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Thermodynamic energetics underlying genomic instability and whole-genome doubling in cancer.


ABSTRACT: Genomic instability contributes to tumorigenesis through the amplification and deletion of cancer driver genes. DNA copy number (CN) profiling of ensembles of tumors allows a thermodynamic analysis of the profile for each tumor. The free energy of the distribution of CNs is found to be a monotonically increasing function of the average chromosomal ploidy. The dependence is universal across several cancer types. Surprisal analysis distinguishes two main known subgroups: tumors with cells that have or have not undergone whole-genome duplication (WGD). The analysis uncovers that CN states having a narrower distribution are energetically more favorable toward the WGD transition. Surprisal analysis also determines the deviations from a fully stable-state distribution. These deviations reflect constraints imposed by tumor fitness selection pressures. The results point to CN changes that are more common in high-ploidy tumors and thus support altered selection pressures upon WGD.

SUBMITTER: Remacle F 

PROVIDER: S-EPMC7414060 | biostudies-literature | 2020 Aug

REPOSITORIES: biostudies-literature

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Thermodynamic energetics underlying genomic instability and whole-genome doubling in cancer.

Remacle Francoise F   Graeber Thomas G TG   Levine R D RD  

Proceedings of the National Academy of Sciences of the United States of America 20200721 31


Genomic instability contributes to tumorigenesis through the amplification and deletion of cancer driver genes. DNA copy number (CN) profiling of ensembles of tumors allows a thermodynamic analysis of the profile for each tumor. The free energy of the distribution of CNs is found to be a monotonically increasing function of the average chromosomal ploidy. The dependence is universal across several cancer types. Surprisal analysis distinguishes two main known subgroups: tumors with cells that hav  ...[more]

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