Literature DB >> 26890526

DNA methylation variation of human-specific Alu repeats.

Arundhati Bakshi1, Scott W Herke1, Mark A Batzer1, Joomyeong Kim1.   

Abstract

DNA methylation is the major repression mechanism for human retrotransposons, such as the Alu family. Here, we have determined the methylation levels associated with 5238 loci belonging to 2 Alu subfamilies, AluYa5 and AluYb8, using high-throughput targeted repeat element bisulfite sequencing (HT-TREBS). The results indicate that ∼90% of loci are repressed by high methylation levels. Of the remaining loci, many of the hypomethylated elements are found near gene promoters and show high levels of DNA methylation variation. We have characterized this variation in the context of tumorigenesis and interindividual differences. Comparison of a primary breast tumor and its matched normal tissue revealed early DNA methylation changes in ∼1% of AluYb8 elements in response to tumorigenesis. Simultaneously, AluYa5/Yb8 elements proximal to promoters also showed differences in methylation of up to one order of magnitude, even between normal individuals. Overall, the current study demonstrates that early loss of methylation occurs during tumorigenesis in a subset of young Alu elements, suggesting their potential clinical relevance. However, approaches such as deep-bisulfite-sequencing of individual loci using HT-TREBS are required to distinguish clinically relevant loci from the background observed for AluYa5/Yb8 elements in general with regard to high levels of interindividual variation in DNA methylation.

Entities:  

Keywords:  DNA methylation; SINE; epigenetic biomarkers; epigenomes; retrotransposons

Mesh:

Substances:

Year:  2016        PMID: 26890526      PMCID: PMC4846114          DOI: 10.1080/15592294.2015.1130518

Source DB:  PubMed          Journal:  Epigenetics        ISSN: 1559-2294            Impact factor:   4.528


  54 in total

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5.  Human Alu subfamilies and their methylation revealed by blot hybridization.

Authors:  C W Schmid
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3.  Tissue and cancer-specific expression of DIEXF is epigenetically mediated by an Alu repeat.

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5.  Oxidative stress and repetitive element methylation changes in artisanal gold miners occupationally exposed to mercury.

Authors:  Diana M Narváez; Helena Groot; Sonia M Diaz; Ruth Marien Palma; Nathalia Muñoz; Marie-Pierre Cros; Hector Hernández-Vargas
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6.  Comparative whole genome DNA methylation profiling across cattle tissues reveals global and tissue-specific methylation patterns.

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8.  Genome-wide analysis of polymerase III-transcribed Alu elements suggests cell-type-specific enhancer function.

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9.  The Alu neurodegeneration hypothesis: A primate-specific mechanism for neuronal transcription noise, mitochondrial dysfunction, and manifestation of neurodegenerative disease.

Authors:  Peter A Larsen; Michael W Lutz; Kelsie E Hunnicutt; Mirta Mihovilovic; Ann M Saunders; Anne D Yoder; Allen D Roses
Journal:  Alzheimers Dement       Date:  2017-02-24       Impact factor: 21.566

10.  Comparative whole genome DNA methylation profiling of cattle sperm and somatic tissues reveals striking hypomethylated patterns in sperm.

Authors:  Yang Zhou; Erin E Connor; Derek M Bickhart; Congjun Li; Ransom L Baldwin; Steven G Schroeder; Benjamin D Rosen; Liguo Yang; Curtis P Van Tassell; George E Liu
Journal:  Gigascience       Date:  2018-05-01       Impact factor: 6.524
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