Whole methylome analysis by ultra-deep sequencing using two-base encoding

Methylation, the addition of methyl groups to cytosine (C), plays an important role in the regulation of gene expression in both normal and dysfunctional cells. During bisulfite conversion and subsequent PCR amplification, unmethylated Cs are converted into thymine (T), while methylated Cs will not...

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Veröffentlicht in:	PloS one 2010-02, Vol.5 (2), p.e9320-e9320
Hauptverfasser:	Bormann Chung, Christina A, Boyd, Victoria L, McKernan, Kevin J, Fu, Yutao, Monighetti, Cinna, Peckham, Heather E, Barker, Melissa
Format:	Artikel
Sprache:	eng
Schlagworte:	Arabidopsis Base Sequence Binding Sites - genetics Biotechnology Bisulfite Conversion Cytosine Deoxyribonucleic acid DNA DNA - chemistry DNA - genetics DNA Methylation DNA sequencing E coli Electrophoresis, Polyacrylamide Gel - methods Escherichia coli Gene expression Gene sequencing Genes Genetics and Genomics/Bioinformatics Genetics and Genomics/Epigenetics Genome, Human - genetics Genomes Genomic Library Genomics Humans Laboratories Methods Methylation Molecular Sequence Data Polymerase Chain Reaction Pyrimidines Quality control Questioning Sequence Analysis, DNA - methods Sequence Homology, Nucleic Acid Sulfites Sulfites - chemistry Thymine
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description	Methylation, the addition of methyl groups to cytosine (C), plays an important role in the regulation of gene expression in both normal and dysfunctional cells. During bisulfite conversion and subsequent PCR amplification, unmethylated Cs are converted into thymine (T), while methylated Cs will not be converted. Sequencing of this bisulfite-treated DNA permits the detection of methylation at specific sites. Through the introduction of next-generation sequencing technologies (NGS) simultaneous analysis of methylation motifs in multiple regions provides the opportunity for hypothesis-free study of the entire methylome. Here we present a whole methylome sequencing study that compares two different bisulfite conversion methods (in solution versus in gel), utilizing the high throughput of the SOLiD System. Advantages and disadvantages of the two different bisulfite conversion methods for constructing sequencing libraries are discussed. Furthermore, the application of the SOLiD bisulfite sequencing to larger and more complex genomes is shown with preliminary in silico created bisulfite converted reads.
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subjects	Arabidopsis Base Sequence Binding Sites - genetics Biotechnology Bisulfite Conversion Cytosine Deoxyribonucleic acid DNA DNA - chemistry DNA - genetics DNA Methylation DNA sequencing E coli Electrophoresis, Polyacrylamide Gel - methods Escherichia coli Gene expression Gene sequencing Genes Genetics and Genomics/Bioinformatics Genetics and Genomics/Epigenetics Genome, Human - genetics Genomes Genomic Library Genomics Humans Laboratories Methods Methylation Molecular Sequence Data Polymerase Chain Reaction Pyrimidines Quality control Questioning Sequence Analysis, DNA - methods Sequence Homology, Nucleic Acid Sulfites Sulfites - chemistry Thymine
title	Whole methylome analysis by ultra-deep sequencing using two-base encoding
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