Joint analysis of genomic and transcriptomic data reveals diverse noncoding mutation landscapes in five types of pediatric cancers. Interpreting the function of noncoding mutations in cancer genomes remains a major… Click to show full abstract
Joint analysis of genomic and transcriptomic data reveals diverse noncoding mutation landscapes in five types of pediatric cancers. Interpreting the function of noncoding mutations in cancer genomes remains a major challenge. Here, we developed a computational framework to identify putative causal noncoding mutations of all classes by joint analysis of mutation and gene expression data. We identified thousands of SNVs/small indels and structural variants as putative causal mutations in five major pediatric cancers. We experimentally validated the oncogenic role of CHD4 overexpression via enhancer hijacking in B-ALL. We observed a general exclusivity of coding and noncoding mutations affecting the same genes and pathways. We showed that integrated mutation profiles can help define novel patient subtypes with different clinical outcomes. Our study introduces a general strategy to systematically identify and characterize the full spectrum of noncoding mutations in cancers.
               
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