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Imprinting of Nesp55 gene in cattle 总被引:1,自引:1,他引:0
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Hasan Khatib 《Mammalian genome》2005,16(7):545-552
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Kun Zhang Dongjie Li Mengnan Wang Guojiang Wu Yunjiao Shi Shijie Li 《Animal genetics》2014,45(5):660-664
Meg9/Mirg (maternally expressed gene 9/microRNA containing gene), a non‐coding RNA (ncRNA) comprising many alternatively splicing isoforms, has been identified as maternally expressed in mouse and sheep, but its imprinting status and splicing variants are still unknown in cattle. In this study, we found three splicing variants of the cattle MEG9 gene expressed in a tissue‐specific manner. A single nucleotide polymorphism site (SNP c.1354C>G) was identified in exon 3 of cattle MEG9 and used to distinguish between monoallelic and biallelic expression. Our results showed that MEG9 exhibited monoallelic expression in all examined cattle tissues by comparing sequencing results between genomic DNA and cDNA levels at the c.1354C>G SNP site, suggesting that MEG9 is imprinted in cattle. 相似文献
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PHLDA2 is an imprinted gene in cattle 总被引:1,自引:0,他引:1
Sikora KM Magee DA Berkowicz EW Lonergan P Evans AC Carter F Comte A Waters SM Machugh DE Spillane C 《Animal genetics》2012,43(5):587-590
Genomic imprinting is an epigenetic non-Mendelian phenomenon found predominantly in placental mammals. Imprinted genes display differential expression in the offspring depending on whether the gene is maternally or paternally inherited. Currently, some 100 imprinted genes have been reported in mammals, and while some of these genes are imprinted across most mammalian species, others have been shown to be imprinted in only a few species. The PHLDA2 gene that codes for a pleckstrin homology-like domain, family A (member 2), protein has to date been shown to be a maternally expressed imprinted gene in humans, mice and pigs. Genes subject to imprinting can have major effects on mammalian growth, development and disease. For instance, disruption of imprinted genes can lead to aberrant growth syndromes in cloned domestic mammals, and it has been demonstrated that PHLDA2 mRNA expression levels are aberrant in the placenta of somatic clones of cattle. In this study, we demonstrate that PHLDA2 is expressed across a range of cattle foetal tissues and stages and provide the first evidence that PHLDA2 is a monoallelically expressed imprinted gene in cattle foetal tissues, and also in the bovine placenta. 相似文献
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Yang Y Hu JF Ulaner GA Li T Yao X Vu TH Hoffman AR 《Journal of cellular biochemistry》2003,90(5):1038-1055
The mouse insulin-like growth factor II (Igf2) and H19 genes are located adjacent to each other on chromosome 7q11-13 and are reciprocally imprinted. It is believed that the allelic expression of these two genes is regulated by the binding of CTCF insulators to four parent-specific DNA methylation sites in an imprinting control center (ICR) located between these two genes. Although monoallelically expressed in peripheral tissues, Igf2 is biallelically transcribed in the CNS. In this study, we examined the allelic DNA methylation and CTCF binding in the Igf2/H19 imprinting center in CNS, hypothesizing that the aberrant CTCF binding as one of the mechanisms leads to biallelic expression of Igf2 in CNS. Using hybrid F1 mice (M. spretus males x C57BL/6 females), we showed that in CNS, CTCF binding sites in the ICR were methylated exclusively on the paternal allele, and CTCF bound only to the unmethylated maternal allele, showing no differences from the imprinted peripheral tissues. Among three other epigenetic modifications examined, histone H3 lysine 9 methylation correlated well with Igf2 allelic expression in CNS. These results suggest that CTCF binding to the ICR alone is not sufficient to insulate the Igf2 maternal promoter and to regulate the allelic expression of the gene in the CNS, thus challenging the aberrant CTCF binding as a common mechanism for lack of Igf2 imprinting in CNS. Further studies should be focused on the identification of factors that are involved in histone methylation and CTCF-associated factors that may be needed to coordinate Igf2 imprinting. 相似文献
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A number of genes in the human and mouse genomes are subject to genomic imprinting, with selective inactivation of one allele
of a gene in a parent-of-origin specific manner. One of the first imprinted genes identified was the Insulin-like Growth Factor
2 gene (IGF2), which promotes growth of the fetus and is expressed from only the paternal allele in most tissues in both the mouse and
human. The aim of this study was to establish the imprinting status of IGF2 in sheep (Ovis aries). Sheep provide an interesting model to study imprinting, owing to differences in their placental development and the fact
that they have been subject to strong artificial selection for various production traits. We report the identification of
a length polymorphism in the transcribed 3′-untranslated region of the ovine IGF2 gene. This polymorphism was used to map IGF2 to sheep Chromosome (Chr) 21 and demonstrate that IGF2 is indeed imprinted in sheep, being expressed from the paternal allele. We also report that the developmental switch from
imprinted IGF2 expression in the fetal liver to biallelic IGF2 expression in the adult liver, which occurs in the human but not mouse, also occurs in sheep. Differences in male- and female-specific
recombination values reported around the IGF2 locus in the human were also observed around the ovine IGF2 locus. The techniques developed in this study will enable the imprinting status of IGF2 to be assessed in a variety of tissues and stages of development in normal sheep.
Received: 3 October 1998 / Accepted 29 January 1999 相似文献
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