Figures & data
Figure 1. Mutations and their frequency determine the history of individual tumors. (A) Mutations label distinct lineages and as a tumor grows the size of these lineages becomes progressively smaller. Here, with one mutation per division and all cells growing at the same rate, the 2 mutations occurring during the first division are each present in 50% of the population, whereas mutations occurring during the final division are present in 12.5%. (B) When sequencing tumor biopsies we measure the frequency f of mutations in the population. Neutral tumor evolution imprints a characteristic 1/f signature in the distribution of subclonal mutant allele frequencies.
![Figure 1. Mutations and their frequency determine the history of individual tumors. (A) Mutations label distinct lineages and as a tumor grows the size of these lineages becomes progressively smaller. Here, with one mutation per division and all cells growing at the same rate, the 2 mutations occurring during the first division are each present in 50% of the population, whereas mutations occurring during the final division are present in 12.5%. (B) When sequencing tumor biopsies we measure the frequency f of mutations in the population. Neutral tumor evolution imprints a characteristic 1/f signature in the distribution of subclonal mutant allele frequencies.](/cms/asset/2d6a11ee-6eae-484b-a07e-8bb87b9efd00/kmco_a_1162897_f0001_oc.gif)