A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.

A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.

Imprinted genes undergo epigenetic modifications during gametogenesis, which lead to transcriptional silencing of either the maternally or the paternally derived allele in the subsequent generation. Previous work has suggested an association between imprinting and the products of retrotransposition,...

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Main Authors: Andrew J Wood, Roland G Roberts, David Monk, Gudrun E Moore, Reiner Schulz, Rebecca J Oakey
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2007-02-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC1796624?pdf=render
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spelling doaj-9e4645a22f644ffaa18238795672ef9b2020-11-25T01:22:53ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042007-02-0132e2010.1371/journal.pgen.0030020A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.Andrew J WoodRoland G RobertsDavid MonkGudrun E MooreReiner SchulzRebecca J OakeyImprinted genes undergo epigenetic modifications during gametogenesis, which lead to transcriptional silencing of either the maternally or the paternally derived allele in the subsequent generation. Previous work has suggested an association between imprinting and the products of retrotransposition, but the nature of this link is not well defined. In the mouse, three imprinted genes have been described that originated by retrotransposition and overlap CpG islands which undergo methylation during oogenesis. Nap1l5, U2af1-rs1, and Inpp5f_v2 are likely to encode proteins and share two additional genetic properties: they are located within introns of host transcripts and are derived from parental genes on the X chromosome. Using these sequence features alone, we identified Mcts2, a novel candidate imprinted retrogene on mouse Chromosome 2. Mcts2 has been validated as imprinted by demonstrating that it is paternally expressed and undergoes promoter methylation during oogenesis. The orthologous human retrogenes NAP1L5, INPP5F_V2, and MCTS2 are also shown to be paternally expressed, thus delineating novel imprinted loci on human Chromosomes 4, 10, and 20. The striking correlation between imprinting and X chromosome provenance suggests that retrotransposed elements with homology to the X chromosome can be selectively targeted for methylation during mammalian oogenesis.http://europepmc.org/articles/PMC1796624?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Andrew J Wood
Roland G Roberts
David Monk
Gudrun E Moore
Reiner Schulz
Rebecca J Oakey
spellingShingle Andrew J Wood
Roland G Roberts
David Monk
Gudrun E Moore
Reiner Schulz
Rebecca J Oakey
A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.
PLoS Genetics
author_facet Andrew J Wood
Roland G Roberts
David Monk
Gudrun E Moore
Reiner Schulz
Rebecca J Oakey
author_sort Andrew J Wood
title A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.
title_short A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.
title_full A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.
title_fullStr A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.
title_full_unstemmed A screen for retrotransposed imprinted genes reveals an association between X chromosome homology and maternal germ-line methylation.
title_sort screen for retrotransposed imprinted genes reveals an association between x chromosome homology and maternal germ-line methylation.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2007-02-01
description Imprinted genes undergo epigenetic modifications during gametogenesis, which lead to transcriptional silencing of either the maternally or the paternally derived allele in the subsequent generation. Previous work has suggested an association between imprinting and the products of retrotransposition, but the nature of this link is not well defined. In the mouse, three imprinted genes have been described that originated by retrotransposition and overlap CpG islands which undergo methylation during oogenesis. Nap1l5, U2af1-rs1, and Inpp5f_v2 are likely to encode proteins and share two additional genetic properties: they are located within introns of host transcripts and are derived from parental genes on the X chromosome. Using these sequence features alone, we identified Mcts2, a novel candidate imprinted retrogene on mouse Chromosome 2. Mcts2 has been validated as imprinted by demonstrating that it is paternally expressed and undergoes promoter methylation during oogenesis. The orthologous human retrogenes NAP1L5, INPP5F_V2, and MCTS2 are also shown to be paternally expressed, thus delineating novel imprinted loci on human Chromosomes 4, 10, and 20. The striking correlation between imprinting and X chromosome provenance suggests that retrotransposed elements with homology to the X chromosome can be selectively targeted for methylation during mammalian oogenesis.
url http://europepmc.org/articles/PMC1796624?pdf=render
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