Cheryl L. Paul scite author profile

The modulation of DNA-protein interactions by methylation of protein-binding sites in DNA and the occurrence in genomic imprinting, X chromosome inactivation, and fragile X syndrome of different methylation patterns in DNA of different chromosomal origin have underlined the need to establish methylation patterns in individual strands of particular genomic sequences. We report a genomic sequencing method that provides positive identification of 5-methylcytosine residues and yields strand-specific sequences of individual molecules in genomic DNA. The method utilizes bisulfiteinduced modification of genomic DNA, under conditions whereby cytosine is converted to uracil, but 5-methylcytosine remains nonreactive. The sequence under investigation is then amplified by PCR with two sets of strand-specific primers to yield a pair of fragments, one from each strand, in which all uracil and thymine residues have been amplified as thymine and only 5-methylcytosine residues have been amplified as cytosine. The PCR products can be sequenced directly to provide a strand-specific average sequence for the population of molecules or can be cloned and sequenced to provide methylation maps of single DNA molecules. We tested the method by derming the methylation status within single DNA strands of two closely spaced CpG dinucleotides in the promoter of the human kininogen gene. During the analysis, we encountered in sperm DNA an unusual methylation pattern, which suggests that the high methylation level of single-copy sequences in sperm may be locally modulated by binding of protein factors in germ-line cells.Cytosine methylation has long been recognized as an important factor in the silencing of genes in mammalian cells. Recent studies have shown that cytosine methylation at single CpG dinucleotides within the recognition sites of a number of transcription factors is sufficient to block binding of the factors to DNA (1-6) and to inhibit transcription (3-5). Therefore, to determine the role of cytosine methylation in specific regulatory mechanisms in vivo, it has become important to know the methylation status of individual CpG dinucleotides in genomic DNA. Genomic sequencing protocols, which have been developed to ascertain the methylation status of selected regions within genes, utilize the Maxam and Gilbert chemical cleavage reactions carried out on genomic DNA (7) with various additional procedures to enhance the signal from the sequence under investigation (8, 9). These protocols are versatile in that they can be adapted for identification of protein-binding sites on genomic DNA in vivo (8, 10) but have two major drawbacks with respect to the identification of 5-methylcytosine residues. First, 5-methylcytosine is identified by the lack of a band in all tracks of a sequencing gel; any background cleavage ladder or close spacing of bands can result in difficulties of interpretation. Second, the sequence obtained represents a population average for many DNA molecules, so that the protocols cannot be adapted for sequencing s...

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High sensitivity mapping of methylated cytosines

Clark

et al. 1994

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An understanding of DNA methylation and its potential role in gene control during development, aging and cancer has been hampered by a lack of sensitive methods which can resolve exact methylation patterns from only small quantities of DNA. We have now developed a genomic sequencing technique which is capable of detecting every methylated cytosine on both strands of any target sequence, using DNA isolated from fewer than 100 cells. In this method, sodium bisulphite is used to convert cytosine residues to uracil residues in single-stranded DNA, under conditions whereby 5-methylcytosine remains non-reactive. The converted DNA is amplified with specific primers and sequenced. All the cytosine residues remaining in the sequence represent previously methylated cytosines in the genome. The work described has defined procedures that maximise the efficiency of denaturation, bisulphite conversion and amplification, to permit methylation mapping of single genes from small amounts of genomic DNA, readily available from germ cells and early developmental stages.

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Detection and measurement of PCR bias in quantitative methylation analysis of bisulphite-treated DNA

Warnecke

Stirzaker

Melki

et al. 1997

Nucleic Acids Research

349

239

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Methylation analysis of individual cytosines in genomic DNA can be determined quantitatively by bisulphite treatment and PCR amplification of the target DNA sequence, followed by restriction enzyme digestion or sequencing. Methylated and unmethylated molecules, however, have different sequences after bisulphite conversion. For some sequences this can result in bias during the PCR amplification leading to an inaccurate estimate of methylation. PCR bias is sequence dependent and often strand-specific. This study presents a simple method for detection and measurement of PCR bias for any set of primers, and investigates parameters for overcoming PCR bias.

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Detailed methylation analysis of the glutathione S-transferase π (GSTP1) gene in prostate cancer

et al. 1999

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Glutathione-S-Transferases (GSTs) comprise a family of isoenzymes that provide protection to mammalian cells against electrophilic metabolites of carcinogens and reactive oxygen species. Previous studies have shown that the CpG-rich promoter region of the p-class gene GSTP1 is methylated at single restriction sites in the majority of prostate cancers. In order to understand the nature of abnormal methylation of the GSTP1 gene in prostate cancer we undertook a detailed analysis of methylation at 131 CpG sites spanning the promoter and body of the gene. Our results show that DNA methylation is not con®ned to speci®c CpG sites in the promoter region of the GSTP1 gene but is extensive throughout the CpG island in prostate cancer cells. Furthermore we found that both alleles are abnormally methylated in this region. In normal prostate tissue, the entire CpG island was unmethylated, but extensive methylation was found outside the island in the body of the gene. Loss of GSTP1 expression correlated with DNA methylation of the CpG island in both prostate cancer cell lines and cancer tissues whereas methylation outside the CpG island in normal prostate tissue appeared to have no e ect on gene expression.

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Sequence relationships of three human satellite DNAs

Prosser

Frommer

Paul

et al. 1986

Journal of Molecular Biology

150

100

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Cheryl L. Paul

A genomic sequencing protocol that yields a positive display of 5-methylcytosine residues in individual DNA strands.

High sensitivity mapping of methylated cytosines

Detection and measurement of PCR bias in quantitative methylation analysis of bisulphite-treated DNA

Detailed methylation analysis of the glutathione S-transferase π (GSTP1) gene in prostate cancer

Sequence relationships of three human satellite DNAs

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