Abstract

Epigenetic modifications to DNA and histones mark functionally-important sites in the genome. Assays that identify or 'map' these modifications on a genomewide basis can provide powerful insight into the locations and functions of regulatory elements. However, current epigenomic techniques have limitations, including problems with resolution and an inability to detect allele-specific modifications or repetitive sequences. Bisulphite sequencing is a powerful method for studying DNA methylation, capable of interrogating individual CG dinucleotides. However, this technique does not scale efficiently. Chromatin immunoprecipitation and microarrays can be coupled to achieve global views of histone modifications. However, this technique has suboptimal resolution, is insensitive to repetitive elements and requires large numbers of cells. ? ? This project proposes to leverage emerging high-throughput sequencing technologies to overcome the limitations of current tools for epigenome analysis. Our preliminary data demonstrate the applicability of the 454 and Solexa platforms for interrogating epigenetic modifications at unprecedented scale and throughput. The two specific aims of this application propose to apply these instruments to the challenges of mapping cytosine methylation and histone modifications.
Aim 1 describes two approaches for analyzing cytosine methylation. In the first, reduced-representation libraries, generated by restriction-digests, will be bisulphite converted and shotgun sequenced to 'read' out their methylation status. In the second, hypomethylated CG dinucleotides will be enriched by affinity capture, and shotgun sequenced.
Aim 2 proposes to develop a method that couples chromatin immunoprecipitation and Solexa to map histone modifications genomewide, potentially at higher-resolution, at lower cost, and with lower cell requirements than existing methods. ? ? In summary, the proposed projects will harness powerful sequencing technologies and the expertise of a leading genome center to develop new tools for epigenomic analysis that will facilitate the identification of functional genomic elements. As sequencing technology continues to advance, the insights gained from this project will allow their adoption for epigenomic identification of functional elements. ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Human Genome Research Institute (NHGRI)
Type
Research Project (R01)
Project #
5R01HG004401-02
Application #
7491769
Study Section
Special Emphasis Panel (ZHG1-HGR-M (M1))
Program Officer
Feingold, Elise A
Project Start
2007-09-04
Project End
2010-08-31
Budget Start
2008-09-01
Budget End
2009-08-31
Support Year
2
Fiscal Year
2008
Total Cost
$479,303
Indirect Cost

  Institution

Name
Albert Einstein College of Medicine
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
110521739
City
Bronx
State
NY
Country
United States
Zip Code
10461

  Publications

Suzuki, Masako; Oda, Mayumi; Ramos, Maria-Paz et al. (2011) Late-replicating heterochromatin is characterized by decreased cytosine methylation in the human genome. Genome Res 21:1833-40
Gu, Hongcang; Bock, Christoph; Mikkelsen, Tarjei S et al. (2010) Genome-scale DNA methylation mapping of clinical samples at single-nucleotide resolution. Nat Methods 7:133-6
Einstein, Francine; Thompson, Reid F; Bhagat, Tushar D et al. (2010) Cytosine methylation dysregulation in neonates following intrauterine growth restriction. PLoS One 5:e8887
Thompson, Reid F; Fazzari, Melissa J; Niu, Hongshun et al. (2010) Experimental intrauterine growth restriction induces alterations in DNA methylation and gene expression in pancreatic islets of rats. J Biol Chem 285:15111-8
Goren, Alon; Ozsolak, Fatih; Shoresh, Noam et al. (2010) Chromatin profiling by directly sequencing small quantities of immunoprecipitated DNA. Nat Methods 7:47-9
Adli, Mazhar; Zhu, Jiang; Bernstein, Bradley E (2010) Genome-wide chromatin maps derived from limited numbers of hematopoietic progenitors. Nat Methods 7:615-8
Thompson, Reid F; Atzmon, Gil; Gheorghe, Ciprian et al. (2010) Tissue-specific dysregulation of DNA methylation in aging. Aging Cell 9:506-18
Suzuki, Masako; Greally, John M (2010) DNA methylation profiling using HpaII tiny fragment enrichment by ligation-mediated PCR (HELP). Methods 52:218-22
Suzuki, Masako; Jing, Qiang; Lia, Daniel et al. (2010) Optimized design and data analysis of tag-based cytosine methylation assays. Genome Biol 11:R36
Glass, Jacob L; Fazzari, Melissa J; Ferguson-Smith, Anne C et al. (2009) CG dinucleotide periodicities recognized by the Dnmt3a-Dnmt3L complex are distinctive at retroelements and imprinted domains. Mamm Genome 20:633-43

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