Large-scale human promoter mapping using CpG islands (original) (raw)

Nature Genetics volume 26, pages 61–63 (2000)Cite this article

Abstract

Vertebrate genomic DNA is generally CpG depleted1,2, possibly because methylation of cytosines at 80% of CpG dinucleotides results in their frequent mutation to thymine, and thus CpG to TpG dinucleotides3. There are, however, genomic regions of high G+C content (CpG islands), where the occurrence of CpGs is significantly higher, close to the expected frequency, whereas the methylation concentration is significantly lower than the overall genome4. CpG islands5 are longer than 200 bp and have over 50% of G+C content and CpG frequency, at least 0.6 of that statistically expected. Approximately 50% of mammalian gene promoters are associated with one or more CpG islands6. Although biologists often intuitively use CpG islands for 5′ gene identification7,8, this has not been rigorously quantified9. We have determined the features that discriminate the promoter-associated and non-associated CpG islands. This led to an effective algorithm for large-scale promoter mapping (with 2-kb resolution) with a concentration of false-positive predictions of promoters much lower than previously obtained. Using this algorithm, we correctly discriminated approximately 85% of the CpG islands within an interval (−500 to +1500) around a transcriptional start site (TSS) from those that lie further away from TSSs. We also correctly mapped approximately 93% of the promoters containing CpG islands.

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Acknowledgements

We thank R. Bari for assistance in sequence annotation; T. Zhang for assistance in testing CpG_promoter; S.H. Cross for discussions; P. Rice and R. Lopez for consultations about the EMBOSS project and CpGPlot program; and J. Locker and S. Emmons for editing of the text. This work was supported by National Institutes of Health Grant HG01696 to M.Q.Z.

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  1. Ilya P. Ioshikhes
    Present address: Albert Einstein College of Medicine of Yeshiva University, Bronx, New York, USA

Authors and Affiliations

  1. Cold Spring Harbor Laboratory, Cold Spring Harbor, New York, USA
    Ilya P. Ioshikhes & Michael Q. Zhang

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  1. Ilya P. Ioshikhes
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  2. Michael Q. Zhang
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Correspondence toMichael Q. Zhang.

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Ioshikhes, I., Zhang, M. Large-scale human promoter mapping using CpG islands.Nat Genet 26, 61–63 (2000). https://doi.org/10.1038/79189

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