2014
DOI: 10.3892/mco.2014.468
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Characterization of regulatory sequences in alternative promoters of hypermethylated genes associated with tumor resistance to cisplatin

Abstract: Abstract. The development of cisplatin resistance in human cancers is controlled by multiple genes and leads to therapeutic failure. Hypermethylation of specific gene promoters is a key event in clinical resistance to cisplatin. Although the usage of multiple promoters is frequent in the transcription of human genes, the role of alternative promoters and their regulatory sequences have not yet been investigated in cisplatin resistance genes. In a new approach, we hypothesized that human cancers exploit the spe… Show more

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“…We also found negative correlations between gene expression levels and DNA methylation within 97% (37/38) of the methylation probes located within CpG islands of gene bodies. These findings suggest that these CpG islands may be acting as alternative promoters since CpG islands are typically located within promoter regions [64, 65]. Transcription at alternative promoters may lead to isoforms that are unique to either an ancestral group or individuals exposed to an environment such as high altitude [66, 67].…”
Section: Discussionmentioning
confidence: 99%
“…We also found negative correlations between gene expression levels and DNA methylation within 97% (37/38) of the methylation probes located within CpG islands of gene bodies. These findings suggest that these CpG islands may be acting as alternative promoters since CpG islands are typically located within promoter regions [64, 65]. Transcription at alternative promoters may lead to isoforms that are unique to either an ancestral group or individuals exposed to an environment such as high altitude [66, 67].…”
Section: Discussionmentioning
confidence: 99%