative to somatic cell nuclear transfer in sheep, we investigated whether the ovine H19-IGF2 and IGF2R loci are imprinted and analysed their DNA methylation status in cloned lambs. A comparison between parthenogenetic and control concepti established that imprinting at these two growth-related loci is evolutionarily conserved in sheep. As in humans and mice, IGF2R and H19 comprise differentially methylated regions (DMRs) that are methylated on one of the two parental alleles predominantly. In tongue tissue from 12 out of 13 cloned lambs analysed, the DMR in the second intron of IGF2R had strongly reduced levels of DNA methylation. The DMR located upstream of the ovine H19 gene was found to be similarly organised as in humans and mice, with multiple CTCF binding sites. At this DMR, however, aberrant methylation was observed in only one of the cloned lambs. Although the underlying mechanisms remain to be determined, our data indicate that somatic cell nuclear transfer procedures can lead to epigenetic deregulation at imprinted loci.

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The mouse Zac1 locus: basis for imprinting and comparison with human ZAC

Smith

Arnaud

Konfortova

et al. 2002

Gene

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Environmental effects on genomic imprinting in mammals

et al. 2001

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A new reciprocal translocation (7q+;15q–) in the domestic pig

Konfortova

Miller²,

Tucker³

1995

Cytogenet Genome Res

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A reciprocal translocation was identified in a phenotypically normal Large White boar. Chromosome preparations from the carrier were studied by flow sorting, chromosome painting and G-banding. The flow karyotype displayed one additional clearly distinguishable peak, while in situ hybridization and G-banding showed two abnormal chromosomes involved in the translocation. All the results suggested that the translocation involved chromosomes 7 and 15 and the karyotype investigated was 38, XY, rcp(7;15)(q24;q12). The parents and three full sibs of the carrier had normal karyotypes. It would seem that the translocation had arisen de novo.

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