Role of DNA secondary structures in fragile site breakage along human chromosome 10
Autor: | Levi C. T. Pierce, Laura W. Dillon, Maggie C.Y. Ng, Yuh-Hwa Wang |
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Rok vydání: | 2013 |
Předmět: |
Models
Molecular Aphidicolin Biology Nucleic acid secondary structure chemistry.chemical_compound Neoplasms Genetics Humans Computer Simulation A-DNA DNA Cleavage Molecular Biology Gene Genetics (clinical) Chromosomes Human Pair 10 Chromosome Fragile Sites Chromosomal fragile site Chromosome DNA Articles General Medicine chemistry Chromosome Fragile Site Nucleic Acid Conformation Thermodynamics |
Zdroj: | Human Molecular Genetics. 22:1443-1456 |
ISSN: | 1460-2083 0964-6906 |
DOI: | 10.1093/hmg/dds561 |
Popis: | The formation of alternative DNA secondary structures can result in DNA breakage leading to cancer and other diseases. Chromosomal fragile sites, which are regions of the genome that exhibit chromosomal breakage under conditions of mild replication stress, are predicted to form stable DNA secondary structures. DNA breakage at fragile sites is associated with regions that are deleted, amplified or rearranged in cancer. Despite the correlation, unbiased examination of the ability to form secondary structures has not been evaluated in fragile sites. Here, using the Mfold program, we predict potential DNA secondary structure formation on the human chromosome 10 sequence, and utilize this analysis to compare fragile and non-fragile DNA. We found that aphidicolin (APH)-induced common fragile sites contain more sequence segments with potential high secondary structure-forming ability, and these segments clustered more densely than those in non-fragile DNA. Additionally, using a threshold of secondary structure-forming ability, we refined legitimate fragile sites within the cytogenetically defined boundaries, and identified potential fragile regions within non-fragile DNA. In vitro detection of alternative DNA structure formation and a DNA breakage cell assay were used to validate the computational predictions. Many of the regions identified by our analysis coincide with genes mutated in various diseases and regions of copy number alteration in cancer. This study supports the role of DNA secondary structures in common fragile site instability, provides a systematic method for their identification and suggests a mechanism by which DNA secondary structures can lead to human disease. |
Databáze: | OpenAIRE |
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