TY - JOUR T1 - Mutation-Profile-Based Methods for Understanding Selection Forces in Cancer Somatic Mutations: A Comparative Analysis JF - bioRxiv DO - 10.1101/021147 SP - 021147 AU - Zhan Zhou AU - Yangyun Zou AU - Gangbiao Liu AU - Jingqi Zhou AU - Jingcheng Wu AU - Shimin Zhao AU - Zhixi Su AU - Xun Gu Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/07/10/021147.abstract N2 - Human genes exhibit different effects on fitness in cancer and normal cells. Here, we present an evolutionary approach to measure the selection pressure on human genes, using the well-known ratio of the nonsynonymous to synonymous substitution rate in both cancer genomes (CN/CS) and normal populations (pN/pS). A new mutation-profile-based method that adopts sample-specific mutation rate profiles instead of conventional substitution models was developed. We found that cancer-specific selection pressure is quite different from the selection pressure at the species and population levels. Both the relaxation of purifying selection on passenger mutations and the positive selection of driver mutations may contribute to the increased CN/CS values of human genes in cancer genomes compared with the pN/pS values in human populations. The CN/CS values also contribute to the improved classification of cancer genes and a better understanding of the onco-functionalization of cancer genes during oncogenesis. The use of our computational pipeline to identify cancer-specific positively and negatively selected genes may provide useful information for understanding the evolution of cancers and identifying possible targets for therapeutic intervention. ER -