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- Title
Somatic mutation footprinting reveals a unique tetranucleotide signature associated with intron- exon boundaries in lung cancer.
- Authors
Wormald, Samuel; Lerch, Anita; Mouradov, Dmitri; O'Connor, Liam
- Abstract
Cigarette smoke comprises a large number of carcinogenic substances that can increase DNA mutation load in epithelial cells of the mouth, throat and lungs. While a strong C:A substitution preference is abundant in tobacco-related cancer genomes, detection of complex or less abundant somatic mutation signatures may be confounded by the heterogeneity of carcinogens present in smoke. Trinucleotide signatures are defined for a variety of somatic mutation processes, yet the extent to which this configuration optimally defines and discriminates between mutational processes is not clear. Here, we describe a method that determines whether trinucleotide patterns do a good job at encapsulating a mutation signature or whether they mask underlying heterogeneity that alternative pattern structures would better define. The approach works by mapping the dependency of trinucleotide signatures in relation to sequence context to establish a 'footprint' of context dependency. Applying this technique to smoke-associated cancers, we show that a robust tetranucleotide substitution is prevalent in 17% of lung squamous cell carcinoma genomes. The signature is dominated by the substitution CT(C:A)G and is strongly associated with gene expression level and intron-exon junctions. Intriguingly, its distribution across the genome is biased towards 5' splice junctions, suggesting a novel mechanism of mutation.
- Subjects
SMOKING; DNA mutational analysis; EPITHELIAL cells; TRINUCLEOTIDE repeats; SQUAMOUS cell carcinoma
- Publication
Carcinogenesis, 2018, Vol 39, Issue 2, p225
- ISSN
0143-3334
- Publication type
Article
- DOI
10.1093/carcin/bgx133