%0 Journal Article %1 herediagenestar2020extreme %A Heredia-Genestar, José María %A Marquès-Bonet, Tomàs %A Juan, David %A Navarro, Arcadi %D 2020 %J Nature Communications %K cancer mutation_motif mutation_spectrum %N 1 %P 2512-- %R 10.1038/s41467-020-16296-4 %T Extreme differences between human germline and tumor mutation densities are driven by ancestral human-specific deviations %U https://doi.org/10.1038/s41467-020-16296-4 %V 11 %X Mutations do not accumulate uniformly across the genome. Human germline and tumor mutation density correlate poorly, and each is associated with different genomic features. Here, we use non-human great ape (NHGA) germlines to determine human germline- and tumor-specific deviations from an ancestral-like great ape genome-wide mutational landscape. Strikingly, we find that the distribution of mutation densities in tumors presents a stronger correlation with NHGA than with human germlines. This effect is driven by human-specific differences in the distribution of mutations at non-CpG sites. We propose that ancestral human demographic events, together with the human-specific mutation slowdown, disrupted the human genome-wide distribution of mutation densities. Tumors partially recover this distribution by accumulating preneoplastic-like somatic mutations. Our results highlight the potential utility of using NHGA population data, rather than human controls, to establish the expected mutational background of healthy somatic cells.

@article{herediagenestar2020extreme, abstract = {Mutations do not accumulate uniformly across the genome. Human germline and tumor mutation density correlate poorly, and each is associated with different genomic features. Here, we use non-human great ape (NHGA) germlines to determine human germline- and tumor-specific deviations from an ancestral-like great ape genome-wide mutational landscape. Strikingly, we find that the distribution of mutation densities in tumors presents a stronger correlation with NHGA than with human germlines. This effect is driven by human-specific differences in the distribution of mutations at non-CpG sites. We propose that ancestral human demographic events, together with the human-specific mutation slowdown, disrupted the human genome-wide distribution of mutation densities. Tumors partially recover this distribution by accumulating preneoplastic-like somatic mutations. Our results highlight the potential utility of using NHGA population data, rather than human controls, to establish the expected mutational background of healthy somatic cells.}, added-at = {2021-05-13T19:57:59.000+0200}, author = {Heredia-Genestar, José María and Marquès-Bonet, Tomàs and Juan, David and Navarro, Arcadi}, biburl = {https://www.bibsonomy.org/bibtex/263ff8d0eff7d784d6acf4630a5f1d45f/peter.ralph}, doi = {10.1038/s41467-020-16296-4}, interhash = {0125a3ed4274de51982be37c45f95787}, intrahash = {63ff8d0eff7d784d6acf4630a5f1d45f}, issn = {20411723}, journal = {Nature Communications}, keywords = {cancer mutation_motif mutation_spectrum}, number = 1, pages = {2512--}, refid = {Heredia-Genestar2020}, timestamp = {2021-05-13T19:57:59.000+0200}, title = {Extreme differences between human germline and tumor mutation densities are driven by ancestral human-specific deviations}, url = {https://doi.org/10.1038/s41467-020-16296-4}, volume = 11, year = 2020 }