Erin N. McMurray scite author profile

Erin N. McMurray

5Publications

48Citation Statements Received

238Citation Statements Given

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204

226

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University of Illinois at Chicago

Publications

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Identification of imprinting regulators at the Meg3 differentially methylated region

McMurray

Schmidt

2012

Genomics

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Genomic imprinting at the Delta-like 1 (Dlk1) - Maternally expressed gene 3 (Meg3) locus is regulated by the Meg3 differentially methylated region (DMR), but the mechanism by which this DMR acts is unknown. The goal of this study was to analyze the Meg3 DMR during imprinting establishment and maintenance for the presence of histone modifications and trans-acting DNA binding proteins using chromatin immunoprecipitation. In embryonic stem (ES) cells, where Meg3 is biallelically expressed, the DMR showed variable DNA methylation, with biallelic methylation at one region but paternal allele-specific methylation at another. All histone modifications detected at the Meg3 DMR of ES cells were biallelic. In embryonic day 12.5 (e12.5) embryos, where Meg3 is maternally expressed, the paternal Meg3 DMR was methylated, and activating histone modifications were specific to the maternal DMR. DNA-binding proteins that represent potential regulatory factors were identified in both ES cells and embryos.

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Localizing Transcriptional Regulatory Elements at the Mouse Dlk1 Locus

et al. 2012

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Much effort has focused recently on determining the mechanisms that control the allele-specific expression of genes subject to genomic imprinting, yet imprinting regulation is only one aspect of configuring appropriate expression of these genes. Imprinting control mechanisms must interact with those regulating the tissue-specific expression pattern of each imprinted gene in a cluster. Proper expression of the imprinted Delta-like 1 (Dlk1) - Maternally expressed gene 3 (Meg3) gene pair is required for normal fetal development in mammals, yet the mechanisms that control tissue-specific expression of these genes are unknown. We have used a combination of in vivo and in vitro expression assays to localize cis-regulatory elements that may regulate Dlk1 expression in the mouse embryo. A bacterial artificial chromosome transgene encompassing the Dlk1 gene and 77 kb of flanking sequence conferred expression in most endogenous Dlk1-expressing tissues. In combination with previous transgenic data, these experiments localize the majority of Dlk1 cis-regulatory elements to a 41 kb region upstream of the gene. Cross-species sequence conservation was used to further define potential regulatory elements, several of which functioned as enhancers in a luciferase expression assay. Two of these elements were able to drive expression of a lacZ reporter transgene in Dlk1-expressing tissues in the mouse embryo. The sequence proximal to Dlk1 therefore contains at least two discrete regions that may regulate tissue-specificity of Dlk1 expression.

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Novel imprinted transcripts from theDlk1-Gtl2intergenic region,Mico1andMico1os, show circadian oscillations

Labialle¹,

Croteau²,

McMurray³

et al. 2008

Epigenetics

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Most of the known imprinted genes are assembled into clusters that share common imprinting control regions (ICRs).Non-coding transcripts are often associated with ICRs and implicated in imprinting regulation. We undertook a systematic search for transcripts originating from the Dlk1-Gtl2 intergenic region that contains the ICR for the chromosome 12 imprinted cluster and identified two overlapping transcripts expressed from opposite strands exclusively from the maternal chromosome. These novel imprinted transcripts most likely represent non-coding RNAs and are located telomeric to the IG DMR, extending the proximal boundary of the region of maternal-specific transcription. Their expression is tissue-specific and shows diurnal and circadian oscillations. Therefore, we named these novel transcripts maternal intergenic circadian oscillating 1 (Mico1) and Mico1, opposite strand (Mico1os).

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Imprinting analysis in the Acrodysplasia region of mouse chromosome 12

McMurray

Rogers

Schmidt

2009

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The insertional mouse mutation Adp (Acrodysplasia) confers a parent-of-origin developmental phenotype, with animals inheriting the mutation from their father showing skeletal abnormalities, whereas those inheriting the mutation from their mother are normal. This parental-specific phenotype, along with mapping of the insertion to a region of chromosome 12 proposed to contain imprinted genes, suggested that disruption of genomic imprinting might underlie the Adp phenotype. Genomic imprinting is the process by which autosomal genes are epigenetically silenced on one of the two parental alleles; imprinting mutation phenotypes manifest after inheritance from one parent but not the other. Imprinted genes typically occur in dense clusters that contain few non-imprinted genes and therefore representative genes from the Adp critical region could be assayed to identify any imprinted domains. None of the genes analysed were found to be imprinted, however, suggesting that other explanations for the Adp phenotype must be considered.

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Imprinting analysis in the Acrodysplasia region of mouse chromosome 12

McMurray

Rogers

Schmidt

2009

Developmental Biology

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Erin N. McMurray

Identification of imprinting regulators at the Meg3 differentially methylated region

Localizing Transcriptional Regulatory Elements at the Mouse Dlk1 Locus

Novel imprinted transcripts from theDlk1-Gtl2intergenic region,Mico1andMico1os, show circadian oscillations

Imprinting analysis in the Acrodysplasia region of mouse chromosome 12

Imprinting analysis in the Acrodysplasia region of mouse chromosome 12

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